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authorCharles Krinke2008-05-31 17:52:44 +0000
committerCharles Krinke2008-05-31 17:52:44 +0000
commit25b7d9944d5875e1887eed156f31dd5779761265 (patch)
tree2c4f6f066ef2b5f60d399ab4862ed7b9dbe0c78f /OpenSim/Region/ScriptEngine
parent* Implements UserServer logoff in a few situations (diff)
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Mantis#1314. Thank you kindly, Kinoc for YieldProlog.
I have added everything *except* the patch to .../LSL/Compiler.cs. The Compiler.cs patch has a namespace issue. Lets make a second patch to close the gap.
Diffstat (limited to 'OpenSim/Region/ScriptEngine')
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/LSL/YP2CSConverter.cs85
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Atom.cs218
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/BagofAnswers.cs234
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/FindallAnswers.cs103
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor.cs188
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor1.cs111
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor2.cs154
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor3.cs133
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/IndexedAnswers.cs288
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/ListPair.cs156
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Parser.cs4457
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/PrologException.cs71
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/README.TXT405
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/UndefinedPredicateException.cs62
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Variable.cs196
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YP.cs1440
-rw-r--r--OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YPCompiler.cs5247
17 files changed, 13548 insertions, 0 deletions
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/LSL/YP2CSConverter.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/LSL/YP2CSConverter.cs
new file mode 100644
index 0000000..3766246
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/LSL/YP2CSConverter.cs
@@ -0,0 +1,85 @@
1?using System;
2using System.IO;
3using System.Collections.Generic;
4using System.Text;
5using System.Text.RegularExpressions;
6using OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog;
7
8namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.LSL
9{
10 public class YP2CSConverter
11 {
12 public YP2CSConverter()
13 {
14 }
15
16 public string Convert(string Script)
17 {
18 string CS_code = GenCode(Script);
19 return CS_code;
20 }
21
22
23 static string GenCode(string myCode)
24 {
25 Variable TermList = new Variable();
26 Variable FunctionCode = new Variable();
27
28 string CS_code = "";
29
30 int cs_pointer = myCode.IndexOf("\n//cs");
31 if (cs_pointer > 0)
32 {
33 CS_code = myCode.Substring(cs_pointer); // CS code comes after
34 myCode = myCode.Substring(0, cs_pointer);
35 }
36 myCode.Replace("//yp", "%YPCode");
37
38
39 StringWriter myCS_SW = new StringWriter();
40 StringReader myCode_SR = new StringReader(" yp_nop_header_nop. \n "+myCode + "\n");
41
42 YP.see(myCode_SR);
43 YP.tell(myCS_SW);
44
45 //Console.WriteLine("Mycode\n ===================================\n" + myCode+"\n");
46 foreach (bool l1 in Parser.parseInput(TermList))
47 {
48 foreach (bool l2 in YPCompiler.makeFunctionPseudoCode(TermList, FunctionCode))
49 {
50 ListPair VFC = new ListPair(FunctionCode, new Variable());
51 //Console.WriteLine("-------------------------")
52 //Console.WriteLine( FunctionCode.ToString())
53 //Console.WriteLine("-------------------------")
54 YPCompiler.convertFunctionCSharp(FunctionCode);
55 //YPCompiler.convertStringCodesCSharp(VFC);
56
57 }
58 }
59 YP.seen();
60 myCS_SW.Close();
61 YP.told();
62 StringBuilder bu = myCS_SW.GetStringBuilder();
63 string finalcode = "//YPEncoded\n" + bu.ToString();
64 // FIX script events (we're in the same script)
65 // 'YP.script_event(Atom.a(@"sayit"),' ==> 'sayit('
66 finalcode = Regex.Replace(finalcode,
67 @"YP.script_event\(Atom.a\(\@\""(.*?)""\)\,",
68 @"this.$1(",
69 RegexOptions.Compiled | RegexOptions.Singleline);
70 finalcode = Regex.Replace(finalcode,
71 @" static ",
72 @" ",
73 RegexOptions.Compiled | RegexOptions.Singleline);
74
75 finalcode = CS_code+"\n\r"+ finalcode;
76 finalcode = Regex.Replace(finalcode,
77 @"PrologCallback",
78 @"public IEnumerable<bool> ",
79 RegexOptions.Compiled | RegexOptions.Singleline);
80 return finalcode;
81 }
82
83
84 }
85}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Atom.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Atom.cs
new file mode 100644
index 0000000..9b4ca6a
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Atom.cs
@@ -0,0 +1,218 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33using System.Text;
34
35namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
36{
37 public class Atom : IUnifiable
38 {
39 private static Dictionary<string, Atom> _atomStore = new Dictionary<string, Atom>();
40 public readonly string _name;
41 public readonly Atom _module;
42
43 /// <summary>
44 /// You should not call this constructor, but use Atom.a instead.
45 /// </summary>
46 /// <param name="name"></param>
47 /// <param name="module"></param>
48 private Atom(string name, Atom module)
49 {
50 _name = name;
51 _module = module;
52 }
53
54 /// <summary>
55 /// Return the unique Atom object for name where module is null. You should use this to create
56 /// an Atom instead of calling the Atom constructor.
57 /// </summary>
58 /// <param name="name"></param>
59 /// <returns></returns>
60 public static Atom a(string name)
61 {
62 Atom atom;
63 if (!_atomStore.TryGetValue(name, out atom))
64 {
65 atom = new Atom(name, null);
66 _atomStore[name] = atom;
67 }
68 return atom;
69 }
70
71 /// <summary>
72 /// Return an Atom object with the name and module. If module is null or Atom.NIL,
73 /// this behaves like Atom.a(name) and returns the unique object where the module is null.
74 /// If module is not null or Atom.NIL, this may or may not be the same object as another Atom
75 /// with the same name and module.
76 /// </summary>
77 /// <param name="name"></param>
78 /// <param name="module"></param>
79 /// <returns></returns>
80 public static Atom a(string name, Atom module)
81 {
82 if (module == null || module == Atom.NIL)
83 return a(name);
84 return new Atom(name, module);
85 }
86
87 /// <summary>
88 /// If Obj is an Atom unify its _module with Module. If the Atom's _module is null, use Atom.NIL.
89 /// </summary>
90 /// <param name="Atom"></param>
91 /// <param name="Module"></param>
92 /// <returns></returns>
93 public static IEnumerable<bool> module(object Obj, object Module)
94 {
95 Obj = YP.getValue(Obj);
96 if (Obj is Atom)
97 {
98 if (((Atom)Obj)._module == null)
99 return YP.unify(Module, Atom.NIL);
100 else
101 return YP.unify(Module, ((Atom)Obj)._module);
102 }
103 return YP.fail();
104 }
105
106 public static readonly Atom NIL = Atom.a("[]");
107 public static readonly Atom DOT = Atom.a(".");
108 public static readonly Atom F = Atom.a("f");
109 public static readonly Atom SLASH = Atom.a("/");
110 public static readonly Atom HAT = Atom.a("^");
111 public static readonly Atom RULE = Atom.a(":-");
112
113 public IEnumerable<bool> unify(object arg)
114 {
115 arg = YP.getValue(arg);
116 if (arg is Atom)
117 return Equals(arg) ? YP.succeed() : YP.fail();
118 else if (arg is Variable)
119 return ((Variable)arg).unify(this);
120 else
121 return YP.fail();
122 }
123
124 public void addUniqueVariables(List<Variable> variableSet)
125 {
126 // Atom does not contain variables.
127 }
128
129 public object makeCopy(Variable.CopyStore copyStore)
130 {
131 // Atom does not contain variables that need to be copied.
132 return this;
133 }
134
135 public bool termEqual(object term)
136 {
137 return Equals(YP.getValue(term));
138 }
139
140 public bool ground()
141 {
142 // Atom is always ground.
143 return true;
144 }
145
146 public override bool Equals(object obj)
147 {
148 if (obj is Atom)
149 {
150 if (_module == null && ((Atom)obj)._module == null)
151 // When _declaringClass is null, we always use an identical object from _atomStore.
152 return this == obj;
153 // Otherwise, ignore _declaringClass and do a normal string compare on the _name.
154 return _name == ((Atom)obj)._name;
155 }
156 return false;
157 }
158
159 public override string ToString()
160 {
161 return _name;
162 }
163
164 public override int GetHashCode()
165 {
166 // Debug: need to check _declaringClass.
167 return _name.GetHashCode();
168 }
169
170 public string toQuotedString()
171 {
172 if (_name.Length == 0)
173 return "''";
174 else if (this == Atom.NIL)
175 return "[]";
176
177 StringBuilder result = new StringBuilder(_name.Length);
178 bool useQuotes = false;
179 foreach (char c in _name)
180 {
181 int cInt = (int)c;
182 if (c == '\'')
183 {
184 result.Append("''");
185 useQuotes = true;
186 }
187 else if (c == '_' || cInt >= (int)'a' && cInt <= (int)'z' ||
188 cInt >= (int)'A' && cInt <= (int)'Z' || cInt >= (int)'0' && cInt <= (int)'9')
189 result.Append(c);
190 else
191 {
192 // Debug: Need to handle non-printable chars.
193 result.Append(c);
194 useQuotes = true;
195 }
196 }
197
198 if (!useQuotes && (int)_name[0] >= (int)'a' && (int)_name[0] <= (int)'z')
199 return result.ToString();
200 else
201 {
202 // Surround in single quotes.
203 result.Append('\'');
204 return "'" + result;
205 }
206 }
207
208 /// <summary>
209 /// Return true if _name is lexicographically less than atom._name.
210 /// </summary>
211 /// <param name="atom"></param>
212 /// <returns></returns>
213 public bool lessThan(Atom atom)
214 {
215 return _name.CompareTo(atom._name) < 0;
216 }
217 }
218}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/BagofAnswers.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/BagofAnswers.cs
new file mode 100644
index 0000000..6aea6f7
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/BagofAnswers.cs
@@ -0,0 +1,234 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections;
33using System.Collections.Generic;
34
35namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
36{
37 /// <summary>
38 /// A BagofAnswers holds answers for bagof and setof.
39 /// </summary>
40 public class BagofAnswers
41 {
42 private object _template;
43 private Variable[] _freeVariables;
44 private Dictionary<object[], List<object>> _bagForFreeVariables;
45 private List<object> _findallBagArray;
46 private static TermArrayEqualityComparer _termArrayEqualityComparer =
47 new TermArrayEqualityComparer();
48
49 /// <summary>
50 /// To get the free variables, split off any existential qualifiers from Goal such as the X in
51 /// "X ^ f(Y)", get the set of unbound variables in Goal that are not qualifiers, then remove
52 /// the unbound variables that are qualifiers as well as the unbound variables in Template.
53 /// </summary>
54 /// <param name="Template"></param>
55 /// <param name="Goal"></param>
56 public BagofAnswers(object Template, object Goal)
57 {
58 _template = Template;
59
60 // First get the set of variables that are not free variables.
61 List<Variable> variableSet = new List<Variable>();
62 YP.addUniqueVariables(Template, variableSet);
63 object UnqualifiedGoal = YP.getValue(Goal);
64 while (UnqualifiedGoal is Functor2 && ((Functor2)UnqualifiedGoal)._name == Atom.HAT)
65 {
66 YP.addUniqueVariables(((Functor2)UnqualifiedGoal)._arg1, variableSet);
67 UnqualifiedGoal = YP.getValue(((Functor2)UnqualifiedGoal)._arg2);
68 }
69
70 // Remember how many non-free variables there are so we can find the unique free variables
71 // that are added.
72 int nNonFreeVariables = variableSet.Count;
73 YP.addUniqueVariables(UnqualifiedGoal, variableSet);
74 int nFreeVariables = variableSet.Count - nNonFreeVariables;
75 if (nFreeVariables == 0)
76 {
77 // There were no free variables added, so we won't waste time with _bagForFreeVariables.
78 _freeVariables = null;
79 _findallBagArray = new List<object>();
80 }
81 else
82 {
83 // Copy the free variables.
84 _freeVariables = new Variable[nFreeVariables];
85 for (int i = 0; i < nFreeVariables; ++i)
86 _freeVariables[i] = variableSet[i + nNonFreeVariables];
87
88 _bagForFreeVariables = new Dictionary<object[], List<object>>(_termArrayEqualityComparer);
89 }
90 }
91
92 public void add()
93 {
94 if (_freeVariables == null)
95 // The goal has bound the values in _template but we don't bother with _freeVariables.
96 _findallBagArray.Add(YP.makeCopy(_template, new Variable.CopyStore()));
97 else
98 {
99 // The goal has bound the values in _template and _freeVariables.
100 // Find the entry for this set of _freeVariables values.
101 object[] freeVariableValues = new object[_freeVariables.Length];
102 for (int i = 0; i < _freeVariables.Length; ++i)
103 freeVariableValues[i] = YP.getValue(_freeVariables[i]);
104 List<object> bagArray;
105 if (!_bagForFreeVariables.TryGetValue(freeVariableValues, out bagArray))
106 {
107 bagArray = new List<object>();
108 _bagForFreeVariables[freeVariableValues] = bagArray;
109 }
110
111 // Now copy the template and add to the bag for the freeVariables values.
112 bagArray.Add(YP.makeCopy(_template, new Variable.CopyStore()));
113 }
114 }
115
116 /// <summary>
117 /// For each result, unify the _freeVariables and unify bagArrayVariable with the associated bag.
118 /// </summary>
119 /// <param name="bagArrayVariable">this is unified with the List<object> of matches for template that
120 /// corresponds to the bindings for freeVariables. Be very careful: this does not unify with a Prolog
121 /// list.</param>
122 /// <returns></returns>
123 public IEnumerable<bool> resultArray(Variable bagArrayVariable)
124 {
125 if (_freeVariables == null)
126 {
127 // No unbound free variables, so we only filled one bag. If empty, bagof fails.
128 if (_findallBagArray.Count > 0)
129 {
130 foreach (bool l1 in bagArrayVariable.unify(_findallBagArray))
131 yield return false;
132 }
133 }
134 else
135 {
136 foreach (KeyValuePair<object[], List<object>> valuesAndBag in _bagForFreeVariables)
137 {
138 foreach (bool l1 in YP.unifyArrays(_freeVariables, valuesAndBag.Key))
139 {
140 foreach (bool l2 in bagArrayVariable.unify(valuesAndBag.Value))
141 yield return false;
142 }
143 // Debug: Should we free memory of the answers already returned?
144 }
145 }
146 }
147
148 /// <summary>
149 /// For each result, unify the _freeVariables and unify Bag with the associated bag.
150 /// </summary>
151 /// <param name="Bag"></param>
152 /// <returns></returns>
153 public IEnumerable<bool> result(object Bag)
154 {
155 Variable bagArrayVariable = new Variable();
156 foreach (bool l1 in resultArray(bagArrayVariable))
157 {
158 foreach (bool l2 in YP.unify(Bag, ListPair.make((List<object>)bagArrayVariable.getValue())))
159 yield return false;
160 }
161 }
162
163 /// <summary>
164 /// For each result, unify the _freeVariables and unify Bag with the associated bag which is sorted
165 /// with duplicates removed, as in setof.
166 /// </summary>
167 /// <param name="Bag"></param>
168 /// <returns></returns>
169 public IEnumerable<bool> resultSet(object Bag)
170 {
171 Variable bagArrayVariable = new Variable();
172 foreach (bool l1 in resultArray(bagArrayVariable))
173 {
174 List<object> bagArray = (List<object>)bagArrayVariable.getValue();
175 YP.sortArray(bagArray);
176 foreach (bool l2 in YP.unify(Bag, ListPair.makeWithoutRepeatedTerms(bagArray)))
177 yield return false;
178 }
179 }
180
181 public static IEnumerable<bool> bagofArray
182 (object Template, object Goal, IEnumerable<bool> goalIterator, Variable bagArrayVariable)
183 {
184 BagofAnswers bagOfAnswers = new BagofAnswers(Template, Goal);
185 foreach (bool l1 in goalIterator)
186 bagOfAnswers.add();
187 return bagOfAnswers.resultArray(bagArrayVariable);
188 }
189
190 public static IEnumerable<bool> bagof
191 (object Template, object Goal, IEnumerable<bool> goalIterator, object Bag)
192 {
193 BagofAnswers bagOfAnswers = new BagofAnswers(Template, Goal);
194 foreach (bool l1 in goalIterator)
195 bagOfAnswers.add();
196 return bagOfAnswers.result(Bag);
197 }
198
199 public static IEnumerable<bool> setof
200 (object Template, object Goal, IEnumerable<bool> goalIterator, object Bag)
201 {
202 BagofAnswers bagOfAnswers = new BagofAnswers(Template, Goal);
203 foreach (bool l1 in goalIterator)
204 bagOfAnswers.add();
205 return bagOfAnswers.resultSet(Bag);
206 }
207
208 /// <summary>
209 /// A TermArrayEqualityComparer implements IEqualityComparer to compare two object arrays using YP.termEqual.
210 /// </summary>
211 private class TermArrayEqualityComparer : IEqualityComparer<object[]>
212 {
213 public bool Equals(object[] array1, object[] array2)
214 {
215 if (array1.Length != array2.Length)
216 return false;
217 for (int i = 0; i < array1.Length; ++i)
218 {
219 if (!YP.termEqual(array1[i], array2[i]))
220 return false;
221 }
222 return true;
223 }
224
225 public int GetHashCode(object[] array)
226 {
227 int hashCode = 0;
228 for (int i = 0; i < array.Length; ++i)
229 hashCode ^= array[i].GetHashCode();
230 return hashCode;
231 }
232 }
233 }
234}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/FindallAnswers.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/FindallAnswers.cs
new file mode 100644
index 0000000..2978cee
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/FindallAnswers.cs
@@ -0,0 +1,103 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections;
33using System.Collections.Generic;
34
35namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
36{
37 /// <summary>
38 /// A FindallAnswers holds answers for findall.
39 /// </summary>
40 public class FindallAnswers
41 {
42 private object _template;
43 private List<object> _bagArray;
44
45 public FindallAnswers(object Template)
46 {
47 _template = Template;
48 _bagArray = new List<object>();
49 }
50
51 public void add()
52 {
53 _bagArray.Add(YP.makeCopy(_template, new Variable.CopyStore()));
54 }
55
56 public List<object> resultArray()
57 {
58 return _bagArray;
59 }
60
61 /// <summary>
62 /// Unify Bag with the result. This frees the internal answers, so you can only call this once.
63 /// </summary>
64 /// <param name="Bag"></param>
65 /// <returns></returns>
66 public IEnumerable<bool> result(object Bag)
67 {
68 object result = ListPair.make(_bagArray);
69 // Try to free the memory.
70 _bagArray = null;
71 return YP.unify(Bag, result);
72 }
73
74 /// <summary>
75 /// This is a simplified findall when the goal is a single call.
76 /// </summary>
77 /// <param name="Template"></param>
78 /// <param name="goal"></param>
79 /// <param name="Bag"></param>
80 /// <returns></returns>
81 public static IEnumerable<bool> findall(object Template, IEnumerable<bool> goal, object Bag)
82 {
83 FindallAnswers findallAnswers = new FindallAnswers(Template);
84 foreach (bool l1 in goal)
85 findallAnswers.add();
86 return findallAnswers.result(Bag);
87 }
88
89 /// <summary>
90 /// Like findall, except return an array of the results.
91 /// </summary>
92 /// <param name="template"></param>
93 /// <param name="goal"></param>
94 /// <returns></returns>
95 public static List<object> findallArray(object Template, IEnumerable<bool> goal)
96 {
97 FindallAnswers findallAnswers = new FindallAnswers(Template);
98 foreach (bool l1 in goal)
99 findallAnswers.add();
100 return findallAnswers.resultArray();
101 }
102 }
103}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor.cs
new file mode 100644
index 0000000..3ba1021
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor.cs
@@ -0,0 +1,188 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33
34namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
35{
36 public class Functor : IUnifiable
37 {
38 public readonly Atom _name;
39 public readonly object[] _args;
40
41 public Functor(Atom name, object[] args)
42 {
43 if (args.Length <= 3)
44 {
45 if (args.Length == 0)
46 throw new Exception("For arity 0 functor, just use name as an Atom");
47 else if (args.Length == 1)
48 throw new Exception("For arity 1 functor, use Functor1");
49 else if (args.Length == 2)
50 throw new Exception("For arity 2 functor, use Functor2");
51 else if (args.Length == 3)
52 throw new Exception("For arity 3 functor, use Functor3");
53 else
54 // (This shouldn't happen, but include it for completeness.
55 throw new Exception("Cannot create a Functor of arity " + args.Length);
56 }
57
58 _name = name;
59 _args = args;
60 }
61
62 public Functor(string name, object[] args)
63 : this(Atom.a(name), args)
64 {
65 }
66
67 /// <summary>
68 /// Return an Atom, Functor1, Functor2, Functor3 or Functor depending on the
69 /// length of args.
70 /// Note that this is different than the Functor constructor which requires
71 /// the length of args to be greater than 3.
72 /// </summary>
73 /// <param name="name"></param>
74 /// <param name="args"></param>
75 /// <returns></returns>
76 public static object make(Atom name, object[] args)
77 {
78 if (args.Length <= 0)
79 return name;
80 else if (args.Length == 1)
81 return new Functor1(name, args[0]);
82 else if (args.Length == 2)
83 return new Functor2(name, args[0], args[1]);
84 else if (args.Length == 3)
85 return new Functor3(name, args[0], args[1], args[2]);
86 else
87 return new Functor(name, args);
88 }
89
90 /// <summary>
91 /// Call the main make, first converting name to an Atom.
92 /// </summary>
93 /// <param name="name"></param>
94 /// <param name="args"></param>
95 /// <returns></returns>
96 public static object make(string name, object[] args)
97 {
98 return make(Atom.a(name), args);
99 }
100
101 public IEnumerable<bool> unify(object arg)
102 {
103 arg = YP.getValue(arg);
104 if (arg is Functor)
105 {
106 Functor argFunctor = (Functor)arg;
107 if (_name.Equals(argFunctor._name))
108 return YP.unifyArrays(_args, argFunctor._args);
109 else
110 return YP.fail();
111 }
112 else if (arg is Variable)
113 return ((Variable)arg).unify(this);
114 else
115 return YP.fail();
116 }
117
118 public override string ToString()
119 {
120 string result = _name + "(" + YP.getValue(_args[0]);
121 for (int i = 1; i < _args.Length; ++i)
122 result += ", " + YP.getValue(_args[i]);
123 result += ")";
124 return result;
125 }
126
127 public bool termEqual(object term)
128 {
129 term = YP.getValue(term);
130 if (term is Functor)
131 {
132 Functor termFunctor = (Functor)term;
133 if (_name.Equals(termFunctor._name) && _args.Length == termFunctor._args.Length)
134 {
135 for (int i = 0; i < _args.Length; ++i)
136 {
137 if (!YP.termEqual(_args[i], termFunctor._args[i]))
138 return false;
139 }
140 return true;
141 }
142 }
143 return false;
144 }
145
146 public bool lessThan(Functor functor)
147 {
148 // Do the equal check first since it is faster.
149 if (!_name.Equals(functor._name))
150 return _name.lessThan(functor._name);
151
152 if (_args.Length != functor._args.Length)
153 return _args.Length < functor._args.Length;
154
155 for (int i = 0; i < _args.Length; ++i)
156 {
157 if (!YP.termEqual(_args[i], functor._args[i]))
158 return YP.termLessThan(_args[i], functor._args[i]);
159 }
160
161 return false;
162 }
163
164 public bool ground()
165 {
166 for (int i = 0; i < _args.Length; ++i)
167 {
168 if (!YP.ground(_args[i]))
169 return false;
170 }
171 return true;
172 }
173
174 public void addUniqueVariables(List<Variable> variableSet)
175 {
176 for (int i = 0; i < _args.Length; ++i)
177 YP.addUniqueVariables(_args[i], variableSet);
178 }
179
180 public object makeCopy(Variable.CopyStore copyStore)
181 {
182 object[] argsCopy = new object[_args.Length];
183 for (int i = 0; i < _args.Length; ++i)
184 argsCopy[i] = YP.makeCopy(_args[i], copyStore);
185 return new Functor(_name, argsCopy);
186 }
187 }
188}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor1.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor1.cs
new file mode 100644
index 0000000..33e2a32
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor1.cs
@@ -0,0 +1,111 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33
34namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
35{
36 public class Functor1 : IUnifiable
37 {
38 public readonly Atom _name;
39 public readonly object _arg1;
40
41 public Functor1(Atom name, object arg1)
42 {
43 _name = name;
44 _arg1 = arg1;
45 }
46
47 public Functor1(string name, object arg1)
48 : this(Atom.a(name), arg1)
49 {
50 }
51
52 public IEnumerable<bool> unify(object arg)
53 {
54 arg = YP.getValue(arg);
55 if (arg is Functor1)
56 {
57 Functor1 argFunctor = (Functor1)arg;
58 if (_name.Equals(argFunctor._name))
59 {
60 foreach (bool l1 in YP.unify(_arg1, argFunctor._arg1))
61 yield return false;
62 }
63 }
64 else if (arg is Variable)
65 {
66 foreach (bool l1 in ((Variable)arg).unify(this))
67 yield return false;
68 }
69 }
70
71 public override string ToString()
72 {
73 return _name + "(" + YP.getValue(_arg1) + ")";
74 }
75
76 public bool termEqual(object term)
77 {
78 term = YP.getValue(term);
79 if (term is Functor1)
80 {
81 Functor1 termFunctor = (Functor1)term;
82 return _name.Equals(termFunctor._name) && YP.termEqual(_arg1, termFunctor._arg1);
83 }
84 return false;
85 }
86
87 public bool lessThan(Functor1 functor)
88 {
89 // Do the equal check first since it is faster.
90 if (!_name.Equals(functor._name))
91 return _name.lessThan(functor._name);
92
93 return YP.termLessThan(_arg1, functor._arg1);
94 }
95
96 public bool ground()
97 {
98 return YP.ground(_arg1);
99 }
100
101 public void addUniqueVariables(List<Variable> variableSet)
102 {
103 YP.addUniqueVariables(_arg1, variableSet);
104 }
105
106 public object makeCopy(Variable.CopyStore copyStore)
107 {
108 return new Functor1(_name, YP.makeCopy(_arg1, copyStore));
109 }
110 }
111}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor2.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor2.cs
new file mode 100644
index 0000000..87c5f1b
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor2.cs
@@ -0,0 +1,154 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33
34namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
35{
36 public class Functor2 : IUnifiable
37 {
38 public readonly Atom _name;
39 public readonly object _arg1;
40 public readonly object _arg2;
41
42 public Functor2(Atom name, object arg1, object arg2)
43 {
44 _name = name;
45 _arg1 = arg1;
46 _arg2 = arg2;
47 }
48
49 public Functor2(string name, object arg1, object arg2)
50 : this(Atom.a(name), arg1, arg2)
51 {
52 }
53
54 public IEnumerable<bool> unify(object arg)
55 {
56 arg = YP.getValue(arg);
57 if (arg is Functor2)
58 {
59 Functor2 argFunctor = (Functor2)arg;
60 if (_name.Equals(argFunctor._name))
61 {
62 foreach (bool l1 in YP.unify(_arg1, argFunctor._arg1))
63 {
64 foreach (bool l2 in YP.unify(_arg2, argFunctor._arg2))
65 yield return false;
66 }
67 }
68 }
69 else if (arg is Variable)
70 {
71 foreach (bool l1 in ((Variable)arg).unify(this))
72 yield return false;
73 }
74 }
75
76 public override string ToString()
77 {
78 if (_name == Atom.DOT)
79 return listPairToString(this);
80 else
81 return _name + "(" + YP.getValue(_arg1) + ", " + YP.getValue(_arg2) + ")";
82 }
83
84 public bool termEqual(object term)
85 {
86 term = YP.getValue(term);
87 if (term is Functor2)
88 {
89 Functor2 termFunctor = (Functor2)term;
90 return _name.Equals(termFunctor._name) && YP.termEqual(_arg1, termFunctor._arg1)
91 && YP.termEqual(_arg2, termFunctor._arg2);
92 }
93 return false;
94 }
95
96 public bool lessThan(Functor2 functor)
97 {
98 // Do the equal check first since it is faster.
99 if (!_name.Equals(functor._name))
100 return _name.lessThan(functor._name);
101
102 if (!YP.termEqual(_arg1, functor._arg1))
103 return YP.termLessThan(_arg1, functor._arg1);
104
105 return YP.termLessThan(_arg2, functor._arg2);
106 }
107
108 public bool ground()
109 {
110 return YP.ground(_arg1) && YP.ground(_arg2);
111 }
112
113 public void addUniqueVariables(List<Variable> variableSet)
114 {
115 YP.addUniqueVariables(_arg1, variableSet);
116 YP.addUniqueVariables(_arg2, variableSet);
117 }
118
119 public object makeCopy(Variable.CopyStore copyStore)
120 {
121 return new Functor2(_name, YP.makeCopy(_arg1, copyStore),
122 YP.makeCopy(_arg2, copyStore));
123 }
124
125 private static string listPairToString(Functor2 listPair)
126 {
127 string result = "[";
128 while (true)
129 {
130 object head = YP.getValue(listPair._arg1);
131 object tail = YP.getValue(listPair._arg2);
132 if (tail == (object)Atom.NIL)
133 {
134 result += head;
135 break;
136 }
137 else if (tail is Functor2 && ((Functor2)tail)._name == Atom.DOT)
138 {
139 result += head + ", ";
140 listPair = (Functor2)tail;
141 // Loop again.
142 }
143 else
144 {
145 // The list is not terminated with NIL.
146 result += head + "|" + tail;
147 break;
148 }
149 }
150 result += "]";
151 return result;
152 }
153 }
154}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor3.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor3.cs
new file mode 100644
index 0000000..74418c4
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Functor3.cs
@@ -0,0 +1,133 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33
34namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
35{
36 public class Functor3 : IUnifiable
37 {
38 public readonly Atom _name;
39 public readonly object _arg1;
40 public readonly object _arg2;
41 public readonly object _arg3;
42
43 public Functor3(Atom name, object arg1, object arg2, object arg3)
44 {
45 _name = name;
46 _arg1 = arg1;
47 _arg2 = arg2;
48 _arg3 = arg3;
49 }
50
51 public Functor3(string name, object arg1, object arg2, object arg3)
52 : this(Atom.a(name), arg1, arg2, arg3)
53 {
54 }
55
56 public IEnumerable<bool> unify(object arg)
57 {
58 arg = YP.getValue(arg);
59 if (arg is Functor3)
60 {
61 Functor3 argFunctor = (Functor3)arg;
62 if (_name.Equals(argFunctor._name))
63 {
64 foreach (bool l1 in YP.unify(_arg1, argFunctor._arg1))
65 {
66 foreach (bool l2 in YP.unify(_arg2, argFunctor._arg2))
67 {
68 foreach (bool l3 in YP.unify(_arg3, argFunctor._arg3))
69 yield return false;
70 }
71 }
72 }
73 }
74 else if (arg is Variable)
75 {
76 foreach (bool l1 in ((Variable)arg).unify(this))
77 yield return false;
78 }
79 }
80
81 public override string ToString()
82 {
83 return _name + "(" + YP.getValue(_arg1) + ", " + YP.getValue(_arg2) + ", " +
84 YP.getValue(_arg3) + ")";
85 }
86
87 public bool termEqual(object term)
88 {
89 term = YP.getValue(term);
90 if (term is Functor3)
91 {
92 Functor3 termFunctor = (Functor3)term;
93 return _name.Equals(termFunctor._name) && YP.termEqual(_arg1, termFunctor._arg1)
94 && YP.termEqual(_arg2, termFunctor._arg2)
95 && YP.termEqual(_arg3, termFunctor._arg3);
96 }
97 return false;
98 }
99
100 public bool lessThan(Functor3 functor)
101 {
102 // Do the equal check first since it is faster.
103 if (!_name.Equals(functor._name))
104 return _name.lessThan(functor._name);
105
106 if (!YP.termEqual(_arg1, functor._arg1))
107 return YP.termLessThan(_arg1, functor._arg1);
108
109 if (!YP.termEqual(_arg2, functor._arg2))
110 return YP.termLessThan(_arg2, functor._arg2);
111
112 return YP.termLessThan(_arg3, functor._arg3);
113 }
114
115 public bool ground()
116 {
117 return YP.ground(_arg1) && YP.ground(_arg2) && YP.ground(_arg3);
118 }
119
120 public void addUniqueVariables(List<Variable> variableSet)
121 {
122 YP.addUniqueVariables(_arg1, variableSet);
123 YP.addUniqueVariables(_arg2, variableSet);
124 YP.addUniqueVariables(_arg3, variableSet);
125 }
126
127 public object makeCopy(Variable.CopyStore copyStore)
128 {
129 return new Functor3(_name, YP.makeCopy(_arg1, copyStore),
130 YP.makeCopy(_arg2, copyStore), YP.makeCopy(_arg3, copyStore));
131 }
132 }
133}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/IndexedAnswers.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/IndexedAnswers.cs
new file mode 100644
index 0000000..3eac5fa
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/IndexedAnswers.cs
@@ -0,0 +1,288 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections;
33using System.Collections.Generic;
34
35namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
36{
37 /// <summary>
38 /// An IndexedAnswers holds answers to a query based on the values of index arguments.
39 /// </summary>
40 public class IndexedAnswers : YP.IClause
41 {
42 // addAnswer adds the answer here and indexes it later.
43 private List<object[]> _allAnswers = new List<object[]>();
44 // The key has the arity of answers with non-null values for each indexed arg. The value
45 // is a list of the matching answers. The signature is implicit in the pattern on non-null index args.
46 private Dictionary<HashedList, List<object[]>> _indexedAnswers =
47 new Dictionary<HashedList, List<object[]>>();
48 // Keeps track of whether we have started adding entries to _indexedAnswers for the signature.
49 private Dictionary<int, object> _gotAnswersForSignature = new Dictionary<int, object>();
50 private const int MAX_INDEX_ARGS = 31;
51
52 public IndexedAnswers()
53 {
54 }
55
56 /// <summary>
57 /// Elements of answer must be ground, since arguments with unbound variables make this
58 /// into a dynamic rule which we don't index.
59 /// </summary>
60 /// <param name="answer"></param>
61 public void addAnswer(object[] answer)
62 {
63 // Store a copy of the answer array.
64 object[] answerCopy = new object[answer.Length];
65 Variable.CopyStore copyStore = new Variable.CopyStore();
66 for (int i = 0; i < answer.Length; ++i)
67 answerCopy[i] = YP.makeCopy(answer[i], copyStore);
68 if (copyStore.getNUniqueVariables() > 0)
69 throw new InvalidOperationException
70 ("Elements of answer must be ground, but found " + copyStore.getNUniqueVariables() +
71 " unbound variables");
72 _allAnswers.Add(answerCopy);
73
74 // If match has already indexed answers for a signature, we need to add
75 // this to the existing indexed answers.
76 foreach(int signature in _gotAnswersForSignature.Keys)
77 indexAnswerForSignature(answerCopy, signature);
78 }
79
80 private void indexAnswerForSignature(object[] answer, int signature)
81 {
82 // First find out which of the answer values can be used as an index.
83 object[] indexValues = new object[answer.Length];
84 for (int i = 0; i < answer.Length; ++i)
85 {
86 // We limit the number of indexed args in a 32-bit signature.
87 if (i >= MAX_INDEX_ARGS)
88 indexValues[i] = null;
89 else
90 indexValues[i] = getIndexValue(YP.getValue(answer[i]));
91 }
92
93 // We need an entry in indexArgs from indexValues for each 1 bit in signature.
94 HashedList indexArgs = new HashedList(indexValues.Length);
95 for (int i = 0; i < indexValues.Length; ++i)
96 {
97 if ((signature & (1 << i)) == 0)
98 indexArgs.Add(null);
99 else
100 {
101 if (indexValues[i] == null)
102 // The signature wants an index value here, but we don't have one so
103 // we can't add it as an answer for this signature.
104 return;
105 else
106 indexArgs.Add(indexValues[i]);
107 }
108 }
109
110 // Add the answer to the answers list for indexArgs, creating the entry if needed.
111 List<object[]> answers;
112 if (!_indexedAnswers.TryGetValue(indexArgs, out answers))
113 {
114 answers = new List<object[]>();
115 _indexedAnswers[indexArgs] = answers;
116 }
117 answers.Add(answer);
118 }
119
120 public IEnumerable<bool> match(object[] arguments)
121 {
122 // Set up indexArgs, up to arg position MAX_INDEX_ARGS. The signature has a 1 bit for
123 // each non-null index arg.
124 HashedList indexArgs = new HashedList(arguments.Length);
125 bool gotAllIndexArgs = true;
126 int signature = 0;
127 for (int i = 0; i < arguments.Length; ++i)
128 {
129 object indexValue = null;
130 if (i < MAX_INDEX_ARGS)
131 {
132 // We limit the number of args in a 32-bit signature.
133 indexValue = getIndexValue(YP.getValue(arguments[i]));
134 if (indexValue != null)
135 signature += (1 << i);
136 }
137 if (indexValue == null)
138 gotAllIndexArgs = false;
139 indexArgs.Add(indexValue);
140 }
141
142 List<object[]> answers;
143 if (signature == 0)
144 // No index args, so we have to match from _allAnswers.
145 answers = _allAnswers;
146 else
147 {
148 if (!_gotAnswersForSignature.ContainsKey(signature))
149 {
150 // We need to create the entry in _indexedAnswers.
151 foreach (object[] answer in _allAnswers)
152 indexAnswerForSignature(answer, signature);
153 // Mark that we did this signature.
154 _gotAnswersForSignature[signature] = null;
155 }
156 if (!_indexedAnswers.TryGetValue(indexArgs, out answers))
157 yield break;
158 }
159
160 if (gotAllIndexArgs)
161 {
162 // All the arguments were already bound, so we don't need to do bindings.
163 yield return false;
164 yield break;
165 }
166
167 // Find matches in answers.
168 IEnumerator<bool>[] iterators = new IEnumerator<bool>[arguments.Length];
169 foreach (object[] answer in answers)
170 {
171 bool gotMatch = true;
172 int nIterators = 0;
173 // Try to bind all the arguments.
174 for (int i = 0; i < arguments.Length; ++i)
175 {
176 if (indexArgs[i] != null)
177 // We already matched this argument by looking up _indexedAnswers.
178 continue;
179
180 IEnumerator<bool> iterator = YP.unify(arguments[i], answer[i]).GetEnumerator();
181 iterators[nIterators++] = iterator;
182 // MoveNext() is true if YP.unify succeeds.
183 if (!iterator.MoveNext())
184 {
185 gotMatch = false;
186 break;
187 }
188 }
189
190 try
191 {
192 if (gotMatch)
193 yield return false;
194 }
195 finally
196 {
197 // Manually finalize all the iterators.
198 for (int i = 0; i < nIterators; ++i)
199 iterators[i].Dispose();
200 }
201 }
202 }
203
204 /// <summary>
205 /// A HashedList extends an ArrayList with methods to get a hash and to check equality
206 /// based on the elements of the list.
207 /// </summary>
208 public class HashedList : ArrayList
209 {
210 private bool _gotHashCode = false;
211 private int _hashCode;
212
213 public HashedList()
214 : base()
215 {
216 }
217
218 public HashedList(int capacity)
219 : base(capacity)
220 {
221 }
222
223 public HashedList(ICollection c)
224 : base(c)
225 {
226 }
227
228 // Debug: Should override all the other methods that change this.
229 public override int Add(object value)
230 {
231 _gotHashCode = false;
232 return base.Add(value);
233 }
234
235 public override int GetHashCode()
236 {
237 if (!_gotHashCode)
238 {
239 int hashCode = 1;
240 foreach (object obj in this)
241 hashCode = 31 * hashCode + (obj == null ? 0 : obj.GetHashCode());
242 _hashCode = hashCode;
243 _gotHashCode = true;
244 }
245 return _hashCode;
246 }
247
248 public override bool Equals(object obj)
249 {
250 if (!(obj is ArrayList))
251 return false;
252
253 ArrayList objList = (ArrayList)obj;
254 if (objList.Count != Count)
255 return false;
256
257 for (int i = 0; i < Count; ++i)
258 {
259 object value = objList[i];
260 if (value == null)
261 {
262 if (this[i] != null)
263 return false;
264 }
265 else
266 {
267 if (!value.Equals(this[i]))
268 return false;
269 }
270 }
271 return true;
272 }
273 }
274
275 /// <summary>
276 /// If we keep an index on value, return the value, or null if we don't index it.
277 /// </summary>
278 /// <param name="value">the term to examine. Assume you already called YP.getValue(value)</param>
279 /// <returns></returns>
280 public static object getIndexValue(object value)
281 {
282 if (value is Atom || value is string || value is Int32 || value is DateTime)
283 return value;
284 else
285 return null;
286 }
287 }
288}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/ListPair.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/ListPair.cs
new file mode 100644
index 0000000..b16e8a4
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/ListPair.cs
@@ -0,0 +1,156 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33
34namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
35{
36 public class ListPair : Functor2
37 {
38 public ListPair(object head, object tail) : base(Atom.DOT, head, tail)
39 {
40 }
41
42 public static object make(List<object> list)
43 {
44 if (list.Count <= 0)
45 return Atom.NIL;
46
47 object result = Atom.NIL;
48 // Start from the end.
49 for (int i = list.Count - 1; i >= 0; --i)
50 result = new ListPair(list[i], result);
51 return result;
52 }
53
54 public static object make(object[] array)
55 {
56 if (array.Length <= 0)
57 return Atom.NIL;
58
59 object result = Atom.NIL;
60 // Start from the end.
61 for (int i = array.Length - 1; i >= 0; --i)
62 result = new ListPair(array[i], result);
63 return result;
64 }
65
66 /// <summary>
67 /// Return a ListPair version of array, where repeated elements
68 /// (according to YP.termEqual) are removed.
69 /// </summary>
70 /// <param name="array"></param>
71 /// <returns></returns>
72 public static object makeWithoutRepeatedTerms(object[] array)
73 {
74 if (array.Length <= 0)
75 return Atom.NIL;
76
77 // Start from the end.
78 object previousTerm = array[array.Length - 1];
79 object result = new ListPair(previousTerm, Atom.NIL);
80 for (int i = array.Length - 2; i >= 0; --i)
81 {
82 object term = array[i];
83 if (YP.termEqual(term, previousTerm))
84 continue;
85 result = new ListPair(term, result);
86 previousTerm = term;
87 }
88 return result;
89 }
90
91 /// <summary>
92 /// Return a ListPair version of array, where repeated elements
93 /// (according to YP.termEqual) are removed.
94 /// </summary>
95 /// <param name="array"></param>
96 /// <returns></returns>
97 public static object makeWithoutRepeatedTerms(List<object> array)
98 {
99 if (array.Count <= 0)
100 return Atom.NIL;
101
102 // Start from the end.
103 object previousTerm = array[array.Count - 1];
104 object result = new ListPair(previousTerm, Atom.NIL);
105 for (int i = array.Count - 2; i >= 0; --i)
106 {
107 object term = array[i];
108 if (YP.termEqual(term, previousTerm))
109 continue;
110 result = new ListPair(term, result);
111 previousTerm = term;
112 }
113 return result;
114 }
115
116 public static object make(object element1)
117 {
118 return new ListPair(element1, Atom.NIL);
119 }
120
121 public static object make(object element1, object element2)
122 {
123 return new ListPair(element1, new ListPair(element2, Atom.NIL));
124 }
125
126 public static object make(object element1, object element2, object element3)
127 {
128 return new ListPair(element1,
129 new ListPair(element2, new ListPair(element3, Atom.NIL)));
130 }
131
132 /// <summary>
133 /// Return an array of the elements in list or null if it is not
134 /// a proper list. If list is Atom.NIL, return an array of zero elements.
135 /// This does not call YP.getValue on each element.
136 /// </summary>
137 /// <param name="list"></param>
138 /// <returns></returns>
139 public static object[] toArray(object list)
140 {
141 list = YP.getValue(list);
142 if (list.Equals(Atom.NIL))
143 return new object[0];
144
145 List<object> result = new List<object>();
146 for (object element = list;
147 element is Functor2 && ((Functor2)element)._name == Atom.DOT;
148 element = YP.getValue(((Functor2)element)._arg2))
149 result.Add(((Functor2)element)._arg1);
150
151 if (result.Count <= 0)
152 return null;
153 return result.ToArray();
154 }
155 }
156}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Parser.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Parser.cs
new file mode 100644
index 0000000..7ef5c51
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Parser.cs
@@ -0,0 +1,4457 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections.Generic;
33
34namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
35{
36 public class Parser
37 {
38 public static IEnumerable<bool> formatError(object Output, object Format, object Arguments)
39 {
40 // Debug: Simple implementation for now.
41 YP.write(Format);
42 YP.write(Arguments);
43 YP.nl();
44 yield return false;
45 }
46
47 // Debug: Hand-modify this central predicate to do tail recursion.
48 public static IEnumerable<bool> read_tokens(object arg1, object arg2, object arg3)
49 {
50 bool repeat = true;
51 while (repeat)
52 {
53 repeat = false;
54 {
55 object C1 = arg1;
56 object Dict = arg2;
57 object Tokens = arg3;
58 Variable C2 = new Variable();
59 if (YP.lessThanOrEqual(C1, new ListPair(32, Atom.NIL)))
60 {
61 if (YP.greaterThanOrEqual(C1, 0))
62 {
63 foreach (bool l4 in YP.get_code(C2))
64 {
65#if false
66 foreach (bool l5 in read_tokens(C2, Dict, Tokens))
67 {
68 yield return false;
69 }
70#endif
71 arg1 = YP.getValue(C2);
72 arg2 = YP.getValue(Dict);
73 arg3 = YP.getValue(Tokens);
74 repeat = true;
75 }
76 }
77 goto cutIf1;
78 }
79 if (YP.greaterThanOrEqual(C1, new ListPair(97, Atom.NIL)))
80 {
81 if (YP.lessThanOrEqual(C1, new ListPair(122, Atom.NIL)))
82 {
83 foreach (bool l4 in read_identifier(C1, Dict, Tokens))
84 {
85 yield return false;
86 }
87 goto cutIf2;
88 }
89 }
90 if (YP.greaterThanOrEqual(C1, new ListPair(65, Atom.NIL)))
91 {
92 if (YP.lessThanOrEqual(C1, new ListPair(90, Atom.NIL)))
93 {
94 foreach (bool l4 in read_variable(C1, Dict, Tokens))
95 {
96 yield return false;
97 }
98 goto cutIf3;
99 }
100 }
101 if (YP.greaterThanOrEqual(C1, new ListPair(48, Atom.NIL)))
102 {
103 if (YP.lessThanOrEqual(C1, new ListPair(57, Atom.NIL)))
104 {
105 foreach (bool l4 in read_number(C1, Dict, Tokens))
106 {
107 yield return false;
108 }
109 goto cutIf4;
110 }
111 }
112 if (YP.lessThan(C1, 127))
113 {
114 foreach (bool l3 in read_special(C1, Dict, Tokens))
115 {
116 yield return false;
117 }
118 goto cutIf5;
119 }
120 if (YP.lessThanOrEqual(C1, 160))
121 {
122 foreach (bool l3 in YP.get_code(C2))
123 {
124#if false
125 foreach (bool l4 in read_tokens(C2, Dict, Tokens))
126 {
127 yield return false;
128 }
129#endif
130 arg1 = YP.getValue(C2);
131 arg2 = YP.getValue(Dict);
132 arg3 = YP.getValue(Tokens);
133 repeat = true;
134 }
135 goto cutIf6;
136 }
137 if (YP.greaterThanOrEqual(C1, 223))
138 {
139 if (YP.notEqual(C1, 247))
140 {
141 foreach (bool l4 in read_identifier(C1, Dict, Tokens))
142 {
143 yield return false;
144 }
145 goto cutIf7;
146 }
147 }
148 if (YP.greaterThanOrEqual(C1, 192))
149 {
150 if (YP.notEqual(C1, 215))
151 {
152 foreach (bool l4 in read_variable(C1, Dict, Tokens))
153 {
154 yield return false;
155 }
156 goto cutIf8;
157 }
158 }
159 if (YP.notEqual(C1, 170))
160 {
161 if (YP.notEqual(C1, 186))
162 {
163 foreach (bool l4 in read_symbol(C1, Dict, Tokens))
164 {
165 yield return false;
166 }
167 goto cutIf9;
168 }
169 }
170 foreach (bool l2 in read_identifier(C1, Dict, Tokens))
171 {
172 yield return false;
173 }
174 cutIf9:
175 cutIf8:
176 cutIf7:
177 cutIf6:
178 cutIf5:
179 cutIf4:
180 cutIf3:
181 cutIf2:
182 cutIf1:
183 { }
184 }
185 }
186 }
187
188 // Compiler output follows.
189
190 class YPInnerClass { }
191 static Type getDeclaringClass() { return typeof(YPInnerClass).DeclaringType; }
192
193 public static IEnumerable<bool> parseInput(object TermList)
194 {
195 {
196 Variable TermAndVariables = new Variable();
197 FindallAnswers findallAnswers1 = new FindallAnswers(TermAndVariables);
198 foreach (bool l2 in parseInputHelper(TermAndVariables))
199 {
200 findallAnswers1.add();
201 }
202 foreach (bool l2 in findallAnswers1.result(TermList))
203 {
204 yield return false;
205 }
206 }
207 }
208
209 public static IEnumerable<bool> parseInputHelper(object arg1)
210 {
211 {
212 Variable Term = new Variable();
213 Variable Variables = new Variable();
214 Variable Answer = new Variable();
215 Variable x4 = new Variable();
216 foreach (bool l2 in YP.unify(arg1, new Functor2(@"f", Term, Variables)))
217 {
218 foreach (bool l3 in YP.repeat())
219 {
220 foreach (bool l4 in portable_read3(Answer, Variables, x4))
221 {
222 foreach (bool l5 in remove_pos(Answer, Term))
223 {
224 if (YP.termEqual(Term, Atom.a(@"end_of_file")))
225 {
226 yield break;
227 goto cutIf1;
228 }
229 yield return false;
230 cutIf1:
231 { }
232 }
233 }
234 }
235 }
236 }
237 }
238
239 public static IEnumerable<bool> clear_errors()
240 {
241 {
242 yield return false;
243 }
244 }
245
246 public static IEnumerable<bool> remove_pos(object arg1, object arg2)
247 {
248 {
249 Variable X = new Variable();
250 foreach (bool l2 in YP.unify(arg1, X))
251 {
252 foreach (bool l3 in YP.unify(arg2, X))
253 {
254 if (YP.var(X))
255 {
256 yield return true;
257 yield break;
258 }
259 }
260 }
261 }
262 {
263 object X = arg2;
264 Variable _Pos = new Variable();
265 Variable _Name = new Variable();
266 foreach (bool l2 in YP.unify(arg1, new Functor3(@"$VAR", _Pos, _Name, X)))
267 {
268 if (YP.var(X))
269 {
270 yield return true;
271 yield break;
272 }
273 }
274 }
275 {
276 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
277 {
278 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
279 {
280 yield return true;
281 yield break;
282 }
283 }
284 }
285 {
286 Variable H = new Variable();
287 Variable T = new Variable();
288 Variable NH = new Variable();
289 Variable NT = new Variable();
290 foreach (bool l2 in YP.unify(arg1, new ListPair(H, T)))
291 {
292 foreach (bool l3 in YP.unify(arg2, new ListPair(NH, NT)))
293 {
294 foreach (bool l4 in remove_pos(H, NH))
295 {
296 foreach (bool l5 in remove_pos(T, NT))
297 {
298 yield return false;
299 }
300 }
301 yield break;
302 }
303 }
304 }
305 {
306 Variable A = new Variable();
307 Variable B = new Variable();
308 Variable NA = new Variable();
309 Variable NB = new Variable();
310 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", A, B)))
311 {
312 foreach (bool l3 in YP.unify(arg2, new Functor2(@",", NA, NB)))
313 {
314 foreach (bool l4 in remove_pos(A, NA))
315 {
316 foreach (bool l5 in remove_pos(B, NB))
317 {
318 yield return false;
319 }
320 }
321 yield break;
322 }
323 }
324 }
325 {
326 Variable Atom_1 = new Variable();
327 Variable _F = new Variable();
328 foreach (bool l2 in YP.unify(arg1, Atom_1))
329 {
330 foreach (bool l3 in YP.unify(arg2, Atom_1))
331 {
332 foreach (bool l4 in YP.functor(Atom_1, _F, 0))
333 {
334 yield return false;
335 }
336 }
337 }
338 }
339 {
340 object Term = arg1;
341 object NewTerm = arg2;
342 Variable Func = new Variable();
343 Variable _Pos = new Variable();
344 Variable Args = new Variable();
345 Variable NArgs = new Variable();
346 if (YP.nonvar(Term))
347 {
348 foreach (bool l3 in YP.univ(Term, new ListPair(Func, new ListPair(_Pos, Args))))
349 {
350 foreach (bool l4 in remove_pos(Args, NArgs))
351 {
352 foreach (bool l5 in YP.univ(NewTerm, new ListPair(Func, NArgs)))
353 {
354 yield return false;
355 }
356 }
357 }
358 }
359 }
360 }
361
362 public static IEnumerable<bool> portable_read_position(object Term, object PosTerm, object Syntax)
363 {
364 {
365 foreach (bool l2 in portable_read(PosTerm, Syntax))
366 {
367 foreach (bool l3 in remove_pos(PosTerm, Term))
368 {
369 yield return false;
370 }
371 }
372 }
373 }
374
375 public static IEnumerable<bool> portable_read(object Answer, object Syntax)
376 {
377 {
378 Variable Tokens = new Variable();
379 Variable ParseTokens = new Variable();
380 foreach (bool l2 in read_tokens1(Tokens))
381 {
382 foreach (bool l3 in remove_comments(Tokens, ParseTokens, Syntax))
383 {
384 foreach (bool l4 in parse2(ParseTokens, Answer))
385 {
386 yield return false;
387 }
388 }
389 }
390 }
391 }
392
393 public static IEnumerable<bool> portable_read3(object Answer, object Variables, object Syntax)
394 {
395 {
396 Variable Tokens = new Variable();
397 Variable ParseTokens = new Variable();
398 foreach (bool l2 in read_tokens2(Tokens, Variables))
399 {
400 foreach (bool l3 in remove_comments(Tokens, ParseTokens, Syntax))
401 {
402 foreach (bool l4 in parse2(ParseTokens, Answer))
403 {
404 yield return false;
405 }
406 }
407 }
408 }
409 }
410
411 public static IEnumerable<bool> remove_comments(object arg1, object arg2, object arg3)
412 {
413 {
414 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
415 {
416 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
417 {
418 foreach (bool l4 in YP.unify(arg3, Atom.NIL))
419 {
420 yield return false;
421 }
422 }
423 }
424 }
425 {
426 object Ys = arg2;
427 Variable S = new Variable();
428 Variable E = new Variable();
429 Variable Xs = new Variable();
430 Variable Zs = new Variable();
431 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"comment", S, E), Xs)))
432 {
433 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"comment", S, E), Zs)))
434 {
435 foreach (bool l4 in remove_comments(Xs, Ys, Zs))
436 {
437 yield return false;
438 }
439 yield break;
440 }
441 }
442 }
443 {
444 Variable Pos = new Variable();
445 Variable Xs = new Variable();
446 Variable Ys = new Variable();
447 Variable Pos2 = new Variable();
448 Variable Zs = new Variable();
449 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"/", Atom.a(@"["), Pos), Xs)))
450 {
451 foreach (bool l3 in YP.unify(arg2, new ListPair(Atom.a(@"["), Ys)))
452 {
453 foreach (bool l4 in YP.unify(arg3, new ListPair(new Functor2(@"list", Pos, Pos2), Zs)))
454 {
455 foreach (bool l5 in YP.unify(Pos2, YP.add(Pos, 1)))
456 {
457 foreach (bool l6 in remove_comments(Xs, Ys, Zs))
458 {
459 yield return false;
460 }
461 }
462 yield break;
463 }
464 }
465 }
466 }
467 {
468 Variable Pos = new Variable();
469 Variable Xs = new Variable();
470 Variable Ys = new Variable();
471 Variable Pos2 = new Variable();
472 Variable Zs = new Variable();
473 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"/", Atom.a(@"]"), Pos), Xs)))
474 {
475 foreach (bool l3 in YP.unify(arg2, new ListPair(Atom.a(@"]"), Ys)))
476 {
477 foreach (bool l4 in YP.unify(arg3, new ListPair(new Functor2(@"list", Pos, Pos2), Zs)))
478 {
479 foreach (bool l5 in YP.unify(Pos2, YP.add(Pos, 1)))
480 {
481 foreach (bool l6 in remove_comments(Xs, Ys, Zs))
482 {
483 yield return false;
484 }
485 }
486 yield break;
487 }
488 }
489 }
490 }
491 {
492 object Zs = arg3;
493 Variable Token = new Variable();
494 Variable Xs = new Variable();
495 Variable Ys = new Variable();
496 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, Xs)))
497 {
498 foreach (bool l3 in YP.unify(arg2, new ListPair(Token, Ys)))
499 {
500 foreach (bool l4 in remove_comments(Xs, Ys, Zs))
501 {
502 yield return false;
503 }
504 }
505 }
506 }
507 }
508
509 public static IEnumerable<bool> expect(object Token, object arg2, object arg3)
510 {
511 {
512 object Rest = arg3;
513 foreach (bool l2 in YP.unify(arg2, new ListPair(Token, Rest)))
514 {
515 yield return true;
516 yield break;
517 }
518 }
519 {
520 object S0 = arg2;
521 object x3 = arg3;
522 foreach (bool l2 in syntax_error(new ListPair(Token, new ListPair(Atom.a(@"or"), new ListPair(Atom.a(@"operator"), new ListPair(Atom.a(@"expected"), Atom.NIL)))), S0))
523 {
524 yield return false;
525 }
526 }
527 }
528
529 public static IEnumerable<bool> parse2(object Tokens, object Answer)
530 {
531 {
532 Variable Term = new Variable();
533 Variable LeftOver = new Variable();
534 foreach (bool l2 in clear_errors())
535 {
536 foreach (bool l3 in parse(Tokens, 1200, Term, LeftOver))
537 {
538 foreach (bool l4 in all_read(LeftOver))
539 {
540 foreach (bool l5 in YP.unify(Answer, Term))
541 {
542 yield return false;
543 }
544 yield break;
545 }
546 }
547 foreach (bool l3 in syntax_error(Tokens))
548 {
549 yield return false;
550 }
551 }
552 }
553 }
554
555 public static IEnumerable<bool> all_read(object arg1)
556 {
557 {
558 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
559 {
560 yield return false;
561 }
562 }
563 {
564 Variable Token = new Variable();
565 Variable S = new Variable();
566 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, S)))
567 {
568 foreach (bool l3 in syntax_error(new ListPair(Atom.a(@"operator"), new ListPair(Atom.a(@"expected"), new ListPair(Atom.a(@"after"), new ListPair(Atom.a(@"expression"), Atom.NIL)))), new ListPair(Token, S)))
569 {
570 yield return false;
571 }
572 }
573 }
574 }
575
576 public static IEnumerable<bool> parse(object arg1, object arg2, object arg3, object arg4)
577 {
578 {
579 object x1 = arg2;
580 object x2 = arg3;
581 object x3 = arg4;
582 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
583 {
584 foreach (bool l3 in syntax_error(new ListPair(Atom.a(@"expression"), new ListPair(Atom.a(@"expected"), Atom.NIL)), Atom.NIL))
585 {
586 yield return false;
587 }
588 }
589 }
590 {
591 object Precedence = arg2;
592 object Term = arg3;
593 object LeftOver = arg4;
594 Variable Token = new Variable();
595 Variable RestTokens = new Variable();
596 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, RestTokens)))
597 {
598 foreach (bool l3 in parse5(Token, RestTokens, Precedence, Term, LeftOver))
599 {
600 yield return false;
601 }
602 }
603 }
604 }
605
606 public static IEnumerable<bool> parse5(object arg1, object arg2, object arg3, object arg4, object arg5)
607 {
608 {
609 object S0 = arg2;
610 object x2 = arg3;
611 object x3 = arg4;
612 object x4 = arg5;
613 foreach (bool l2 in YP.unify(arg1, Atom.a(@"}")))
614 {
615 foreach (bool l3 in cannot_start(Atom.a(@"}"), S0))
616 {
617 yield return false;
618 }
619 }
620 }
621 {
622 object S0 = arg2;
623 object x2 = arg3;
624 object x3 = arg4;
625 object x4 = arg5;
626 foreach (bool l2 in YP.unify(arg1, Atom.a(@"]")))
627 {
628 foreach (bool l3 in cannot_start(Atom.a(@"]"), S0))
629 {
630 yield return false;
631 }
632 }
633 }
634 {
635 object S0 = arg2;
636 object x2 = arg3;
637 object x3 = arg4;
638 object x4 = arg5;
639 foreach (bool l2 in YP.unify(arg1, Atom.a(@")")))
640 {
641 foreach (bool l3 in cannot_start(Atom.a(@")"), S0))
642 {
643 yield return false;
644 }
645 }
646 }
647 {
648 object S0 = arg2;
649 object x2 = arg3;
650 object x3 = arg4;
651 object x4 = arg5;
652 foreach (bool l2 in YP.unify(arg1, Atom.a(@",")))
653 {
654 foreach (bool l3 in cannot_start(Atom.a(@","), S0))
655 {
656 yield return false;
657 }
658 }
659 }
660 {
661 object S0 = arg2;
662 object x2 = arg3;
663 object x3 = arg4;
664 object x4 = arg5;
665 foreach (bool l2 in YP.unify(arg1, Atom.a(@"|")))
666 {
667 foreach (bool l3 in cannot_start(Atom.a(@"|"), S0))
668 {
669 yield return false;
670 }
671 }
672 }
673 {
674 object S0 = arg2;
675 object Precedence = arg3;
676 object Answer = arg4;
677 object S = arg5;
678 Variable Chars = new Variable();
679 foreach (bool l2 in YP.unify(arg1, new Functor1(@"string", Chars)))
680 {
681 foreach (bool l3 in exprtl0(S0, Chars, Precedence, Answer, S))
682 {
683 yield return false;
684 }
685 }
686 }
687 {
688 object S0 = arg2;
689 object Precedence = arg3;
690 object Answer = arg4;
691 object S = arg5;
692 Variable Number = new Variable();
693 foreach (bool l2 in YP.unify(arg1, new Functor1(@"number", Number)))
694 {
695 foreach (bool l3 in exprtl0(S0, Number, Precedence, Answer, S))
696 {
697 yield return false;
698 }
699 }
700 }
701 {
702 object Precedence = arg3;
703 object Answer = arg4;
704 object S = arg5;
705 Variable S1 = new Variable();
706 foreach (bool l2 in YP.unify(arg1, Atom.a(@"[")))
707 {
708 foreach (bool l3 in YP.unify(arg2, new ListPair(Atom.a(@"]"), S1)))
709 {
710 foreach (bool l4 in read_atom(new Functor2(@"/", Atom.NIL, 0), S1, Precedence, Answer, S))
711 {
712 yield return false;
713 }
714 yield break;
715 }
716 }
717 }
718 {
719 object S1 = arg2;
720 object Precedence = arg3;
721 object Answer = arg4;
722 object S = arg5;
723 Variable Arg1 = new Variable();
724 Variable S2 = new Variable();
725 Variable RestArgs = new Variable();
726 Variable S3 = new Variable();
727 foreach (bool l2 in YP.unify(arg1, Atom.a(@"[")))
728 {
729 foreach (bool l3 in parse(S1, 999, Arg1, S2))
730 {
731 foreach (bool l4 in read_list(S2, RestArgs, S3))
732 {
733 foreach (bool l5 in exprtl0(S3, new ListPair(Arg1, RestArgs), Precedence, Answer, S))
734 {
735 yield return false;
736 }
737 yield break;
738 }
739 }
740 }
741 }
742 {
743 object S1 = arg2;
744 object Precedence = arg3;
745 object Answer = arg4;
746 object S = arg5;
747 Variable Term = new Variable();
748 Variable S2 = new Variable();
749 Variable S3 = new Variable();
750 foreach (bool l2 in YP.unify(arg1, Atom.a(@"(")))
751 {
752 foreach (bool l3 in parse(S1, 1200, Term, S2))
753 {
754 foreach (bool l4 in expect(Atom.a(@")"), S2, S3))
755 {
756 foreach (bool l5 in exprtl0(S3, Term, Precedence, Answer, S))
757 {
758 yield return false;
759 }
760 yield break;
761 }
762 }
763 }
764 }
765 {
766 object S1 = arg2;
767 object Precedence = arg3;
768 object Answer = arg4;
769 object S = arg5;
770 Variable Term = new Variable();
771 Variable S2 = new Variable();
772 Variable S3 = new Variable();
773 foreach (bool l2 in YP.unify(arg1, Atom.a(@" (")))
774 {
775 foreach (bool l3 in parse(S1, 1200, Term, S2))
776 {
777 foreach (bool l4 in expect(Atom.a(@")"), S2, S3))
778 {
779 foreach (bool l5 in exprtl0(S3, Term, Precedence, Answer, S))
780 {
781 yield return false;
782 }
783 yield break;
784 }
785 }
786 }
787 }
788 {
789 object Precedence = arg3;
790 object Answer = arg4;
791 object S = arg5;
792 Variable _Pos = new Variable();
793 Variable S1 = new Variable();
794 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", Atom.a(@"{"), _Pos)))
795 {
796 foreach (bool l3 in YP.unify(arg2, new ListPair(Atom.a(@"}"), S1)))
797 {
798 foreach (bool l4 in read_atom(Atom.a(@"{}"), S1, Precedence, Answer, S))
799 {
800 yield return false;
801 }
802 yield break;
803 }
804 }
805 }
806 {
807 object S1 = arg2;
808 object Precedence = arg3;
809 object Answer = arg4;
810 object S = arg5;
811 Variable Pos = new Variable();
812 Variable Term = new Variable();
813 Variable S2 = new Variable();
814 Variable S3 = new Variable();
815 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", Atom.a(@"{"), Pos)))
816 {
817 foreach (bool l3 in parse(S1, 1200, Term, S2))
818 {
819 foreach (bool l4 in expect(Atom.a(@"}"), S2, S3))
820 {
821 foreach (bool l5 in exprtl0(S3, new Functor2(@"{}", Pos, Term), Precedence, Answer, S))
822 {
823 yield return false;
824 }
825 yield break;
826 }
827 }
828 }
829 }
830 {
831 object Precedence = arg3;
832 object Answer = arg4;
833 object S = arg5;
834 Variable Variable_1 = new Variable();
835 Variable Name = new Variable();
836 Variable Pos = new Variable();
837 Variable S1 = new Variable();
838 Variable Arg1 = new Variable();
839 Variable S2 = new Variable();
840 Variable RestArgs = new Variable();
841 Variable S3 = new Variable();
842 Variable Term = new Variable();
843 foreach (bool l2 in YP.unify(arg1, new Functor3(@"var", Variable_1, Name, Pos)))
844 {
845 foreach (bool l3 in YP.unify(arg2, new ListPair(Atom.a(@"("), S1)))
846 {
847 foreach (bool l4 in parse(S1, 999, Arg1, S2))
848 {
849 foreach (bool l5 in read_args(S2, RestArgs, S3))
850 {
851 foreach (bool l6 in YP.univ(Term, new ListPair(Atom.a(@"call"), new ListPair(new Functor3(@"$VAR", Pos, Name, Variable_1), new ListPair(Arg1, RestArgs)))))
852 {
853 foreach (bool l7 in exprtl0(S3, Term, Precedence, Answer, S))
854 {
855 yield return false;
856 }
857 }
858 yield break;
859 }
860 }
861 yield break;
862 }
863 }
864 }
865 {
866 object S0 = arg2;
867 object Precedence = arg3;
868 object Answer = arg4;
869 object S = arg5;
870 Variable Variable_1 = new Variable();
871 Variable Name = new Variable();
872 Variable Pos = new Variable();
873 foreach (bool l2 in YP.unify(arg1, new Functor3(@"var", Variable_1, Name, Pos)))
874 {
875 foreach (bool l3 in exprtl0(S0, new Functor3(@"$VAR", Pos, Name, Variable_1), Precedence, Answer, S))
876 {
877 yield return false;
878 }
879 }
880 }
881 {
882 object S0 = arg2;
883 object Precedence = arg3;
884 object Answer = arg4;
885 object S = arg5;
886 Variable Atom_1 = new Variable();
887 Variable P = new Variable();
888 foreach (bool l2 in YP.unify(arg1, new Functor2(@"atom", Atom_1, P)))
889 {
890 foreach (bool l3 in read_atom(new Functor2(@"/", Atom_1, P), S0, Precedence, Answer, S))
891 {
892 yield return false;
893 }
894 }
895 }
896 }
897
898 public static IEnumerable<bool> read_atom(object arg1, object arg2, object Precedence, object Answer, object S)
899 {
900 {
901 Variable _Pos = new Variable();
902 Variable Number = new Variable();
903 Variable S1 = new Variable();
904 Variable Negative = new Variable();
905 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", Atom.a(@"-"), _Pos)))
906 {
907 foreach (bool l3 in YP.unify(arg2, new ListPair(new Functor1(@"number", Number), S1)))
908 {
909 foreach (bool l4 in YP.unify(Negative, YP.negate(Number)))
910 {
911 foreach (bool l5 in exprtl0(S1, Negative, Precedence, Answer, S))
912 {
913 yield return false;
914 }
915 }
916 yield break;
917 }
918 }
919 }
920 {
921 Variable Functor_1 = new Variable();
922 Variable Pos = new Variable();
923 Variable S1 = new Variable();
924 Variable Arg1 = new Variable();
925 Variable S2 = new Variable();
926 Variable RestArgs = new Variable();
927 Variable S3 = new Variable();
928 Variable Term = new Variable();
929 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", Functor_1, Pos)))
930 {
931 foreach (bool l3 in YP.unify(arg2, new ListPair(Atom.a(@"("), S1)))
932 {
933 foreach (bool l4 in parse(S1, 999, Arg1, S2))
934 {
935 foreach (bool l5 in read_args(S2, RestArgs, S3))
936 {
937 foreach (bool l6 in YP.univ(Term, new ListPair(Functor_1, new ListPair(Pos, new ListPair(Arg1, RestArgs)))))
938 {
939 foreach (bool l7 in exprtl0(S3, Term, Precedence, Answer, S))
940 {
941 yield return false;
942 }
943 }
944 yield break;
945 }
946 }
947 yield break;
948 }
949 }
950 }
951 {
952 object S0 = arg2;
953 Variable Op = new Variable();
954 Variable Pos = new Variable();
955 Variable Oprec = new Variable();
956 Variable Aprec = new Variable();
957 Variable Flag = new Variable();
958 Variable Term = new Variable();
959 Variable Arg = new Variable();
960 Variable S1 = new Variable();
961 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", Op, Pos)))
962 {
963 foreach (bool l3 in prefixop(Op, Oprec, Aprec))
964 {
965 foreach (bool l4 in possible_right_operand(S0, Flag))
966 {
967 if (YP.lessThan(Flag, 0))
968 {
969 foreach (bool l6 in YP.univ(Term, new ListPair(Op, new ListPair(Pos, Atom.NIL))))
970 {
971 foreach (bool l7 in exprtl0(S0, Term, Precedence, Answer, S))
972 {
973 yield return false;
974 }
975 }
976 goto cutIf1;
977 }
978 if (YP.greaterThan(Oprec, Precedence))
979 {
980 foreach (bool l6 in syntax_error(new ListPair(Atom.a(@"prefix"), new ListPair(Atom.a(@"operator"), new ListPair(Op, new ListPair(Atom.a(@"in"), new ListPair(Atom.a(@"context"), new ListPair(Atom.a(@"with"), new ListPair(Atom.a(@"precedence"), new ListPair(Precedence, Atom.NIL)))))))), S0))
981 {
982 yield return false;
983 }
984 goto cutIf2;
985 }
986 if (YP.greaterThan(Flag, 0))
987 {
988 foreach (bool l6 in parse(S0, Aprec, Arg, S1))
989 {
990 foreach (bool l7 in YP.univ(Term, new ListPair(Op, new ListPair(Pos, new ListPair(Arg, Atom.NIL)))))
991 {
992 foreach (bool l8 in exprtl(S1, Oprec, Term, Precedence, Answer, S))
993 {
994 yield return false;
995 }
996 }
997 yield break;
998 }
999 goto cutIf3;
1000 }
1001 foreach (bool l5 in peepop(S0, S1))
1002 {
1003 foreach (bool l6 in prefix_is_atom(S1, Oprec))
1004 {
1005 foreach (bool l7 in exprtl(S1, Oprec, new Functor2(@"/", Op, Pos), Precedence, Answer, S))
1006 {
1007 yield return false;
1008 }
1009 }
1010 }
1011 foreach (bool l5 in parse(S0, Aprec, Arg, S1))
1012 {
1013 foreach (bool l6 in YP.univ(Term, new ListPair(Op, new ListPair(Pos, new ListPair(Arg, Atom.NIL)))))
1014 {
1015 foreach (bool l7 in exprtl(S1, Oprec, Term, Precedence, Answer, S))
1016 {
1017 yield return false;
1018 }
1019 }
1020 yield break;
1021 }
1022 cutIf3:
1023 cutIf2:
1024 cutIf1:
1025 { }
1026 }
1027 yield break;
1028 }
1029 }
1030 }
1031 {
1032 object S0 = arg2;
1033 Variable Atom_1 = new Variable();
1034 Variable Pos = new Variable();
1035 Variable Term = new Variable();
1036 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", Atom_1, Pos)))
1037 {
1038 foreach (bool l3 in YP.univ(Term, new ListPair(Atom_1, new ListPair(Pos, Atom.NIL))))
1039 {
1040 foreach (bool l4 in exprtl0(S0, Term, Precedence, Answer, S))
1041 {
1042 yield return false;
1043 }
1044 }
1045 }
1046 }
1047 }
1048
1049 public static IEnumerable<bool> cannot_start(object Token, object S0)
1050 {
1051 {
1052 foreach (bool l2 in syntax_error(new ListPair(Token, new ListPair(Atom.a(@"cannot"), new ListPair(Atom.a(@"start"), new ListPair(Atom.a(@"an"), new ListPair(Atom.a(@"expression"), Atom.NIL))))), S0))
1053 {
1054 yield return false;
1055 }
1056 }
1057 }
1058
1059 public static IEnumerable<bool> read_args(object arg1, object arg2, object arg3)
1060 {
1061 {
1062 object S = arg3;
1063 Variable S1 = new Variable();
1064 Variable Term = new Variable();
1065 Variable Rest = new Variable();
1066 Variable S2 = new Variable();
1067 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@","), S1)))
1068 {
1069 foreach (bool l3 in YP.unify(arg2, new ListPair(Term, Rest)))
1070 {
1071 foreach (bool l4 in parse(S1, 999, Term, S2))
1072 {
1073 foreach (bool l5 in read_args(S2, Rest, S))
1074 {
1075 yield return false;
1076 }
1077 yield break;
1078 }
1079 yield break;
1080 }
1081 }
1082 }
1083 {
1084 object S = arg3;
1085 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@")"), S)))
1086 {
1087 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
1088 {
1089 yield return true;
1090 yield break;
1091 }
1092 }
1093 }
1094 {
1095 object S = arg1;
1096 object x2 = arg2;
1097 object x3 = arg3;
1098 foreach (bool l2 in syntax_error(new ListPair(Atom.a(@", or )"), new ListPair(Atom.a(@"expected"), new ListPair(Atom.a(@"in"), new ListPair(Atom.a(@"arguments"), Atom.NIL)))), S))
1099 {
1100 yield return false;
1101 }
1102 }
1103 }
1104
1105 public static IEnumerable<bool> read_list(object arg1, object arg2, object arg3)
1106 {
1107 {
1108 object x1 = arg2;
1109 object x2 = arg3;
1110 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1111 {
1112 foreach (bool l3 in syntax_error(new ListPair(Atom.a(@", | or ]"), new ListPair(Atom.a(@"expected"), new ListPair(Atom.a(@"in"), new ListPair(Atom.a(@"list"), Atom.NIL)))), Atom.NIL))
1113 {
1114 yield return false;
1115 }
1116 }
1117 }
1118 {
1119 object Rest = arg2;
1120 object S = arg3;
1121 Variable Token = new Variable();
1122 Variable S1 = new Variable();
1123 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, S1)))
1124 {
1125 foreach (bool l3 in read_list4(Token, S1, Rest, S))
1126 {
1127 yield return false;
1128 }
1129 }
1130 }
1131 }
1132
1133 public static IEnumerable<bool> read_list4(object arg1, object arg2, object arg3, object arg4)
1134 {
1135 {
1136 object S1 = arg2;
1137 object S = arg4;
1138 Variable Term = new Variable();
1139 Variable Rest = new Variable();
1140 Variable S2 = new Variable();
1141 foreach (bool l2 in YP.unify(arg1, Atom.a(@",")))
1142 {
1143 foreach (bool l3 in YP.unify(arg3, new ListPair(Term, Rest)))
1144 {
1145 foreach (bool l4 in parse(S1, 999, Term, S2))
1146 {
1147 foreach (bool l5 in read_list(S2, Rest, S))
1148 {
1149 yield return false;
1150 }
1151 yield break;
1152 }
1153 yield break;
1154 }
1155 }
1156 }
1157 {
1158 object S1 = arg2;
1159 object Rest = arg3;
1160 object S = arg4;
1161 Variable S2 = new Variable();
1162 foreach (bool l2 in YP.unify(arg1, Atom.a(@"|")))
1163 {
1164 foreach (bool l3 in parse(S1, 999, Rest, S2))
1165 {
1166 foreach (bool l4 in expect(Atom.a(@"]"), S2, S))
1167 {
1168 yield return false;
1169 }
1170 yield break;
1171 }
1172 yield break;
1173 }
1174 }
1175 {
1176 Variable S1 = new Variable();
1177 foreach (bool l2 in YP.unify(arg1, Atom.a(@"]")))
1178 {
1179 foreach (bool l3 in YP.unify(arg2, S1))
1180 {
1181 foreach (bool l4 in YP.unify(arg3, Atom.NIL))
1182 {
1183 foreach (bool l5 in YP.unify(arg4, S1))
1184 {
1185 yield return true;
1186 yield break;
1187 }
1188 }
1189 }
1190 }
1191 }
1192 {
1193 object Token = arg1;
1194 object S1 = arg2;
1195 object x3 = arg3;
1196 object x4 = arg4;
1197 foreach (bool l2 in syntax_error(new ListPair(Atom.a(@", | or ]"), new ListPair(Atom.a(@"expected"), new ListPair(Atom.a(@"in"), new ListPair(Atom.a(@"list"), Atom.NIL)))), new ListPair(Token, S1)))
1198 {
1199 yield return false;
1200 }
1201 }
1202 }
1203
1204 public static IEnumerable<bool> possible_right_operand(object arg1, object arg2)
1205 {
1206 {
1207 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1208 {
1209 foreach (bool l3 in YP.unify(arg2, -1))
1210 {
1211 yield return false;
1212 }
1213 }
1214 }
1215 {
1216 object Flag = arg2;
1217 Variable H = new Variable();
1218 Variable T = new Variable();
1219 foreach (bool l2 in YP.unify(arg1, new ListPair(H, T)))
1220 {
1221 foreach (bool l3 in possible_right_operand3(H, Flag, T))
1222 {
1223 yield return false;
1224 }
1225 }
1226 }
1227 }
1228
1229 public static IEnumerable<bool> possible_right_operand3(object arg1, object arg2, object arg3)
1230 {
1231 {
1232 object x4 = arg3;
1233 Variable x1 = new Variable();
1234 Variable x2 = new Variable();
1235 Variable x3 = new Variable();
1236 foreach (bool l2 in YP.unify(arg1, new Functor3(@"var", x1, x2, x3)))
1237 {
1238 foreach (bool l3 in YP.unify(arg2, 1))
1239 {
1240 yield return false;
1241 }
1242 }
1243 }
1244 {
1245 object x2 = arg3;
1246 Variable x1 = new Variable();
1247 foreach (bool l2 in YP.unify(arg1, new Functor1(@"number", x1)))
1248 {
1249 foreach (bool l3 in YP.unify(arg2, 1))
1250 {
1251 yield return false;
1252 }
1253 }
1254 }
1255 {
1256 object x2 = arg3;
1257 Variable x1 = new Variable();
1258 foreach (bool l2 in YP.unify(arg1, new Functor1(@"string", x1)))
1259 {
1260 foreach (bool l3 in YP.unify(arg2, 1))
1261 {
1262 yield return false;
1263 }
1264 }
1265 }
1266 {
1267 object x1 = arg3;
1268 foreach (bool l2 in YP.unify(arg1, Atom.a(@" (")))
1269 {
1270 foreach (bool l3 in YP.unify(arg2, 1))
1271 {
1272 yield return false;
1273 }
1274 }
1275 }
1276 {
1277 object x1 = arg3;
1278 foreach (bool l2 in YP.unify(arg1, Atom.a(@"(")))
1279 {
1280 foreach (bool l3 in YP.unify(arg2, 0))
1281 {
1282 yield return false;
1283 }
1284 }
1285 }
1286 {
1287 object x1 = arg3;
1288 foreach (bool l2 in YP.unify(arg1, Atom.a(@")")))
1289 {
1290 foreach (bool l3 in YP.unify(arg2, -1))
1291 {
1292 yield return false;
1293 }
1294 }
1295 }
1296 {
1297 Variable x1 = new Variable();
1298 foreach (bool l2 in YP.unify(arg1, Atom.a(@"[")))
1299 {
1300 foreach (bool l3 in YP.unify(arg2, 0))
1301 {
1302 foreach (bool l4 in YP.unify(arg3, new ListPair(Atom.a(@"]"), x1)))
1303 {
1304 yield return true;
1305 yield break;
1306 }
1307 }
1308 }
1309 }
1310 {
1311 object x1 = arg3;
1312 foreach (bool l2 in YP.unify(arg1, Atom.a(@"[")))
1313 {
1314 foreach (bool l3 in YP.unify(arg2, 1))
1315 {
1316 yield return false;
1317 }
1318 }
1319 }
1320 {
1321 object x1 = arg3;
1322 foreach (bool l2 in YP.unify(arg1, Atom.a(@"]")))
1323 {
1324 foreach (bool l3 in YP.unify(arg2, -1))
1325 {
1326 yield return false;
1327 }
1328 }
1329 }
1330 {
1331 Variable x1 = new Variable();
1332 foreach (bool l2 in YP.unify(arg1, Atom.a(@"{")))
1333 {
1334 foreach (bool l3 in YP.unify(arg2, 0))
1335 {
1336 foreach (bool l4 in YP.unify(arg3, new ListPair(Atom.a(@"}"), x1)))
1337 {
1338 yield return true;
1339 yield break;
1340 }
1341 }
1342 }
1343 }
1344 {
1345 object x1 = arg3;
1346 foreach (bool l2 in YP.unify(arg1, Atom.a(@"{")))
1347 {
1348 foreach (bool l3 in YP.unify(arg2, 1))
1349 {
1350 yield return false;
1351 }
1352 }
1353 }
1354 {
1355 object x1 = arg3;
1356 foreach (bool l2 in YP.unify(arg1, Atom.a(@"}")))
1357 {
1358 foreach (bool l3 in YP.unify(arg2, -1))
1359 {
1360 yield return false;
1361 }
1362 }
1363 }
1364 {
1365 object x1 = arg3;
1366 foreach (bool l2 in YP.unify(arg1, Atom.a(@",")))
1367 {
1368 foreach (bool l3 in YP.unify(arg2, -1))
1369 {
1370 yield return false;
1371 }
1372 }
1373 }
1374 {
1375 object x1 = arg3;
1376 foreach (bool l2 in YP.unify(arg1, Atom.a(@"|")))
1377 {
1378 foreach (bool l3 in YP.unify(arg2, -1))
1379 {
1380 yield return false;
1381 }
1382 }
1383 }
1384 {
1385 object x3 = arg3;
1386 Variable x1 = new Variable();
1387 Variable x2 = new Variable();
1388 foreach (bool l2 in YP.unify(arg1, new Functor2(@"atom", x1, x2)))
1389 {
1390 foreach (bool l3 in YP.unify(arg2, 0))
1391 {
1392 yield return false;
1393 }
1394 }
1395 }
1396 }
1397
1398 public static IEnumerable<bool> peepop(object arg1, object arg2)
1399 {
1400 {
1401 Variable F = new Variable();
1402 Variable Pos = new Variable();
1403 Variable S1 = new Variable();
1404 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"atom", F, Pos), new ListPair(Atom.a(@"("), S1))))
1405 {
1406 foreach (bool l3 in YP.unify(arg2, new ListPair(new Functor2(@"atom", F, Pos), new ListPair(Atom.a(@"("), S1))))
1407 {
1408 yield return true;
1409 yield break;
1410 }
1411 }
1412 }
1413 {
1414 Variable F = new Variable();
1415 Variable Pos = new Variable();
1416 Variable S1 = new Variable();
1417 Variable L = new Variable();
1418 Variable P = new Variable();
1419 Variable R = new Variable();
1420 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"atom", F, Pos), S1)))
1421 {
1422 foreach (bool l3 in YP.unify(arg2, new ListPair(new Functor(Atom.a(@"infixop", Atom.a(@"")), new object[] { new Functor2(@"/", F, Pos), L, P, R }), S1)))
1423 {
1424 foreach (bool l4 in infixop(F, L, P, R))
1425 {
1426 yield return false;
1427 }
1428 }
1429 }
1430 }
1431 {
1432 Variable F = new Variable();
1433 Variable Pos = new Variable();
1434 Variable S1 = new Variable();
1435 Variable L = new Variable();
1436 Variable P = new Variable();
1437 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"atom", F, Pos), S1)))
1438 {
1439 foreach (bool l3 in YP.unify(arg2, new ListPair(new Functor3(Atom.a(@"postfixop", Atom.a(@"")), new Functor2(@"/", F, Pos), L, P), S1)))
1440 {
1441 foreach (bool l4 in postfixop(F, L, P))
1442 {
1443 yield return false;
1444 }
1445 }
1446 }
1447 }
1448 {
1449 Variable S0 = new Variable();
1450 foreach (bool l2 in YP.unify(arg1, S0))
1451 {
1452 foreach (bool l3 in YP.unify(arg2, S0))
1453 {
1454 yield return false;
1455 }
1456 }
1457 }
1458 }
1459
1460 public static IEnumerable<bool> prefix_is_atom(object arg1, object arg2)
1461 {
1462 {
1463 object Precedence = arg2;
1464 Variable Token = new Variable();
1465 Variable x2 = new Variable();
1466 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, x2)))
1467 {
1468 foreach (bool l3 in prefix_is_atom(Token, Precedence))
1469 {
1470 yield return false;
1471 }
1472 }
1473 }
1474 {
1475 object P = arg2;
1476 Variable x1 = new Variable();
1477 Variable L = new Variable();
1478 Variable x3 = new Variable();
1479 Variable x4 = new Variable();
1480 foreach (bool l2 in YP.unify(arg1, new Functor(Atom.a(@"infixop", Atom.a(@"")), new object[] { x1, L, x3, x4 })))
1481 {
1482 if (YP.greaterThanOrEqual(L, P))
1483 {
1484 yield return false;
1485 }
1486 }
1487 }
1488 {
1489 object P = arg2;
1490 Variable x1 = new Variable();
1491 Variable L = new Variable();
1492 Variable x3 = new Variable();
1493 foreach (bool l2 in YP.unify(arg1, new Functor3(Atom.a(@"postfixop", Atom.a(@"")), x1, L, x3)))
1494 {
1495 if (YP.greaterThanOrEqual(L, P))
1496 {
1497 yield return false;
1498 }
1499 }
1500 }
1501 {
1502 object x1 = arg2;
1503 foreach (bool l2 in YP.unify(arg1, Atom.a(@")")))
1504 {
1505 yield return false;
1506 }
1507 }
1508 {
1509 object x1 = arg2;
1510 foreach (bool l2 in YP.unify(arg1, Atom.a(@"]")))
1511 {
1512 yield return false;
1513 }
1514 }
1515 {
1516 object x1 = arg2;
1517 foreach (bool l2 in YP.unify(arg1, Atom.a(@"}")))
1518 {
1519 yield return false;
1520 }
1521 }
1522 {
1523 object P = arg2;
1524 foreach (bool l2 in YP.unify(arg1, Atom.a(@"|")))
1525 {
1526 if (YP.greaterThanOrEqual(1100, P))
1527 {
1528 yield return false;
1529 }
1530 }
1531 }
1532 {
1533 object P = arg2;
1534 foreach (bool l2 in YP.unify(arg1, Atom.a(@",")))
1535 {
1536 if (YP.greaterThanOrEqual(1000, P))
1537 {
1538 yield return false;
1539 }
1540 }
1541 }
1542 {
1543 object x1 = arg2;
1544 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1545 {
1546 yield return false;
1547 }
1548 }
1549 }
1550
1551 public static IEnumerable<bool> exprtl0(object arg1, object arg2, object arg3, object arg4, object arg5)
1552 {
1553 {
1554 object x2 = arg3;
1555 Variable Term = new Variable();
1556 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1557 {
1558 foreach (bool l3 in YP.unify(arg2, Term))
1559 {
1560 foreach (bool l4 in YP.unify(arg4, Term))
1561 {
1562 foreach (bool l5 in YP.unify(arg5, Atom.NIL))
1563 {
1564 yield return false;
1565 }
1566 }
1567 }
1568 }
1569 }
1570 {
1571 object Term = arg2;
1572 object Precedence = arg3;
1573 object Answer = arg4;
1574 object S = arg5;
1575 Variable Token = new Variable();
1576 Variable S1 = new Variable();
1577 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, S1)))
1578 {
1579 foreach (bool l3 in exprtl0_6(Token, Term, Precedence, Answer, S, S1))
1580 {
1581 yield return false;
1582 }
1583 }
1584 }
1585 }
1586
1587 public static IEnumerable<bool> exprtl0_6(object arg1, object arg2, object arg3, object arg4, object arg5, object arg6)
1588 {
1589 {
1590 object x2 = arg3;
1591 object S1 = arg6;
1592 Variable Term = new Variable();
1593 foreach (bool l2 in YP.unify(arg1, Atom.a(@"}")))
1594 {
1595 foreach (bool l3 in YP.unify(arg2, Term))
1596 {
1597 foreach (bool l4 in YP.unify(arg4, Term))
1598 {
1599 foreach (bool l5 in YP.unify(arg5, new ListPair(Atom.a(@"}"), S1)))
1600 {
1601 yield return false;
1602 }
1603 }
1604 }
1605 }
1606 }
1607 {
1608 object x2 = arg3;
1609 object S1 = arg6;
1610 Variable Term = new Variable();
1611 foreach (bool l2 in YP.unify(arg1, Atom.a(@"]")))
1612 {
1613 foreach (bool l3 in YP.unify(arg2, Term))
1614 {
1615 foreach (bool l4 in YP.unify(arg4, Term))
1616 {
1617 foreach (bool l5 in YP.unify(arg5, new ListPair(Atom.a(@"]"), S1)))
1618 {
1619 yield return false;
1620 }
1621 }
1622 }
1623 }
1624 }
1625 {
1626 object x2 = arg3;
1627 object S1 = arg6;
1628 Variable Term = new Variable();
1629 foreach (bool l2 in YP.unify(arg1, Atom.a(@")")))
1630 {
1631 foreach (bool l3 in YP.unify(arg2, Term))
1632 {
1633 foreach (bool l4 in YP.unify(arg4, Term))
1634 {
1635 foreach (bool l5 in YP.unify(arg5, new ListPair(Atom.a(@")"), S1)))
1636 {
1637 yield return false;
1638 }
1639 }
1640 }
1641 }
1642 }
1643 {
1644 object Term = arg2;
1645 object Precedence = arg3;
1646 object Answer = arg4;
1647 object S = arg5;
1648 object S1 = arg6;
1649 Variable Next = new Variable();
1650 Variable S2 = new Variable();
1651 foreach (bool l2 in YP.unify(arg1, Atom.a(@",")))
1652 {
1653 if (YP.greaterThanOrEqual(Precedence, 1000))
1654 {
1655 foreach (bool l4 in parse(S1, 1000, Next, S2))
1656 {
1657 foreach (bool l5 in exprtl(S2, 1000, new Functor2(@",", Term, Next), Precedence, Answer, S))
1658 {
1659 yield return false;
1660 }
1661 yield break;
1662 }
1663 goto cutIf1;
1664 }
1665 foreach (bool l3 in YP.unify(Answer, Term))
1666 {
1667 foreach (bool l4 in YP.unify(S, new ListPair(Atom.a(@","), S1)))
1668 {
1669 yield return false;
1670 }
1671 }
1672 cutIf1:
1673 { }
1674 }
1675 }
1676 {
1677 object Term = arg2;
1678 object Precedence = arg3;
1679 object Answer = arg4;
1680 object S = arg5;
1681 object S1 = arg6;
1682 Variable Next = new Variable();
1683 Variable S2 = new Variable();
1684 foreach (bool l2 in YP.unify(arg1, Atom.a(@"|")))
1685 {
1686 if (YP.greaterThanOrEqual(Precedence, 1100))
1687 {
1688 foreach (bool l4 in parse(S1, 1100, Next, S2))
1689 {
1690 foreach (bool l5 in exprtl(S2, 1100, new Functor2(@";", Term, Next), Precedence, Answer, S))
1691 {
1692 yield return false;
1693 }
1694 yield break;
1695 }
1696 goto cutIf2;
1697 }
1698 foreach (bool l3 in YP.unify(Answer, Term))
1699 {
1700 foreach (bool l4 in YP.unify(S, new ListPair(Atom.a(@"|"), S1)))
1701 {
1702 yield return false;
1703 }
1704 }
1705 cutIf2:
1706 { }
1707 }
1708 }
1709 {
1710 object x2 = arg2;
1711 object x3 = arg3;
1712 object x4 = arg4;
1713 object x5 = arg5;
1714 object S1 = arg6;
1715 Variable S = new Variable();
1716 foreach (bool l2 in YP.unify(arg1, new Functor1(@"string", S)))
1717 {
1718 foreach (bool l3 in cannot_follow(Atom.a(@"chars"), new Functor1(@"string", S), S1))
1719 {
1720 yield return false;
1721 }
1722 }
1723 }
1724 {
1725 object x2 = arg2;
1726 object x3 = arg3;
1727 object x4 = arg4;
1728 object x5 = arg5;
1729 object S1 = arg6;
1730 Variable N = new Variable();
1731 foreach (bool l2 in YP.unify(arg1, new Functor1(@"number", N)))
1732 {
1733 foreach (bool l3 in cannot_follow(Atom.a(@"number"), new Functor1(@"number", N), S1))
1734 {
1735 yield return false;
1736 }
1737 }
1738 }
1739 {
1740 object Term = arg2;
1741 object Precedence = arg3;
1742 object Answer = arg4;
1743 object S = arg5;
1744 Variable S1 = new Variable();
1745 foreach (bool l2 in YP.unify(arg1, Atom.a(@"{")))
1746 {
1747 foreach (bool l3 in YP.unify(arg6, new ListPair(Atom.a(@"}"), S1)))
1748 {
1749 foreach (bool l4 in exprtl0_atom(Atom.a(@"{}"), Term, Precedence, Answer, S, S1))
1750 {
1751 yield return false;
1752 }
1753 yield break;
1754 }
1755 }
1756 }
1757 {
1758 object x1 = arg2;
1759 object x2 = arg3;
1760 object x3 = arg4;
1761 object x4 = arg5;
1762 object S1 = arg6;
1763 foreach (bool l2 in YP.unify(arg1, Atom.a(@"{")))
1764 {
1765 foreach (bool l3 in cannot_follow(Atom.a(@"brace"), Atom.a(@"{"), S1))
1766 {
1767 yield return false;
1768 }
1769 }
1770 }
1771 {
1772 object Term = arg2;
1773 object Precedence = arg3;
1774 object Answer = arg4;
1775 object S = arg5;
1776 Variable S1 = new Variable();
1777 foreach (bool l2 in YP.unify(arg1, Atom.a(@"[")))
1778 {
1779 foreach (bool l3 in YP.unify(arg6, new ListPair(Atom.a(@"]"), S1)))
1780 {
1781 foreach (bool l4 in exprtl0_atom(Atom.NIL, Term, Precedence, Answer, S, S1))
1782 {
1783 yield return false;
1784 }
1785 yield break;
1786 }
1787 }
1788 }
1789 {
1790 object x1 = arg2;
1791 object x2 = arg3;
1792 object x3 = arg4;
1793 object x4 = arg5;
1794 object S1 = arg6;
1795 foreach (bool l2 in YP.unify(arg1, Atom.a(@"[")))
1796 {
1797 foreach (bool l3 in cannot_follow(Atom.a(@"bracket"), Atom.a(@"["), S1))
1798 {
1799 yield return false;
1800 }
1801 }
1802 }
1803 {
1804 object x1 = arg2;
1805 object x2 = arg3;
1806 object x3 = arg4;
1807 object x4 = arg5;
1808 object S1 = arg6;
1809 foreach (bool l2 in YP.unify(arg1, Atom.a(@"(")))
1810 {
1811 foreach (bool l3 in cannot_follow(Atom.a(@"parenthesis"), Atom.a(@"("), S1))
1812 {
1813 yield return false;
1814 }
1815 }
1816 }
1817 {
1818 object x1 = arg2;
1819 object x2 = arg3;
1820 object x3 = arg4;
1821 object x4 = arg5;
1822 object S1 = arg6;
1823 foreach (bool l2 in YP.unify(arg1, Atom.a(@" (")))
1824 {
1825 foreach (bool l3 in cannot_follow(Atom.a(@"parenthesis"), Atom.a(@"("), S1))
1826 {
1827 yield return false;
1828 }
1829 }
1830 }
1831 {
1832 object x4 = arg2;
1833 object x5 = arg3;
1834 object x6 = arg4;
1835 object x7 = arg5;
1836 object S1 = arg6;
1837 Variable A = new Variable();
1838 Variable B = new Variable();
1839 Variable P = new Variable();
1840 foreach (bool l2 in YP.unify(arg1, new Functor3(@"var", A, B, P)))
1841 {
1842 foreach (bool l3 in cannot_follow(Atom.a(@"variable"), new Functor3(@"var", A, B, P), S1))
1843 {
1844 yield return false;
1845 }
1846 }
1847 }
1848 {
1849 object Term = arg2;
1850 object Precedence = arg3;
1851 object Answer = arg4;
1852 object S = arg5;
1853 object S1 = arg6;
1854 Variable F = new Variable();
1855 Variable P = new Variable();
1856 foreach (bool l2 in YP.unify(arg1, new Functor2(@"atom", F, P)))
1857 {
1858 foreach (bool l3 in exprtl0_atom(new Functor2(@"/", F, P), Term, Precedence, Answer, S, S1))
1859 {
1860 yield return false;
1861 }
1862 }
1863 }
1864 }
1865
1866 public static IEnumerable<bool> exprtl0_atom(object arg1, object arg2, object arg3, object arg4, object arg5, object S1)
1867 {
1868 {
1869 object Term = arg2;
1870 object Precedence = arg3;
1871 object Answer = arg4;
1872 object S = arg5;
1873 Variable F = new Variable();
1874 Variable Pos = new Variable();
1875 Variable L1 = new Variable();
1876 Variable O1 = new Variable();
1877 Variable R1 = new Variable();
1878 Variable L2 = new Variable();
1879 Variable O2 = new Variable();
1880 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", F, Pos)))
1881 {
1882 foreach (bool l3 in ambigop(F, Precedence, L1, O1, R1, L2, O2))
1883 {
1884 foreach (bool l4 in prefix_is_atom(S1, Precedence))
1885 {
1886 foreach (bool l5 in exprtl(new ListPair(new Functor3(Atom.a(@"postfixop", Atom.a(@"")), new Functor2(@"/", F, Pos), L2, O2), S1), 0, Term, Precedence, Answer, S))
1887 {
1888 yield return false;
1889 }
1890 yield break;
1891 }
1892 foreach (bool l4 in exprtl(new ListPair(new Functor(Atom.a(@"infixop", Atom.a(@"")), new object[] { new Functor2(@"/", F, Pos), L1, O1, R1 }), S1), 0, Term, Precedence, Answer, S))
1893 {
1894 yield return false;
1895 }
1896 foreach (bool l4 in exprtl(new ListPair(new Functor3(Atom.a(@"postfixop", Atom.a(@"")), new Functor2(@"/", F, Pos), L2, O2), S1), 0, Term, Precedence, Answer, S))
1897 {
1898 yield return false;
1899 }
1900 yield break;
1901 }
1902 }
1903 }
1904 {
1905 object Term = arg2;
1906 object Precedence = arg3;
1907 object Answer = arg4;
1908 object S = arg5;
1909 Variable F = new Variable();
1910 Variable Pos = new Variable();
1911 Variable L1 = new Variable();
1912 Variable O1 = new Variable();
1913 Variable R1 = new Variable();
1914 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", F, Pos)))
1915 {
1916 foreach (bool l3 in infixop(F, L1, O1, R1))
1917 {
1918 foreach (bool l4 in exprtl(new ListPair(new Functor(Atom.a(@"infixop", Atom.a(@"")), new object[] { new Functor2(@"/", F, Pos), L1, O1, R1 }), S1), 0, Term, Precedence, Answer, S))
1919 {
1920 yield return false;
1921 }
1922 yield break;
1923 }
1924 }
1925 }
1926 {
1927 object Term = arg2;
1928 object Precedence = arg3;
1929 object Answer = arg4;
1930 object S = arg5;
1931 Variable F = new Variable();
1932 Variable Pos = new Variable();
1933 Variable L2 = new Variable();
1934 Variable O2 = new Variable();
1935 foreach (bool l2 in YP.unify(arg1, new Functor2(@"/", F, Pos)))
1936 {
1937 foreach (bool l3 in postfixop(F, L2, O2))
1938 {
1939 foreach (bool l4 in exprtl(new ListPair(new Functor3(Atom.a(@"postfixop", Atom.a(@"")), new Functor2(@"/", F, Pos), L2, O2), S1), 0, Term, Precedence, Answer, S))
1940 {
1941 yield return false;
1942 }
1943 yield break;
1944 }
1945 }
1946 }
1947 {
1948 object X = arg1;
1949 object x2 = arg2;
1950 object x3 = arg3;
1951 object x4 = arg4;
1952 object x5 = arg5;
1953 Variable x7 = new Variable();
1954 foreach (bool l2 in syntax_error(new ListPair(new Functor2(@"-", Atom.a(@"non"), Atom.a(@"operator")), new ListPair(X, new ListPair(Atom.a(@"follows"), new ListPair(Atom.a(@"expression"), Atom.NIL)))), new ListPair(new Functor2(@"atom", X, x7), S1)))
1955 {
1956 yield return false;
1957 }
1958 yield break;
1959 }
1960 }
1961
1962 public static IEnumerable<bool> cannot_follow(object Type, object Token, object Tokens)
1963 {
1964 {
1965 foreach (bool l2 in syntax_error(new ListPair(Type, new ListPair(Atom.a(@"follows"), new ListPair(Atom.a(@"expression"), Atom.NIL))), new ListPair(Token, Tokens)))
1966 {
1967 yield return false;
1968 }
1969 }
1970 }
1971
1972 public static IEnumerable<bool> exprtl(object arg1, object arg2, object arg3, object arg4, object arg5, object arg6)
1973 {
1974 {
1975 object x1 = arg2;
1976 object x3 = arg4;
1977 Variable Term = new Variable();
1978 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1979 {
1980 foreach (bool l3 in YP.unify(arg3, Term))
1981 {
1982 foreach (bool l4 in YP.unify(arg5, Term))
1983 {
1984 foreach (bool l5 in YP.unify(arg6, Atom.NIL))
1985 {
1986 yield return false;
1987 }
1988 }
1989 }
1990 }
1991 }
1992 {
1993 object C = arg2;
1994 object Term = arg3;
1995 object Precedence = arg4;
1996 object Answer = arg5;
1997 object S = arg6;
1998 Variable Token = new Variable();
1999 Variable Tokens = new Variable();
2000 foreach (bool l2 in YP.unify(arg1, new ListPair(Token, Tokens)))
2001 {
2002 foreach (bool l3 in exprtl_7(Token, C, Term, Precedence, Answer, S, Tokens))
2003 {
2004 yield return false;
2005 }
2006 }
2007 }
2008 }
2009
2010 public static IEnumerable<bool> exprtl_7(object arg1, object arg2, object arg3, object arg4, object arg5, object arg6, object arg7)
2011 {
2012 {
2013 object C = arg2;
2014 object Term = arg3;
2015 object Precedence = arg4;
2016 object Answer = arg5;
2017 object S = arg6;
2018 object S1 = arg7;
2019 Variable F = new Variable();
2020 Variable Pos = new Variable();
2021 Variable L = new Variable();
2022 Variable O = new Variable();
2023 Variable R = new Variable();
2024 Variable Other = new Variable();
2025 Variable S2 = new Variable();
2026 Variable Expr = new Variable();
2027 foreach (bool l2 in YP.unify(arg1, new Functor(Atom.a(@"infixop", Atom.a(@"")), new object[] { new Functor2(@"/", F, Pos), L, O, R })))
2028 {
2029 if (YP.greaterThanOrEqual(Precedence, O))
2030 {
2031 if (YP.lessThanOrEqual(C, L))
2032 {
2033 foreach (bool l5 in parse(S1, R, Other, S2))
2034 {
2035 foreach (bool l6 in YP.univ(Expr, new ListPair(F, new ListPair(Pos, new ListPair(Term, new ListPair(Other, Atom.NIL))))))
2036 {
2037 foreach (bool l7 in exprtl(S2, O, Expr, Precedence, Answer, S))
2038 {
2039 yield return false;
2040 }
2041 }
2042 }
2043 yield break;
2044 }
2045 }
2046 }
2047 }
2048 {
2049 object C = arg2;
2050 object Term = arg3;
2051 object Precedence = arg4;
2052 object Answer = arg5;
2053 object S = arg6;
2054 object S1 = arg7;
2055 Variable F = new Variable();
2056 Variable Pos = new Variable();
2057 Variable L = new Variable();
2058 Variable O = new Variable();
2059 Variable Expr = new Variable();
2060 Variable S2 = new Variable();
2061 foreach (bool l2 in YP.unify(arg1, new Functor3(Atom.a(@"postfixop", Atom.a(@"")), new Functor2(@"/", F, Pos), L, O)))
2062 {
2063 if (YP.greaterThanOrEqual(Precedence, O))
2064 {
2065 if (YP.lessThanOrEqual(C, L))
2066 {
2067 foreach (bool l5 in YP.univ(Expr, new ListPair(F, new ListPair(Pos, new ListPair(Term, Atom.NIL)))))
2068 {
2069 foreach (bool l6 in peepop(S1, S2))
2070 {
2071 foreach (bool l7 in exprtl(S2, O, Expr, Precedence, Answer, S))
2072 {
2073 yield return false;
2074 }
2075 }
2076 }
2077 yield break;
2078 }
2079 }
2080 }
2081 }
2082 {
2083 object C = arg2;
2084 object Term = arg3;
2085 object Precedence = arg4;
2086 object Answer = arg5;
2087 object S = arg6;
2088 object S1 = arg7;
2089 Variable Next = new Variable();
2090 Variable S2 = new Variable();
2091 foreach (bool l2 in YP.unify(arg1, Atom.a(@",")))
2092 {
2093 if (YP.greaterThanOrEqual(Precedence, 1000))
2094 {
2095 if (YP.lessThan(C, 1000))
2096 {
2097 foreach (bool l5 in parse(S1, 1000, Next, S2))
2098 {
2099 foreach (bool l6 in exprtl(S2, 1000, new Functor2(@",", Term, Next), Precedence, Answer, S))
2100 {
2101 yield return false;
2102 }
2103 }
2104 yield break;
2105 }
2106 }
2107 }
2108 }
2109 {
2110 object C = arg2;
2111 object Term = arg3;
2112 object Precedence = arg4;
2113 object Answer = arg5;
2114 object S = arg6;
2115 object S1 = arg7;
2116 Variable Next = new Variable();
2117 Variable S2 = new Variable();
2118 foreach (bool l2 in YP.unify(arg1, Atom.a(@"|")))
2119 {
2120 if (YP.greaterThanOrEqual(Precedence, 1100))
2121 {
2122 if (YP.lessThan(C, 1100))
2123 {
2124 foreach (bool l5 in parse(S1, 1100, Next, S2))
2125 {
2126 foreach (bool l6 in exprtl(S2, 1100, new Functor2(@";", Term, Next), Precedence, Answer, S))
2127 {
2128 yield return false;
2129 }
2130 }
2131 yield break;
2132 }
2133 }
2134 }
2135 }
2136 {
2137 object Token = arg1;
2138 object x2 = arg2;
2139 object x4 = arg4;
2140 object Tokens = arg7;
2141 Variable Term = new Variable();
2142 foreach (bool l2 in YP.unify(arg3, Term))
2143 {
2144 foreach (bool l3 in YP.unify(arg5, Term))
2145 {
2146 foreach (bool l4 in YP.unify(arg6, new ListPair(Token, Tokens)))
2147 {
2148 yield return false;
2149 }
2150 }
2151 }
2152 }
2153 }
2154
2155 public static IEnumerable<bool> syntax_error(object _Message, object _List)
2156 {
2157 {
2158 yield break;
2159 }
2160 }
2161
2162 public static IEnumerable<bool> syntax_error(object _List)
2163 {
2164 {
2165 yield break;
2166 }
2167 }
2168
2169 public static IEnumerable<bool> prefixop(object F, object O, object Q)
2170 {
2171 {
2172 foreach (bool l2 in YP.current_op(O, Atom.a(@"fx"), F))
2173 {
2174 foreach (bool l3 in YP.unify(Q, YP.subtract(O, 1)))
2175 {
2176 yield return false;
2177 }
2178 goto cutIf1;
2179 }
2180 foreach (bool l2 in YP.current_op(O, Atom.a(@"fy"), F))
2181 {
2182 foreach (bool l3 in YP.unify(Q, O))
2183 {
2184 yield return false;
2185 }
2186 goto cutIf2;
2187 }
2188 cutIf2:
2189 cutIf1:
2190 { }
2191 }
2192 }
2193
2194 public static IEnumerable<bool> postfixop(object F, object P, object O)
2195 {
2196 {
2197 foreach (bool l2 in YP.current_op(O, Atom.a(@"xf"), F))
2198 {
2199 foreach (bool l3 in YP.unify(P, YP.subtract(O, 1)))
2200 {
2201 yield return false;
2202 }
2203 goto cutIf1;
2204 }
2205 foreach (bool l2 in YP.current_op(O, Atom.a(@"yf"), F))
2206 {
2207 foreach (bool l3 in YP.unify(P, O))
2208 {
2209 yield return false;
2210 }
2211 goto cutIf2;
2212 }
2213 cutIf2:
2214 cutIf1:
2215 { }
2216 }
2217 }
2218
2219 public static IEnumerable<bool> infixop(object F, object P, object O, object Q)
2220 {
2221 {
2222 foreach (bool l2 in YP.current_op(O, Atom.a(@"xfy"), F))
2223 {
2224 foreach (bool l3 in YP.unify(P, YP.subtract(O, 1)))
2225 {
2226 foreach (bool l4 in YP.unify(Q, O))
2227 {
2228 yield return false;
2229 }
2230 }
2231 goto cutIf1;
2232 }
2233 foreach (bool l2 in YP.current_op(O, Atom.a(@"xfx"), F))
2234 {
2235 foreach (bool l3 in YP.unify(P, YP.subtract(O, 1)))
2236 {
2237 foreach (bool l4 in YP.unify(Q, P))
2238 {
2239 yield return false;
2240 }
2241 }
2242 goto cutIf2;
2243 }
2244 foreach (bool l2 in YP.current_op(O, Atom.a(@"yfx"), F))
2245 {
2246 foreach (bool l3 in YP.unify(Q, YP.subtract(O, 1)))
2247 {
2248 foreach (bool l4 in YP.unify(P, O))
2249 {
2250 yield return false;
2251 }
2252 }
2253 goto cutIf3;
2254 }
2255 cutIf3:
2256 cutIf2:
2257 cutIf1:
2258 { }
2259 }
2260 }
2261
2262 public static IEnumerable<bool> ambigop(object F, object Precedence, object L1, object O1, object R1, object L2, object O2)
2263 {
2264 {
2265 foreach (bool l2 in postfixop(F, L2, O2))
2266 {
2267 if (YP.lessThanOrEqual(O2, Precedence))
2268 {
2269 foreach (bool l4 in infixop(F, L1, O1, R1))
2270 {
2271 if (YP.lessThanOrEqual(O1, Precedence))
2272 {
2273 yield return false;
2274 }
2275 }
2276 }
2277 }
2278 }
2279 }
2280
2281 public static IEnumerable<bool> read_tokens1(object arg1)
2282 {
2283 {
2284 object TokenList = arg1;
2285 Variable C1 = new Variable();
2286 Variable _X = new Variable();
2287 Variable ListOfTokens = new Variable();
2288 foreach (bool l2 in YP.get_code(C1))
2289 {
2290 foreach (bool l3 in read_tokens(C1, _X, ListOfTokens))
2291 {
2292 foreach (bool l4 in YP.unify(TokenList, ListOfTokens))
2293 {
2294 yield return false;
2295 }
2296 yield break;
2297 }
2298 }
2299 }
2300 {
2301 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"atom", Atom.a(@"end_of_file"), 0), Atom.NIL)))
2302 {
2303 yield return false;
2304 }
2305 }
2306 }
2307
2308 public static IEnumerable<bool> read_tokens2(object arg1, object arg2)
2309 {
2310 {
2311 object TokenList = arg1;
2312 object Dictionary = arg2;
2313 Variable C1 = new Variable();
2314 Variable Dict = new Variable();
2315 Variable ListOfTokens = new Variable();
2316 foreach (bool l2 in YP.get_code(C1))
2317 {
2318 foreach (bool l3 in read_tokens(C1, Dict, ListOfTokens))
2319 {
2320 foreach (bool l4 in terminate_list(Dict))
2321 {
2322 foreach (bool l5 in YP.unify(Dictionary, Dict))
2323 {
2324 foreach (bool l6 in YP.unify(TokenList, ListOfTokens))
2325 {
2326 yield return false;
2327 }
2328 }
2329 yield break;
2330 }
2331 }
2332 }
2333 }
2334 {
2335 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"atom", Atom.a(@"end_of_file"), 0), Atom.NIL)))
2336 {
2337 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
2338 {
2339 yield return false;
2340 }
2341 }
2342 }
2343 }
2344
2345 public static IEnumerable<bool> terminate_list(object arg1)
2346 {
2347 {
2348 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
2349 {
2350 yield return false;
2351 }
2352 }
2353 {
2354 Variable x1 = new Variable();
2355 Variable Tail = new Variable();
2356 foreach (bool l2 in YP.unify(arg1, new ListPair(x1, Tail)))
2357 {
2358 foreach (bool l3 in terminate_list(Tail))
2359 {
2360 yield return false;
2361 }
2362 }
2363 }
2364 }
2365
2366 public static IEnumerable<bool> read_special(object arg1, object Dict, object arg3)
2367 {
2368 {
2369 object Tokens = arg3;
2370 foreach (bool l2 in YP.unify(arg1, 95))
2371 {
2372 foreach (bool l3 in read_variable(95, Dict, Tokens))
2373 {
2374 yield return false;
2375 }
2376 }
2377 }
2378 {
2379 object Tokens = arg3;
2380 foreach (bool l2 in YP.unify(arg1, 247))
2381 {
2382 foreach (bool l3 in read_symbol(247, Dict, Tokens))
2383 {
2384 yield return false;
2385 }
2386 }
2387 }
2388 {
2389 object Tokens = arg3;
2390 foreach (bool l2 in YP.unify(arg1, 215))
2391 {
2392 foreach (bool l3 in read_symbol(215, Dict, Tokens))
2393 {
2394 yield return false;
2395 }
2396 }
2397 }
2398 {
2399 Variable StartPos = new Variable();
2400 Variable EndPos = new Variable();
2401 Variable Tokens = new Variable();
2402 Variable Ch = new Variable();
2403 Variable NextCh = new Variable();
2404 foreach (bool l2 in YP.unify(arg1, 37))
2405 {
2406 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"comment", StartPos, EndPos), Tokens)))
2407 {
2408 foreach (bool l4 in get_current_position(StartPos))
2409 {
2410 foreach (bool l5 in YP.repeat())
2411 {
2412 foreach (bool l6 in YP.get_code(Ch))
2413 {
2414 if (YP.lessThan(Ch, new ListPair(32, Atom.NIL)))
2415 {
2416 if (YP.notEqual(Ch, 9))
2417 {
2418 if (YP.termNotEqual(Ch, -1))
2419 {
2420 foreach (bool l10 in get_current_position(EndPos))
2421 {
2422 foreach (bool l11 in YP.get_code(NextCh))
2423 {
2424 foreach (bool l12 in read_tokens(NextCh, Dict, Tokens))
2425 {
2426 yield return false;
2427 }
2428 }
2429 }
2430 }
2431 yield break;
2432 }
2433 }
2434 }
2435 }
2436 }
2437 }
2438 }
2439 }
2440 {
2441 object T = arg3;
2442 Variable C2 = new Variable();
2443 Variable StartPos = new Variable();
2444 Variable EndPos = new Variable();
2445 Variable Tokens = new Variable();
2446 Variable StartPos1 = new Variable();
2447 Variable NextCh = new Variable();
2448 Variable Chars = new Variable();
2449 foreach (bool l2 in YP.unify(arg1, 47))
2450 {
2451 foreach (bool l3 in YP.get_code(C2))
2452 {
2453 if (YP.equal(C2, new ListPair(42, Atom.NIL)))
2454 {
2455 foreach (bool l5 in YP.unify(T, new ListPair(new Functor2(@"comment", StartPos, EndPos), Tokens)))
2456 {
2457 foreach (bool l6 in get_current_position(StartPos1))
2458 {
2459 foreach (bool l7 in YP.unify(StartPos, YP.subtract(StartPos1, 1)))
2460 {
2461 foreach (bool l8 in read_solidus(32, NextCh))
2462 {
2463 foreach (bool l9 in get_current_position(EndPos))
2464 {
2465 foreach (bool l10 in read_tokens(NextCh, Dict, Tokens))
2466 {
2467 yield return false;
2468 }
2469 }
2470 }
2471 }
2472 }
2473 }
2474 goto cutIf1;
2475 }
2476 foreach (bool l4 in YP.unify(T, Tokens))
2477 {
2478 foreach (bool l5 in rest_symbol(C2, Chars, NextCh))
2479 {
2480 foreach (bool l6 in read_after_atom4(NextCh, Dict, Tokens, new ListPair(47, Chars)))
2481 {
2482 yield return false;
2483 }
2484 }
2485 }
2486 cutIf1:
2487 { }
2488 }
2489 }
2490 }
2491 {
2492 Variable Pos = new Variable();
2493 Variable Tokens = new Variable();
2494 Variable NextCh = new Variable();
2495 foreach (bool l2 in YP.unify(arg1, 33))
2496 {
2497 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"atom", Atom.a(@"!"), Pos), Tokens)))
2498 {
2499 foreach (bool l4 in get_current_position(Pos))
2500 {
2501 foreach (bool l5 in YP.get_code(NextCh))
2502 {
2503 foreach (bool l6 in read_after_atom(NextCh, Dict, Tokens))
2504 {
2505 yield return false;
2506 }
2507 }
2508 }
2509 }
2510 }
2511 }
2512 {
2513 Variable Tokens = new Variable();
2514 Variable NextCh = new Variable();
2515 foreach (bool l2 in YP.unify(arg1, 40))
2516 {
2517 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@" ("), Tokens)))
2518 {
2519 foreach (bool l4 in YP.get_code(NextCh))
2520 {
2521 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
2522 {
2523 yield return false;
2524 }
2525 }
2526 }
2527 }
2528 }
2529 {
2530 Variable Tokens = new Variable();
2531 Variable NextCh = new Variable();
2532 foreach (bool l2 in YP.unify(arg1, 41))
2533 {
2534 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@")"), Tokens)))
2535 {
2536 foreach (bool l4 in YP.get_code(NextCh))
2537 {
2538 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
2539 {
2540 yield return false;
2541 }
2542 }
2543 }
2544 }
2545 }
2546 {
2547 Variable Tokens = new Variable();
2548 Variable NextCh = new Variable();
2549 foreach (bool l2 in YP.unify(arg1, 44))
2550 {
2551 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@","), Tokens)))
2552 {
2553 foreach (bool l4 in YP.get_code(NextCh))
2554 {
2555 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
2556 {
2557 yield return false;
2558 }
2559 }
2560 }
2561 }
2562 }
2563 {
2564 Variable Pos = new Variable();
2565 Variable Tokens = new Variable();
2566 Variable NextCh = new Variable();
2567 foreach (bool l2 in YP.unify(arg1, 59))
2568 {
2569 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"atom", Atom.a(@";"), Pos), Tokens)))
2570 {
2571 foreach (bool l4 in get_current_position(Pos))
2572 {
2573 foreach (bool l5 in YP.get_code(NextCh))
2574 {
2575 foreach (bool l6 in read_after_atom(NextCh, Dict, Tokens))
2576 {
2577 yield return false;
2578 }
2579 }
2580 }
2581 }
2582 }
2583 }
2584 {
2585 Variable Pos = new Variable();
2586 Variable Tokens = new Variable();
2587 Variable NextCh = new Variable();
2588 foreach (bool l2 in YP.unify(arg1, 91))
2589 {
2590 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"/", Atom.a(@"["), Pos), Tokens)))
2591 {
2592 foreach (bool l4 in get_current_position(Pos))
2593 {
2594 foreach (bool l5 in YP.get_code(NextCh))
2595 {
2596 foreach (bool l6 in read_tokens(NextCh, Dict, Tokens))
2597 {
2598 yield return false;
2599 }
2600 }
2601 }
2602 }
2603 }
2604 }
2605 {
2606 Variable Pos = new Variable();
2607 Variable Tokens = new Variable();
2608 Variable NextCh = new Variable();
2609 foreach (bool l2 in YP.unify(arg1, 93))
2610 {
2611 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"/", Atom.a(@"]"), Pos), Tokens)))
2612 {
2613 foreach (bool l4 in get_current_position(Pos))
2614 {
2615 foreach (bool l5 in YP.get_code(NextCh))
2616 {
2617 foreach (bool l6 in read_after_atom(NextCh, Dict, Tokens))
2618 {
2619 yield return false;
2620 }
2621 }
2622 }
2623 }
2624 }
2625 }
2626 {
2627 Variable Pos = new Variable();
2628 Variable Tokens = new Variable();
2629 Variable NextCh = new Variable();
2630 foreach (bool l2 in YP.unify(arg1, 123))
2631 {
2632 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"/", Atom.a(@"{"), Pos), Tokens)))
2633 {
2634 foreach (bool l4 in get_current_position(Pos))
2635 {
2636 foreach (bool l5 in YP.get_code(NextCh))
2637 {
2638 foreach (bool l6 in read_tokens(NextCh, Dict, Tokens))
2639 {
2640 yield return false;
2641 }
2642 }
2643 }
2644 }
2645 }
2646 }
2647 {
2648 Variable Tokens = new Variable();
2649 Variable NextCh = new Variable();
2650 foreach (bool l2 in YP.unify(arg1, 124))
2651 {
2652 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"|"), Tokens)))
2653 {
2654 foreach (bool l4 in YP.get_code(NextCh))
2655 {
2656 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
2657 {
2658 yield return false;
2659 }
2660 }
2661 }
2662 }
2663 }
2664 {
2665 Variable Tokens = new Variable();
2666 Variable NextCh = new Variable();
2667 foreach (bool l2 in YP.unify(arg1, 125))
2668 {
2669 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"}"), Tokens)))
2670 {
2671 foreach (bool l4 in YP.get_code(NextCh))
2672 {
2673 foreach (bool l5 in read_after_atom(NextCh, Dict, Tokens))
2674 {
2675 yield return false;
2676 }
2677 }
2678 }
2679 }
2680 }
2681 {
2682 object Tokens = arg3;
2683 Variable NextCh = new Variable();
2684 foreach (bool l2 in YP.unify(arg1, 46))
2685 {
2686 foreach (bool l3 in YP.get_code(NextCh))
2687 {
2688 foreach (bool l4 in read_fullstop(NextCh, Dict, Tokens))
2689 {
2690 yield return false;
2691 }
2692 }
2693 }
2694 }
2695 {
2696 Variable Chars = new Variable();
2697 Variable Tokens = new Variable();
2698 Variable NextCh = new Variable();
2699 foreach (bool l2 in YP.unify(arg1, 34))
2700 {
2701 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor1(@"string", Chars), Tokens)))
2702 {
2703 foreach (bool l4 in read_string(Chars, 34, NextCh))
2704 {
2705 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
2706 {
2707 yield return false;
2708 }
2709 }
2710 }
2711 }
2712 }
2713 {
2714 object Tokens = arg3;
2715 Variable Chars = new Variable();
2716 Variable NextCh = new Variable();
2717 foreach (bool l2 in YP.unify(arg1, 39))
2718 {
2719 foreach (bool l3 in read_string(Chars, 39, NextCh))
2720 {
2721 foreach (bool l4 in read_after_atom4(NextCh, Dict, Tokens, Chars))
2722 {
2723 yield return false;
2724 }
2725 }
2726 }
2727 }
2728 {
2729 object Tokens = arg3;
2730 foreach (bool l2 in YP.unify(arg1, 35))
2731 {
2732 foreach (bool l3 in read_symbol(35, Dict, Tokens))
2733 {
2734 yield return false;
2735 }
2736 }
2737 }
2738 {
2739 object Tokens = arg3;
2740 foreach (bool l2 in YP.unify(arg1, 36))
2741 {
2742 foreach (bool l3 in read_symbol(36, Dict, Tokens))
2743 {
2744 yield return false;
2745 }
2746 }
2747 }
2748 {
2749 object Tokens = arg3;
2750 foreach (bool l2 in YP.unify(arg1, 38))
2751 {
2752 foreach (bool l3 in read_symbol(38, Dict, Tokens))
2753 {
2754 yield return false;
2755 }
2756 }
2757 }
2758 {
2759 object Tokens = arg3;
2760 foreach (bool l2 in YP.unify(arg1, 42))
2761 {
2762 foreach (bool l3 in read_symbol(42, Dict, Tokens))
2763 {
2764 yield return false;
2765 }
2766 }
2767 }
2768 {
2769 object Tokens = arg3;
2770 foreach (bool l2 in YP.unify(arg1, 43))
2771 {
2772 foreach (bool l3 in read_symbol(43, Dict, Tokens))
2773 {
2774 yield return false;
2775 }
2776 }
2777 }
2778 {
2779 object Tokens = arg3;
2780 foreach (bool l2 in YP.unify(arg1, 45))
2781 {
2782 foreach (bool l3 in read_symbol(45, Dict, Tokens))
2783 {
2784 yield return false;
2785 }
2786 }
2787 }
2788 {
2789 object Tokens = arg3;
2790 foreach (bool l2 in YP.unify(arg1, 58))
2791 {
2792 foreach (bool l3 in read_symbol(58, Dict, Tokens))
2793 {
2794 yield return false;
2795 }
2796 }
2797 }
2798 {
2799 object Tokens = arg3;
2800 foreach (bool l2 in YP.unify(arg1, 60))
2801 {
2802 foreach (bool l3 in read_symbol(60, Dict, Tokens))
2803 {
2804 yield return false;
2805 }
2806 }
2807 }
2808 {
2809 object Tokens = arg3;
2810 foreach (bool l2 in YP.unify(arg1, 61))
2811 {
2812 foreach (bool l3 in read_symbol(61, Dict, Tokens))
2813 {
2814 yield return false;
2815 }
2816 }
2817 }
2818 {
2819 object Tokens = arg3;
2820 foreach (bool l2 in YP.unify(arg1, 62))
2821 {
2822 foreach (bool l3 in read_symbol(62, Dict, Tokens))
2823 {
2824 yield return false;
2825 }
2826 }
2827 }
2828 {
2829 object Tokens = arg3;
2830 foreach (bool l2 in YP.unify(arg1, 63))
2831 {
2832 foreach (bool l3 in read_symbol(63, Dict, Tokens))
2833 {
2834 yield return false;
2835 }
2836 }
2837 }
2838 {
2839 object Tokens = arg3;
2840 foreach (bool l2 in YP.unify(arg1, 64))
2841 {
2842 foreach (bool l3 in read_symbol(64, Dict, Tokens))
2843 {
2844 yield return false;
2845 }
2846 }
2847 }
2848 {
2849 object Tokens = arg3;
2850 foreach (bool l2 in YP.unify(arg1, 92))
2851 {
2852 foreach (bool l3 in read_symbol(92, Dict, Tokens))
2853 {
2854 yield return false;
2855 }
2856 }
2857 }
2858 {
2859 object Tokens = arg3;
2860 foreach (bool l2 in YP.unify(arg1, 94))
2861 {
2862 foreach (bool l3 in read_symbol(94, Dict, Tokens))
2863 {
2864 yield return false;
2865 }
2866 }
2867 }
2868 {
2869 object Tokens = arg3;
2870 foreach (bool l2 in YP.unify(arg1, 96))
2871 {
2872 foreach (bool l3 in read_symbol(96, Dict, Tokens))
2873 {
2874 yield return false;
2875 }
2876 }
2877 }
2878 {
2879 object Tokens = arg3;
2880 foreach (bool l2 in YP.unify(arg1, 126))
2881 {
2882 foreach (bool l3 in read_symbol(126, Dict, Tokens))
2883 {
2884 yield return false;
2885 }
2886 }
2887 }
2888 }
2889
2890 public static IEnumerable<bool> read_symbol(object C1, object Dict, object Tokens)
2891 {
2892 {
2893 Variable C2 = new Variable();
2894 Variable Chars = new Variable();
2895 Variable NextCh = new Variable();
2896 foreach (bool l2 in YP.get_code(C2))
2897 {
2898 foreach (bool l3 in rest_symbol(C2, Chars, NextCh))
2899 {
2900 foreach (bool l4 in read_after_atom4(NextCh, Dict, Tokens, new ListPair(C1, Chars)))
2901 {
2902 yield return false;
2903 }
2904 }
2905 }
2906 }
2907 }
2908
2909 public static IEnumerable<bool> rest_symbol(object arg1, object arg2, object arg3)
2910 {
2911 {
2912 object C2 = arg1;
2913 object LastCh = arg3;
2914 Variable Chars = new Variable();
2915 Variable NextCh = new Variable();
2916 foreach (bool l2 in YP.unify(arg2, new ListPair(C2, Chars)))
2917 {
2918 if (YP.greaterThan(C2, 160))
2919 {
2920 if (YP.lessThan(C2, 192))
2921 {
2922 if (YP.notEqual(C2, 186))
2923 {
2924 if (YP.notEqual(C2, 170))
2925 {
2926 foreach (bool l7 in YP.get_code(NextCh))
2927 {
2928 foreach (bool l8 in rest_symbol(NextCh, Chars, LastCh))
2929 {
2930 yield return false;
2931 }
2932 }
2933 yield break;
2934 }
2935 }
2936 }
2937 goto cutIf1;
2938 }
2939 foreach (bool l3 in symbol_char(C2))
2940 {
2941 foreach (bool l4 in YP.get_code(NextCh))
2942 {
2943 foreach (bool l5 in rest_symbol(NextCh, Chars, LastCh))
2944 {
2945 yield return false;
2946 }
2947 }
2948 yield break;
2949 }
2950 cutIf1:
2951 { }
2952 }
2953 }
2954 {
2955 Variable C2 = new Variable();
2956 foreach (bool l2 in YP.unify(arg1, C2))
2957 {
2958 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
2959 {
2960 foreach (bool l4 in YP.unify(arg3, C2))
2961 {
2962 yield return false;
2963 }
2964 }
2965 }
2966 }
2967 }
2968
2969 public static IEnumerable<bool> symbol_char(object arg1)
2970 {
2971 {
2972 foreach (bool l2 in YP.unify(arg1, 35))
2973 {
2974 yield return false;
2975 }
2976 }
2977 {
2978 foreach (bool l2 in YP.unify(arg1, 36))
2979 {
2980 yield return false;
2981 }
2982 }
2983 {
2984 foreach (bool l2 in YP.unify(arg1, 38))
2985 {
2986 yield return false;
2987 }
2988 }
2989 {
2990 foreach (bool l2 in YP.unify(arg1, 42))
2991 {
2992 yield return false;
2993 }
2994 }
2995 {
2996 foreach (bool l2 in YP.unify(arg1, 43))
2997 {
2998 yield return false;
2999 }
3000 }
3001 {
3002 foreach (bool l2 in YP.unify(arg1, 45))
3003 {
3004 yield return false;
3005 }
3006 }
3007 {
3008 foreach (bool l2 in YP.unify(arg1, 46))
3009 {
3010 yield return false;
3011 }
3012 }
3013 {
3014 foreach (bool l2 in YP.unify(arg1, 47))
3015 {
3016 yield return false;
3017 }
3018 }
3019 {
3020 foreach (bool l2 in YP.unify(arg1, 58))
3021 {
3022 yield return false;
3023 }
3024 }
3025 {
3026 foreach (bool l2 in YP.unify(arg1, 60))
3027 {
3028 yield return false;
3029 }
3030 }
3031 {
3032 foreach (bool l2 in YP.unify(arg1, 61))
3033 {
3034 yield return false;
3035 }
3036 }
3037 {
3038 foreach (bool l2 in YP.unify(arg1, 62))
3039 {
3040 yield return false;
3041 }
3042 }
3043 {
3044 foreach (bool l2 in YP.unify(arg1, 63))
3045 {
3046 yield return false;
3047 }
3048 }
3049 {
3050 foreach (bool l2 in YP.unify(arg1, 64))
3051 {
3052 yield return false;
3053 }
3054 }
3055 {
3056 foreach (bool l2 in YP.unify(arg1, 92))
3057 {
3058 yield return false;
3059 }
3060 }
3061 {
3062 foreach (bool l2 in YP.unify(arg1, 94))
3063 {
3064 yield return false;
3065 }
3066 }
3067 {
3068 foreach (bool l2 in YP.unify(arg1, 96))
3069 {
3070 yield return false;
3071 }
3072 }
3073 {
3074 foreach (bool l2 in YP.unify(arg1, 126))
3075 {
3076 yield return false;
3077 }
3078 }
3079 }
3080
3081 public static IEnumerable<bool> get_current_position(object Pos)
3082 {
3083 {
3084 foreach (bool l2 in YP.unify(Pos, 0))
3085 {
3086 yield return false;
3087 }
3088 }
3089 }
3090
3091 public static IEnumerable<bool> read_after_atom4(object Ch, object Dict, object arg3, object Chars)
3092 {
3093 {
3094 Variable Atom_1 = new Variable();
3095 Variable Pos = new Variable();
3096 Variable Tokens = new Variable();
3097 foreach (bool l2 in YP.unify(arg3, new ListPair(new Functor2(@"atom", Atom_1, Pos), Tokens)))
3098 {
3099 foreach (bool l3 in YP.unify(Pos, 0))
3100 {
3101 foreach (bool l4 in YP.atom_codes(Atom_1, Chars))
3102 {
3103 foreach (bool l5 in read_after_atom(Ch, Dict, Tokens))
3104 {
3105 yield return false;
3106 }
3107 }
3108 }
3109 }
3110 }
3111 }
3112
3113 public static IEnumerable<bool> read_after_atom(object arg1, object Dict, object arg3)
3114 {
3115 {
3116 Variable Tokens = new Variable();
3117 Variable NextCh = new Variable();
3118 foreach (bool l2 in YP.unify(arg1, 40))
3119 {
3120 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"("), Tokens)))
3121 {
3122 foreach (bool l4 in YP.get_code(NextCh))
3123 {
3124 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
3125 {
3126 yield return false;
3127 }
3128 }
3129 yield break;
3130 }
3131 }
3132 }
3133 {
3134 object Ch = arg1;
3135 object Tokens = arg3;
3136 foreach (bool l2 in read_tokens(Ch, Dict, Tokens))
3137 {
3138 yield return false;
3139 }
3140 }
3141 }
3142
3143 public static IEnumerable<bool> read_string(object Chars, object Quote, object NextCh)
3144 {
3145 {
3146 Variable Ch = new Variable();
3147 Variable Char = new Variable();
3148 Variable Next = new Variable();
3149 foreach (bool l2 in YP.get_code(Ch))
3150 {
3151 foreach (bool l3 in read_char(Ch, Quote, Char, Next))
3152 {
3153 foreach (bool l4 in rest_string5(Char, Next, Chars, Quote, NextCh))
3154 {
3155 yield return false;
3156 }
3157 }
3158 }
3159 }
3160 }
3161
3162 public static IEnumerable<bool> rest_string5(object arg1, object arg2, object arg3, object arg4, object arg5)
3163 {
3164 {
3165 object _X = arg4;
3166 Variable NextCh = new Variable();
3167 foreach (bool l2 in YP.unify(arg1, -1))
3168 {
3169 foreach (bool l3 in YP.unify(arg2, NextCh))
3170 {
3171 foreach (bool l4 in YP.unify(arg3, Atom.NIL))
3172 {
3173 foreach (bool l5 in YP.unify(arg5, NextCh))
3174 {
3175 yield return true;
3176 yield break;
3177 }
3178 }
3179 }
3180 }
3181 }
3182 {
3183 object Char = arg1;
3184 object Next = arg2;
3185 object Quote = arg4;
3186 object NextCh = arg5;
3187 Variable Chars = new Variable();
3188 Variable Char2 = new Variable();
3189 Variable Next2 = new Variable();
3190 foreach (bool l2 in YP.unify(arg3, new ListPair(Char, Chars)))
3191 {
3192 foreach (bool l3 in read_char(Next, Quote, Char2, Next2))
3193 {
3194 foreach (bool l4 in rest_string5(Char2, Next2, Chars, Quote, NextCh))
3195 {
3196 yield return false;
3197 }
3198 }
3199 }
3200 }
3201 }
3202
3203 public static IEnumerable<bool> escape_char(object arg1, object arg2)
3204 {
3205 {
3206 foreach (bool l2 in YP.unify(arg1, 110))
3207 {
3208 foreach (bool l3 in YP.unify(arg2, 10))
3209 {
3210 yield return false;
3211 }
3212 }
3213 }
3214 {
3215 foreach (bool l2 in YP.unify(arg1, 78))
3216 {
3217 foreach (bool l3 in YP.unify(arg2, 10))
3218 {
3219 yield return false;
3220 }
3221 }
3222 }
3223 {
3224 foreach (bool l2 in YP.unify(arg1, 116))
3225 {
3226 foreach (bool l3 in YP.unify(arg2, 9))
3227 {
3228 yield return false;
3229 }
3230 }
3231 }
3232 {
3233 foreach (bool l2 in YP.unify(arg1, 84))
3234 {
3235 foreach (bool l3 in YP.unify(arg2, 9))
3236 {
3237 yield return false;
3238 }
3239 }
3240 }
3241 {
3242 foreach (bool l2 in YP.unify(arg1, 114))
3243 {
3244 foreach (bool l3 in YP.unify(arg2, 13))
3245 {
3246 yield return false;
3247 }
3248 }
3249 }
3250 {
3251 foreach (bool l2 in YP.unify(arg1, 82))
3252 {
3253 foreach (bool l3 in YP.unify(arg2, 13))
3254 {
3255 yield return false;
3256 }
3257 }
3258 }
3259 {
3260 foreach (bool l2 in YP.unify(arg1, 118))
3261 {
3262 foreach (bool l3 in YP.unify(arg2, 11))
3263 {
3264 yield return false;
3265 }
3266 }
3267 }
3268 {
3269 foreach (bool l2 in YP.unify(arg1, 86))
3270 {
3271 foreach (bool l3 in YP.unify(arg2, 11))
3272 {
3273 yield return false;
3274 }
3275 }
3276 }
3277 {
3278 foreach (bool l2 in YP.unify(arg1, 98))
3279 {
3280 foreach (bool l3 in YP.unify(arg2, 8))
3281 {
3282 yield return false;
3283 }
3284 }
3285 }
3286 {
3287 foreach (bool l2 in YP.unify(arg1, 66))
3288 {
3289 foreach (bool l3 in YP.unify(arg2, 8))
3290 {
3291 yield return false;
3292 }
3293 }
3294 }
3295 {
3296 foreach (bool l2 in YP.unify(arg1, 102))
3297 {
3298 foreach (bool l3 in YP.unify(arg2, 12))
3299 {
3300 yield return false;
3301 }
3302 }
3303 }
3304 {
3305 foreach (bool l2 in YP.unify(arg1, 70))
3306 {
3307 foreach (bool l3 in YP.unify(arg2, 12))
3308 {
3309 yield return false;
3310 }
3311 }
3312 }
3313 {
3314 foreach (bool l2 in YP.unify(arg1, 101))
3315 {
3316 foreach (bool l3 in YP.unify(arg2, 27))
3317 {
3318 yield return false;
3319 }
3320 }
3321 }
3322 {
3323 foreach (bool l2 in YP.unify(arg1, 69))
3324 {
3325 foreach (bool l3 in YP.unify(arg2, 27))
3326 {
3327 yield return false;
3328 }
3329 }
3330 }
3331 {
3332 foreach (bool l2 in YP.unify(arg1, 100))
3333 {
3334 foreach (bool l3 in YP.unify(arg2, 127))
3335 {
3336 yield return false;
3337 }
3338 }
3339 }
3340 {
3341 foreach (bool l2 in YP.unify(arg1, 68))
3342 {
3343 foreach (bool l3 in YP.unify(arg2, 127))
3344 {
3345 yield return false;
3346 }
3347 }
3348 }
3349 {
3350 foreach (bool l2 in YP.unify(arg1, 115))
3351 {
3352 foreach (bool l3 in YP.unify(arg2, 32))
3353 {
3354 yield return false;
3355 }
3356 }
3357 }
3358 {
3359 foreach (bool l2 in YP.unify(arg1, 83))
3360 {
3361 foreach (bool l3 in YP.unify(arg2, 32))
3362 {
3363 yield return false;
3364 }
3365 }
3366 }
3367 {
3368 foreach (bool l2 in YP.unify(arg1, 122))
3369 {
3370 foreach (bool l3 in YP.unify(arg2, -1))
3371 {
3372 yield return false;
3373 }
3374 }
3375 }
3376 {
3377 foreach (bool l2 in YP.unify(arg1, 90))
3378 {
3379 foreach (bool l3 in YP.unify(arg2, -1))
3380 {
3381 yield return false;
3382 }
3383 }
3384 }
3385 }
3386
3387 public static IEnumerable<bool> read_variable(object C1, object Dict, object arg3)
3388 {
3389 {
3390 Variable Var = new Variable();
3391 Variable Name = new Variable();
3392 Variable StartPos = new Variable();
3393 Variable Tokens = new Variable();
3394 Variable Chars = new Variable();
3395 Variable NextCh = new Variable();
3396 foreach (bool l2 in YP.unify(arg3, new ListPair(new Functor3(@"var", Var, Name, StartPos), Tokens)))
3397 {
3398 foreach (bool l3 in get_current_position(StartPos))
3399 {
3400 foreach (bool l4 in read_name(C1, Chars, NextCh))
3401 {
3402 foreach (bool l5 in YP.atom_codes(Name, Chars))
3403 {
3404 if (YP.termEqual(Name, Atom.a(@"_")))
3405 {
3406 foreach (bool l7 in read_after_atom(NextCh, Dict, Tokens))
3407 {
3408 yield return false;
3409 }
3410 goto cutIf1;
3411 }
3412 foreach (bool l6 in read_lookup(Dict, Name, Var))
3413 {
3414 foreach (bool l7 in read_after_atom(NextCh, Dict, Tokens))
3415 {
3416 yield return false;
3417 }
3418 }
3419 cutIf1:
3420 { }
3421 }
3422 }
3423 }
3424 }
3425 }
3426 }
3427
3428 public static IEnumerable<bool> read_lookup(object arg1, object Name, object Var)
3429 {
3430 {
3431 Variable N = new Variable();
3432 Variable V = new Variable();
3433 Variable L = new Variable();
3434 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"=", N, V), L)))
3435 {
3436 foreach (bool l3 in YP.unify(N, Name))
3437 {
3438 foreach (bool l4 in YP.unify(V, Var))
3439 {
3440 yield return false;
3441 }
3442 goto cutIf1;
3443 }
3444 foreach (bool l3 in read_lookup(L, Name, Var))
3445 {
3446 yield return false;
3447 }
3448 cutIf1:
3449 { }
3450 }
3451 }
3452 }
3453
3454 public static IEnumerable<bool> read_solidus(object Ch, object LastCh)
3455 {
3456 {
3457 Variable NextCh = new Variable();
3458 if (YP.equal(Ch, 42))
3459 {
3460 foreach (bool l3 in YP.get_code(NextCh))
3461 {
3462 if (YP.equal(NextCh, 47))
3463 {
3464 foreach (bool l5 in YP.get_code(LastCh))
3465 {
3466 yield return false;
3467 }
3468 goto cutIf2;
3469 }
3470 foreach (bool l4 in read_solidus(NextCh, LastCh))
3471 {
3472 yield return false;
3473 }
3474 cutIf2:
3475 { }
3476 }
3477 goto cutIf1;
3478 }
3479 if (YP.notEqual(Ch, -1))
3480 {
3481 foreach (bool l3 in YP.get_code(NextCh))
3482 {
3483 foreach (bool l4 in read_solidus(NextCh, LastCh))
3484 {
3485 yield return false;
3486 }
3487 }
3488 goto cutIf3;
3489 }
3490 foreach (bool l2 in YP.unify(LastCh, Ch))
3491 {
3492 foreach (bool l3 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** end of file in /*comment~n"), Atom.NIL))
3493 {
3494 yield return false;
3495 }
3496 }
3497 cutIf3:
3498 cutIf1:
3499 { }
3500 }
3501 }
3502
3503 public static IEnumerable<bool> read_identifier(object C1, object Dict, object Tokens)
3504 {
3505 {
3506 Variable Chars = new Variable();
3507 Variable NextCh = new Variable();
3508 foreach (bool l2 in read_name(C1, Chars, NextCh))
3509 {
3510 foreach (bool l3 in read_after_atom4(NextCh, Dict, Tokens, Chars))
3511 {
3512 yield return false;
3513 }
3514 }
3515 }
3516 }
3517
3518 public static IEnumerable<bool> read_name(object C1, object arg2, object LastCh)
3519 {
3520 {
3521 Variable Chars = new Variable();
3522 Variable C2 = new Variable();
3523 foreach (bool l2 in YP.unify(arg2, new ListPair(C1, Chars)))
3524 {
3525 foreach (bool l3 in YP.get_code(C2))
3526 {
3527 if (YP.greaterThanOrEqual(C2, new ListPair(97, Atom.NIL)))
3528 {
3529 if (YP.lessThanOrEqual(C2, new ListPair(122, Atom.NIL)))
3530 {
3531 foreach (bool l6 in read_name(C2, Chars, LastCh))
3532 {
3533 yield return false;
3534 }
3535 goto cutIf2;
3536 }
3537 if (YP.lessThan(C2, 192))
3538 {
3539 if (YP.notEqual(YP.bitwiseOr(C2, 16), 186))
3540 {
3541 foreach (bool l7 in YP.unify(Chars, Atom.NIL))
3542 {
3543 foreach (bool l8 in YP.unify(LastCh, C2))
3544 {
3545 yield return false;
3546 }
3547 }
3548 goto cutIf3;
3549 }
3550 }
3551 if (YP.equal(YP.bitwiseOr(C2, 32), 247))
3552 {
3553 foreach (bool l6 in YP.unify(Chars, Atom.NIL))
3554 {
3555 foreach (bool l7 in YP.unify(LastCh, C2))
3556 {
3557 yield return false;
3558 }
3559 }
3560 goto cutIf4;
3561 }
3562 foreach (bool l5 in read_name(C2, Chars, LastCh))
3563 {
3564 yield return false;
3565 }
3566 cutIf4:
3567 cutIf3:
3568 cutIf2:
3569 goto cutIf1;
3570 }
3571 if (YP.greaterThanOrEqual(C2, new ListPair(65, Atom.NIL)))
3572 {
3573 if (YP.greaterThan(C2, new ListPair(90, Atom.NIL)))
3574 {
3575 if (YP.notEqual(C2, new ListPair(95, Atom.NIL)))
3576 {
3577 foreach (bool l7 in YP.unify(Chars, Atom.NIL))
3578 {
3579 foreach (bool l8 in YP.unify(LastCh, C2))
3580 {
3581 yield return false;
3582 }
3583 }
3584 goto cutIf6;
3585 }
3586 }
3587 foreach (bool l5 in read_name(C2, Chars, LastCh))
3588 {
3589 yield return false;
3590 }
3591 cutIf6:
3592 goto cutIf5;
3593 }
3594 if (YP.greaterThanOrEqual(C2, new ListPair(48, Atom.NIL)))
3595 {
3596 if (YP.lessThanOrEqual(C2, new ListPair(57, Atom.NIL)))
3597 {
3598 foreach (bool l6 in read_name(C2, Chars, LastCh))
3599 {
3600 yield return false;
3601 }
3602 goto cutIf7;
3603 }
3604 }
3605 foreach (bool l4 in YP.unify(Chars, Atom.NIL))
3606 {
3607 foreach (bool l5 in YP.unify(LastCh, C2))
3608 {
3609 yield return false;
3610 }
3611 }
3612 cutIf7:
3613 cutIf5:
3614 cutIf1:
3615 { }
3616 }
3617 }
3618 }
3619 }
3620
3621 public static IEnumerable<bool> read_fullstop(object Ch, object Dict, object Tokens)
3622 {
3623 {
3624 Variable Number = new Variable();
3625 Variable Tokens1 = new Variable();
3626 Variable Chars = new Variable();
3627 Variable NextCh = new Variable();
3628 if (YP.lessThanOrEqual(Ch, new ListPair(57, Atom.NIL)))
3629 {
3630 if (YP.greaterThanOrEqual(Ch, new ListPair(48, Atom.NIL)))
3631 {
3632 foreach (bool l4 in YP.unify(Tokens, new ListPair(new Functor1(@"number", Number), Tokens1)))
3633 {
3634 foreach (bool l5 in read_float(Number, Dict, Tokens1, new ListPair(48, Atom.NIL), Ch))
3635 {
3636 yield return false;
3637 }
3638 }
3639 goto cutIf1;
3640 }
3641 }
3642 if (YP.greaterThan(Ch, new ListPair(32, Atom.NIL)))
3643 {
3644 foreach (bool l3 in rest_symbol(Ch, Chars, NextCh))
3645 {
3646 foreach (bool l4 in read_after_atom4(NextCh, Dict, Tokens, new ListPair(46, Chars)))
3647 {
3648 yield return false;
3649 }
3650 }
3651 goto cutIf2;
3652 }
3653 if (YP.greaterThanOrEqual(Ch, 0))
3654 {
3655 foreach (bool l3 in YP.unify(Tokens, Atom.NIL))
3656 {
3657 yield return false;
3658 }
3659 goto cutIf3;
3660 }
3661 foreach (bool l2 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** end of file just after full stop~n"), Atom.NIL))
3662 {
3663 }
3664 cutIf3:
3665 cutIf2:
3666 cutIf1:
3667 { }
3668 }
3669 }
3670
3671 public static IEnumerable<bool> read_float(object Number, object Dict, object Tokens, object Digits, object Digit)
3672 {
3673 {
3674 Variable Chars = new Variable();
3675 Variable Rest = new Variable();
3676 Variable NextCh = new Variable();
3677 foreach (bool l2 in prepend(Digits, Chars, Rest))
3678 {
3679 foreach (bool l3 in read_float(Digit, Rest, NextCh, Chars))
3680 {
3681 foreach (bool l4 in YP.number_codes(Number, Chars))
3682 {
3683 foreach (bool l5 in read_tokens(NextCh, Dict, Tokens))
3684 {
3685 yield return false;
3686 }
3687 }
3688 }
3689 }
3690 }
3691 }
3692
3693 public static IEnumerable<bool> prepend(object arg1, object arg2, object arg3)
3694 {
3695 {
3696 object X = arg3;
3697 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
3698 {
3699 foreach (bool l3 in YP.unify(arg2, new ListPair(46, X)))
3700 {
3701 yield return false;
3702 }
3703 }
3704 }
3705 {
3706 object Y = arg3;
3707 Variable C = new Variable();
3708 Variable Cs = new Variable();
3709 Variable X = new Variable();
3710 foreach (bool l2 in YP.unify(arg1, new ListPair(C, Cs)))
3711 {
3712 foreach (bool l3 in YP.unify(arg2, new ListPair(C, X)))
3713 {
3714 foreach (bool l4 in prepend(Cs, X, Y))
3715 {
3716 yield return false;
3717 }
3718 }
3719 }
3720 }
3721 }
3722
3723 public static IEnumerable<bool> read_float(object C1, object arg2, object NextCh, object Total)
3724 {
3725 {
3726 Variable Chars = new Variable();
3727 Variable C2 = new Variable();
3728 Variable C3 = new Variable();
3729 Variable C4 = new Variable();
3730 Variable More = new Variable();
3731 foreach (bool l2 in YP.unify(arg2, new ListPair(C1, Chars)))
3732 {
3733 foreach (bool l3 in YP.get_code(C2))
3734 {
3735 if (YP.greaterThanOrEqual(C2, new ListPair(48, Atom.NIL)))
3736 {
3737 if (YP.lessThanOrEqual(C2, new ListPair(57, Atom.NIL)))
3738 {
3739 foreach (bool l6 in read_float(C2, Chars, NextCh, Total))
3740 {
3741 yield return false;
3742 }
3743 goto cutIf1;
3744 }
3745 }
3746 if (YP.equal(YP.bitwiseOr(C2, 32), new ListPair(101, Atom.NIL)))
3747 {
3748 foreach (bool l5 in YP.get_code(C3))
3749 {
3750 if (YP.equal(C3, new ListPair(45, Atom.NIL)))
3751 {
3752 foreach (bool l7 in YP.get_code(C4))
3753 {
3754 foreach (bool l8 in YP.unify(Chars, new ListPair(C2, new ListPair(45, More))))
3755 {
3756 if (YP.greaterThanOrEqual(C4, new ListPair(48, Atom.NIL)))
3757 {
3758 if (YP.lessThanOrEqual(C4, new ListPair(57, Atom.NIL)))
3759 {
3760 foreach (bool l11 in read_exponent(C4, More, NextCh))
3761 {
3762 yield return false;
3763 }
3764 goto cutIf4;
3765 }
3766 }
3767 foreach (bool l9 in YP.unify(More, Atom.NIL))
3768 {
3769 foreach (bool l10 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** Missing exponent in ~s~n"), new ListPair(Total, Atom.NIL)))
3770 {
3771 }
3772 }
3773 foreach (bool l9 in YP.unify(More, new ListPair(48, Atom.NIL)))
3774 {
3775 foreach (bool l10 in YP.unify(NextCh, C4))
3776 {
3777 yield return false;
3778 }
3779 }
3780 cutIf4:
3781 { }
3782 }
3783 }
3784 goto cutIf3;
3785 }
3786 if (YP.equal(C3, new ListPair(43, Atom.NIL)))
3787 {
3788 foreach (bool l7 in YP.get_code(C4))
3789 {
3790 foreach (bool l8 in YP.unify(Chars, new ListPair(C2, More)))
3791 {
3792 if (YP.greaterThanOrEqual(C4, new ListPair(48, Atom.NIL)))
3793 {
3794 if (YP.lessThanOrEqual(C4, new ListPair(57, Atom.NIL)))
3795 {
3796 foreach (bool l11 in read_exponent(C4, More, NextCh))
3797 {
3798 yield return false;
3799 }
3800 goto cutIf6;
3801 }
3802 }
3803 foreach (bool l9 in YP.unify(More, Atom.NIL))
3804 {
3805 foreach (bool l10 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** Missing exponent in ~s~n"), new ListPair(Total, Atom.NIL)))
3806 {
3807 }
3808 }
3809 foreach (bool l9 in YP.unify(More, new ListPair(48, Atom.NIL)))
3810 {
3811 foreach (bool l10 in YP.unify(NextCh, C4))
3812 {
3813 yield return false;
3814 }
3815 }
3816 cutIf6:
3817 { }
3818 }
3819 }
3820 goto cutIf5;
3821 }
3822 foreach (bool l6 in YP.unify(C4, C3))
3823 {
3824 foreach (bool l7 in YP.unify(Chars, new ListPair(C2, More)))
3825 {
3826 if (YP.greaterThanOrEqual(C4, new ListPair(48, Atom.NIL)))
3827 {
3828 if (YP.lessThanOrEqual(C4, new ListPair(57, Atom.NIL)))
3829 {
3830 foreach (bool l10 in read_exponent(C4, More, NextCh))
3831 {
3832 yield return false;
3833 }
3834 goto cutIf7;
3835 }
3836 }
3837 foreach (bool l8 in YP.unify(More, Atom.NIL))
3838 {
3839 foreach (bool l9 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** Missing exponent in ~s~n"), new ListPair(Total, Atom.NIL)))
3840 {
3841 }
3842 }
3843 foreach (bool l8 in YP.unify(More, new ListPair(48, Atom.NIL)))
3844 {
3845 foreach (bool l9 in YP.unify(NextCh, C4))
3846 {
3847 yield return false;
3848 }
3849 }
3850 cutIf7:
3851 { }
3852 }
3853 }
3854 cutIf5:
3855 cutIf3:
3856 { }
3857 }
3858 goto cutIf2;
3859 }
3860 foreach (bool l4 in YP.unify(Chars, Atom.NIL))
3861 {
3862 foreach (bool l5 in YP.unify(NextCh, C2))
3863 {
3864 yield return false;
3865 }
3866 }
3867 cutIf2:
3868 cutIf1:
3869 { }
3870 }
3871 }
3872 }
3873 }
3874
3875 public static IEnumerable<bool> read_exponent(object C1, object arg2, object NextCh)
3876 {
3877 {
3878 Variable Chars = new Variable();
3879 Variable C2 = new Variable();
3880 foreach (bool l2 in YP.unify(arg2, new ListPair(C1, Chars)))
3881 {
3882 foreach (bool l3 in YP.get_code(C2))
3883 {
3884 if (YP.greaterThanOrEqual(C2, new ListPair(48, Atom.NIL)))
3885 {
3886 if (YP.lessThanOrEqual(C2, new ListPair(57, Atom.NIL)))
3887 {
3888 foreach (bool l6 in read_exponent(C2, Chars, NextCh))
3889 {
3890 yield return false;
3891 }
3892 goto cutIf1;
3893 }
3894 }
3895 foreach (bool l4 in YP.unify(Chars, Atom.NIL))
3896 {
3897 foreach (bool l5 in YP.unify(NextCh, C2))
3898 {
3899 yield return false;
3900 }
3901 }
3902 cutIf1:
3903 { }
3904 }
3905 }
3906 }
3907 }
3908
3909 public static IEnumerable<bool> read_number(object C1, object Dict, object arg3)
3910 {
3911 {
3912 Variable Number = new Variable();
3913 Variable Tokens = new Variable();
3914 Variable C2 = new Variable();
3915 Variable N = new Variable();
3916 Variable C = new Variable();
3917 Variable C3 = new Variable();
3918 Variable Digits = new Variable();
3919 foreach (bool l2 in YP.unify(arg3, new ListPair(new Functor1(@"number", Number), Tokens)))
3920 {
3921 foreach (bool l3 in read_number4(C1, C2, 0, N))
3922 {
3923 if (YP.equal(C2, 39))
3924 {
3925 if (YP.greaterThanOrEqual(N, 2))
3926 {
3927 if (YP.lessThanOrEqual(N, 36))
3928 {
3929 foreach (bool l7 in read_based(N, 0, Number, C))
3930 {
3931 foreach (bool l8 in read_tokens(C, Dict, Tokens))
3932 {
3933 yield return false;
3934 }
3935 }
3936 goto cutIf2;
3937 }
3938 }
3939 if (YP.equal(N, 0))
3940 {
3941 foreach (bool l6 in YP.get_code(C3))
3942 {
3943 foreach (bool l7 in read_char(C3, -1, Number, C))
3944 {
3945 foreach (bool l8 in read_tokens(C, Dict, Tokens))
3946 {
3947 yield return false;
3948 }
3949 }
3950 }
3951 goto cutIf3;
3952 }
3953 foreach (bool l5 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** ~d' read as ~d '~n"), new ListPair(N, new ListPair(N, Atom.NIL))))
3954 {
3955 foreach (bool l6 in YP.unify(Number, N))
3956 {
3957 foreach (bool l7 in YP.unify(C, C2))
3958 {
3959 foreach (bool l8 in read_tokens(C, Dict, Tokens))
3960 {
3961 yield return false;
3962 }
3963 }
3964 }
3965 }
3966 cutIf3:
3967 cutIf2:
3968 goto cutIf1;
3969 }
3970 if (YP.equal(C2, 46))
3971 {
3972 foreach (bool l5 in YP.get_code(C3))
3973 {
3974 if (YP.greaterThanOrEqual(C3, new ListPair(48, Atom.NIL)))
3975 {
3976 if (YP.lessThanOrEqual(C3, new ListPair(57, Atom.NIL)))
3977 {
3978 foreach (bool l8 in YP.number_codes(N, Digits))
3979 {
3980 foreach (bool l9 in read_float(Number, Dict, Tokens, Digits, C3))
3981 {
3982 yield return false;
3983 }
3984 }
3985 goto cutIf5;
3986 }
3987 }
3988 foreach (bool l6 in YP.unify(Number, N))
3989 {
3990 foreach (bool l7 in read_fullstop(C3, Dict, Tokens))
3991 {
3992 yield return false;
3993 }
3994 }
3995 cutIf5:
3996 { }
3997 }
3998 goto cutIf4;
3999 }
4000 foreach (bool l4 in YP.unify(Number, N))
4001 {
4002 foreach (bool l5 in read_tokens(C2, Dict, Tokens))
4003 {
4004 yield return false;
4005 }
4006 }
4007 cutIf4:
4008 cutIf1:
4009 { }
4010 }
4011 }
4012 }
4013 }
4014
4015 public static IEnumerable<bool> read_number4(object C0, object C, object N0, object N)
4016 {
4017 {
4018 Variable N1 = new Variable();
4019 Variable C1 = new Variable();
4020 if (YP.greaterThanOrEqual(C0, new ListPair(48, Atom.NIL)))
4021 {
4022 if (YP.lessThanOrEqual(C0, new ListPair(57, Atom.NIL)))
4023 {
4024 foreach (bool l4 in YP.unify(N1, YP.add(YP.subtract(YP.multiply(N0, 10), new ListPair(48, Atom.NIL)), C0)))
4025 {
4026 foreach (bool l5 in YP.get_code(C1))
4027 {
4028 foreach (bool l6 in read_number4(C1, C, N1, N))
4029 {
4030 yield return false;
4031 }
4032 }
4033 }
4034 goto cutIf1;
4035 }
4036 }
4037 if (YP.equal(C0, 95))
4038 {
4039 foreach (bool l3 in YP.get_code(C1))
4040 {
4041 foreach (bool l4 in read_number4(C1, C, N0, N))
4042 {
4043 yield return false;
4044 }
4045 }
4046 goto cutIf2;
4047 }
4048 foreach (bool l2 in YP.unify(C, C0))
4049 {
4050 foreach (bool l3 in YP.unify(N, N0))
4051 {
4052 yield return false;
4053 }
4054 }
4055 cutIf2:
4056 cutIf1:
4057 { }
4058 }
4059 }
4060
4061 public static IEnumerable<bool> read_based(object Base, object N0, object N, object C)
4062 {
4063 {
4064 Variable C1 = new Variable();
4065 Variable Digit = new Variable();
4066 Variable N1 = new Variable();
4067 foreach (bool l2 in YP.get_code(C1))
4068 {
4069 if (YP.greaterThanOrEqual(C1, new ListPair(48, Atom.NIL)))
4070 {
4071 if (YP.lessThanOrEqual(C1, new ListPair(57, Atom.NIL)))
4072 {
4073 foreach (bool l5 in YP.unify(Digit, YP.subtract(C1, new ListPair(48, Atom.NIL))))
4074 {
4075 if (YP.lessThan(Digit, Base))
4076 {
4077 foreach (bool l7 in YP.unify(N1, YP.add(YP.multiply(N0, Base), Digit)))
4078 {
4079 foreach (bool l8 in read_based(Base, N1, N, C))
4080 {
4081 yield return false;
4082 }
4083 }
4084 goto cutIf2;
4085 }
4086 if (YP.equal(C1, new ListPair(95, Atom.NIL)))
4087 {
4088 foreach (bool l7 in read_based(Base, N0, N, C))
4089 {
4090 yield return false;
4091 }
4092 goto cutIf3;
4093 }
4094 foreach (bool l6 in YP.unify(N, N0))
4095 {
4096 foreach (bool l7 in YP.unify(C, C1))
4097 {
4098 yield return false;
4099 }
4100 }
4101 cutIf3:
4102 cutIf2:
4103 { }
4104 }
4105 goto cutIf1;
4106 }
4107 }
4108 if (YP.greaterThanOrEqual(C1, new ListPair(65, Atom.NIL)))
4109 {
4110 if (YP.lessThanOrEqual(C1, new ListPair(90, Atom.NIL)))
4111 {
4112 foreach (bool l5 in YP.unify(Digit, YP.subtract(C1, YP.subtract(new ListPair(65, Atom.NIL), 10))))
4113 {
4114 if (YP.lessThan(Digit, Base))
4115 {
4116 foreach (bool l7 in YP.unify(N1, YP.add(YP.multiply(N0, Base), Digit)))
4117 {
4118 foreach (bool l8 in read_based(Base, N1, N, C))
4119 {
4120 yield return false;
4121 }
4122 }
4123 goto cutIf5;
4124 }
4125 if (YP.equal(C1, new ListPair(95, Atom.NIL)))
4126 {
4127 foreach (bool l7 in read_based(Base, N0, N, C))
4128 {
4129 yield return false;
4130 }
4131 goto cutIf6;
4132 }
4133 foreach (bool l6 in YP.unify(N, N0))
4134 {
4135 foreach (bool l7 in YP.unify(C, C1))
4136 {
4137 yield return false;
4138 }
4139 }
4140 cutIf6:
4141 cutIf5:
4142 { }
4143 }
4144 goto cutIf4;
4145 }
4146 }
4147 if (YP.greaterThanOrEqual(C1, new ListPair(97, Atom.NIL)))
4148 {
4149 if (YP.lessThanOrEqual(C1, new ListPair(122, Atom.NIL)))
4150 {
4151 foreach (bool l5 in YP.unify(Digit, YP.subtract(C1, YP.subtract(new ListPair(97, Atom.NIL), 10))))
4152 {
4153 if (YP.lessThan(Digit, Base))
4154 {
4155 foreach (bool l7 in YP.unify(N1, YP.add(YP.multiply(N0, Base), Digit)))
4156 {
4157 foreach (bool l8 in read_based(Base, N1, N, C))
4158 {
4159 yield return false;
4160 }
4161 }
4162 goto cutIf8;
4163 }
4164 if (YP.equal(C1, new ListPair(95, Atom.NIL)))
4165 {
4166 foreach (bool l7 in read_based(Base, N0, N, C))
4167 {
4168 yield return false;
4169 }
4170 goto cutIf9;
4171 }
4172 foreach (bool l6 in YP.unify(N, N0))
4173 {
4174 foreach (bool l7 in YP.unify(C, C1))
4175 {
4176 yield return false;
4177 }
4178 }
4179 cutIf9:
4180 cutIf8:
4181 { }
4182 }
4183 goto cutIf7;
4184 }
4185 }
4186 foreach (bool l3 in YP.unify(Digit, 99))
4187 {
4188 if (YP.lessThan(Digit, Base))
4189 {
4190 foreach (bool l5 in YP.unify(N1, YP.add(YP.multiply(N0, Base), Digit)))
4191 {
4192 foreach (bool l6 in read_based(Base, N1, N, C))
4193 {
4194 yield return false;
4195 }
4196 }
4197 goto cutIf10;
4198 }
4199 if (YP.equal(C1, new ListPair(95, Atom.NIL)))
4200 {
4201 foreach (bool l5 in read_based(Base, N0, N, C))
4202 {
4203 yield return false;
4204 }
4205 goto cutIf11;
4206 }
4207 foreach (bool l4 in YP.unify(N, N0))
4208 {
4209 foreach (bool l5 in YP.unify(C, C1))
4210 {
4211 yield return false;
4212 }
4213 }
4214 cutIf11:
4215 cutIf10:
4216 { }
4217 }
4218 cutIf7:
4219 cutIf4:
4220 cutIf1:
4221 { }
4222 }
4223 }
4224 }
4225
4226 public static IEnumerable<bool> read_char(object Char, object Quote, object Result, object Next)
4227 {
4228 {
4229 Variable C1 = new Variable();
4230 Variable C2 = new Variable();
4231 Variable C3 = new Variable();
4232 Variable Ch = new Variable();
4233 if (YP.equal(Char, 92))
4234 {
4235 foreach (bool l3 in YP.get_code(C1))
4236 {
4237 if (YP.lessThan(C1, 0))
4238 {
4239 foreach (bool l5 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** end of file in ~cquoted~c~n"), new ListPair(Quote, new ListPair(Quote, Atom.NIL))))
4240 {
4241 foreach (bool l6 in YP.unify(Result, -1))
4242 {
4243 foreach (bool l7 in YP.unify(Next, C1))
4244 {
4245 yield return false;
4246 }
4247 }
4248 }
4249 goto cutIf2;
4250 }
4251 if (YP.lessThanOrEqual(C1, new ListPair(32, Atom.NIL)))
4252 {
4253 foreach (bool l5 in YP.get_code(C2))
4254 {
4255 foreach (bool l6 in read_char(C2, Quote, Result, Next))
4256 {
4257 yield return false;
4258 }
4259 }
4260 goto cutIf3;
4261 }
4262 if (YP.equal(YP.bitwiseOr(C1, 32), new ListPair(99, Atom.NIL)))
4263 {
4264 foreach (bool l5 in YP.get_code(C2))
4265 {
4266 foreach (bool l6 in read_char(C2, Quote, Result, Next))
4267 {
4268 yield return false;
4269 }
4270 }
4271 goto cutIf4;
4272 }
4273 if (YP.lessThanOrEqual(C1, new ListPair(55, Atom.NIL)))
4274 {
4275 if (YP.greaterThanOrEqual(C1, new ListPair(48, Atom.NIL)))
4276 {
4277 foreach (bool l6 in YP.get_code(C2))
4278 {
4279 if (YP.lessThanOrEqual(C2, new ListPair(55, Atom.NIL)))
4280 {
4281 if (YP.greaterThanOrEqual(C2, new ListPair(48, Atom.NIL)))
4282 {
4283 foreach (bool l9 in YP.get_code(C3))
4284 {
4285 if (YP.lessThanOrEqual(C3, new ListPair(55, Atom.NIL)))
4286 {
4287 if (YP.greaterThanOrEqual(C3, new ListPair(48, Atom.NIL)))
4288 {
4289 foreach (bool l12 in YP.get_code(Next))
4290 {
4291 foreach (bool l13 in YP.unify(Result, YP.subtract(YP.add(YP.multiply(YP.add(YP.multiply(C1, 8), C2), 8), C3), YP.multiply(73, new ListPair(48, Atom.NIL)))))
4292 {
4293 yield return false;
4294 }
4295 }
4296 goto cutIf7;
4297 }
4298 }
4299 foreach (bool l10 in YP.unify(Next, C3))
4300 {
4301 foreach (bool l11 in YP.unify(Result, YP.subtract(YP.add(YP.multiply(C1, 8), C2), YP.multiply(9, new ListPair(48, Atom.NIL)))))
4302 {
4303 yield return false;
4304 }
4305 }
4306 cutIf7:
4307 { }
4308 }
4309 goto cutIf6;
4310 }
4311 }
4312 foreach (bool l7 in YP.unify(Next, C2))
4313 {
4314 foreach (bool l8 in YP.unify(Result, YP.subtract(C1, new ListPair(48, Atom.NIL))))
4315 {
4316 yield return false;
4317 }
4318 }
4319 cutIf6:
4320 { }
4321 }
4322 goto cutIf5;
4323 }
4324 }
4325 if (YP.equal(C1, new ListPair(94, Atom.NIL)))
4326 {
4327 foreach (bool l5 in YP.get_code(C2))
4328 {
4329 if (YP.lessThan(C2, 0))
4330 {
4331 foreach (bool l7 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** end of file in ~c..~c^..~c~n"), new ListPair(Quote, new ListPair(92, new ListPair(Quote, Atom.NIL)))))
4332 {
4333 foreach (bool l8 in YP.unify(Result, -1))
4334 {
4335 foreach (bool l9 in YP.unify(Next, C2))
4336 {
4337 yield return false;
4338 }
4339 }
4340 }
4341 goto cutIf9;
4342 }
4343 if (YP.equal(C2, new ListPair(63, Atom.NIL)))
4344 {
4345 foreach (bool l7 in YP.unify(Result, 127))
4346 {
4347 foreach (bool l8 in YP.get_code(Next))
4348 {
4349 yield return false;
4350 }
4351 }
4352 goto cutIf10;
4353 }
4354 foreach (bool l6 in YP.unify(Result, YP.bitwiseAnd(C2, 31)))
4355 {
4356 foreach (bool l7 in YP.get_code(Next))
4357 {
4358 yield return false;
4359 }
4360 }
4361 cutIf10:
4362 cutIf9:
4363 { }
4364 }
4365 goto cutIf8;
4366 }
4367 foreach (bool l4 in escape_char(C1, Result))
4368 {
4369 foreach (bool l5 in YP.get_code(Next))
4370 {
4371 yield return false;
4372 }
4373 goto cutIf11;
4374 }
4375 foreach (bool l4 in YP.unify(Result, C1))
4376 {
4377 foreach (bool l5 in YP.get_code(Next))
4378 {
4379 yield return false;
4380 }
4381 }
4382 cutIf11:
4383 cutIf8:
4384 cutIf5:
4385 cutIf4:
4386 cutIf3:
4387 cutIf2:
4388 { }
4389 }
4390 goto cutIf1;
4391 }
4392 if (YP.equal(Char, Quote))
4393 {
4394 foreach (bool l3 in YP.get_code(Ch))
4395 {
4396 if (YP.equal(Ch, Quote))
4397 {
4398 foreach (bool l5 in YP.unify(Result, Quote))
4399 {
4400 foreach (bool l6 in YP.get_code(Next))
4401 {
4402 yield return false;
4403 }
4404 }
4405 goto cutIf13;
4406 }
4407 foreach (bool l4 in YP.unify(Result, -1))
4408 {
4409 foreach (bool l5 in YP.unify(Next, Ch))
4410 {
4411 yield return false;
4412 }
4413 }
4414 cutIf13:
4415 { }
4416 }
4417 goto cutIf12;
4418 }
4419 if (YP.lessThan(Char, new ListPair(32, Atom.NIL)))
4420 {
4421 if (YP.notEqual(Char, 9))
4422 {
4423 if (YP.notEqual(Char, 10))
4424 {
4425 if (YP.notEqual(Char, 13))
4426 {
4427 foreach (bool l6 in YP.unify(Result, -1))
4428 {
4429 foreach (bool l7 in YP.unify(Next, Char))
4430 {
4431 foreach (bool l8 in formatError(Atom.a(@"user_error"), Atom.a(@"~N** Strange character ~d ends ~ctoken~c~n"), new ListPair(Char, new ListPair(Quote, new ListPair(Quote, Atom.NIL)))))
4432 {
4433 yield return false;
4434 }
4435 }
4436 }
4437 goto cutIf14;
4438 }
4439 }
4440 }
4441 }
4442 foreach (bool l2 in YP.unify(Result, Char))
4443 {
4444 foreach (bool l3 in YP.get_code(Next))
4445 {
4446 yield return false;
4447 }
4448 }
4449 cutIf14:
4450 cutIf12:
4451 cutIf1:
4452 { }
4453 }
4454 }
4455
4456 }
4457}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/PrologException.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/PrologException.cs
new file mode 100644
index 0000000..ffb8ddc
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/PrologException.cs
@@ -0,0 +1,71 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32
33namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
34{
35 /// <summary>
36 /// A PrologException is used as the exception thrown by YP.throw(Term).
37 /// </summary>
38 public class PrologException : Exception
39 {
40 public readonly object _term;
41
42 /// <summary>
43 /// Create a PrologException with the given Term. The printable exception message is the full Term.
44 /// </summary>
45 /// <param name="Term">the term of the exception</param>
46 /// </param>
47 public PrologException(object Term)
48 : base(YP.getValue(Term).ToString())
49 {
50 _term = YP.makeCopy(Term, new Variable.CopyStore());
51 }
52
53 /// <summary>
54 /// Create a PrologException where the Term is error(ErrorTerm, Message).
55 /// This uses YP.makeCopy to copy the ErrorTerm and Message so that they are valid after unbinding.
56 /// </summary>
57 /// <param name="ErrorTerm">the term of the exception</param>
58 /// <param name="Messsage">the message, converted to a string, to use as the printable exception message
59 /// </param>
60 public PrologException(object ErrorTerm, object Message)
61 : base(YP.getValue(Message).ToString())
62 {
63 _term = YP.makeCopy(new Functor2(Atom.a("error"), ErrorTerm, Message), new Variable.CopyStore());
64 }
65
66 public object Term
67 {
68 get { return _term; }
69 }
70 }
71}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/README.TXT b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/README.TXT
new file mode 100644
index 0000000..05186f1
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/README.TXT
@@ -0,0 +1,405 @@
1YPOS: YieldProlog for OpenSim
2
3 a compiler from Prolog to OpenSim compatible C# scripts
4
5Ported by Kino Coursey and Douglas Miles at Daxtron Labs.
6Based on Jeff Thompson Yield Prolog, http://yieldprolog.sourceforge.net/
7For Prolog see http://en.wikipedia.org/wiki/Prolog
8
9
10INTRODUCTION
11
12This folder contains code to implement a Prolog compiler using the "Yield Statement" found in C#, Javascript, and Python.
13The original Yield Prolog system can transform Prolog programs into C# code.
14In this system we detect and extract YieldProlog code (with "//YP" as the first four characters in the script) and seperate it from any c# code ("marked by "//CS").
15The YP code is transformed to C# and prepended to the "//CS" section, and passed as a bundel to the existing C# compiler.
16The end result is Prolog can interface to OpenSim using the existing "//CS" functionality, and C# can call the compiled Prolog.
17As such YP allows both declaritive and procedural programming in a 3D script enabled environment.
18
19FEATURES
20* Allows implementation of logic programming for objects and agents.
21* C#/Javascript/Python as intermediate language
22* Yield Prolog has relatively high speed of execution which is important in OpenSim. http://yieldprolog.sourceforge.net/benchmarks.html
23* It is compatable with the existing C#/Mono based system.
24* Yield Prolog is BSD license
25* Calling Prolog from C# scripts
26* Calling C# functions (with LSL and OS functions) from Prolog
27* Prolog dynamic database
28* Edinburgh, Cocksin & Mellish style syntax.
29* Compiler is generated by compiling the Prolog descrition of itself into C#
30* Same script entry interface as LSL
31
32
33TODO
34* Utilize ability to generate Javascript and Python code
35* Integrate Prolog database with Sim
36* Translation error reporting back to the editor
37* Communications via message passing
38* Interface to external inference engines
39
40POSSIBILITIES
41* Inworld expert systems
42* Parallel logic programming and expert systems
43* Ontology based processing
44* Knowledge based alerting, accessing and business rules
45 For instance, listen on channel x, filter the events and broadcast alerts on channel y
46 or send IM, emails etc.
47
48
49USAGE:
50
51Add "yp" as an allowed compiler
52
53OpenSim.ini
54[ScriptEngine.DotNetEngine]
55AllowedCompilers=lsl,cs,js,vb,yp
56
57Enter scripts using the inworld editing process. Scripts have the following format.
58The first line of a file must have "//yp".
59
60//yp
61<PROLOG CODE>
62//CS
63<CS CODE>
64
65
66
67
68
69
70C# code calling a Prolog Predicate:
71-----------------------------------
72The Prolog predicate is transformed into a C# boolean function. So the general calling format is:
73 foreach( bool var in prolog_predicate(ARGS)) {};
74
75I/O is via using a string reader and writer in conjunction with YP.See() and YP.Tell()
76
77 StringWriter PrologOutuput= new StringWriter();
78 StringReader PrologInput= new StringReader(myInputString);
79 YP.see(PrologInput);
80 YP.tell(PrologOutuput);
81 <CALL PROLOG CODE HERE>
82 YP.seen();
83 YP.told();
84 StringBuilder builder = PrologOutput.GetStringBuilder();
85 string finaloutput = builder.ToString();
86
87Any prolog reads and writes will be to the passed StringReader and StringWriter. In fact any TextReader/TextWriter class can be used.
88
89Strings in Prolog are stored as Atom's and you need to use an Atom object to match.
90
91\\yp
92wanted('bob').
93\\cs
94string Who="bob";
95foreach( bool ans in wanted(Atom.a(Who) )){};
96
97
98Prolog code calling a C# function:
99-----------------------------------
100The prolog code uses the script_event('name_of_function',ARGS) builtin, which is transformed into the function call.
101The C# function called uses "PrologCallback" and returns a boolean.
102
103
104
105Dynamic database assertions:
106-----------------------------------
107
108void assertdb2(string predicate, string arg1, string arg2)
109{
110 name = Atom.a(predicate);
111 YP.assertFact(name, new object[] { arg1, arg2 });
112}
113
114void retractdb2(string predicate, string arg1, string arg2)
115{
116 name = Atom.a(predicate);
117 YP.retractFact(name, new object[] { arg1, arg2 });
118}
119
120
121========================= APPENDIX A: touch test ================================
122
123
124 ===================================
125Input YP Code
126 ===================================
127//yp
128 mydb('field2','field1').
129 mydb('andy','jane').
130 mydb('carl','dan').
131 mydb('andy','bill').
132 mydb('andy','betty').
133
134 call_me(X):-mydb(X,Y) , respond(Y).
135 respond(X):- script_event('sayit',X).
136
137//cs
138 public void default_event_touch_start(int N )
139 {
140 llSay(0,"pstart1");
141 foreach( bool ans in call_me(Atom.a(@"andy") )){};
142 llSay(0,"pstop2");
143 }
144
145 public void default_event_state_entry()
146 {
147 llSay(0,"prolog tester active.");
148 }
149
150PrologCallback sayit(object ans)
151 {
152 llSay(0,"sayit1");
153 string msg = "one answer is :"+((Variable)ans).getValue();
154 llSay(0,msg);
155 yield return false;
156 }
157
158
159 ===================================
160Generated CS Code
161 ===================================
162using OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog;using OpenSim.Region.ScriptEngine.Common; using System.Collections.Generic;
163namespace SecondLife { public class Script : OpenSim.Region.ScriptEngine.Common.BuiltIn_Commands_BaseClass {
164static OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog.YP YP=null;public Script() { YP= new OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog.YP(); }
165//cs
166 public void default_event_touch_start(int N )
167 {
168 llSay(0,"pstart1");
169 foreach( bool ans in call_me(Atom.a(@"carl") )){};
170 llSay(0,"pstop2");
171 }
172
173 public void default_event_state_entry()
174 {
175 llSay(0,"prolog tester active.");
176 }
177
178public IEnumerable<bool> sayit(object ans)
179 {
180 llSay(0,"sayit1");
181 string msg = "one answer is :"+((Variable)ans).getValue();
182 llSay(0,msg);
183 yield return false;
184 }
185
186
187//YPEncoded
188public IEnumerable<bool> mydb(object arg1, object arg2) {
189 {
190 foreach (bool l2 in YP.unify(arg1, Atom.a(@"carl"))) {
191 foreach (bool l3 in YP.unify(arg2, Atom.a(@"dan"))) {
192 yield return false;
193 }
194 }
195 }
196 {
197 foreach (bool l2 in YP.unify(arg1, Atom.a(@"andy"))) {
198 foreach (bool l3 in YP.unify(arg2, Atom.a(@"bill"))) {
199 yield return false;
200 }
201 }
202 }
203 {
204 foreach (bool l2 in YP.unify(arg1, Atom.a(@"andy"))) {
205 foreach (bool l3 in YP.unify(arg2, Atom.a(@"betty"))) {
206 yield return false;
207 }
208 }
209 }
210}
211
212public IEnumerable<bool> call_me(object X) {
213 {
214 Variable Y = new Variable();
215 foreach (bool l2 in mydb(X, Y)) {
216 foreach (bool l3 in respond(Y)) {
217 yield return false;
218 }
219 }
220 }
221}
222
223public IEnumerable<bool> respond(object X) {
224 {
225 foreach (bool l2 in this.sayit( X)) {
226 yield return false;
227 }
228 }
229}
230
231} }
232
233
234
235========================= APPENDIX B:SENSOR INFORMED SCRIPT =====================
236
237
238 ===================================
239Input YP Code
240 ===================================
241//yp
242
243nop.
244
245good('Daxxon Kinoc').
246good('Fluffy Kitty').
247
248bad('Eric Evil').
249bad('Spikey Plant').
250
251prolog_notify(X) :- good(X) , script_event('accept',X).
252prolog_notify(X) :- bad(X) , script_event('reject',X).
253
254
255//cs
256
257public void default_event_state_entry()
258 {
259 llSay(0,"prolog sensor tester active.");
260
261 // Start a sensor looking for Agents
262 llSensorRepeat("","",AGENT, 10, PI,20);
263
264 }
265
266public void default_event_sensor(int number_detected )
267{
268 int i;
269 for(i=0;i< number_detected ;i++)
270 {
271 string dName = llDetectedName(i);
272 string dOwner = llDetectedName(i);
273 foreach(bool response in prolog_notify(Atom.a(dName)) ){};
274 foreach(bool response in prolog_notify(dOwner) ){};
275 llSay(0,"Saw "+dName);
276 }
277}
278
279string decodeToString(object obj)
280{
281 if (obj is Variable) { return (string) ((Variable)obj).getValue();}
282 if (obj is Atom) { return (string) ((Atom)obj)._name;}
283 return "unknown type";
284}
285
286PrologCallback accept(object ans)
287 {
288 string msg = "Welcoming :"+decodeToString(ans);
289 llSay(0,msg);
290 yield return false;
291 }
292
293PrologCallback reject(object ans)
294 {
295 string msg = "Watching :"+decodeToString(ans);
296 llSay(0,msg);
297 yield return false;
298 }
299
300
301 ===================================
302Generated CS Code
303 ===================================
304
305using OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog; using OpenSim.Region.ScriptEngine.Common; using System.Collections.Generic;
306namespace SecondLife { public class Script : OpenSim.Region.ScriptEngine.Common.BuiltIn_Commands_BaseClass {
307static OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog.YP YP=null; public Script() { YP= new OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog.YP(); }
308//cs
309
310public void default_event_state_entry()
311 {
312 llSay(0,"prolog sensor tester active.");
313
314 // Start a sensor looking for Agents
315 llSensorRepeat("","",AGENT, 10, PI,20);
316
317 }
318
319public void default_event_sensor(int number_detected )
320{
321 int i;
322 for(i=0;i< number_detected ;i++)
323 {
324 string dName = llDetectedName(i);
325 string dOwner = llDetectedName(i);
326 foreach(bool response in prolog_notify(Atom.a(dName)) ){};
327 foreach(bool response in prolog_notify(dOwner) ){};
328 llSay(0,"Saw "+dName);
329 }
330}
331
332string decodeToString(object obj)
333{
334 if (obj is Variable) { return (string) ((Variable)obj).getValue();}
335 if (obj is Atom) { return (string) ((Atom)obj)._name;}
336 return "unknown type";
337}
338
339public IEnumerable<bool> accept(object ans)
340 {
341 string msg = "Welcoming :"+decodeToString(ans);
342 llSay(0,msg);
343 yield return false;
344 }
345
346public IEnumerable<bool> reject(object ans)
347 {
348 string msg = "Watching :"+decodeToString(ans);
349 llSay(0,msg);
350 yield return false;
351 }
352
353
354//YPEncoded
355public IEnumerable<bool> yp_nop_header_nop() {
356 {
357 yield return false;
358 }
359}
360
361public IEnumerable<bool> good(object arg1) {
362 {
363 foreach (bool l2 in YP.unify(arg1, Atom.a(@"Daxxon Kinoc"))) {
364 yield return false;
365 }
366 }
367 {
368 foreach (bool l2 in YP.unify(arg1, Atom.a(@"Fluffy Kitty"))) {
369 yield return false;
370 }
371 }
372}
373
374public IEnumerable<bool> bad(object arg1) {
375 {
376 foreach (bool l2 in YP.unify(arg1, Atom.a(@"Eric Evil"))) {
377 yield return false;
378 }
379 }
380 {
381 foreach (bool l2 in YP.unify(arg1, Atom.a(@"Spikey Plant"))) {
382 yield return false;
383 }
384 }
385}
386
387public IEnumerable<bool> prolog_notify(object X) {
388 {
389 foreach (bool l2 in good(X)) {
390 foreach (bool l3 in this.accept( X)) {
391 yield return false;
392 }
393 }
394 }
395 {
396 foreach (bool l2 in bad(X)) {
397 foreach (bool l3 in this.reject( X)) {
398 yield return false;
399 }
400 }
401 }
402}
403
404} }
405
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/UndefinedPredicateException.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/UndefinedPredicateException.cs
new file mode 100644
index 0000000..035b79c
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/UndefinedPredicateException.cs
@@ -0,0 +1,62 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32
33namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
34{
35 /// <summary>
36 /// An UndefinedPredicateException extends PrologException to create an existence_error exception.
37 /// </summary>
38 public class UndefinedPredicateException : PrologException
39 {
40 private Atom _predicateName;
41 private int _arity;
42
43 public UndefinedPredicateException(object message, Atom predicateName, int arity)
44 : base(new Functor2
45 (Atom.a("existence_error"), Atom.a("procedure"), new Functor2(Atom.a("/"), predicateName, arity)),
46 message)
47 {
48 _predicateName = predicateName;
49 _arity = arity;
50 }
51
52 public Atom PredicateName
53 {
54 get { return _predicateName; }
55 }
56
57 public int Arity
58 {
59 get { return _arity; }
60 }
61 }
62}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Variable.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Variable.cs
new file mode 100644
index 0000000..d5ee21c
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/Variable.cs
@@ -0,0 +1,196 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections;
33using System.Collections.Generic;
34
35namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
36{
37 public interface IUnifiable
38 {
39 IEnumerable<bool> unify(object arg);
40 void addUniqueVariables(List<Variable> variableSet);
41 object makeCopy(Variable.CopyStore copyStore);
42 bool termEqual(object term);
43 bool ground();
44 }
45
46 public class Variable : IUnifiable
47 {
48 // Use _isBound separate from _value so that it can be bound to any value,
49 // including null.
50 private bool _isBound = false;
51 private object _value;
52
53 public object getValue()
54 {
55 if (!_isBound)
56 return this;
57
58 object result = _value;
59 while (result is Variable)
60 {
61 if (!((Variable)result)._isBound)
62 return result;
63
64 // Keep following the Variable chain.
65 result = ((Variable)result)._value;
66 }
67
68 return result;
69 }
70
71 public IEnumerable<bool> unify(object arg)
72 {
73 if (!_isBound)
74 {
75 _value = YP.getValue(arg);
76 if (_value == this)
77 // We are unifying this unbound variable with itself, so leave it unbound.
78 yield return false;
79 else
80 {
81 _isBound = true;
82 try
83 {
84 yield return false;
85 }
86 finally
87 {
88 // Remove the binding.
89 _isBound = false;
90 }
91 }
92 }
93 else
94 {
95 foreach (bool l1 in YP.unify(this, arg))
96 yield return false;
97 }
98 }
99
100 public override string ToString()
101 {
102 object value = getValue();
103 if (value == this)
104 return "Variable";
105 else
106 return getValue().ToString();
107 }
108
109 /// <summary>
110 /// If bound, call YP.addUniqueVariables on the value. Otherwise, if this unbound
111 /// variable is not already in variableSet, add it.
112 /// </summary>
113 /// <param name="variableSet"></param>
114 public void addUniqueVariables(List<Variable> variableSet)
115 {
116 if (_isBound)
117 YP.addUniqueVariables(getValue(), variableSet);
118 else
119 {
120 if (variableSet.IndexOf(this) < 0)
121 variableSet.Add(this);
122 }
123 }
124
125 /// <summary>
126 /// If bound, return YP.makeCopy for the value, else return copyStore.getCopy(this).
127 /// However, if copyStore is null, just return this.
128 /// </summary>
129 /// <param name="copyStore"></param>
130 /// <returns></returns>
131 public object makeCopy(Variable.CopyStore copyStore)
132 {
133 if (_isBound)
134 return YP.makeCopy(getValue(), copyStore);
135 else
136 return copyStore == null ? this : copyStore.getCopy(this);
137 }
138
139 public bool termEqual(object term)
140 {
141 if (_isBound)
142 return YP.termEqual(getValue(), term);
143 else
144 return this == YP.getValue(term);
145 }
146
147 public bool ground()
148 {
149 if (_isBound)
150 // This is usually called by YP.ground which already did getValue, so this
151 // should never be reached, but check anyway.
152 return YP.ground(getValue());
153 else
154 return false;
155 }
156
157 /// <summary>
158 /// A CopyStore is used by makeCopy to track which Variable objects have
159 /// been copied.
160 /// </summary>
161 public class CopyStore
162 {
163 private List<Variable> _inVariableSet = new List<Variable>();
164 private List<Variable> _outVariableSet = new List<Variable>();
165
166 /// <summary>
167 /// If inVariable has already been copied, return its copy. Otherwise,
168 /// return a fresh Variable associated with inVariable.
169 /// </summary>
170 /// <param name="inVariable"></param>
171 /// <returns></returns>
172 public Variable getCopy(Variable inVariable)
173 {
174 int index = _inVariableSet.IndexOf(inVariable);
175 if (index >= 0)
176 return _outVariableSet[index];
177 else
178 {
179 Variable outVariable = new Variable();
180 _inVariableSet.Add(inVariable);
181 _outVariableSet.Add(outVariable);
182 return outVariable;
183 }
184 }
185
186 /// <summary>
187 /// Return the number of unique variables that have been copied.
188 /// </summary>
189 /// <returns></returns>
190 public int getNUniqueVariables()
191 {
192 return _inVariableSet.Count;
193 }
194 }
195 }
196}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YP.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YP.cs
new file mode 100644
index 0000000..3c0e4e0
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YP.cs
@@ -0,0 +1,1440 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.Collections;
33using System.Collections.Generic;
34using System.IO;
35using System.Reflection;
36
37namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
38{
39 /// <summary>
40 /// YP has static methods for general functions in Yield Prolog such as <see cref="getValue"/>
41 /// and <see cref="unify"/>.
42 /// </summary>
43 public class YP
44 {
45 private static Fail _fail = new Fail();
46 private static Repeat _repeat = new Repeat();
47 private static Dictionary<NameArity, List<IClause>> _predicatesStore =
48 new Dictionary<NameArity, List<IClause>>();
49 private static TextWriter _outputStream = System.Console.Out;
50 private static TextReader _inputStream = System.Console.In;
51 private static List<object[]> _operatorTable = null;
52
53 /// <summary>
54 /// An IClause is used so that dynamic predicates can call match.
55 /// </summary>
56 public interface IClause
57 {
58 IEnumerable<bool> match(object[] args);
59 }
60
61 public static object getValue(object value)
62 {
63 if (value is Variable)
64 return ((Variable)value).getValue();
65 else
66 return value;
67 }
68
69 public static IEnumerable<bool> unify(object arg1, object arg2)
70 {
71 arg1 = getValue(arg1);
72 arg2 = getValue(arg2);
73 if (arg1 is IUnifiable)
74 return ((IUnifiable)arg1).unify(arg2);
75 else if (arg2 is IUnifiable)
76 return ((IUnifiable)arg2).unify(arg1);
77 else
78 {
79 // Arguments are "normal" types.
80 if (arg1.Equals(arg2))
81 return new Succeed();
82 else
83 return _fail;
84 }
85 }
86
87 /// <summary>
88 /// This is used for the lookup key in _factStore.
89 /// </summary>
90 public struct NameArity
91 {
92 public readonly Atom _name;
93 public readonly int _arity;
94
95 public NameArity(Atom name, int arity)
96 {
97 _name = name;
98 _arity = arity;
99 }
100
101 public override bool Equals(object obj)
102 {
103 if (obj is NameArity)
104 {
105 NameArity nameArity = (NameArity)obj;
106 return nameArity._name.Equals(_name) && nameArity._arity.Equals(_arity);
107 }
108 else
109 {
110 return false;
111 }
112 }
113
114 public override int GetHashCode()
115 {
116 return _name.GetHashCode() ^ _arity.GetHashCode();
117 }
118 }
119
120 /// <summary>
121 /// Convert term to an int.
122 /// If term is a single-element List, use its first element
123 /// (to handle the char types like "a"). If can't convert, throw an exception.
124 /// </summary>
125 /// <param name="term"></param>
126 /// <returns></returns>
127 public static int convertInt(object term)
128 {
129 term = YP.getValue(term);
130 if (term is Functor2 && ((Functor2)term)._name == Atom.DOT &&
131 YP.getValue(((Functor2)term)._arg2) == Atom.NIL)
132 // Assume it is a char type like "a".
133 term = YP.getValue(((Functor2)term)._arg1);
134
135 return (int)term;
136 }
137
138 /// <summary>
139 /// Convert term to a double. This may convert an int to a double, etc.
140 /// If term is a single-element List, use its first element
141 /// (to handle the char types like "a"). If can't convert, throw an exception.
142 /// </summary>
143 /// <param name="term"></param>
144 /// <returns></returns>
145 public static double convertDouble(object term)
146 {
147 term = YP.getValue(term);
148 if (term is Functor2 && ((Functor2)term)._name == Atom.DOT &&
149 YP.getValue(((Functor2)term)._arg2) == Atom.NIL)
150 // Assume it is a char type like "a".
151 term = YP.getValue(((Functor2)term)._arg1);
152
153 return Convert.ToDouble(term);
154 }
155
156 /// <summary>
157 /// If term is an integer, set intTerm.
158 /// If term is a single-element List, use its first element
159 /// (to handle the char types like "a"). Return true for success, false if can't convert.
160 /// We use a success return value because throwing an exception is inefficient.
161 /// </summary>
162 /// <param name="term"></param>
163 /// <returns></returns>
164 public static bool getInt(object term, out int intTerm)
165 {
166 term = YP.getValue(term);
167 if (term is Functor2 && ((Functor2)term)._name == Atom.DOT &&
168 YP.getValue(((Functor2)term)._arg2) == Atom.NIL)
169 // Assume it is a char type like "a".
170 term = YP.getValue(((Functor2)term)._arg1);
171
172 if (term is int)
173 {
174 intTerm = (int)term;
175 return true;
176 }
177
178 intTerm = 0;
179 return false;
180 }
181
182 public static bool equal(object x, object y)
183 {
184 x = YP.getValue(x);
185 if (x is DateTime)
186 return (DateTime)x == (DateTime)YP.getValue(y);
187 // Assume convertDouble converts an int to a double perfectly.
188 return YP.convertDouble(x) == YP.convertDouble(y);
189 }
190
191 public static bool notEqual(object x, object y)
192 {
193 x = YP.getValue(x);
194 if (x is DateTime)
195 return (DateTime)x != (DateTime)YP.getValue(y);
196 // Assume convertDouble converts an int to a double perfectly.
197 return YP.convertDouble(x) != YP.convertDouble(y);
198 }
199
200 public static bool greaterThan(object x, object y)
201 {
202 x = YP.getValue(x);
203 if (x is DateTime)
204 return (DateTime)x > (DateTime)YP.getValue(y);
205 // Assume convertDouble converts an int to a double perfectly.
206 return YP.convertDouble(x) > YP.convertDouble(y);
207 }
208
209 public static bool lessThan(object x, object y)
210 {
211 x = YP.getValue(x);
212 if (x is DateTime)
213 return (DateTime)x < (DateTime)YP.getValue(y);
214 // Assume convertDouble converts an int to a double perfectly.
215 return YP.convertDouble(x) < YP.convertDouble(y);
216 }
217
218 public static bool greaterThanOrEqual(object x, object y)
219 {
220 x = YP.getValue(x);
221 if (x is DateTime)
222 return (DateTime)x >= (DateTime)YP.getValue(y);
223 // Assume convertDouble converts an int to a double perfectly.
224 return YP.convertDouble(x) >= YP.convertDouble(y);
225 }
226
227 public static bool lessThanOrEqual(object x, object y)
228 {
229 x = YP.getValue(x);
230 if (x is DateTime)
231 return (DateTime)x <= (DateTime)YP.getValue(y);
232 // Assume convertDouble converts an int to a double perfectly.
233 return YP.convertDouble(x) <= YP.convertDouble(y);
234 }
235
236 public static object negate(object x)
237 {
238 int intX;
239 if (getInt(x, out intX))
240 return -intX;
241 return -convertDouble(x);
242 }
243
244 public static object abs(object x)
245 {
246 int intX;
247 if (getInt(x, out intX))
248 return Math.Abs(intX);
249 return Math.Abs(convertDouble(x));
250 }
251
252 public static object sign(object x)
253 {
254 int intX;
255 if (getInt(x, out intX))
256 return Math.Sign(intX);
257 return Math.Sign(convertDouble(x));
258 }
259
260 /// <summary>
261 /// The ISO standard returns an int.
262 /// </summary>
263 /// <param name="x"></param>
264 /// <returns></returns>
265 public static object floor(object x)
266 {
267 return (int)Math.Floor(convertDouble(x));
268 }
269
270 /// <summary>
271 /// The ISO standard returns an int.
272 /// </summary>
273 /// <param name="x"></param>
274 /// <returns></returns>
275 public static object truncate(object x)
276 {
277 return (int)Math.Truncate(convertDouble(x));
278 }
279
280 /// <summary>
281 /// The ISO standard returns an int.
282 /// </summary>
283 /// <param name="x"></param>
284 /// <returns></returns>
285 public static object round(object x)
286 {
287 return (int)Math.Round(convertDouble(x));
288 }
289
290 /// <summary>
291 /// The ISO standard returns an int.
292 /// </summary>
293 /// <param name="x"></param>
294 /// <returns></returns>
295 public static object ceiling(object x)
296 {
297 return (int)Math.Ceiling(convertDouble(x));
298 }
299
300 public static object sin(object x)
301 {
302 return Math.Sin(YP.convertDouble(x));
303 }
304
305 public static object cos(object x)
306 {
307 return Math.Cos(YP.convertDouble(x));
308 }
309
310 public static object atan(object x)
311 {
312 return Math.Atan(YP.convertDouble(x));
313 }
314
315 public static object exp(object x)
316 {
317 return Math.Exp(YP.convertDouble(x));
318 }
319
320 public static object log(object x)
321 {
322 return Math.Log(YP.convertDouble(x));
323 }
324
325 public static object sqrt(object x)
326 {
327 return Math.Sqrt(convertDouble(x));
328 }
329
330 public static object bitwiseComplement(object x)
331 {
332 return ~YP.convertInt(x);
333 }
334
335 public static object add(object x, object y)
336 {
337 int intX, intY;
338 if (getInt(x, out intX) && getInt(y, out intY))
339 return intX + intY;
340 return convertDouble(x) + convertDouble(y);
341 }
342
343 public static object subtract(object x, object y)
344 {
345 int intX, intY;
346 if (getInt(x, out intX) && getInt(y, out intY))
347 return intX - intY;
348 return convertDouble(x) - convertDouble(y);
349 }
350
351 public static object multiply(object x, object y)
352 {
353 int intX, intY;
354 if (getInt(x, out intX) && getInt(y, out intY))
355 return intX * intY;
356 return convertDouble(x) * convertDouble(y);
357 }
358
359 /// <summary>
360 /// Return floating point, even if both arguments are integer.
361 /// </summary>
362 /// <param name="x"></param>
363 /// <param name="y"></param>
364 /// <returns></returns>
365 public static object divide(object x, object y)
366 {
367 return convertDouble(x) / convertDouble(y);
368 }
369
370 public static object intDivide(object x, object y)
371 {
372 int intX, intY;
373 if (getInt(x, out intX) && getInt(y, out intY))
374 return intX / intY;
375 // Still allow passing a double, but treat as an int.
376 return (int)convertDouble(x) / (int)convertDouble(y);
377 }
378
379 public static object mod(object x, object y)
380 {
381 int intX, intY;
382 if (getInt(x, out intX) && getInt(y, out intY))
383 return intX % intY;
384 // Still allow passing a double, but treat as an int.
385 return (int)convertDouble(x) % (int)convertDouble(y);
386 }
387
388 public static object pow(object x, object y)
389 {
390 return Math.Pow(YP.convertDouble(x), YP.convertDouble(y));
391 }
392
393 public static object bitwiseShiftRight(object x, object y)
394 {
395 return YP.convertInt(x) >> YP.convertInt(y);
396 }
397
398 public static object bitwiseShiftLeft(object x, object y)
399 {
400 return YP.convertInt(x) << YP.convertInt(y);
401 }
402
403 public static object bitwiseAnd(object x, object y)
404 {
405 return YP.convertInt(x) & YP.convertInt(y);
406 }
407
408 public static object bitwiseOr(object x, object y)
409 {
410 return YP.convertInt(x) | YP.convertInt(y);
411 }
412
413 public static object min(object x, object y)
414 {
415 int intX, intY;
416 if (getInt(x, out intX) && getInt(y, out intY))
417 return Math.Min(intX, intY);
418 return Math.Min(convertDouble(x), convertDouble(y));
419 }
420
421 public static object max(object x, object y)
422 {
423 int intX, intY;
424 if (getInt(x, out intX) && getInt(y, out intY))
425 return Math.Max(intX, intY);
426 return Math.Max(convertDouble(x), convertDouble(y));
427 }
428
429 public static IEnumerable<bool> copy_term(object inTerm, object outTerm)
430 {
431 return YP.unify(outTerm, YP.makeCopy(inTerm, new Variable.CopyStore()));
432 }
433
434 public static void addUniqueVariables(object term, List<Variable> variableSet)
435 {
436 term = YP.getValue(term);
437 if (term is IUnifiable)
438 ((IUnifiable)term).addUniqueVariables(variableSet);
439 }
440
441 public static object makeCopy(object term, Variable.CopyStore copyStore)
442 {
443 term = YP.getValue(term);
444 if (term is IUnifiable)
445 return ((IUnifiable)term).makeCopy(copyStore);
446 else
447 // term is a "normal" type. Assume it is ground.
448 return term;
449 }
450
451 /// <summary>
452 /// Sort the array in place according to termLessThan. This does not remove duplicates
453 /// </summary>
454 /// <param name="array"></param>
455 public static void sortArray(object[] array)
456 {
457 Array.Sort(array, YP.compareTerms);
458 }
459
460 /// <summary>
461 /// Sort the array in place according to termLessThan. This does not remove duplicates
462 /// </summary>
463 /// <param name="array"></param>
464 public static void sortArray(List<object> array)
465 {
466 array.Sort(YP.compareTerms);
467 }
468
469 /// <summary>
470 /// Sort List according to termLessThan, remove duplicates and unify with Sorted.
471 /// </summary>
472 /// <param name="List"></param>
473 /// <param name="Sorted"></param>
474 /// <returns></returns>
475 public static IEnumerable<bool> sort(object List, object Sorted)
476 {
477 object[] array = ListPair.toArray(List);
478 if (array == null)
479 return YP.fail();
480 if (array.Length > 1)
481 sortArray(array);
482 return YP.unify(Sorted, ListPair.makeWithoutRepeatedTerms(array));
483 }
484
485
486
487 /// <summary>
488 /// Use YP.unify to unify each of the elements of the two arrays, and yield
489 /// once if they all unify.
490 /// </summary>
491 /// <param name="array1"></param>
492 /// <param name="array2"></param>
493 /// <returns></returns>
494 public static IEnumerable<bool> unifyArrays(object[] array1, object[] array2)
495 {
496 if (array1.Length != array2.Length)
497 yield break;
498
499 IEnumerator<bool>[] iterators = new IEnumerator<bool>[array1.Length];
500 bool gotMatch = true;
501 int nIterators = 0;
502 // Try to bind all the arguments.
503 for (int i = 0; i < array1.Length; ++i)
504 {
505 IEnumerator<bool> iterator = YP.unify(array1[i], array2[i]).GetEnumerator();
506 iterators[nIterators++] = iterator;
507 // MoveNext() is true if YP.unify succeeds.
508 if (!iterator.MoveNext())
509 {
510 gotMatch = false;
511 break;
512 }
513 }
514
515 try
516 {
517 if (gotMatch)
518 yield return false;
519 }
520 finally
521 {
522 // Manually finalize all the iterators.
523 for (int i = 0; i < nIterators; ++i)
524 iterators[i].Dispose();
525 }
526 }
527
528 /// <summary>
529 /// Return an iterator (which you can use in a for-in loop) which does
530 /// zero iterations. This returns a pre-existing iterator which is
531 /// more efficient than letting the compiler generate a new one.
532 /// </summary>
533 /// <returns></returns>
534 public static IEnumerable<bool> fail()
535 {
536 return _fail;
537 }
538
539 /// <summary>
540 /// Return an iterator (which you can use in a for-in loop) which does
541 /// one iteration. This returns a pre-existing iterator which is
542 /// more efficient than letting the compiler generate a new one.
543 /// </summary>
544 /// <returns></returns>
545 public static IEnumerable<bool> succeed()
546 {
547 return new Succeed();
548 }
549
550 /// <summary>
551 /// Return an iterator (which you can use in a for-in loop) which repeats
552 /// indefinitely. This returns a pre-existing iterator which is
553 /// more efficient than letting the compiler generate a new one.
554 /// </summary>
555 /// <returns></returns>
556 public static IEnumerable<bool> repeat()
557 {
558 return _repeat;
559 }
560
561 public static IEnumerable<bool> univ(object Term, object List)
562 {
563 Term = YP.getValue(Term);
564 List = YP.getValue(List);
565
566 if (nonvar(Term))
567 return YP.unify(new ListPair
568 (getFunctorName(Term), ListPair.make(getFunctorArgs(Term))), List);
569
570 Variable Name = new Variable();
571 Variable ArgList = new Variable();
572 foreach (bool l1 in new ListPair(Name, ArgList).unify(List))
573 {
574 object[] args = ListPair.toArray(ArgList);
575 if (args == null)
576 throw new Exception("Expected a list. Got: " + ArgList.getValue());
577 if (args.Length == 0)
578 // Return the Name, even if it is not an Atom.
579 return YP.unify(Term, Name);
580 if (!atom(Name))
581 throw new Exception("Expected an atom. Got: " + Name.getValue());
582
583 return YP.unify(Term, Functor.make((Atom)YP.getValue(Name), args));
584 }
585
586 return YP.fail();
587 }
588
589 public static IEnumerable<bool> functor(object Term, object FunctorName, object Arity)
590 {
591 Term = YP.getValue(Term);
592 FunctorName = YP.getValue(FunctorName);
593 Arity = YP.getValue(Arity);
594
595 if (!(Term is Variable))
596 {
597 foreach (bool l1 in YP.unify(FunctorName, getFunctorName(Term)))
598 {
599 foreach (bool l2 in YP.unify(Arity, getFunctorArgs(Term).Length))
600 yield return false;
601 }
602 }
603 else
604 throw new NotImplementedException("Debug: must finish functor/3");
605 }
606
607 public static IEnumerable<bool> arg(object ArgNumber, object Term, object Value)
608 {
609 if (YP.var(ArgNumber))
610 throw new NotImplementedException("Debug: must finish arg/3");
611 else
612 {
613 int argNumberInt = convertInt(ArgNumber);
614 if (argNumberInt < 0)
615 throw new Exception("ArgNumber must be non-negative");
616 object[] termArgs = YP.getFunctorArgs(Term);
617 // Silently fail if argNumberInt is out of range.
618 if (argNumberInt >= 1 && argNumberInt <= termArgs.Length)
619 {
620 // The first ArgNumber is at 1, not 0.
621 foreach (bool l1 in YP.unify(Value, termArgs[argNumberInt - 1]))
622 yield return false;
623 }
624 }
625 }
626
627 public static bool termEqual(object Term1, object Term2)
628 {
629 Term1 = YP.getValue(Term1);
630 if (Term1 is IUnifiable)
631 return ((IUnifiable)Term1).termEqual(Term2);
632 return Term1.Equals(YP.getValue(Term2));
633 }
634
635 public static bool termNotEqual(object Term1, object Term2)
636 {
637 return !termEqual(Term1, Term2);
638 }
639
640 public static bool termLessThan(object Term1, object Term2)
641 {
642 Term1 = YP.getValue(Term1);
643 Term2 = YP.getValue(Term2);
644 int term1TypeCode = getTypeCode(Term1);
645 int term2TypeCode = getTypeCode(Term2);
646 if (term1TypeCode != term2TypeCode)
647 return term1TypeCode < term2TypeCode;
648
649 // The terms are the same type code.
650 if (term1TypeCode == -2)
651 {
652 // Variable.
653 // We always check for equality first because we want to be sure
654 // that less than returns false if the terms are equal, in
655 // case that the less than check really behaves like less than or equal.
656 if ((Variable)Term1 != (Variable)Term2)
657 // The hash code should be unique to a Variable object.
658 return Term1.GetHashCode() < Term2.GetHashCode();
659 return false;
660 }
661 if (term1TypeCode == 0)
662 return ((Atom)Term1)._name.CompareTo(((Atom)Term2)._name) < 0;
663 if (term1TypeCode == 1)
664 return ((Functor1)Term1).lessThan((Functor1)Term2);
665 if (term1TypeCode == 2)
666 return ((Functor2)Term1).lessThan((Functor2)Term2);
667 if (term1TypeCode == 3)
668 return ((Functor3)Term1).lessThan((Functor3)Term2);
669 if (term1TypeCode == 4)
670 return ((Functor)Term1).lessThan((Functor)Term2);
671
672 // Type code is -1 for general objects. First compare their type names.
673 // Note that this puts Double before Int32 as required by ISO Prolog.
674 string term1TypeName = Term1.GetType().ToString();
675 string term2TypeName = Term2.GetType().ToString();
676 if (term1TypeName != term2TypeName)
677 return term1TypeName.CompareTo(term2TypeName) < 0;
678
679 // The terms are the same type name.
680 if (Term1 is int)
681 return (int)Term1 < (int)Term2;
682 else if (Term1 is double)
683 return (double)Term1 < (double)Term2;
684 else if (Term1 is DateTime)
685 return (DateTime)Term1 < (DateTime)Term2;
686 else if (Term1 is String)
687 return ((String)Term1).CompareTo((String)Term2) < 0;
688 // Debug: Should we try arrays, etc.?
689
690 if (!Term1.Equals(Term2))
691 // Could be equal or greater than.
692 return Term1.GetHashCode() < Term2.GetHashCode();
693 return false;
694 }
695
696 /// <summary>
697 /// Type code is -2 if term is a Variable, 0 if it is an Atom,
698 /// 1 if it is a Functor1, 2 if it is a Functor2, 3 if it is a Functor3,
699 /// 4 if it is Functor.
700 /// Otherwise, type code is -1.
701 /// This does not call YP.getValue(term).
702 /// </summary>
703 /// <param name="term"></param>
704 /// <returns></returns>
705 private static int getTypeCode(object term)
706 {
707 if (term is Variable)
708 return -2;
709 else if (term is Atom)
710 return 0;
711 else if (term is Functor1)
712 return 1;
713 else if (term is Functor2)
714 return 2;
715 else if (term is Functor3)
716 return 3;
717 else if (term is Functor)
718 return 4;
719 else
720 return -1;
721 }
722
723 public static bool termLessThanOrEqual(object Term1, object Term2)
724 {
725 if (YP.termEqual(Term1, Term2))
726 return true;
727 return YP.termLessThan(Term1, Term2);
728 }
729
730 public static bool termGreaterThan(object Term1, object Term2)
731 {
732 return !YP.termLessThanOrEqual(Term1, Term2);
733 }
734
735 public static bool termGreaterThanOrEqual(object Term1, object Term2)
736 {
737 // termLessThan should ensure that it returns false if terms are equal,
738 // so that this would return true.
739 return !YP.termLessThan(Term1, Term2);
740 }
741
742 public static int compareTerms(object Term1, object Term2)
743 {
744 if (YP.termEqual(Term1, Term2))
745 return 0;
746 else if (YP.termLessThan(Term1, Term2))
747 return -1;
748 else
749 return 1;
750 }
751
752 public static bool ground(object Term)
753 {
754 Term = YP.getValue(Term);
755 if (Term is IUnifiable)
756 return ((IUnifiable)Term).ground();
757 return true;
758 }
759
760 public static IEnumerable<bool> current_op
761 (object Priority, object Specifier, object Operator)
762 {
763 if (_operatorTable == null)
764 {
765 // Initialize.
766 _operatorTable = new List<object[]>();
767 _operatorTable.Add(new object[] { 1200, Atom.a("xfx"), Atom.a(":-") });
768 _operatorTable.Add(new object[] { 1200, Atom.a("xfx"), Atom.a("-->") });
769 _operatorTable.Add(new object[] { 1200, Atom.a("fx"), Atom.a(":-") });
770 _operatorTable.Add(new object[] { 1200, Atom.a("fx"), Atom.a("?-") });
771 _operatorTable.Add(new object[] { 1100, Atom.a("xfy"), Atom.a(";") });
772 _operatorTable.Add(new object[] { 1050, Atom.a("xfy"), Atom.a("->") });
773 _operatorTable.Add(new object[] { 1000, Atom.a("xfy"), Atom.a(",") });
774 _operatorTable.Add(new object[] { 900, Atom.a("fy"), Atom.a("\\+") });
775 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("=") });
776 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("\\=") });
777 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("==") });
778 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("\\==") });
779 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("@<") });
780 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("@=<") });
781 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("@>") });
782 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("@>=") });
783 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("=..") });
784 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("is") });
785 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("=:=") });
786 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("=\\=") });
787 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("<") });
788 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a("=<") });
789 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a(">") });
790 _operatorTable.Add(new object[] { 700, Atom.a("xfx"), Atom.a(">=") });
791 _operatorTable.Add(new object[] { 600, Atom.a("xfy"), Atom.a(":") });
792 _operatorTable.Add(new object[] { 500, Atom.a("yfx"), Atom.a("+") });
793 _operatorTable.Add(new object[] { 500, Atom.a("yfx"), Atom.a("-") });
794 _operatorTable.Add(new object[] { 500, Atom.a("yfx"), Atom.a("/\\") });
795 _operatorTable.Add(new object[] { 500, Atom.a("yfx"), Atom.a("\\/") });
796 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a("*") });
797 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a("/") });
798 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a("//") });
799 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a("rem") });
800 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a("mod") });
801 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a("<<") });
802 _operatorTable.Add(new object[] { 400, Atom.a("yfx"), Atom.a(">>") });
803 _operatorTable.Add(new object[] { 200, Atom.a("xfx"), Atom.a("**") });
804 _operatorTable.Add(new object[] { 200, Atom.a("xfy"), Atom.a("^") });
805 _operatorTable.Add(new object[] { 200, Atom.a("fy"), Atom.a("-") });
806 _operatorTable.Add(new object[] { 200, Atom.a("fy"), Atom.a("\\") });
807 // Debug: This is hacked in to run the Prolog test suite until we implement op/3.
808 _operatorTable.Add(new object[] { 20, Atom.a("xfx"), Atom.a("<--") });
809 }
810
811 object[] args = new object[] { Priority, Specifier, Operator };
812 foreach (object[] answer in _operatorTable)
813 {
814 foreach (bool l1 in YP.unifyArrays(args, answer))
815 yield return false;
816 }
817 }
818
819 public static IEnumerable<bool> atom_length(object atom, object Length)
820 {
821 return YP.unify(Length, ((Atom)YP.getValue(atom))._name.Length);
822 }
823
824 public static IEnumerable<bool> atom_concat(object Start, object End, object Whole)
825 {
826 // Debug: Should implement for var(Start) which is a kind of search.
827 // Debug: Should we try to preserve the _declaringClass?
828 return YP.unify(Whole, Atom.a(((Atom)YP.getValue(Start))._name +
829 ((Atom)YP.getValue(End))._name));
830 }
831
832 public static IEnumerable<bool> sub_atom
833 (object atom, object Before, object Length, object After, object Sub_atom)
834 {
835 // Debug: Should implement for var(atom) which is a kind of search.
836 // Debug: Should we try to preserve the _declaringClass?
837 Atom atomAtom = (Atom)YP.getValue(atom);
838 int beforeInt = YP.convertInt(Before);
839 int lengthInt = YP.convertInt(Length);
840 if (beforeInt < 0)
841 throw new Exception("Before must be non-negative");
842 if (lengthInt < 0)
843 throw new Exception("Length must be non-negative");
844 int afterInt = atomAtom._name.Length - (beforeInt + lengthInt);
845 if (afterInt >= 0)
846 {
847 foreach (bool l1 in YP.unify(After, afterInt))
848 {
849 foreach (bool l2 in YP.unify
850 (Sub_atom, Atom.a(atomAtom._name.Substring(beforeInt, lengthInt))))
851 yield return false;
852 }
853 }
854 }
855
856 public static IEnumerable<bool> atom_codes(object atom, object List)
857 {
858 atom = YP.getValue(atom);
859 List = YP.getValue(List);
860
861 if (nonvar(atom))
862 {
863 string name = ((Atom)atom)._name;
864 object codeList = Atom.NIL;
865 // Start from the back to make the list.
866 for (int i = name.Length - 1; i >= 0; --i)
867 codeList = new ListPair((int)name[i], codeList);
868 return YP.unify(List, codeList);
869 }
870 {
871 object[] codeArray = ListPair.toArray(List);
872 char[] charArray = new char[codeArray.Length];
873 for (int i = 0; i < codeArray.Length; ++i)
874 charArray[i] = (char)YP.convertInt(codeArray[i]);
875 return YP.unify(atom, Atom.a(new String(charArray)));
876 }
877 }
878
879 public static IEnumerable<bool> number_codes(object number, object List)
880 {
881 number = YP.getValue(number);
882 List = YP.getValue(List);
883
884 if (nonvar(number))
885 {
886 string numberString = null;
887 // Try converting to an int first.
888 int intNumber;
889 if (YP.getInt(number, out intNumber))
890 numberString = intNumber.ToString();
891 else
892 numberString = YP.doubleToString(YP.convertDouble(number));
893
894 object codeList = Atom.NIL;
895 // Start from the back to make the list.
896 for (int i = numberString.Length - 1; i >= 0; --i)
897 codeList = new ListPair((int)numberString[i], codeList);
898 return YP.unify(List, codeList);
899 }
900 {
901 object[] codeArray = ListPair.toArray(List);
902 char[] charArray = new char[codeArray.Length];
903 for (int i = 0; i < codeArray.Length; ++i)
904 charArray[i] = (char)YP.convertInt(codeArray[i]);
905 String numberString = new String(charArray);
906 // Debug: Is there a way in C# to ask if a string parses as int without throwing an exception?
907 try
908 {
909 // Try an int first.
910 return YP.unify(number, Convert.ToInt32(numberString));
911 }
912 catch (FormatException) { }
913 return YP.unify(number, Convert.ToDouble(numberString));
914 }
915 }
916
917 /// <summary>
918 /// If term is an Atom or functor type, return its name.
919 /// Otherwise, return term.
920 /// </summary>
921 /// <param name="term"></param>
922 /// <returns></returns>
923 public static object getFunctorName(object term)
924 {
925 term = YP.getValue(term);
926 if (term is Functor1)
927 return ((Functor1)term)._name;
928 else if (term is Functor2)
929 return ((Functor2)term)._name;
930 else if (term is Functor3)
931 return ((Functor3)term)._name;
932 else if (term is Functor)
933 return ((Functor)term)._name;
934 else
935 return term;
936 }
937
938 /// <summary>
939 /// If term is an Atom or functor type, return an array of its args.
940 /// Otherwise, return an empty array.
941 /// </summary>
942 /// <param name="term"></param>
943 /// <returns></returns>
944 public static object[] getFunctorArgs(object term)
945 {
946 term = YP.getValue(term);
947 if (term is Functor1)
948 {
949 Functor1 functor = (Functor1)term;
950 return new object[] { functor._arg1 };
951 }
952 else if (term is Functor2)
953 {
954 Functor2 functor = (Functor2)term;
955 return new object[] { functor._arg1, functor._arg2 };
956 }
957 else if (term is Functor3)
958 {
959 Functor3 functor = (Functor3)term;
960 return new object[] { functor._arg1, functor._arg2, functor._arg3 };
961 }
962 else if (term is Functor) {
963 Functor functor = (Functor)term;
964 return functor._args;
965 }
966 else
967 return new object[0];
968 }
969
970 public static bool var(object Term)
971 {
972 return YP.getValue(Term) is Variable;
973 }
974
975 public static bool nonvar(object Term)
976 {
977 return !YP.var(Term);
978 }
979
980 public static bool atom(object Term)
981 {
982 return YP.getValue(Term) is Atom;
983 }
984
985 public static bool number(object Term)
986 {
987 Term = getValue(Term);
988 // Debug: Should exhaustively check for all number types.
989 return Term is int || Term is double;
990 }
991
992 public static bool atomic(object Term)
993 {
994 return YP.atom(Term) || YP.number(Term);
995 }
996
997 public static bool compound(object Term)
998 {
999 Term = getValue(Term);
1000 return Term is Functor1 || Term is Functor2 || Term is Functor3 || Term is Functor;
1001 }
1002
1003 public static void see(object input)
1004 {
1005 input = YP.getValue(input);
1006 if (input is TextReader)
1007 {
1008 _inputStream = (TextReader)input;
1009 return;
1010 }
1011 else if (input is Atom)
1012 {
1013 _inputStream = new StreamReader(((Atom)input)._name);
1014 return;
1015 }
1016 else if (input is String)
1017 {
1018 _inputStream = new StreamReader((String)input);
1019 return;
1020 }
1021 else
1022 throw new InvalidOperationException("Can't open stream for " + input);
1023 }
1024
1025 public static void seen()
1026 {
1027 if (_inputStream == Console.In)
1028 return;
1029 _inputStream.Close();
1030 _inputStream = Console.In;
1031 }
1032
1033 public static void tell(object output)
1034 {
1035 output = YP.getValue(output);
1036 if (output is TextWriter)
1037 {
1038 _outputStream = (TextWriter)output;
1039 return;
1040 }
1041 else if (output is Atom)
1042 {
1043 _outputStream = new StreamWriter(((Atom)output)._name);
1044 return;
1045 }
1046 else if (output is String)
1047 {
1048 _outputStream = new StreamWriter((String)output);
1049 return;
1050 }
1051 else
1052 throw new InvalidOperationException("Can't open stream for " + output);
1053 }
1054
1055 public static void told()
1056 {
1057 if (_outputStream == Console.Out)
1058 return;
1059 _outputStream.Close();
1060 _outputStream = Console.Out;
1061 }
1062
1063 public static void write(object x)
1064 {
1065 x = YP.getValue(x);
1066 if (x is double)
1067 _outputStream.Write(doubleToString((double)x));
1068 else
1069 _outputStream.Write(x.ToString());
1070 }
1071
1072 /// <summary>
1073 /// Format x as a string, making sure that it will parse as an int later. I.e., for 1.0, don't just
1074 /// use "1" which will parse as an int.
1075 /// </summary>
1076 /// <param name="x"></param>
1077 /// <returns></returns>
1078 private static string doubleToString(double x)
1079 {
1080 string xString = x.ToString();
1081 // Debug: Is there a way in C# to ask if a string parses as int without throwing an exception?
1082 try
1083 {
1084 Convert.ToInt32(xString);
1085 // The string will parse as an int, not a double, so re-format so that it does.
1086 // Use float if possible, else exponential if it would be too big.
1087 return x.ToString(x >= 100000.0 ? "E1" : "f1");
1088 }
1089 catch (FormatException)
1090 {
1091 // Assume it will parse as a double.
1092 }
1093 return xString;
1094 }
1095
1096 public static void put_code(object x)
1097 {
1098 _outputStream.Write((char)YP.convertInt(x));
1099 }
1100
1101 public static void nl()
1102 {
1103 _outputStream.WriteLine();
1104 }
1105
1106 public static IEnumerable<bool> get_code(object code)
1107 {
1108 return YP.unify(code, _inputStream.Read());
1109 }
1110
1111 public static void assertFact(Atom name, object[] values)
1112 {
1113 NameArity nameArity = new NameArity(name, values.Length);
1114 List<IClause> clauses;
1115 IndexedAnswers indexedAnswers;
1116 if (!_predicatesStore.TryGetValue(nameArity, out clauses))
1117 {
1118 // Create an IndexedAnswers as the first clause of the predicate.
1119 _predicatesStore[nameArity] = (clauses = new List<IClause>());
1120 clauses.Add(indexedAnswers = new IndexedAnswers());
1121 }
1122 else
1123 {
1124 indexedAnswers = clauses[clauses.Count - 1] as IndexedAnswers;
1125 if (indexedAnswers == null)
1126 // The latest clause is not an IndexedAnswers, so add one.
1127 clauses.Add(indexedAnswers = new IndexedAnswers());
1128 }
1129
1130 indexedAnswers.addAnswer(values);
1131 }
1132
1133 public static IEnumerable<bool> matchFact(Atom name, object[] arguments)
1134 {
1135 List<IClause> clauses;
1136 if (!_predicatesStore.TryGetValue(new NameArity(name, arguments.Length), out clauses))
1137 throw new UndefinedPredicateException
1138 ("Undefined fact: " + name + "/" + arguments.Length, name,
1139 arguments.Length);
1140
1141 if (clauses.Count == 1)
1142 // Usually there is only one clause, so return it without needing to wrap it in an iterator.
1143 return clauses[0].match(arguments);
1144 else
1145 return matchAllClauses(clauses, arguments);
1146 }
1147
1148 /// <summary>
1149 /// Call match(arguments) for each IClause in clauses. We make this a separate
1150 /// function so that matchFact itself does not need to be an iterator object.
1151 /// </summary>
1152 /// <param name="clauses"></param>
1153 /// <param name="arguments"></param>
1154 /// <returns></returns>
1155 private static IEnumerable<bool> matchAllClauses(List<IClause> clauses, object[] arguments)
1156 {
1157 foreach (IClause clause in clauses)
1158 {
1159 foreach (bool lastCall in clause.match(arguments))
1160 yield return false;
1161 }
1162 }
1163
1164 public static void retractFact(Atom name, object[] arguments)
1165 {
1166 NameArity nameArity = new NameArity(name, arguments.Length);
1167 List<IClause> clauses;
1168 if (!_predicatesStore.TryGetValue(nameArity, out clauses))
1169 // Can't find, so ignore.
1170 return;
1171
1172 foreach (object arg in arguments)
1173 {
1174 if (!YP.var(arg))
1175 throw new InvalidOperationException("All arguments must be unbound");
1176 }
1177 // Set to a fresh empty IndexedAnswers.
1178 _predicatesStore[nameArity] = (clauses = new List<IClause>());
1179 clauses.Add(new IndexedAnswers());
1180 }
1181
1182 public static IEnumerable<bool> current_predicate(object NameSlashArity)
1183 {
1184 NameSlashArity = YP.getValue(NameSlashArity);
1185 // First check if Name and Arity are nonvar so we can do a direct lookup.
1186 if (YP.ground(NameSlashArity))
1187 {
1188 if (NameSlashArity is Functor2)
1189 {
1190 Functor2 NameArityFunctor = (Functor2)NameSlashArity;
1191 if (NameArityFunctor._name == Atom.SLASH)
1192 {
1193 if (_predicatesStore.ContainsKey(new NameArity
1194 ((Atom)YP.getValue(NameArityFunctor._arg1),
1195 (int)YP.getValue(NameArityFunctor._arg2))))
1196 // The predicate is defined.
1197 yield return false;
1198 }
1199 }
1200 yield break;
1201 }
1202
1203 foreach (NameArity key in _predicatesStore.Keys)
1204 {
1205 foreach (bool l1 in YP.unify
1206 (new Functor2(Atom.SLASH, key._name, key._arity), NameSlashArity))
1207 yield return false;
1208 }
1209 }
1210
1211 /// <summary>
1212 /// Use YP.getFunctorName(Goal) and invoke the static method of this name in the
1213 /// declaringClass, using arguments from YP.getFunctorArgs(Goal).
1214 /// Note that Goal must be a simple functor, not a complex expression.
1215 /// If not found, this throws UndefinedPredicateException.
1216 /// </summary>
1217 /// <param name="Goal"></param>
1218 /// <param name="contextClass">the class for looking up default function references</param>
1219 /// <returns></returns>
1220 public static IEnumerable<bool> getIterator(object Goal, Type declaringClass)
1221 {
1222#if true
1223 List<Variable> variableSetList = new List<Variable>();
1224 addUniqueVariables(Goal, variableSetList);
1225 Variable[] variableSet = variableSetList.ToArray();
1226 object Head = Functor.make("function", variableSet);
1227
1228 object Rule = new Functor2(Atom.RULE, Head, Goal);
1229 object RuleList = ListPair.make(new Functor2(Atom.F, Rule, Atom.NIL));
1230 StringWriter functionCode = new StringWriter();
1231 TextWriter saveOutputStream = _outputStream;
1232 try
1233 {
1234 tell(functionCode);
1235 Variable FunctionCode = new Variable();
1236 foreach (bool l1 in YPCompiler.makeFunctionPseudoCode(RuleList, FunctionCode))
1237 {
1238 if (YP.termEqual(FunctionCode, Atom.a("getDeclaringClass")))
1239 // Ignore getDeclaringClass since we have access to the one passed in.
1240 continue;
1241
1242 // Debug: should check if FunctionCode is a single call.
1243 YPCompiler.convertFunctionCSharp(FunctionCode);
1244 }
1245 told();
1246 }
1247 finally
1248 {
1249 // Restore after calling tell.
1250 _outputStream = saveOutputStream;
1251 }
1252 return YPCompiler.compileAnonymousFunction
1253 (functionCode.ToString(), variableSet.Length, declaringClass).match(variableSet);
1254#else
1255 Goal = YP.getValue(Goal);
1256 Atom name;
1257 object[] args;
1258 while (true)
1259 {
1260 name = (Atom)YP.getFunctorName(Goal);
1261 args = YP.getFunctorArgs(Goal);
1262 if (name == Atom.HAT && args.Length == 2)
1263 // Assume this is called from a bagof operation. Skip the leading qualifiers.
1264 Goal = YP.getValue(((Functor2)Goal)._arg2);
1265 else
1266 break;
1267 }
1268 try
1269 {
1270 return (IEnumerable<bool>)declaringClass.InvokeMember
1271 (name._name, BindingFlags.InvokeMethod, null, null, args);
1272 }
1273 catch (TargetInvocationException exception)
1274 {
1275 throw exception.InnerException;
1276 }
1277 catch (MissingMethodException)
1278 {
1279 throw new UndefinedPredicateException
1280 ("Cannot find predicate function: " + name + "/" + args.Length + " in " +
1281 declaringClass.FullName, name, args.Length);
1282 }
1283#endif
1284 }
1285
1286 public static void throwException(object Term)
1287 {
1288 throw new PrologException(Term);
1289 }
1290
1291 /// <summary>
1292 /// script_event calls hosting script with events as a callback method.
1293 /// </summary>
1294 /// <param name="script_event"></param>
1295 /// <param name="script_params"></param>
1296 /// <returns></returns>
1297 public static void script_event(object script_event, object script_params)
1298 {
1299 string function = ((Atom)YP.getValue(script_event))._name;
1300 object[] array = ListPair.toArray(script_params);
1301 if (array == null)
1302 return; // YP.fail();
1303 if (array.Length > 1)
1304 {
1305 //m_CmdManager.m_ScriptEngine.m_EventQueManager.AddToScriptQueue
1306 //(localID, itemID, function, array);
1307 // sortArray(array);
1308 }
1309 //return YP.unify(Sorted, ListPair.makeWithoutRepeatedTerms(array));
1310 }
1311
1312 /// <summary>
1313 /// An enumerator that does zero loops.
1314 /// </summary>
1315 private class Fail : IEnumerator<bool>, IEnumerable<bool>
1316 {
1317 public bool MoveNext()
1318 {
1319 return false;
1320 }
1321
1322 public IEnumerator<bool> GetEnumerator()
1323 {
1324 return (IEnumerator<bool>)this;
1325 }
1326
1327 IEnumerator IEnumerable.GetEnumerator()
1328 {
1329 return GetEnumerator();
1330 }
1331
1332 public bool Current
1333 {
1334 get { return true; }
1335 }
1336
1337 object IEnumerator.Current
1338 {
1339 get { return true; }
1340 }
1341
1342 public void Dispose()
1343 {
1344 }
1345
1346 public void Reset()
1347 {
1348 throw new NotImplementedException();
1349 }
1350 }
1351
1352 /// <summary>
1353 /// An enumerator that does one iteration.
1354 /// </summary>
1355 private class Succeed : IEnumerator<bool>, IEnumerable<bool>
1356 {
1357 private bool _didIteration = false;
1358
1359 public bool MoveNext()
1360 {
1361 if (!_didIteration)
1362 {
1363 _didIteration = true;
1364 return true;
1365 }
1366 else
1367 return false;
1368 }
1369
1370 public IEnumerator<bool> GetEnumerator()
1371 {
1372 return (IEnumerator<bool>)this;
1373 }
1374
1375 IEnumerator IEnumerable.GetEnumerator()
1376 {
1377 return GetEnumerator();
1378 }
1379
1380 public bool Current
1381 {
1382 get { return false; }
1383 }
1384
1385 object IEnumerator.Current
1386 {
1387 get { return false; }
1388 }
1389
1390 public void Dispose()
1391 {
1392 }
1393
1394 public void Reset()
1395 {
1396 throw new NotImplementedException();
1397 }
1398 }
1399
1400 /// <summary>
1401 /// An enumerator that repeats forever.
1402 /// </summary>
1403 private class Repeat : IEnumerator<bool>, IEnumerable<bool>
1404 {
1405 public bool MoveNext()
1406 {
1407 return true;
1408 }
1409
1410 public IEnumerator<bool> GetEnumerator()
1411 {
1412 return (IEnumerator<bool>)this;
1413 }
1414
1415 IEnumerator IEnumerable.GetEnumerator()
1416 {
1417 return GetEnumerator();
1418 }
1419
1420 public bool Current
1421 {
1422 get { return false; }
1423 }
1424
1425 object IEnumerator.Current
1426 {
1427 get { return false; }
1428 }
1429
1430 public void Dispose()
1431 {
1432 }
1433
1434 public void Reset()
1435 {
1436 throw new NotImplementedException();
1437 }
1438 }
1439 }
1440}
diff --git a/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YPCompiler.cs b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YPCompiler.cs
new file mode 100644
index 0000000..923906b
--- /dev/null
+++ b/OpenSim/Region/ScriptEngine/DotNetEngine/Compiler/YieldProlog/YPCompiler.cs
@@ -0,0 +1,5247 @@
1/*
2 * Copyright (C) 2007-2008, Jeff Thompson
3 *
4 * All rights reserved.
5 *
6 * Redistribution and use in source and binary forms, with or without
7 * modification, are permitted provided that the following conditions are met:
8 *
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
11 * * Redistributions in binary form must reproduce the above copyright
12 * notice, this list of conditions and the following disclaimer in the
13 * documentation and/or other materials provided with the distribution.
14 * * Neither the name of the copyright holder nor the names of its contributors
15 * may be used to endorse or promote products derived from this software
16 * without specific prior written permission.
17 *
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
22 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
23 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
24 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
25 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
26 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
27 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
28 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 */
30
31using System;
32using System.IO;
33using System.Collections;
34using System.Collections.Generic;
35using System.Text;
36using System.CodeDom.Compiler;
37
38namespace OpenSim.Region.ScriptEngine.DotNetEngine.Compiler.YieldProlog
39{
40 public class YPCompiler
41 {
42 private class CompilerState
43 {
44 public IndexedAnswers _pred = new IndexedAnswers();
45 public Dictionary<YP.NameArity, Atom> _moduleForNameArity = new Dictionary<YP.NameArity, Atom>();
46 public int _gensymCounter;
47 public bool _useFinalCutCode;
48 public Variable _finalCutCode;
49 public bool _codeUsesYield;
50 public Atom _determinism;
51 // a list of '='(Name, Variable)
52 public List<object> _variableNames;
53
54 // Make these static functions that explicitly take the State so Prolog can call it.
55
56 /// <summary>
57 /// Make a new CompilerState and bind it to State.
58 /// </summary>
59 /// <param name="State"></param>
60 /// <returns></returns>
61 public static IEnumerable<bool> make(object State)
62 {
63 return YP.unify(State, new CompilerState());
64 }
65
66 public static void assertPred(object State, object Pred, object Determinism)
67 {
68 State = YP.getValue(State);
69 object functorName = YP.getFunctorName(Pred);
70 object[] functorArgs = YP.getFunctorArgs(Pred);
71 // Debug: Should check if it's already asserted and is the same.
72 ((CompilerState)State)._pred.addAnswer
73 (new object[] { functorName, functorArgs.Length, Pred, YP.getValue(Determinism) });
74 }
75
76 public static void assertModuleForNameArity(object State, object Name, object Arity, object Module)
77 {
78 State = YP.getValue(State);
79 Name = YP.getValue(Name);
80 Arity = YP.getValue(Arity);
81 Module = YP.getValue(Module);
82 // If the Module Atom comes from the parser, it always has null _declaringClass.
83 if (Module is Atom && ((Atom)Module)._module == null && Name is Atom && Arity is int)
84 {
85 // Replace a previous entry if it exists.
86 ((CompilerState)State)._moduleForNameArity[new YP.NameArity((Atom)Name, (int)Arity)] =
87 (Atom)Module;
88 }
89 }
90
91 public static void startFunction(object State, object Head)
92 {
93 State = YP.getValue(State);
94 ((CompilerState)State)._gensymCounter = 0;
95 ((CompilerState)State)._useFinalCutCode = false;
96 ((CompilerState)State)._finalCutCode = new Variable();
97 ((CompilerState)State)._codeUsesYield = false;
98 if (CompilerState.isDetNoneOut(State, Head))
99 ((CompilerState)State)._determinism = Atom.a("detNoneOut");
100 else if (CompilerState.isSemidetNoneOut(State, Head))
101 ((CompilerState)State)._determinism = Atom.a("semidetNoneOut");
102 else
103 ((CompilerState)State)._determinism = Atom.a("nondet");
104 }
105
106 public static void setCodeUsesYield(object State)
107 {
108 State = YP.getValue(State);
109 ((CompilerState)State)._codeUsesYield = true;
110 }
111
112 public static bool codeUsesYield(object State)
113 {
114 State = YP.getValue(State);
115 return ((CompilerState)State)._codeUsesYield;
116 }
117
118 public static bool determinismEquals(object State, object Term)
119 {
120 State = YP.getValue(State);
121 return YP.termEqual(((CompilerState)State)._determinism, Term);
122 }
123
124 /// <summary>
125 /// Set _variableNames to a new list of (Name = Variable) for each unique variable in rule.
126 /// If the variable is in variableNameSuggestions, use it, otherwise use x1, x2, etc.
127 /// </summary>
128 /// <param name="State"></param>
129 /// <param name="rule"></param>
130 /// <param name="variableNameSuggestions"></param>
131 public static void newVariableNames(object State, object Rule, object VariableNameSuggestions)
132 {
133 State = YP.getValue(State);
134 List<Variable> variablesSet = new List<Variable>();
135 YP.addUniqueVariables(Rule, variablesSet);
136
137 ((CompilerState)State)._variableNames = new List<object>();
138 int xCounter = 0;
139 foreach (Variable variable in variablesSet)
140 ((CompilerState)State)._variableNames.Add
141 (new Functor2(Atom.a("="), makeVariableName(variable, VariableNameSuggestions, ++xCounter),
142 variable));
143 }
144
145 private static object makeVariableName(object variable, object variableNameSuggestions, int xCounter)
146 {
147 // Debug: should require named variables to start with _ or capital. Should
148 // check for duplicates and clashes with keywords.
149 for (object element = YP.getValue(variableNameSuggestions);
150 element is Functor2 && ((Functor2)element)._name == Atom.DOT;
151 element = YP.getValue(((Functor2)element)._arg2))
152 {
153 object suggestionPair = YP.getValue(((Functor2)element)._arg1);
154 if (sameVariable(variable, ((Functor2)suggestionPair)._arg2))
155 {
156 Atom suggestion = (Atom)YP.getValue(((Functor2)suggestionPair)._arg1);
157 if (suggestion.Equals(Atom.a("Atom")))
158 suggestion = Atom.a("Atom_1");
159 if (suggestion.Equals(Atom.a("Variable")))
160 suggestion = Atom.a("Variable_1");
161 if (suggestion.Equals(Atom.a("Functor")))
162 suggestion = Atom.a("Functor_1");
163 return suggestion;
164 }
165 }
166
167 return Atom.a("x" + xCounter);
168 }
169
170 /// <summary>
171 /// Unify Result with the name assigned by CompilerState.newVariableNames in State._variableNames
172 /// for variable.
173 /// </summary>
174 /// <param name="variable">a Variable</param>
175 /// <param name="State"></param>
176 /// <param name="Result">the assigned Name</param>
177 public static IEnumerable<bool> getVariableName(object State, object variable, object Result)
178 {
179 State = YP.getValue(State);
180 foreach (object variableInfo in ((CompilerState)State)._variableNames)
181 {
182 if (variableInfo is Functor2 && ((Functor2)variableInfo)._name.Equals(Atom.a("=")))
183 {
184 if (sameVariable(variable, ((Functor2)variableInfo)._arg2))
185 return YP.unify(Result, ((Functor2)variableInfo)._arg1);
186 }
187 }
188
189 // We set up names for all unique variables, so this should never happen.
190 throw new PrologException(Atom.a("Can't find entry in _variableNames"));
191 }
192
193 public static IEnumerable<bool> variableNamesList(object State, object VariableNamesList)
194 {
195 State = YP.getValue(State);
196 return YP.unify(VariableNamesList, ListPair.make(((CompilerState)State)._variableNames));
197 }
198
199 public static IEnumerable<bool> gensym(object State, object Base, object Symbol)
200 {
201 State = YP.getValue(State);
202 return YP.unify(Symbol, Atom.a(Base.ToString() + ++((CompilerState)State)._gensymCounter));
203 }
204
205 public static bool isDetNoneOut(object State, object Term)
206 {
207 State = YP.getValue(State);
208 object functorName = YP.getFunctorName(Term);
209 object[] functorArgs = YP.getFunctorArgs(Term);
210
211 Variable pred = new Variable();
212 foreach (bool l1 in ((CompilerState)State)._pred.match
213 (new object[] { functorName, functorArgs.Length, pred, Atom.a("det") }))
214 {
215 if (CompilerState.isNoneOut(YP.getFunctorArgs(pred.getValue())))
216 {
217 return true;
218 }
219 }
220
221 return false;
222 }
223
224 public static bool isSemidetNoneOut(object State, object Term)
225 {
226 State = YP.getValue(State);
227 object functorName = YP.getFunctorName(Term);
228 object[] functorArgs = YP.getFunctorArgs(Term);
229
230 Variable pred = new Variable();
231 foreach (bool l1 in ((CompilerState)State)._pred.match
232 (new object[] { functorName, functorArgs.Length, pred, Atom.a("semidet") }))
233 {
234 if (CompilerState.isNoneOut(YP.getFunctorArgs(pred.getValue())))
235 {
236 return true;
237 }
238 }
239
240 return false;
241 }
242
243 /// <summary>
244 /// Return false if any of args is out, otherwise true.
245 /// args is an array of ::(Type,Mode) where Mode is in or out.
246 /// </summary>
247 /// <param name="args"></param>
248 /// <returns></returns>
249 private static bool isNoneOut(object[] args)
250 {
251 foreach (object arg in args)
252 {
253 if (arg is Functor2 && ((Functor2)arg)._name == Atom.a("::") &&
254 ((Functor2)arg)._arg2 == Atom.a("out"))
255 return false;
256 }
257 return true;
258 }
259
260 public static bool nameArityHasModule(object State, object Name, object Arity, object Module)
261 {
262 State = YP.getValue(State);
263 Name = YP.getValue(Name);
264 Arity = YP.getValue(Arity);
265 Module = YP.getValue(Module);
266 if (Name is Atom && Arity is int)
267 {
268 Atom FoundModule;
269 if (!((CompilerState)State)._moduleForNameArity.TryGetValue
270 (new YP.NameArity((Atom)Name, (int)Arity), out FoundModule))
271 return false;
272 return FoundModule == Module;
273 }
274 return false;
275 }
276 }
277
278 /// <summary>
279 /// Use CodeDomProvider to compile the functionCode and return a YP.IClause.
280 /// The function name must be "function" and have nArgs arguments.
281 /// </summary>
282 /// <param name="functionCode">the code for the iterator, such as
283 /// "public static IEnumerable<bool> function() { yield return false; }"
284 /// </param>
285 /// <param name="nArgs">the number of args in the function</param>
286 /// <param name="declaringClass">if not null, then use the functionCode inside a class which
287 /// inherits from contextClass, so that references in functionCode to methods in declaringClass don't
288 /// have to be qualified</param>
289 /// <returns>a new YP.IClause object on which you can call match(object[] args) where
290 /// args length is nArgs</returns>
291 public static YP.IClause compileAnonymousFunction(string functionCode, int nArgs, Type declaringClass)
292 {
293 CompilerParameters parameters = new CompilerParameters();
294 // This gets the location of the System assembly.
295 parameters.ReferencedAssemblies.Add(typeof(System.Int32).Assembly.Location);
296 // This gets the location of this assembly which also has YieldProlog.YP, etc.
297 parameters.ReferencedAssemblies.Add(typeof(YPCompiler).Assembly.Location);
298 if (declaringClass != null)
299 parameters.ReferencedAssemblies.Add(declaringClass.Assembly.Location);
300 parameters.GenerateInMemory = true;
301
302 StringBuilder sourceCode = new StringBuilder();
303 sourceCode.Append(@"
304using System;
305using System.Collections.Generic;
306using YieldProlog;
307
308namespace Temporary {
309 public class Temporary : YP.IClause {
310 public class Inner" + (declaringClass == null ? "" : " : " + declaringClass.FullName) + @" {
311");
312 sourceCode.Append(functionCode);
313 // Basically, match applies the args to function.
314 sourceCode.Append(@"
315 }
316 public IEnumerable<bool> match(object[] args) {
317 return Inner.function(");
318 if (nArgs >= 1)
319 sourceCode.Append("args[0]");
320 for (int i = 1; i < nArgs; ++i)
321 sourceCode.Append(", args[" + i + "]");
322 sourceCode.Append(@");
323 }
324 }
325}
326");
327
328 CompilerResults results = CodeDomProvider.CreateProvider
329 ("CSharp").CompileAssemblyFromSource(parameters, sourceCode.ToString());
330 if (results.Errors.Count > 0)
331 throw new Exception("Error evaluating code: " + results.Errors[0]);
332
333 // Return a new Temporary.Temporary object.
334 return (YP.IClause)results.CompiledAssembly.GetType
335 ("Temporary.Temporary").GetConstructor(Type.EmptyTypes).Invoke(null);
336 }
337
338 // Compiler output follows.
339
340 class YPInnerClass { }
341 static Type getDeclaringClass() { return typeof(YPInnerClass).DeclaringType; }
342
343 public static void repeatWrite(object arg1, object N)
344 {
345 {
346 object _Value = arg1;
347 if (YP.termEqual(N, 0))
348 {
349 return;
350 }
351 }
352 {
353 object Value = arg1;
354 Variable NextN = new Variable();
355 YP.write(Value);
356 foreach (bool l2 in YP.unify(NextN, YP.subtract(N, 1)))
357 {
358 repeatWrite(Value, NextN);
359 return;
360 }
361 }
362 }
363
364 public static bool sameVariable(object Variable1, object Variable2)
365 {
366 {
367 if (YP.var(Variable1))
368 {
369 if (YP.var(Variable2))
370 {
371 if (YP.termEqual(Variable1, Variable2))
372 {
373 return true;
374 }
375 }
376 }
377 }
378 return false;
379 }
380
381 public static IEnumerable<bool> makeFunctionPseudoCode(object RuleList, object FunctionCode)
382 {
383 {
384 Variable State = new Variable();
385 foreach (bool l2 in CompilerState.make(State))
386 {
387 CompilerState.assertPred(State, Atom.a(@"nl"), Atom.a(@"det"));
388 CompilerState.assertPred(State, new Functor1(@"write", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"det"));
389 CompilerState.assertPred(State, new Functor1(@"put_code", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"det"));
390 CompilerState.assertPred(State, new Functor1(@"throw", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"det"));
391 CompilerState.assertPred(State, new Functor1(@"var", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
392 CompilerState.assertPred(State, new Functor1(@"nonvar", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
393 CompilerState.assertPred(State, new Functor1(@"atom", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
394 CompilerState.assertPred(State, new Functor1(@"number", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
395 CompilerState.assertPred(State, new Functor2(@"==", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in")), new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
396 CompilerState.assertPred(State, new Functor2(@"\==", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in")), new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
397 CompilerState.assertPred(State, new Functor2(@"@<", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in")), new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
398 CompilerState.assertPred(State, new Functor2(@"@=<", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in")), new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
399 CompilerState.assertPred(State, new Functor2(@"@>", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in")), new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
400 CompilerState.assertPred(State, new Functor2(@"@>=", new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in")), new Functor2(@"::", Atom.a(@"univ"), Atom.a(@"in"))), Atom.a(@"semidet"));
401 processCompilerDirectives(RuleList, State);
402 foreach (bool l3 in YP.unify(FunctionCode, Atom.a(@"getDeclaringClass")))
403 {
404 yield return false;
405 }
406 foreach (bool l3 in makeFunctionPseudoCode3(RuleList, State, FunctionCode))
407 {
408 yield return false;
409 }
410 }
411 }
412 }
413
414 public static void processCompilerDirectives(object arg1, object arg2)
415 {
416 {
417 object _State = arg2;
418 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
419 {
420 return;
421 }
422 }
423 {
424 object State = arg2;
425 Variable Pred = new Variable();
426 Variable Determinism = new Variable();
427 Variable x3 = new Variable();
428 Variable RestRules = new Variable();
429 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", new Functor1(@":-", new Functor1(@"pred", new Functor2(@"is", Pred, Determinism))), x3), RestRules)))
430 {
431 CompilerState.assertPred(State, Pred, Determinism);
432 processCompilerDirectives(RestRules, State);
433 return;
434 }
435 }
436 {
437 object State = arg2;
438 Variable Module = new Variable();
439 Variable PredicateList = new Variable();
440 Variable x3 = new Variable();
441 Variable RestRules = new Variable();
442 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", new Functor1(@":-", new Functor2(@"import", Module, PredicateList)), x3), RestRules)))
443 {
444 foreach (bool l3 in importPredicateList(State, Module, PredicateList))
445 {
446 processCompilerDirectives(RestRules, State);
447 return;
448 }
449 }
450 }
451 {
452 object State = arg2;
453 Variable x1 = new Variable();
454 Variable x2 = new Variable();
455 Variable RestRules = new Variable();
456 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", new Functor1(@":-", x1), x2), RestRules)))
457 {
458 processCompilerDirectives(RestRules, State);
459 return;
460 }
461 }
462 {
463 object State = arg2;
464 Variable Head = new Variable();
465 Variable _Body = new Variable();
466 Variable x3 = new Variable();
467 Variable RestRules = new Variable();
468 Variable Name = new Variable();
469 Variable Arity = new Variable();
470 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", new Functor2(@":-", Head, _Body), x3), RestRules)))
471 {
472 foreach (bool l3 in YP.functor(Head, Name, Arity))
473 {
474 CompilerState.assertModuleForNameArity(State, Name, Arity, Atom.a(@""));
475 processCompilerDirectives(RestRules, State);
476 return;
477 }
478 }
479 }
480 {
481 object State = arg2;
482 Variable Fact = new Variable();
483 Variable x2 = new Variable();
484 Variable RestRules = new Variable();
485 Variable Name = new Variable();
486 Variable Arity = new Variable();
487 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", Fact, x2), RestRules)))
488 {
489 foreach (bool l3 in YP.functor(Fact, Name, Arity))
490 {
491 CompilerState.assertModuleForNameArity(State, Name, Arity, Atom.a(@""));
492 processCompilerDirectives(RestRules, State);
493 return;
494 }
495 }
496 }
497 {
498 object State = arg2;
499 Variable x1 = new Variable();
500 Variable RestRules = new Variable();
501 foreach (bool l2 in YP.unify(arg1, new ListPair(x1, RestRules)))
502 {
503 processCompilerDirectives(RestRules, State);
504 return;
505 }
506 }
507 }
508
509 public static IEnumerable<bool> importPredicateList(object arg1, object arg2, object arg3)
510 {
511 {
512 object _State = arg1;
513 object _Module = arg2;
514 foreach (bool l2 in YP.unify(arg3, Atom.NIL))
515 {
516 yield return true;
517 yield break;
518 }
519 }
520 {
521 object State = arg1;
522 object Module = arg2;
523 Variable Name = new Variable();
524 Variable Arity = new Variable();
525 Variable Rest = new Variable();
526 foreach (bool l2 in YP.unify(arg3, new ListPair(new Functor2(@"/", Name, Arity), Rest)))
527 {
528 CompilerState.assertModuleForNameArity(State, Name, Arity, Module);
529 foreach (bool l3 in importPredicateList(State, Module, Rest))
530 {
531 yield return true;
532 yield break;
533 }
534 }
535 }
536 {
537 object State = arg1;
538 object Module = arg2;
539 Variable x3 = new Variable();
540 Variable Rest = new Variable();
541 foreach (bool l2 in YP.unify(arg3, new ListPair(x3, Rest)))
542 {
543 foreach (bool l3 in importPredicateList(State, Module, Rest))
544 {
545 yield return true;
546 yield break;
547 }
548 }
549 }
550 }
551
552 public static IEnumerable<bool> makeFunctionPseudoCode3(object RuleList, object State, object FunctionCode)
553 {
554 {
555 Variable SamePredicateRuleList = new Variable();
556 Variable RestRules = new Variable();
557 foreach (bool l2 in samePredicateRuleList(RuleList, SamePredicateRuleList, RestRules))
558 {
559 if (YP.termNotEqual(SamePredicateRuleList, Atom.NIL))
560 {
561 foreach (bool l4 in compileSamePredicateFunction(SamePredicateRuleList, State, FunctionCode))
562 {
563 yield return false;
564 }
565 foreach (bool l4 in makeFunctionPseudoCode3(RestRules, State, FunctionCode))
566 {
567 yield return false;
568 }
569 }
570 }
571 }
572 }
573
574 public static IEnumerable<bool> compileSamePredicateFunction(object SamePredicateRuleList, object State, object FunctionCode)
575 {
576 {
577 Variable FirstRule = new Variable();
578 Variable x5 = new Variable();
579 Variable x6 = new Variable();
580 Variable x7 = new Variable();
581 Variable Head = new Variable();
582 Variable x9 = new Variable();
583 Variable ArgAssignments = new Variable();
584 Variable Calls = new Variable();
585 Variable Rule = new Variable();
586 Variable VariableNameSuggestions = new Variable();
587 Variable ClauseBag = new Variable();
588 Variable Name = new Variable();
589 Variable ArgsList = new Variable();
590 Variable FunctionArgNames = new Variable();
591 Variable MergedArgName = new Variable();
592 Variable ArgName = new Variable();
593 Variable MergedArgNames = new Variable();
594 Variable FunctionArgs = new Variable();
595 Variable BodyCode = new Variable();
596 Variable ReturnType = new Variable();
597 Variable BodyWithReturn = new Variable();
598 foreach (bool l2 in YP.unify(new ListPair(new Functor2(@"f", FirstRule, x5), x6), SamePredicateRuleList))
599 {
600 foreach (bool l3 in YP.unify(FirstRule, new Functor1(@":-", x7)))
601 {
602 goto cutIf1;
603 }
604 foreach (bool l3 in YP.unify(new Functor2(@":-", Head, x9), FirstRule))
605 {
606 CompilerState.startFunction(State, Head);
607 FindallAnswers findallAnswers3 = new FindallAnswers(new Functor2(@"f", ArgAssignments, Calls));
608 foreach (bool l4 in member(new Functor2(@"f", Rule, VariableNameSuggestions), SamePredicateRuleList))
609 {
610 foreach (bool l5 in compileBodyWithHeadBindings(Rule, VariableNameSuggestions, State, ArgAssignments, Calls))
611 {
612 findallAnswers3.add();
613 }
614 }
615 foreach (bool l4 in findallAnswers3.result(ClauseBag))
616 {
617 foreach (bool l5 in YP.univ(Head, new ListPair(Name, ArgsList)))
618 {
619 foreach (bool l6 in getFunctionArgNames(ArgsList, 1, FunctionArgNames))
620 {
621 FindallAnswers findallAnswers4 = new FindallAnswers(MergedArgName);
622 foreach (bool l7 in member(ArgName, FunctionArgNames))
623 {
624 foreach (bool l8 in argAssignedAll(ArgName, ClauseBag, MergedArgName))
625 {
626 findallAnswers4.add();
627 goto cutIf5;
628 }
629 foreach (bool l8 in YP.unify(MergedArgName, ArgName))
630 {
631 findallAnswers4.add();
632 }
633 cutIf5:
634 { }
635 }
636 foreach (bool l7 in findallAnswers4.result(MergedArgNames))
637 {
638 foreach (bool l8 in maplist_arg(MergedArgNames, FunctionArgs))
639 {
640 foreach (bool l9 in maplist_compileClause(ClauseBag, MergedArgNames, BodyCode))
641 {
642 if (CompilerState.determinismEquals(State, Atom.a(@"detNoneOut")))
643 {
644 foreach (bool l11 in YP.unify(ReturnType, Atom.a(@"void")))
645 {
646 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
647 {
648 foreach (bool l13 in append(BodyCode, new ListPair(Atom.a(@"returnfalse"), Atom.NIL), BodyWithReturn))
649 {
650 foreach (bool l14 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
651 {
652 yield return false;
653 }
654 }
655 goto cutIf7;
656 }
657 foreach (bool l12 in YP.unify(BodyWithReturn, BodyCode))
658 {
659 foreach (bool l13 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
660 {
661 yield return false;
662 }
663 }
664 cutIf7:
665 { }
666 }
667 goto cutIf6;
668 }
669 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
670 {
671 foreach (bool l11 in YP.unify(ReturnType, Atom.a(@"bool")))
672 {
673 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
674 {
675 foreach (bool l13 in append(BodyCode, new ListPair(Atom.a(@"returnfalse"), Atom.NIL), BodyWithReturn))
676 {
677 foreach (bool l14 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
678 {
679 yield return false;
680 }
681 }
682 goto cutIf9;
683 }
684 foreach (bool l12 in YP.unify(BodyWithReturn, BodyCode))
685 {
686 foreach (bool l13 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
687 {
688 yield return false;
689 }
690 }
691 cutIf9:
692 { }
693 }
694 goto cutIf8;
695 }
696 foreach (bool l10 in YP.unify(ReturnType, Atom.a(@"IEnumerable<bool>")))
697 {
698 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
699 {
700 foreach (bool l12 in append(BodyCode, new ListPair(Atom.a(@"returnfalse"), Atom.NIL), BodyWithReturn))
701 {
702 foreach (bool l13 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
703 {
704 yield return false;
705 }
706 }
707 goto cutIf10;
708 }
709 foreach (bool l11 in YP.unify(BodyWithReturn, BodyCode))
710 {
711 foreach (bool l12 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
712 {
713 yield return false;
714 }
715 }
716 cutIf10:
717 { }
718 }
719 cutIf8:
720 cutIf6:
721 { }
722 }
723 }
724 }
725 }
726 }
727 }
728 goto cutIf2;
729 }
730 foreach (bool l3 in YP.unify(Head, FirstRule))
731 {
732 CompilerState.startFunction(State, Head);
733 FindallAnswers findallAnswers11 = new FindallAnswers(new Functor2(@"f", ArgAssignments, Calls));
734 foreach (bool l4 in member(new Functor2(@"f", Rule, VariableNameSuggestions), SamePredicateRuleList))
735 {
736 foreach (bool l5 in compileBodyWithHeadBindings(Rule, VariableNameSuggestions, State, ArgAssignments, Calls))
737 {
738 findallAnswers11.add();
739 }
740 }
741 foreach (bool l4 in findallAnswers11.result(ClauseBag))
742 {
743 foreach (bool l5 in YP.univ(Head, new ListPair(Name, ArgsList)))
744 {
745 foreach (bool l6 in getFunctionArgNames(ArgsList, 1, FunctionArgNames))
746 {
747 FindallAnswers findallAnswers12 = new FindallAnswers(MergedArgName);
748 foreach (bool l7 in member(ArgName, FunctionArgNames))
749 {
750 foreach (bool l8 in argAssignedAll(ArgName, ClauseBag, MergedArgName))
751 {
752 findallAnswers12.add();
753 goto cutIf13;
754 }
755 foreach (bool l8 in YP.unify(MergedArgName, ArgName))
756 {
757 findallAnswers12.add();
758 }
759 cutIf13:
760 { }
761 }
762 foreach (bool l7 in findallAnswers12.result(MergedArgNames))
763 {
764 foreach (bool l8 in maplist_arg(MergedArgNames, FunctionArgs))
765 {
766 foreach (bool l9 in maplist_compileClause(ClauseBag, MergedArgNames, BodyCode))
767 {
768 if (CompilerState.determinismEquals(State, Atom.a(@"detNoneOut")))
769 {
770 foreach (bool l11 in YP.unify(ReturnType, Atom.a(@"void")))
771 {
772 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
773 {
774 foreach (bool l13 in append(BodyCode, new ListPair(Atom.a(@"returnfalse"), Atom.NIL), BodyWithReturn))
775 {
776 foreach (bool l14 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
777 {
778 yield return false;
779 }
780 }
781 goto cutIf15;
782 }
783 foreach (bool l12 in YP.unify(BodyWithReturn, BodyCode))
784 {
785 foreach (bool l13 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
786 {
787 yield return false;
788 }
789 }
790 cutIf15:
791 { }
792 }
793 goto cutIf14;
794 }
795 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
796 {
797 foreach (bool l11 in YP.unify(ReturnType, Atom.a(@"bool")))
798 {
799 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
800 {
801 foreach (bool l13 in append(BodyCode, new ListPair(Atom.a(@"returnfalse"), Atom.NIL), BodyWithReturn))
802 {
803 foreach (bool l14 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
804 {
805 yield return false;
806 }
807 }
808 goto cutIf17;
809 }
810 foreach (bool l12 in YP.unify(BodyWithReturn, BodyCode))
811 {
812 foreach (bool l13 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
813 {
814 yield return false;
815 }
816 }
817 cutIf17:
818 { }
819 }
820 goto cutIf16;
821 }
822 foreach (bool l10 in YP.unify(ReturnType, Atom.a(@"IEnumerable<bool>")))
823 {
824 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
825 {
826 foreach (bool l12 in append(BodyCode, new ListPair(Atom.a(@"returnfalse"), Atom.NIL), BodyWithReturn))
827 {
828 foreach (bool l13 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
829 {
830 yield return false;
831 }
832 }
833 goto cutIf18;
834 }
835 foreach (bool l11 in YP.unify(BodyWithReturn, BodyCode))
836 {
837 foreach (bool l12 in YP.unify(FunctionCode, new Functor(@"function", new object[] { ReturnType, Name, FunctionArgs, BodyWithReturn })))
838 {
839 yield return false;
840 }
841 }
842 cutIf18:
843 { }
844 }
845 cutIf16:
846 cutIf14:
847 { }
848 }
849 }
850 }
851 }
852 }
853 }
854 }
855 cutIf2:
856 cutIf1:
857 { }
858 }
859 }
860 }
861
862 public static IEnumerable<bool> samePredicateRuleList(object arg1, object arg2, object arg3)
863 {
864 {
865 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
866 {
867 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
868 {
869 foreach (bool l4 in YP.unify(arg3, Atom.NIL))
870 {
871 yield return true;
872 yield break;
873 }
874 }
875 }
876 }
877 {
878 Variable First = new Variable();
879 foreach (bool l2 in YP.unify(arg1, new ListPair(First, Atom.NIL)))
880 {
881 foreach (bool l3 in YP.unify(arg2, new ListPair(First, Atom.NIL)))
882 {
883 foreach (bool l4 in YP.unify(arg3, Atom.NIL))
884 {
885 yield return true;
886 yield break;
887 }
888 }
889 }
890 }
891 {
892 object SamePredicateRuleList = arg2;
893 object RestRules = arg3;
894 Variable First = new Variable();
895 Variable Rest = new Variable();
896 Variable FirstRule = new Variable();
897 Variable x6 = new Variable();
898 Variable SecondRule = new Variable();
899 Variable x8 = new Variable();
900 Variable x9 = new Variable();
901 Variable FirstHead = new Variable();
902 Variable x11 = new Variable();
903 Variable SecondHead = new Variable();
904 Variable x13 = new Variable();
905 Variable Name = new Variable();
906 Variable Arity = new Variable();
907 Variable RestSamePredicates = new Variable();
908 foreach (bool l2 in YP.unify(arg1, new ListPair(First, Rest)))
909 {
910 foreach (bool l3 in YP.unify(new Functor2(@"f", FirstRule, x6), First))
911 {
912 foreach (bool l4 in YP.unify(new ListPair(new Functor2(@"f", SecondRule, x8), x9), Rest))
913 {
914 foreach (bool l5 in YP.unify(new Functor2(@":-", FirstHead, x11), FirstRule))
915 {
916 foreach (bool l6 in YP.unify(new Functor2(@":-", SecondHead, x13), SecondRule))
917 {
918 foreach (bool l7 in YP.functor(FirstHead, Name, Arity))
919 {
920 foreach (bool l8 in YP.functor(SecondHead, Name, Arity))
921 {
922 foreach (bool l9 in samePredicateRuleList(Rest, RestSamePredicates, RestRules))
923 {
924 foreach (bool l10 in YP.unify(SamePredicateRuleList, new ListPair(First, RestSamePredicates)))
925 {
926 yield return true;
927 yield break;
928 }
929 }
930 goto cutIf3;
931 }
932 foreach (bool l8 in YP.unify(SamePredicateRuleList, new ListPair(First, Atom.NIL)))
933 {
934 foreach (bool l9 in YP.unify(RestRules, Rest))
935 {
936 yield return true;
937 yield break;
938 }
939 }
940 cutIf3:
941 { }
942 }
943 goto cutIf2;
944 }
945 foreach (bool l6 in YP.unify(SecondHead, SecondRule))
946 {
947 foreach (bool l7 in YP.functor(FirstHead, Name, Arity))
948 {
949 foreach (bool l8 in YP.functor(SecondHead, Name, Arity))
950 {
951 foreach (bool l9 in samePredicateRuleList(Rest, RestSamePredicates, RestRules))
952 {
953 foreach (bool l10 in YP.unify(SamePredicateRuleList, new ListPair(First, RestSamePredicates)))
954 {
955 yield return true;
956 yield break;
957 }
958 }
959 goto cutIf4;
960 }
961 foreach (bool l8 in YP.unify(SamePredicateRuleList, new ListPair(First, Atom.NIL)))
962 {
963 foreach (bool l9 in YP.unify(RestRules, Rest))
964 {
965 yield return true;
966 yield break;
967 }
968 }
969 cutIf4:
970 { }
971 }
972 }
973 cutIf2:
974 goto cutIf1;
975 }
976 foreach (bool l5 in YP.unify(FirstHead, FirstRule))
977 {
978 foreach (bool l6 in YP.unify(new Functor2(@":-", SecondHead, x13), SecondRule))
979 {
980 foreach (bool l7 in YP.functor(FirstHead, Name, Arity))
981 {
982 foreach (bool l8 in YP.functor(SecondHead, Name, Arity))
983 {
984 foreach (bool l9 in samePredicateRuleList(Rest, RestSamePredicates, RestRules))
985 {
986 foreach (bool l10 in YP.unify(SamePredicateRuleList, new ListPair(First, RestSamePredicates)))
987 {
988 yield return true;
989 yield break;
990 }
991 }
992 goto cutIf6;
993 }
994 foreach (bool l8 in YP.unify(SamePredicateRuleList, new ListPair(First, Atom.NIL)))
995 {
996 foreach (bool l9 in YP.unify(RestRules, Rest))
997 {
998 yield return true;
999 yield break;
1000 }
1001 }
1002 cutIf6:
1003 { }
1004 }
1005 goto cutIf5;
1006 }
1007 foreach (bool l6 in YP.unify(SecondHead, SecondRule))
1008 {
1009 foreach (bool l7 in YP.functor(FirstHead, Name, Arity))
1010 {
1011 foreach (bool l8 in YP.functor(SecondHead, Name, Arity))
1012 {
1013 foreach (bool l9 in samePredicateRuleList(Rest, RestSamePredicates, RestRules))
1014 {
1015 foreach (bool l10 in YP.unify(SamePredicateRuleList, new ListPair(First, RestSamePredicates)))
1016 {
1017 yield return true;
1018 yield break;
1019 }
1020 }
1021 goto cutIf7;
1022 }
1023 foreach (bool l8 in YP.unify(SamePredicateRuleList, new ListPair(First, Atom.NIL)))
1024 {
1025 foreach (bool l9 in YP.unify(RestRules, Rest))
1026 {
1027 yield return true;
1028 yield break;
1029 }
1030 }
1031 cutIf7:
1032 { }
1033 }
1034 }
1035 cutIf5:
1036 { }
1037 }
1038 cutIf1:
1039 { }
1040 }
1041 }
1042 }
1043 }
1044 }
1045
1046 public static IEnumerable<bool> maplist_compileClause(object arg1, object arg2, object arg3)
1047 {
1048 {
1049 object _MergedArgNames = arg2;
1050 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1051 {
1052 foreach (bool l3 in YP.unify(arg3, Atom.NIL))
1053 {
1054 yield return true;
1055 yield break;
1056 }
1057 }
1058 }
1059 {
1060 object MergedArgNames = arg2;
1061 Variable ArgAssignments = new Variable();
1062 Variable Calls = new Variable();
1063 Variable Rest = new Variable();
1064 Variable ClauseCode = new Variable();
1065 Variable RestResults = new Variable();
1066 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", ArgAssignments, Calls), Rest)))
1067 {
1068 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor1(@"blockScope", ClauseCode), RestResults)))
1069 {
1070 foreach (bool l4 in prependArgAssignments(ArgAssignments, Calls, MergedArgNames, ClauseCode))
1071 {
1072 foreach (bool l5 in maplist_compileClause(Rest, MergedArgNames, RestResults))
1073 {
1074 yield return true;
1075 yield break;
1076 }
1077 }
1078 }
1079 }
1080 }
1081 }
1082
1083 public static IEnumerable<bool> prependArgAssignments(object arg1, object arg2, object arg3, object arg4)
1084 {
1085 {
1086 object _MergedArgNames = arg3;
1087 Variable In = new Variable();
1088 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1089 {
1090 foreach (bool l3 in YP.unify(arg2, In))
1091 {
1092 foreach (bool l4 in YP.unify(arg4, In))
1093 {
1094 yield return true;
1095 yield break;
1096 }
1097 }
1098 }
1099 }
1100 {
1101 object In = arg2;
1102 object MergedArgNames = arg3;
1103 object ClauseCode = arg4;
1104 Variable VariableName = new Variable();
1105 Variable ArgName = new Variable();
1106 Variable RestArgAssignments = new Variable();
1107 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"f", VariableName, ArgName), RestArgAssignments)))
1108 {
1109 foreach (bool l3 in member(VariableName, MergedArgNames))
1110 {
1111 foreach (bool l4 in prependArgAssignments(RestArgAssignments, In, MergedArgNames, ClauseCode))
1112 {
1113 yield return true;
1114 yield break;
1115 }
1116 goto cutIf1;
1117 }
1118 foreach (bool l3 in prependArgAssignments(RestArgAssignments, new ListPair(new Functor3(@"declare", Atom.a(@"object"), VariableName, new Functor1(@"var", ArgName)), In), MergedArgNames, ClauseCode))
1119 {
1120 yield return true;
1121 yield break;
1122 }
1123 cutIf1:
1124 { }
1125 }
1126 }
1127 }
1128
1129 public static IEnumerable<bool> argAssignedAll(object arg1, object arg2, object VariableName)
1130 {
1131 {
1132 object _ArgName = arg1;
1133 foreach (bool l2 in YP.unify(arg2, Atom.NIL))
1134 {
1135 if (YP.nonvar(VariableName))
1136 {
1137 yield return true;
1138 yield break;
1139 }
1140 }
1141 }
1142 {
1143 object ArgName = arg1;
1144 Variable ArgAssignments = new Variable();
1145 Variable _Calls = new Variable();
1146 Variable RestClauseBag = new Variable();
1147 foreach (bool l2 in YP.unify(arg2, new ListPair(new Functor2(@"f", ArgAssignments, _Calls), RestClauseBag)))
1148 {
1149 foreach (bool l3 in member(new Functor2(@"f", VariableName, ArgName), ArgAssignments))
1150 {
1151 foreach (bool l4 in argAssignedAll(ArgName, RestClauseBag, VariableName))
1152 {
1153 yield return false;
1154 }
1155 }
1156 }
1157 }
1158 }
1159
1160 public static IEnumerable<bool> maplist_arg(object arg1, object arg2)
1161 {
1162 {
1163 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1164 {
1165 foreach (bool l3 in YP.unify(arg2, Atom.NIL))
1166 {
1167 yield return true;
1168 yield break;
1169 }
1170 }
1171 }
1172 {
1173 Variable First = new Variable();
1174 Variable Rest = new Variable();
1175 Variable RestResults = new Variable();
1176 foreach (bool l2 in YP.unify(arg1, new ListPair(First, Rest)))
1177 {
1178 foreach (bool l3 in YP.unify(arg2, new ListPair(new Functor1(@"arg", First), RestResults)))
1179 {
1180 foreach (bool l4 in maplist_arg(Rest, RestResults))
1181 {
1182 yield return true;
1183 yield break;
1184 }
1185 }
1186 }
1187 }
1188 }
1189
1190 public static IEnumerable<bool> getFunctionArgNames(object arg1, object arg2, object arg3)
1191 {
1192 {
1193 object _StartArgNumber = arg2;
1194 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1195 {
1196 foreach (bool l3 in YP.unify(arg3, Atom.NIL))
1197 {
1198 yield return true;
1199 yield break;
1200 }
1201 }
1202 }
1203 {
1204 object StartArgNumber = arg2;
1205 Variable x1 = new Variable();
1206 Variable Rest = new Variable();
1207 Variable ArgName = new Variable();
1208 Variable RestFunctionArgs = new Variable();
1209 Variable NumberCodes = new Variable();
1210 Variable NumberAtom = new Variable();
1211 Variable NextArgNumber = new Variable();
1212 foreach (bool l2 in YP.unify(arg1, new ListPair(x1, Rest)))
1213 {
1214 foreach (bool l3 in YP.unify(arg3, new ListPair(ArgName, RestFunctionArgs)))
1215 {
1216 foreach (bool l4 in YP.number_codes(StartArgNumber, NumberCodes))
1217 {
1218 foreach (bool l5 in YP.atom_codes(NumberAtom, NumberCodes))
1219 {
1220 foreach (bool l6 in YP.atom_concat(Atom.a(@"arg"), NumberAtom, ArgName))
1221 {
1222 foreach (bool l7 in YP.unify(NextArgNumber, YP.add(StartArgNumber, 1)))
1223 {
1224 foreach (bool l8 in getFunctionArgNames(Rest, NextArgNumber, RestFunctionArgs))
1225 {
1226 yield return true;
1227 yield break;
1228 }
1229 }
1230 }
1231 }
1232 }
1233 }
1234 }
1235 }
1236 }
1237
1238 public static IEnumerable<bool> compileBodyWithHeadBindings(object Rule, object VariableNameSuggestions, object State, object ArgAssignments, object Calls)
1239 {
1240 {
1241 Variable Head = new Variable();
1242 Variable Body = new Variable();
1243 Variable x8 = new Variable();
1244 Variable HeadArgs = new Variable();
1245 Variable CompiledHeadArgs = new Variable();
1246 Variable BodyCode = new Variable();
1247 Variable VariableNamesList = new Variable();
1248 Variable ArgUnifications = new Variable();
1249 foreach (bool l2 in YP.unify(new Functor2(@":-", Head, Body), Rule))
1250 {
1251 CompilerState.newVariableNames(State, Rule, VariableNameSuggestions);
1252 foreach (bool l3 in YP.univ(Head, new ListPair(x8, HeadArgs)))
1253 {
1254 foreach (bool l4 in maplist_compileTerm(HeadArgs, State, CompiledHeadArgs))
1255 {
1256 foreach (bool l5 in compileRuleBody(Body, State, BodyCode))
1257 {
1258 foreach (bool l6 in CompilerState.variableNamesList(State, VariableNamesList))
1259 {
1260 foreach (bool l7 in compileArgUnifications(HeadArgs, CompiledHeadArgs, 1, HeadArgs, BodyCode, ArgUnifications))
1261 {
1262 foreach (bool l8 in compileDeclarations(VariableNamesList, HeadArgs, Atom.NIL, ArgAssignments, ArgUnifications, Calls))
1263 {
1264 yield return true;
1265 yield break;
1266 }
1267 }
1268 }
1269 }
1270 }
1271 }
1272 }
1273 }
1274 {
1275 foreach (bool l2 in compileBodyWithHeadBindings(new Functor2(@":-", Rule, Atom.a(@"true")), VariableNameSuggestions, State, ArgAssignments, Calls))
1276 {
1277 yield return true;
1278 yield break;
1279 }
1280 }
1281 }
1282
1283 public static IEnumerable<bool> compileArgUnifications(object arg1, object arg2, object arg3, object arg4, object arg5, object arg6)
1284 {
1285 {
1286 object x1 = arg2;
1287 object x2 = arg3;
1288 object x3 = arg4;
1289 Variable BodyCode = new Variable();
1290 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1291 {
1292 foreach (bool l3 in YP.unify(arg5, BodyCode))
1293 {
1294 foreach (bool l4 in YP.unify(arg6, BodyCode))
1295 {
1296 yield return true;
1297 yield break;
1298 }
1299 }
1300 }
1301 }
1302 {
1303 object Index = arg3;
1304 object AllHeadArgs = arg4;
1305 object BodyCode = arg5;
1306 object ArgUnifications = arg6;
1307 Variable HeadArg = new Variable();
1308 Variable RestHeadArgs = new Variable();
1309 Variable x3 = new Variable();
1310 Variable RestCompiledHeadArgs = new Variable();
1311 Variable _ArgIndex1 = new Variable();
1312 Variable NextIndex = new Variable();
1313 foreach (bool l2 in YP.unify(arg1, new ListPair(HeadArg, RestHeadArgs)))
1314 {
1315 foreach (bool l3 in YP.unify(arg2, new ListPair(x3, RestCompiledHeadArgs)))
1316 {
1317 foreach (bool l4 in getVariableArgIndex1(HeadArg, AllHeadArgs, _ArgIndex1))
1318 {
1319 foreach (bool l5 in YP.unify(NextIndex, YP.add(Index, 1)))
1320 {
1321 foreach (bool l6 in compileArgUnifications(RestHeadArgs, RestCompiledHeadArgs, NextIndex, AllHeadArgs, BodyCode, ArgUnifications))
1322 {
1323 yield return true;
1324 yield break;
1325 }
1326 }
1327 }
1328 }
1329 }
1330 }
1331 {
1332 object Index = arg3;
1333 object AllHeadArgs = arg4;
1334 object BodyCode = arg5;
1335 Variable _HeadArg = new Variable();
1336 Variable RestHeadArgs = new Variable();
1337 Variable CompiledHeadArg = new Variable();
1338 Variable RestCompiledHeadArgs = new Variable();
1339 Variable ArgName = new Variable();
1340 Variable RestArgUnifications = new Variable();
1341 Variable NumberCodes = new Variable();
1342 Variable NumberAtom = new Variable();
1343 Variable NextIndex = new Variable();
1344 foreach (bool l2 in YP.unify(arg1, new ListPair(_HeadArg, RestHeadArgs)))
1345 {
1346 foreach (bool l3 in YP.unify(arg2, new ListPair(CompiledHeadArg, RestCompiledHeadArgs)))
1347 {
1348 foreach (bool l4 in YP.unify(arg6, new ListPair(new Functor2(@"foreach", new Functor2(@"call", Atom.a(@"YP.unify"), new ListPair(new Functor1(@"var", ArgName), new ListPair(CompiledHeadArg, Atom.NIL))), RestArgUnifications), Atom.NIL)))
1349 {
1350 foreach (bool l5 in YP.number_codes(Index, NumberCodes))
1351 {
1352 foreach (bool l6 in YP.atom_codes(NumberAtom, NumberCodes))
1353 {
1354 foreach (bool l7 in YP.atom_concat(Atom.a(@"arg"), NumberAtom, ArgName))
1355 {
1356 foreach (bool l8 in YP.unify(NextIndex, YP.add(Index, 1)))
1357 {
1358 foreach (bool l9 in compileArgUnifications(RestHeadArgs, RestCompiledHeadArgs, NextIndex, AllHeadArgs, BodyCode, RestArgUnifications))
1359 {
1360 yield return true;
1361 yield break;
1362 }
1363 }
1364 }
1365 }
1366 }
1367 }
1368 }
1369 }
1370 }
1371 }
1372
1373 public static IEnumerable<bool> compileDeclarations(object arg1, object arg2, object arg3, object arg4, object arg5, object arg6)
1374 {
1375 {
1376 object _HeadArgs = arg2;
1377 Variable ArgAssignmentsIn = new Variable();
1378 Variable DeclarationsIn = new Variable();
1379 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
1380 {
1381 foreach (bool l3 in YP.unify(arg3, ArgAssignmentsIn))
1382 {
1383 foreach (bool l4 in YP.unify(arg4, ArgAssignmentsIn))
1384 {
1385 foreach (bool l5 in YP.unify(arg5, DeclarationsIn))
1386 {
1387 foreach (bool l6 in YP.unify(arg6, DeclarationsIn))
1388 {
1389 yield return true;
1390 yield break;
1391 }
1392 }
1393 }
1394 }
1395 }
1396 }
1397 {
1398 object HeadArgs = arg2;
1399 object ArgAssignmentsIn = arg3;
1400 object ArgAssignmentsOut = arg4;
1401 object DeclarationsIn = arg5;
1402 object DeclarationsOut = arg6;
1403 Variable VariableName = new Variable();
1404 Variable Var = new Variable();
1405 Variable RestVariableNames = new Variable();
1406 Variable ArgIndex1 = new Variable();
1407 Variable NumberCodes = new Variable();
1408 Variable NumberAtom = new Variable();
1409 Variable ArgName = new Variable();
1410 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"=", VariableName, Var), RestVariableNames)))
1411 {
1412 foreach (bool l3 in getVariableArgIndex1(Var, HeadArgs, ArgIndex1))
1413 {
1414 foreach (bool l4 in YP.number_codes(ArgIndex1, NumberCodes))
1415 {
1416 foreach (bool l5 in YP.atom_codes(NumberAtom, NumberCodes))
1417 {
1418 foreach (bool l6 in YP.atom_concat(Atom.a(@"arg"), NumberAtom, ArgName))
1419 {
1420 foreach (bool l7 in compileDeclarations(RestVariableNames, HeadArgs, new ListPair(new Functor2(@"f", VariableName, ArgName), ArgAssignmentsIn), ArgAssignmentsOut, DeclarationsIn, DeclarationsOut))
1421 {
1422 yield return true;
1423 yield break;
1424 }
1425 }
1426 }
1427 }
1428 }
1429 }
1430 }
1431 {
1432 object HeadArgs = arg2;
1433 object ArgAssignmentsIn = arg3;
1434 object ArgAssignmentsOut = arg4;
1435 object DeclarationsIn = arg5;
1436 Variable VariableName = new Variable();
1437 Variable _Var = new Variable();
1438 Variable RestVariableNames = new Variable();
1439 Variable DeclarationsOut = new Variable();
1440 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"=", VariableName, _Var), RestVariableNames)))
1441 {
1442 foreach (bool l3 in YP.unify(arg6, new ListPair(new Functor3(@"declare", Atom.a(@"Variable"), VariableName, new Functor2(@"new", Atom.a(@"Variable"), Atom.NIL)), DeclarationsOut)))
1443 {
1444 foreach (bool l4 in compileDeclarations(RestVariableNames, HeadArgs, ArgAssignmentsIn, ArgAssignmentsOut, DeclarationsIn, DeclarationsOut))
1445 {
1446 yield return true;
1447 yield break;
1448 }
1449 }
1450 }
1451 }
1452 }
1453
1454 public static IEnumerable<bool> getVariableArgIndex1(object Var, object arg2, object arg3)
1455 {
1456 {
1457 Variable FirstHeadArgs = new Variable();
1458 Variable RestHeadArgs = new Variable();
1459 Variable x4 = new Variable();
1460 foreach (bool l2 in YP.unify(arg2, new ListPair(FirstHeadArgs, RestHeadArgs)))
1461 {
1462 foreach (bool l3 in YP.unify(arg3, 1))
1463 {
1464 if (sameVariable(Var, FirstHeadArgs))
1465 {
1466 foreach (bool l5 in getVariableArgIndex1(Var, RestHeadArgs, x4))
1467 {
1468 goto cutIf1;
1469 }
1470 yield return false;
1471 cutIf1:
1472 yield break;
1473 }
1474 }
1475 }
1476 }
1477 {
1478 object Index = arg3;
1479 Variable x2 = new Variable();
1480 Variable RestHeadArgs = new Variable();
1481 Variable RestIndex = new Variable();
1482 foreach (bool l2 in YP.unify(arg2, new ListPair(x2, RestHeadArgs)))
1483 {
1484 foreach (bool l3 in getVariableArgIndex1(Var, RestHeadArgs, RestIndex))
1485 {
1486 foreach (bool l4 in YP.unify(Index, YP.add(1, RestIndex)))
1487 {
1488 yield return true;
1489 yield break;
1490 }
1491 }
1492 }
1493 }
1494 }
1495
1496 public static IEnumerable<bool> compileRuleBody(object arg1, object arg2, object arg3)
1497 {
1498 {
1499 object A = arg1;
1500 object State = arg2;
1501 object PseudoCode = arg3;
1502 if (YP.var(A))
1503 {
1504 foreach (bool l3 in compileRuleBody(new Functor2(@",", new Functor1(@"call", A), Atom.a(@"true")), State, PseudoCode))
1505 {
1506 yield return true;
1507 yield break;
1508 }
1509 }
1510 }
1511 {
1512 object State = arg2;
1513 foreach (bool l2 in YP.unify(arg1, Atom.a(@"!")))
1514 {
1515 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"return"), Atom.NIL)))
1516 {
1517 if (CompilerState.determinismEquals(State, Atom.a(@"detNoneOut")))
1518 {
1519 yield return true;
1520 yield break;
1521 }
1522 }
1523 }
1524 }
1525 {
1526 object State = arg2;
1527 foreach (bool l2 in YP.unify(arg1, Atom.a(@"!")))
1528 {
1529 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"returntrue"), Atom.NIL)))
1530 {
1531 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
1532 {
1533 yield return true;
1534 yield break;
1535 }
1536 }
1537 }
1538 }
1539 {
1540 object _State = arg2;
1541 foreach (bool l2 in YP.unify(arg1, Atom.a(@"!")))
1542 {
1543 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"yieldtrue"), new ListPair(Atom.a(@"yieldbreak"), Atom.NIL))))
1544 {
1545 yield return true;
1546 yield break;
1547 }
1548 }
1549 }
1550 {
1551 object _State = arg2;
1552 Variable Name = new Variable();
1553 foreach (bool l2 in YP.unify(arg1, new Functor1(@"$CUTIF", Name)))
1554 {
1555 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor1(@"breakBlock", Name), Atom.NIL)))
1556 {
1557 yield return true;
1558 yield break;
1559 }
1560 }
1561 }
1562 {
1563 object State = arg2;
1564 foreach (bool l2 in YP.unify(arg1, Atom.a(@"true")))
1565 {
1566 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"return"), Atom.NIL)))
1567 {
1568 if (CompilerState.determinismEquals(State, Atom.a(@"detNoneOut")))
1569 {
1570 yield return true;
1571 yield break;
1572 }
1573 }
1574 }
1575 }
1576 {
1577 object State = arg2;
1578 foreach (bool l2 in YP.unify(arg1, Atom.a(@"true")))
1579 {
1580 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"returntrue"), Atom.NIL)))
1581 {
1582 if (CompilerState.determinismEquals(State, Atom.a(@"semidetNoneOut")))
1583 {
1584 yield return true;
1585 yield break;
1586 }
1587 }
1588 }
1589 }
1590 {
1591 object _State = arg2;
1592 foreach (bool l2 in YP.unify(arg1, Atom.a(@"true")))
1593 {
1594 foreach (bool l3 in YP.unify(arg3, new ListPair(Atom.a(@"yieldfalse"), Atom.NIL)))
1595 {
1596 yield return true;
1597 yield break;
1598 }
1599 }
1600 }
1601 {
1602 object State = arg2;
1603 object PseudoCode = arg3;
1604 Variable A = new Variable();
1605 Variable B = new Variable();
1606 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", A, B)))
1607 {
1608 if (YP.var(A))
1609 {
1610 foreach (bool l4 in compileRuleBody(new Functor2(@",", new Functor1(@"call", A), B), State, PseudoCode))
1611 {
1612 yield return true;
1613 yield break;
1614 }
1615 }
1616 }
1617 }
1618 {
1619 object State = arg2;
1620 object PseudoCode = arg3;
1621 Variable A = new Variable();
1622 Variable T = new Variable();
1623 Variable B = new Variable();
1624 Variable C = new Variable();
1625 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor2(@";", new Functor2(@"->", A, T), B), C)))
1626 {
1627 foreach (bool l3 in compileRuleBody(new Functor2(@";", new Functor2(@"->", A, new Functor2(@",", T, C)), new Functor2(@",", B, C)), State, PseudoCode))
1628 {
1629 yield return true;
1630 yield break;
1631 }
1632 }
1633 }
1634 {
1635 object State = arg2;
1636 object PseudoCode = arg3;
1637 Variable A = new Variable();
1638 Variable B = new Variable();
1639 Variable C = new Variable();
1640 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor2(@";", A, B), C)))
1641 {
1642 foreach (bool l3 in compileRuleBody(new Functor2(@";", new Functor2(@",", A, C), new Functor2(@",", B, C)), State, PseudoCode))
1643 {
1644 yield return true;
1645 yield break;
1646 }
1647 }
1648 }
1649 {
1650 object State = arg2;
1651 Variable A = new Variable();
1652 Variable B = new Variable();
1653 Variable ACode = new Variable();
1654 Variable BCode = new Variable();
1655 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor1(@"\+", A), B)))
1656 {
1657 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"if", new Functor1(@"not", ACode), BCode), Atom.NIL)))
1658 {
1659 if (CompilerState.isSemidetNoneOut(State, A))
1660 {
1661 foreach (bool l5 in compileFunctorCall(A, State, ACode))
1662 {
1663 foreach (bool l6 in compileRuleBody(B, State, BCode))
1664 {
1665 yield return true;
1666 yield break;
1667 }
1668 }
1669 }
1670 }
1671 }
1672 }
1673 {
1674 object State = arg2;
1675 object PseudoCode = arg3;
1676 Variable A = new Variable();
1677 Variable B = new Variable();
1678 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor1(@"\+", A), B)))
1679 {
1680 foreach (bool l3 in compileRuleBody(new Functor2(@",", new Functor2(@";", new Functor2(@"->", A, Atom.a(@"fail")), Atom.a(@"true")), B), State, PseudoCode))
1681 {
1682 yield return true;
1683 yield break;
1684 }
1685 }
1686 }
1687 {
1688 object State = arg2;
1689 object PseudoCode = arg3;
1690 Variable A = new Variable();
1691 Variable B = new Variable();
1692 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor1(@"once", A), B)))
1693 {
1694 foreach (bool l3 in compileRuleBody(new Functor2(@",", new Functor2(@";", new Functor2(@"->", A, Atom.a(@"true")), Atom.a(@"fail")), B), State, PseudoCode))
1695 {
1696 yield return true;
1697 yield break;
1698 }
1699 }
1700 }
1701 {
1702 object State = arg2;
1703 object PseudoCode = arg3;
1704 Variable A = new Variable();
1705 Variable T = new Variable();
1706 Variable B = new Variable();
1707 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor2(@"->", A, T), B)))
1708 {
1709 foreach (bool l3 in compileRuleBody(new Functor2(@",", new Functor2(@";", new Functor2(@"->", A, T), Atom.a(@"fail")), B), State, PseudoCode))
1710 {
1711 yield return true;
1712 yield break;
1713 }
1714 }
1715 }
1716 {
1717 object State = arg2;
1718 object PseudoCode = arg3;
1719 Variable A = new Variable();
1720 Variable B = new Variable();
1721 Variable C = new Variable();
1722 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor2(@"\=", A, B), C)))
1723 {
1724 foreach (bool l3 in compileRuleBody(new Functor2(@",", new Functor1(@"\+", new Functor2(@"=", A, B)), C), State, PseudoCode))
1725 {
1726 yield return true;
1727 yield break;
1728 }
1729 }
1730 }
1731 {
1732 object State = arg2;
1733 object PseudoCode = arg3;
1734 Variable A = new Variable();
1735 Variable ACode = new Variable();
1736 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", Atom.a(@"!"), A)))
1737 {
1738 foreach (bool l3 in compileRuleBody(A, State, ACode))
1739 {
1740 foreach (bool l4 in append(ACode, new ListPair(Atom.a(@"yieldbreak"), Atom.NIL), PseudoCode))
1741 {
1742 yield return true;
1743 yield break;
1744 }
1745 }
1746 }
1747 }
1748 {
1749 object State = arg2;
1750 object PseudoCode = arg3;
1751 Variable Name = new Variable();
1752 Variable A = new Variable();
1753 Variable ACode = new Variable();
1754 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor1(@"$CUTIF", Name), A)))
1755 {
1756 foreach (bool l3 in compileRuleBody(A, State, ACode))
1757 {
1758 foreach (bool l4 in append(ACode, new ListPair(new Functor1(@"breakBlock", Name), Atom.NIL), PseudoCode))
1759 {
1760 yield return true;
1761 yield break;
1762 }
1763 }
1764 }
1765 }
1766 {
1767 object _State = arg2;
1768 Variable x1 = new Variable();
1769 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", Atom.a(@"fail"), x1)))
1770 {
1771 foreach (bool l3 in YP.unify(arg3, Atom.NIL))
1772 {
1773 yield return true;
1774 yield break;
1775 }
1776 }
1777 }
1778 {
1779 object State = arg2;
1780 object PseudoCode = arg3;
1781 Variable A = new Variable();
1782 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", Atom.a(@"true"), A)))
1783 {
1784 foreach (bool l3 in compileRuleBody(A, State, PseudoCode))
1785 {
1786 yield return true;
1787 yield break;
1788 }
1789 }
1790 }
1791 {
1792 object State = arg2;
1793 Variable A = new Variable();
1794 Variable Term = new Variable();
1795 Variable B = new Variable();
1796 Variable ACode = new Variable();
1797 Variable TermCode = new Variable();
1798 Variable BCode = new Variable();
1799 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor2(@"is", A, Term), B)))
1800 {
1801 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"foreach", new Functor2(@"call", Atom.a(@"YP.unify"), new ListPair(ACode, new ListPair(TermCode, Atom.NIL))), BCode), Atom.NIL)))
1802 {
1803 foreach (bool l4 in compileTerm(A, State, ACode))
1804 {
1805 foreach (bool l5 in compileExpression(Term, State, TermCode))
1806 {
1807 foreach (bool l6 in compileRuleBody(B, State, BCode))
1808 {
1809 yield return true;
1810 yield break;
1811 }
1812 }
1813 }
1814 }
1815 }
1816 }
1817 {
1818 object State = arg2;
1819 Variable A = new Variable();
1820 Variable B = new Variable();
1821 Variable ACode = new Variable();
1822 Variable BCode = new Variable();
1823 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", A, B)))
1824 {
1825 foreach (bool l3 in YP.unify(arg3, new ListPair(ACode, BCode)))
1826 {
1827 if (CompilerState.isDetNoneOut(State, A))
1828 {
1829 foreach (bool l5 in compileFunctorCall(A, State, ACode))
1830 {
1831 foreach (bool l6 in compileRuleBody(B, State, BCode))
1832 {
1833 yield return true;
1834 yield break;
1835 }
1836 }
1837 }
1838 }
1839 }
1840 }
1841 {
1842 object State = arg2;
1843 Variable A = new Variable();
1844 Variable B = new Variable();
1845 Variable ACode = new Variable();
1846 Variable BCode = new Variable();
1847 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", A, B)))
1848 {
1849 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"if", ACode, BCode), Atom.NIL)))
1850 {
1851 if (CompilerState.isSemidetNoneOut(State, A))
1852 {
1853 foreach (bool l5 in compileFunctorCall(A, State, ACode))
1854 {
1855 foreach (bool l6 in compileRuleBody(B, State, BCode))
1856 {
1857 yield return true;
1858 yield break;
1859 }
1860 }
1861 }
1862 }
1863 }
1864 }
1865 {
1866 object State = arg2;
1867 Variable ACode = new Variable();
1868 Variable B = new Variable();
1869 Variable BCode = new Variable();
1870 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor1(@"$DET_NONE_OUT", ACode), B)))
1871 {
1872 foreach (bool l3 in YP.unify(arg3, new ListPair(ACode, BCode)))
1873 {
1874 foreach (bool l4 in compileRuleBody(B, State, BCode))
1875 {
1876 yield return true;
1877 yield break;
1878 }
1879 }
1880 }
1881 }
1882 {
1883 object State = arg2;
1884 Variable A = new Variable();
1885 Variable B = new Variable();
1886 Variable FunctionName = new Variable();
1887 Variable X1Code = new Variable();
1888 Variable X2Code = new Variable();
1889 Variable BCode = new Variable();
1890 Variable Name = new Variable();
1891 Variable X1 = new Variable();
1892 Variable X2 = new Variable();
1893 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", A, B)))
1894 {
1895 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"if", new Functor2(@"call", FunctionName, new ListPair(X1Code, new ListPair(X2Code, Atom.NIL))), BCode), Atom.NIL)))
1896 {
1897 foreach (bool l4 in YP.univ(A, new ListPair(Name, new ListPair(X1, new ListPair(X2, Atom.NIL)))))
1898 {
1899 foreach (bool l5 in binaryExpressionConditional(Name, FunctionName))
1900 {
1901 foreach (bool l6 in compileExpression(X1, State, X1Code))
1902 {
1903 foreach (bool l7 in compileExpression(X2, State, X2Code))
1904 {
1905 foreach (bool l8 in compileRuleBody(B, State, BCode))
1906 {
1907 yield return true;
1908 yield break;
1909 }
1910 }
1911 }
1912 }
1913 }
1914 }
1915 }
1916 }
1917 {
1918 object State = arg2;
1919 object PseudoCode = arg3;
1920 Variable A = new Variable();
1921 Variable B = new Variable();
1922 Variable C = new Variable();
1923 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor2(@",", A, B), C)))
1924 {
1925 foreach (bool l3 in compileRuleBody(new Functor2(@",", A, new Functor2(@",", B, C)), State, PseudoCode))
1926 {
1927 yield return true;
1928 yield break;
1929 }
1930 }
1931 }
1932 {
1933 object State = arg2;
1934 object PseudoCode = arg3;
1935 Variable Template = new Variable();
1936 Variable Goal = new Variable();
1937 Variable Bag = new Variable();
1938 Variable B = new Variable();
1939 Variable TemplateCode = new Variable();
1940 Variable FindallAnswers = new Variable();
1941 Variable GoalAndAddCode = new Variable();
1942 Variable BagCode = new Variable();
1943 Variable BCode = new Variable();
1944 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor3(@"findall", Template, Goal, Bag), B)))
1945 {
1946 foreach (bool l3 in compileTerm(Template, State, TemplateCode))
1947 {
1948 foreach (bool l4 in CompilerState.gensym(State, Atom.a(@"findallAnswers"), FindallAnswers))
1949 {
1950 foreach (bool l5 in compileRuleBody(new Functor2(@",", Goal, new Functor2(@",", new Functor1(@"$DET_NONE_OUT", new Functor3(@"callMember", new Functor1(@"var", FindallAnswers), Atom.a(@"add"), Atom.NIL)), Atom.a(@"fail"))), State, GoalAndAddCode))
1951 {
1952 foreach (bool l6 in compileTerm(Bag, State, BagCode))
1953 {
1954 foreach (bool l7 in compileRuleBody(B, State, BCode))
1955 {
1956 foreach (bool l8 in append(new ListPair(new Functor3(@"declare", Atom.a(@"FindallAnswers"), FindallAnswers, new Functor2(@"new", Atom.a(@"FindallAnswers"), new ListPair(TemplateCode, Atom.NIL))), GoalAndAddCode), new ListPair(new Functor2(@"foreach", new Functor3(@"callMember", new Functor1(@"var", FindallAnswers), Atom.a(@"result"), new ListPair(BagCode, Atom.NIL)), BCode), Atom.NIL), PseudoCode))
1957 {
1958 yield return true;
1959 yield break;
1960 }
1961 }
1962 }
1963 }
1964 }
1965 }
1966 }
1967 }
1968 {
1969 object State = arg2;
1970 object PseudoCode = arg3;
1971 Variable Template = new Variable();
1972 Variable Goal = new Variable();
1973 Variable Bag = new Variable();
1974 Variable B = new Variable();
1975 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor3(@"bagof", Template, Goal, Bag), B)))
1976 {
1977 foreach (bool l3 in compileBagof(Atom.a(@"result"), Template, Goal, Bag, B, State, PseudoCode))
1978 {
1979 yield return true;
1980 yield break;
1981 }
1982 }
1983 }
1984 {
1985 object State = arg2;
1986 object PseudoCode = arg3;
1987 Variable Template = new Variable();
1988 Variable Goal = new Variable();
1989 Variable Bag = new Variable();
1990 Variable B = new Variable();
1991 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor3(@"setof", Template, Goal, Bag), B)))
1992 {
1993 foreach (bool l3 in compileBagof(Atom.a(@"resultSet"), Template, Goal, Bag, B, State, PseudoCode))
1994 {
1995 yield return true;
1996 yield break;
1997 }
1998 }
1999 }
2000 {
2001 object State = arg2;
2002 Variable A = new Variable();
2003 Variable B = new Variable();
2004 Variable ATermCode = new Variable();
2005 Variable BCode = new Variable();
2006 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", new Functor1(@"call", A), B)))
2007 {
2008 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"foreach", new Functor2(@"call", Atom.a(@"YP.getIterator"), new ListPair(ATermCode, new ListPair(new Functor2(@"call", Atom.a(@"getDeclaringClass"), Atom.NIL), Atom.NIL))), BCode), Atom.NIL)))
2009 {
2010 foreach (bool l4 in compileTerm(A, State, ATermCode))
2011 {
2012 foreach (bool l5 in compileRuleBody(B, State, BCode))
2013 {
2014 yield return true;
2015 yield break;
2016 }
2017 }
2018 }
2019 }
2020 }
2021 {
2022 object State = arg2;
2023 Variable A = new Variable();
2024 Variable B = new Variable();
2025 Variable ACode = new Variable();
2026 Variable BCode = new Variable();
2027 foreach (bool l2 in YP.unify(arg1, new Functor2(@",", A, B)))
2028 {
2029 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"foreach", ACode, BCode), Atom.NIL)))
2030 {
2031 foreach (bool l4 in compileFunctorCall(A, State, ACode))
2032 {
2033 foreach (bool l5 in compileRuleBody(B, State, BCode))
2034 {
2035 yield return true;
2036 yield break;
2037 }
2038 }
2039 }
2040 }
2041 }
2042 {
2043 object State = arg2;
2044 object PseudoCode = arg3;
2045 Variable A = new Variable();
2046 Variable B = new Variable();
2047 foreach (bool l2 in YP.unify(arg1, new Functor2(@";", A, B)))
2048 {
2049 if (YP.var(A))
2050 {
2051 foreach (bool l4 in compileRuleBody(new Functor2(@";", new Functor1(@"call", A), B), State, PseudoCode))
2052 {
2053 yield return true;
2054 yield break;
2055 }
2056 }
2057 }
2058 }
2059 {
2060 object State = arg2;
2061 Variable A = new Variable();
2062 Variable T = new Variable();
2063 Variable B = new Variable();
2064 Variable CutIfLabel = new Variable();
2065 Variable Code = new Variable();
2066 foreach (bool l2 in YP.unify(arg1, new Functor2(@";", new Functor2(@"->", A, T), B)))
2067 {
2068 foreach (bool l3 in YP.unify(arg3, new ListPair(new Functor2(@"breakableBlock", CutIfLabel, Code), Atom.NIL)))
2069 {
2070 foreach (bool l4 in CompilerState.gensym(State, Atom.a(@"cutIf"), CutIfLabel))
2071 {
2072 foreach (bool l5 in compileRuleBody(new Functor2(@";", new Functor2(@",", A, new Functor2(@",", new Functor1(@"$CUTIF", CutIfLabel), T)), B), State, Code))
2073 {
2074 yield return true;
2075 yield break;
2076 }
2077 }
2078 }
2079 }
2080 }
2081 {
2082 object State = arg2;
2083 object PseudoCode = arg3;
2084 Variable A = new Variable();
2085 Variable B = new Variable();
2086 Variable ACode = new Variable();
2087 Variable BCode = new Variable();
2088 foreach (bool l2 in YP.unify(arg1, new Functor2(@";", A, B)))
2089 {
2090 foreach (bool l3 in compileRuleBody(A, State, ACode))
2091 {
2092 foreach (bool l4 in compileRuleBody(B, State, BCode))
2093 {
2094 foreach (bool l5 in append(ACode, BCode, PseudoCode))
2095 {
2096 yield return true;
2097 yield break;
2098 }
2099 }
2100 }
2101 }
2102 }
2103 {
2104 object A = arg1;
2105 object State = arg2;
2106 object PseudoCode = arg3;
2107 foreach (bool l2 in compileRuleBody(new Functor2(@",", A, Atom.a(@"true")), State, PseudoCode))
2108 {
2109 yield return true;
2110 yield break;
2111 }
2112 }
2113 }
2114
2115 public static IEnumerable<bool> compileBagof(object ResultMethod, object Template, object Goal, object Bag, object B, object State, object PseudoCode)
2116 {
2117 {
2118 Variable TemplateCode = new Variable();
2119 Variable GoalTermCode = new Variable();
2120 Variable UnqualifiedGoal = new Variable();
2121 Variable BagofAnswers = new Variable();
2122 Variable GoalAndAddCode = new Variable();
2123 Variable BagCode = new Variable();
2124 Variable BCode = new Variable();
2125 foreach (bool l2 in compileTerm(Template, State, TemplateCode))
2126 {
2127 foreach (bool l3 in compileTerm(Goal, State, GoalTermCode))
2128 {
2129 foreach (bool l4 in unqualifiedGoal(Goal, UnqualifiedGoal))
2130 {
2131 foreach (bool l5 in CompilerState.gensym(State, Atom.a(@"bagofAnswers"), BagofAnswers))
2132 {
2133 foreach (bool l6 in compileRuleBody(new Functor2(@",", UnqualifiedGoal, new Functor2(@",", new Functor1(@"$DET_NONE_OUT", new Functor3(@"callMember", new Functor1(@"var", BagofAnswers), Atom.a(@"add"), Atom.NIL)), Atom.a(@"fail"))), State, GoalAndAddCode))
2134 {
2135 foreach (bool l7 in compileTerm(Bag, State, BagCode))
2136 {
2137 foreach (bool l8 in compileRuleBody(B, State, BCode))
2138 {
2139 foreach (bool l9 in append(new ListPair(new Functor3(@"declare", Atom.a(@"BagofAnswers"), BagofAnswers, new Functor2(@"new", Atom.a(@"BagofAnswers"), new ListPair(TemplateCode, new ListPair(GoalTermCode, Atom.NIL)))), GoalAndAddCode), new ListPair(new Functor2(@"foreach", new Functor3(@"callMember", new Functor1(@"var", BagofAnswers), ResultMethod, new ListPair(BagCode, Atom.NIL)), BCode), Atom.NIL), PseudoCode))
2140 {
2141 yield return true;
2142 yield break;
2143 }
2144 }
2145 }
2146 }
2147 }
2148 }
2149 }
2150 }
2151 }
2152 }
2153
2154 public static IEnumerable<bool> unqualifiedGoal(object arg1, object arg2)
2155 {
2156 {
2157 object Goal = arg1;
2158 foreach (bool l2 in YP.unify(arg2, new Functor1(@"call", Goal)))
2159 {
2160 if (YP.var(Goal))
2161 {
2162 yield return true;
2163 yield break;
2164 }
2165 }
2166 }
2167 {
2168 object UnqualifiedGoal = arg2;
2169 Variable x1 = new Variable();
2170 Variable Goal = new Variable();
2171 foreach (bool l2 in YP.unify(arg1, new Functor2(@"^", x1, Goal)))
2172 {
2173 foreach (bool l3 in unqualifiedGoal(Goal, UnqualifiedGoal))
2174 {
2175 yield return true;
2176 yield break;
2177 }
2178 }
2179 }
2180 {
2181 Variable UnqualifiedGoal = new Variable();
2182 foreach (bool l2 in YP.unify(arg1, UnqualifiedGoal))
2183 {
2184 foreach (bool l3 in YP.unify(arg2, UnqualifiedGoal))
2185 {
2186 yield return true;
2187 yield break;
2188 }
2189 }
2190 }
2191 }
2192
2193 public static IEnumerable<bool> binaryExpressionConditional(object arg1, object arg2)
2194 {
2195 {
2196 foreach (bool l2 in YP.unify(arg1, Atom.a(@"=:=")))
2197 {
2198 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.equal")))
2199 {
2200 yield return true;
2201 yield break;
2202 }
2203 }
2204 }
2205 {
2206 foreach (bool l2 in YP.unify(arg1, Atom.a(@"=\=")))
2207 {
2208 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.notEqual")))
2209 {
2210 yield return true;
2211 yield break;
2212 }
2213 }
2214 }
2215 {
2216 foreach (bool l2 in YP.unify(arg1, Atom.a(@">")))
2217 {
2218 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.greaterThan")))
2219 {
2220 yield return true;
2221 yield break;
2222 }
2223 }
2224 }
2225 {
2226 foreach (bool l2 in YP.unify(arg1, Atom.a(@"<")))
2227 {
2228 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.lessThan")))
2229 {
2230 yield return true;
2231 yield break;
2232 }
2233 }
2234 }
2235 {
2236 foreach (bool l2 in YP.unify(arg1, Atom.a(@">=")))
2237 {
2238 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.greaterThanOrEqual")))
2239 {
2240 yield return true;
2241 yield break;
2242 }
2243 }
2244 }
2245 {
2246 foreach (bool l2 in YP.unify(arg1, Atom.a(@"=<")))
2247 {
2248 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.lessThanOrEqual")))
2249 {
2250 yield return true;
2251 yield break;
2252 }
2253 }
2254 }
2255 }
2256
2257 public static IEnumerable<bool> compileFunctorCall(object Functor_1, object State, object arg3)
2258 {
2259 {
2260 Variable FunctionName = new Variable();
2261 Variable CompiledArgs = new Variable();
2262 Variable FunctorName = new Variable();
2263 Variable FunctorArgs = new Variable();
2264 Variable x7 = new Variable();
2265 Variable Arity = new Variable();
2266 foreach (bool l2 in YP.unify(arg3, new Functor2(@"call", FunctionName, CompiledArgs)))
2267 {
2268 foreach (bool l3 in YP.univ(Functor_1, new ListPair(FunctorName, FunctorArgs)))
2269 {
2270 foreach (bool l4 in YP.functor(Functor_1, x7, Arity))
2271 {
2272 foreach (bool l5 in functorCallFunctionName(State, FunctorName, Arity, FunctionName))
2273 {
2274 foreach (bool l6 in maplist_compileTerm(FunctorArgs, State, CompiledArgs))
2275 {
2276 yield return true;
2277 yield break;
2278 }
2279 }
2280 }
2281 }
2282 }
2283 }
2284 }
2285
2286 public static IEnumerable<bool> functorCallFunctionName(object arg1, object arg2, object arg3, object arg4)
2287 {
2288 {
2289 object x1 = arg1;
2290 foreach (bool l2 in YP.unify(arg2, Atom.a(@"=")))
2291 {
2292 foreach (bool l3 in YP.unify(arg3, 2))
2293 {
2294 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.unify")))
2295 {
2296 yield return true;
2297 yield break;
2298 }
2299 }
2300 }
2301 }
2302 {
2303 object x1 = arg1;
2304 foreach (bool l2 in YP.unify(arg2, Atom.a(@"=..")))
2305 {
2306 foreach (bool l3 in YP.unify(arg3, 2))
2307 {
2308 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.univ")))
2309 {
2310 yield return true;
2311 yield break;
2312 }
2313 }
2314 }
2315 }
2316 {
2317 object x1 = arg1;
2318 foreach (bool l2 in YP.unify(arg2, Atom.a(@"var")))
2319 {
2320 foreach (bool l3 in YP.unify(arg3, 1))
2321 {
2322 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.var")))
2323 {
2324 yield return true;
2325 yield break;
2326 }
2327 }
2328 }
2329 }
2330 {
2331 object x1 = arg1;
2332 foreach (bool l2 in YP.unify(arg2, Atom.a(@"nonvar")))
2333 {
2334 foreach (bool l3 in YP.unify(arg3, 1))
2335 {
2336 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.nonvar")))
2337 {
2338 yield return true;
2339 yield break;
2340 }
2341 }
2342 }
2343 }
2344 {
2345 object x1 = arg1;
2346 foreach (bool l2 in YP.unify(arg2, Atom.a(@"arg")))
2347 {
2348 foreach (bool l3 in YP.unify(arg3, 3))
2349 {
2350 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.arg")))
2351 {
2352 yield return true;
2353 yield break;
2354 }
2355 }
2356 }
2357 }
2358 {
2359 object x1 = arg1;
2360 foreach (bool l2 in YP.unify(arg2, Atom.a(@"functor")))
2361 {
2362 foreach (bool l3 in YP.unify(arg3, 3))
2363 {
2364 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.functor")))
2365 {
2366 yield return true;
2367 yield break;
2368 }
2369 }
2370 }
2371 }
2372 {
2373 object x1 = arg1;
2374 foreach (bool l2 in YP.unify(arg2, Atom.a(@"repeat")))
2375 {
2376 foreach (bool l3 in YP.unify(arg3, 0))
2377 {
2378 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.repeat")))
2379 {
2380 yield return true;
2381 yield break;
2382 }
2383 }
2384 }
2385 }
2386 {
2387 object x1 = arg1;
2388 foreach (bool l2 in YP.unify(arg2, Atom.a(@"get_code")))
2389 {
2390 foreach (bool l3 in YP.unify(arg3, 1))
2391 {
2392 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.get_code")))
2393 {
2394 yield return true;
2395 yield break;
2396 }
2397 }
2398 }
2399 }
2400 {
2401 object x1 = arg1;
2402 foreach (bool l2 in YP.unify(arg2, Atom.a(@"current_op")))
2403 {
2404 foreach (bool l3 in YP.unify(arg3, 3))
2405 {
2406 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.current_op")))
2407 {
2408 yield return true;
2409 yield break;
2410 }
2411 }
2412 }
2413 }
2414 {
2415 object x1 = arg1;
2416 foreach (bool l2 in YP.unify(arg2, Atom.a(@"atom_length")))
2417 {
2418 foreach (bool l3 in YP.unify(arg3, 2))
2419 {
2420 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.atom_length")))
2421 {
2422 yield return true;
2423 yield break;
2424 }
2425 }
2426 }
2427 }
2428 {
2429 object x1 = arg1;
2430 foreach (bool l2 in YP.unify(arg2, Atom.a(@"atom_concat")))
2431 {
2432 foreach (bool l3 in YP.unify(arg3, 3))
2433 {
2434 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.atom_concat")))
2435 {
2436 yield return true;
2437 yield break;
2438 }
2439 }
2440 }
2441 }
2442 {
2443 object x1 = arg1;
2444 foreach (bool l2 in YP.unify(arg2, Atom.a(@"sub_atom")))
2445 {
2446 foreach (bool l3 in YP.unify(arg3, 5))
2447 {
2448 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.sub_atom")))
2449 {
2450 yield return true;
2451 yield break;
2452 }
2453 }
2454 }
2455 }
2456 {
2457 object x1 = arg1;
2458 foreach (bool l2 in YP.unify(arg2, Atom.a(@"atom_codes")))
2459 {
2460 foreach (bool l3 in YP.unify(arg3, 2))
2461 {
2462 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.atom_codes")))
2463 {
2464 yield return true;
2465 yield break;
2466 }
2467 }
2468 }
2469 }
2470 {
2471 object x1 = arg1;
2472 foreach (bool l2 in YP.unify(arg2, Atom.a(@"number_codes")))
2473 {
2474 foreach (bool l3 in YP.unify(arg3, 2))
2475 {
2476 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.number_codes")))
2477 {
2478 yield return true;
2479 yield break;
2480 }
2481 }
2482 }
2483 }
2484 {
2485 object x1 = arg1;
2486 foreach (bool l2 in YP.unify(arg2, Atom.a(@"copy_term")))
2487 {
2488 foreach (bool l3 in YP.unify(arg3, 2))
2489 {
2490 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.copy_term")))
2491 {
2492 yield return true;
2493 yield break;
2494 }
2495 }
2496 }
2497 }
2498 {
2499 object x1 = arg1;
2500 foreach (bool l2 in YP.unify(arg2, Atom.a(@"sort")))
2501 {
2502 foreach (bool l3 in YP.unify(arg3, 2))
2503 {
2504 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.sort")))
2505 {
2506 yield return true;
2507 yield break;
2508 }
2509 }
2510 }
2511 }
2512 {
2513 object x1 = arg1;
2514 foreach (bool l2 in YP.unify(arg2, Atom.a(@"script_event")))
2515 {
2516 foreach (bool l3 in YP.unify(arg3, 2))
2517 {
2518 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.script_event")))
2519 {
2520 yield return true;
2521 yield break;
2522 }
2523 }
2524 }
2525 }
2526 {
2527 object x1 = arg1;
2528 foreach (bool l2 in YP.unify(arg2, Atom.a(@"nl")))
2529 {
2530 foreach (bool l3 in YP.unify(arg3, 0))
2531 {
2532 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.nl")))
2533 {
2534 yield return true;
2535 yield break;
2536 }
2537 }
2538 }
2539 }
2540 {
2541 object x1 = arg1;
2542 foreach (bool l2 in YP.unify(arg2, Atom.a(@"write")))
2543 {
2544 foreach (bool l3 in YP.unify(arg3, 1))
2545 {
2546 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.write")))
2547 {
2548 yield return true;
2549 yield break;
2550 }
2551 }
2552 }
2553 }
2554 {
2555 object x1 = arg1;
2556 foreach (bool l2 in YP.unify(arg2, Atom.a(@"put_code")))
2557 {
2558 foreach (bool l3 in YP.unify(arg3, 1))
2559 {
2560 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.put_code")))
2561 {
2562 yield return true;
2563 yield break;
2564 }
2565 }
2566 }
2567 }
2568 {
2569 object x1 = arg1;
2570 foreach (bool l2 in YP.unify(arg2, Atom.a(@"atom")))
2571 {
2572 foreach (bool l3 in YP.unify(arg3, 1))
2573 {
2574 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.atom")))
2575 {
2576 yield return true;
2577 yield break;
2578 }
2579 }
2580 }
2581 }
2582 {
2583 object x1 = arg1;
2584 foreach (bool l2 in YP.unify(arg2, Atom.a(@"number")))
2585 {
2586 foreach (bool l3 in YP.unify(arg3, 1))
2587 {
2588 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.number")))
2589 {
2590 yield return true;
2591 yield break;
2592 }
2593 }
2594 }
2595 }
2596 {
2597 object x1 = arg1;
2598 foreach (bool l2 in YP.unify(arg2, Atom.a(@"==")))
2599 {
2600 foreach (bool l3 in YP.unify(arg3, 2))
2601 {
2602 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.termEqual")))
2603 {
2604 yield return true;
2605 yield break;
2606 }
2607 }
2608 }
2609 }
2610 {
2611 object x1 = arg1;
2612 foreach (bool l2 in YP.unify(arg2, Atom.a(@"\==")))
2613 {
2614 foreach (bool l3 in YP.unify(arg3, 2))
2615 {
2616 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.termNotEqual")))
2617 {
2618 yield return true;
2619 yield break;
2620 }
2621 }
2622 }
2623 }
2624 {
2625 object x1 = arg1;
2626 foreach (bool l2 in YP.unify(arg2, Atom.a(@"@<")))
2627 {
2628 foreach (bool l3 in YP.unify(arg3, 2))
2629 {
2630 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.termLessThan")))
2631 {
2632 yield return true;
2633 yield break;
2634 }
2635 }
2636 }
2637 }
2638 {
2639 object x1 = arg1;
2640 foreach (bool l2 in YP.unify(arg2, Atom.a(@"@=<")))
2641 {
2642 foreach (bool l3 in YP.unify(arg3, 2))
2643 {
2644 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.termLessThanOrEqual")))
2645 {
2646 yield return true;
2647 yield break;
2648 }
2649 }
2650 }
2651 }
2652 {
2653 object x1 = arg1;
2654 foreach (bool l2 in YP.unify(arg2, Atom.a(@"@>")))
2655 {
2656 foreach (bool l3 in YP.unify(arg3, 2))
2657 {
2658 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.termGreaterThan")))
2659 {
2660 yield return true;
2661 yield break;
2662 }
2663 }
2664 }
2665 }
2666 {
2667 object x1 = arg1;
2668 foreach (bool l2 in YP.unify(arg2, Atom.a(@"@>=")))
2669 {
2670 foreach (bool l3 in YP.unify(arg3, 2))
2671 {
2672 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.termGreaterThanOrEqual")))
2673 {
2674 yield return true;
2675 yield break;
2676 }
2677 }
2678 }
2679 }
2680 {
2681 object x1 = arg1;
2682 foreach (bool l2 in YP.unify(arg2, Atom.a(@"throw")))
2683 {
2684 foreach (bool l3 in YP.unify(arg3, 1))
2685 {
2686 foreach (bool l4 in YP.unify(arg4, Atom.a(@"YP.throwException")))
2687 {
2688 yield return true;
2689 yield break;
2690 }
2691 }
2692 }
2693 }
2694 {
2695 object State = arg1;
2696 object Arity = arg3;
2697 Variable Name = new Variable();
2698 foreach (bool l2 in YP.unify(arg2, Name))
2699 {
2700 foreach (bool l3 in YP.unify(arg4, Name))
2701 {
2702 if (CompilerState.nameArityHasModule(State, Name, Arity, Atom.a(@"")))
2703 {
2704 yield return true;
2705 yield break;
2706 }
2707 }
2708 }
2709 }
2710 {
2711 object _State = arg1;
2712 object _Arity = arg3;
2713 Variable Name = new Variable();
2714 foreach (bool l2 in YP.unify(arg2, Name))
2715 {
2716 foreach (bool l3 in YP.unify(arg4, Name))
2717 {
2718 foreach (bool l4 in Atom.module(Name, Atom.a(@"")))
2719 {
2720 yield return true;
2721 yield break;
2722 }
2723 }
2724 }
2725 }
2726 {
2727 object _State = arg1;
2728 object Name = arg2;
2729 object Arity = arg3;
2730 object x4 = arg4;
2731 foreach (bool l2 in Atom.module(Name, Atom.NIL))
2732 {
2733 YP.throwException(new Functor2(@"error", new Functor2(@"type_error", Atom.a(@"callable"), new Functor2(@"/", Name, Arity)), Atom.a(@"Calls to dynamic predicates not supported")));
2734 yield return true;
2735 yield break;
2736 }
2737 }
2738 {
2739 object _State = arg1;
2740 object Name = arg2;
2741 object Arity = arg3;
2742 object x4 = arg4;
2743 Variable Module = new Variable();
2744 Variable Message = new Variable();
2745 foreach (bool l2 in Atom.module(Name, Module))
2746 {
2747 foreach (bool l3 in Atom.module(Name, Atom.NIL))
2748 {
2749 foreach (bool l4 in YP.atom_concat(Atom.a(@"Not supporting calls to external module: "), Module, Message))
2750 {
2751 YP.throwException(new Functor2(@"error", new Functor2(@"type_error", Atom.a(@"callable"), new Functor2(@"/", Name, Arity)), Message));
2752 yield return true;
2753 yield break;
2754 }
2755 }
2756 }
2757 }
2758 }
2759
2760 public static IEnumerable<bool> compileTerm(object arg1, object arg2, object arg3)
2761 {
2762 {
2763 object Term = arg1;
2764 object State = arg2;
2765 Variable VariableName = new Variable();
2766 foreach (bool l2 in YP.unify(arg3, new Functor1(@"var", VariableName)))
2767 {
2768 if (YP.var(Term))
2769 {
2770 foreach (bool l4 in CompilerState.getVariableName(State, Term, VariableName))
2771 {
2772 yield return true;
2773 yield break;
2774 }
2775 }
2776 }
2777 }
2778 {
2779 object _State = arg2;
2780 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
2781 {
2782 foreach (bool l3 in YP.unify(arg3, new Functor1(@"var", Atom.a(@"Atom.NIL"))))
2783 {
2784 yield return true;
2785 yield break;
2786 }
2787 }
2788 }
2789 {
2790 object Term = arg1;
2791 object State = arg2;
2792 object Code = arg3;
2793 Variable ModuleCode = new Variable();
2794 if (YP.atom(Term))
2795 {
2796 foreach (bool l3 in compileAtomModule(Term, 0, State, ModuleCode))
2797 {
2798 foreach (bool l4 in YP.unify(Code, new Functor2(@"call", Atom.a(@"Atom.a"), new ListPair(new Functor1(@"object", Term), new ListPair(ModuleCode, Atom.NIL)))))
2799 {
2800 yield return true;
2801 yield break;
2802 }
2803 goto cutIf1;
2804 }
2805 foreach (bool l3 in YP.unify(Code, new Functor2(@"call", Atom.a(@"Atom.a"), new ListPair(new Functor1(@"object", Term), Atom.NIL))))
2806 {
2807 yield return true;
2808 yield break;
2809 }
2810 cutIf1:
2811 { }
2812 }
2813 }
2814 {
2815 object State = arg2;
2816 Variable First = new Variable();
2817 Variable Rest = new Variable();
2818 Variable Arg1 = new Variable();
2819 Variable Arg2 = new Variable();
2820 foreach (bool l2 in YP.unify(arg1, new ListPair(First, Rest)))
2821 {
2822 foreach (bool l3 in YP.unify(arg3, new Functor2(@"new", Atom.a(@"ListPair"), new ListPair(Arg1, new ListPair(Arg2, Atom.NIL)))))
2823 {
2824 foreach (bool l4 in compileTerm(First, State, Arg1))
2825 {
2826 foreach (bool l5 in compileTerm(Rest, State, Arg2))
2827 {
2828 yield return true;
2829 yield break;
2830 }
2831 }
2832 }
2833 }
2834 }
2835 {
2836 object Term = arg1;
2837 object State = arg2;
2838 object Result = arg3;
2839 Variable Name = new Variable();
2840 Variable TermArgs = new Variable();
2841 Variable x6 = new Variable();
2842 Variable Arity = new Variable();
2843 Variable ModuleCode = new Variable();
2844 Variable NameCode = new Variable();
2845 Variable X1 = new Variable();
2846 Variable Arg1 = new Variable();
2847 Variable X2 = new Variable();
2848 Variable Arg2 = new Variable();
2849 Variable X3 = new Variable();
2850 Variable Arg3 = new Variable();
2851 Variable Args = new Variable();
2852 foreach (bool l2 in YP.univ(Term, new ListPair(Name, TermArgs)))
2853 {
2854 if (YP.termEqual(TermArgs, Atom.NIL))
2855 {
2856 foreach (bool l4 in YP.unify(Result, new Functor1(@"object", Name)))
2857 {
2858 yield return true;
2859 yield break;
2860 }
2861 goto cutIf2;
2862 }
2863 foreach (bool l3 in YP.functor(Term, x6, Arity))
2864 {
2865 foreach (bool l4 in compileAtomModule(Name, Arity, State, ModuleCode))
2866 {
2867 foreach (bool l5 in YP.unify(NameCode, new Functor2(@"call", Atom.a(@"Atom.a"), new ListPair(new Functor1(@"object", Name), new ListPair(ModuleCode, Atom.NIL)))))
2868 {
2869 foreach (bool l6 in YP.unify(TermArgs, new ListPair(X1, Atom.NIL)))
2870 {
2871 foreach (bool l7 in compileTerm(X1, State, Arg1))
2872 {
2873 foreach (bool l8 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor1"), new ListPair(NameCode, new ListPair(Arg1, Atom.NIL)))))
2874 {
2875 yield return true;
2876 yield break;
2877 }
2878 }
2879 goto cutIf4;
2880 }
2881 foreach (bool l6 in YP.unify(TermArgs, new ListPair(X1, new ListPair(X2, Atom.NIL))))
2882 {
2883 foreach (bool l7 in compileTerm(X1, State, Arg1))
2884 {
2885 foreach (bool l8 in compileTerm(X2, State, Arg2))
2886 {
2887 foreach (bool l9 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor2"), new ListPair(NameCode, new ListPair(Arg1, new ListPair(Arg2, Atom.NIL))))))
2888 {
2889 yield return true;
2890 yield break;
2891 }
2892 }
2893 }
2894 goto cutIf5;
2895 }
2896 foreach (bool l6 in YP.unify(TermArgs, new ListPair(X1, new ListPair(X2, new ListPair(X3, Atom.NIL)))))
2897 {
2898 foreach (bool l7 in compileTerm(X1, State, Arg1))
2899 {
2900 foreach (bool l8 in compileTerm(X2, State, Arg2))
2901 {
2902 foreach (bool l9 in compileTerm(X3, State, Arg3))
2903 {
2904 foreach (bool l10 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor3"), new ListPair(NameCode, new ListPair(Arg1, new ListPair(Arg2, new ListPair(Arg3, Atom.NIL)))))))
2905 {
2906 yield return true;
2907 yield break;
2908 }
2909 }
2910 }
2911 }
2912 }
2913 foreach (bool l6 in maplist_compileTerm(TermArgs, State, Args))
2914 {
2915 foreach (bool l7 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor"), new ListPair(NameCode, new ListPair(new Functor1(@"objectArray", Args), Atom.NIL)))))
2916 {
2917 yield return true;
2918 yield break;
2919 }
2920 }
2921 cutIf5:
2922 cutIf4:
2923 { }
2924 }
2925 goto cutIf3;
2926 }
2927 foreach (bool l4 in YP.unify(NameCode, new Functor1(@"object", Name)))
2928 {
2929 foreach (bool l5 in YP.unify(TermArgs, new ListPair(X1, Atom.NIL)))
2930 {
2931 foreach (bool l6 in compileTerm(X1, State, Arg1))
2932 {
2933 foreach (bool l7 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor1"), new ListPair(NameCode, new ListPair(Arg1, Atom.NIL)))))
2934 {
2935 yield return true;
2936 yield break;
2937 }
2938 }
2939 goto cutIf6;
2940 }
2941 foreach (bool l5 in YP.unify(TermArgs, new ListPair(X1, new ListPair(X2, Atom.NIL))))
2942 {
2943 foreach (bool l6 in compileTerm(X1, State, Arg1))
2944 {
2945 foreach (bool l7 in compileTerm(X2, State, Arg2))
2946 {
2947 foreach (bool l8 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor2"), new ListPair(NameCode, new ListPair(Arg1, new ListPair(Arg2, Atom.NIL))))))
2948 {
2949 yield return true;
2950 yield break;
2951 }
2952 }
2953 }
2954 goto cutIf7;
2955 }
2956 foreach (bool l5 in YP.unify(TermArgs, new ListPair(X1, new ListPair(X2, new ListPair(X3, Atom.NIL)))))
2957 {
2958 foreach (bool l6 in compileTerm(X1, State, Arg1))
2959 {
2960 foreach (bool l7 in compileTerm(X2, State, Arg2))
2961 {
2962 foreach (bool l8 in compileTerm(X3, State, Arg3))
2963 {
2964 foreach (bool l9 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor3"), new ListPair(NameCode, new ListPair(Arg1, new ListPair(Arg2, new ListPair(Arg3, Atom.NIL)))))))
2965 {
2966 yield return true;
2967 yield break;
2968 }
2969 }
2970 }
2971 }
2972 }
2973 foreach (bool l5 in maplist_compileTerm(TermArgs, State, Args))
2974 {
2975 foreach (bool l6 in YP.unify(Result, new Functor2(@"new", Atom.a(@"Functor"), new ListPair(NameCode, new ListPair(new Functor1(@"objectArray", Args), Atom.NIL)))))
2976 {
2977 yield return true;
2978 yield break;
2979 }
2980 }
2981 cutIf7:
2982 cutIf6:
2983 { }
2984 }
2985 cutIf3:
2986 { }
2987 }
2988 cutIf2:
2989 { }
2990 }
2991 }
2992 }
2993
2994 public static IEnumerable<bool> compileAtomModule(object Name, object Arity, object State, object ModuleCode)
2995 {
2996 {
2997 if (CompilerState.nameArityHasModule(State, Name, Arity, Atom.a(@"")))
2998 {
2999 foreach (bool l3 in YP.unify(ModuleCode, new Functor2(@"call", Atom.a(@"Atom.a"), new ListPair(new Functor1(@"object", Atom.a(@"")), Atom.NIL))))
3000 {
3001 yield return true;
3002 yield break;
3003 }
3004 }
3005 }
3006 }
3007
3008 public static IEnumerable<bool> maplist_compileTerm(object arg1, object arg2, object arg3)
3009 {
3010 {
3011 object _State = arg2;
3012 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
3013 {
3014 foreach (bool l3 in YP.unify(arg3, Atom.NIL))
3015 {
3016 yield return true;
3017 yield break;
3018 }
3019 }
3020 }
3021 {
3022 object State = arg2;
3023 Variable First = new Variable();
3024 Variable Rest = new Variable();
3025 Variable FirstResult = new Variable();
3026 Variable RestResults = new Variable();
3027 foreach (bool l2 in YP.unify(arg1, new ListPair(First, Rest)))
3028 {
3029 foreach (bool l3 in YP.unify(arg3, new ListPair(FirstResult, RestResults)))
3030 {
3031 foreach (bool l4 in compileTerm(First, State, FirstResult))
3032 {
3033 foreach (bool l5 in maplist_compileTerm(Rest, State, RestResults))
3034 {
3035 yield return true;
3036 yield break;
3037 }
3038 }
3039 }
3040 }
3041 }
3042 }
3043
3044 public static IEnumerable<bool> compileExpression(object Term, object State, object Result)
3045 {
3046 {
3047 Variable Name = new Variable();
3048 Variable TermArgs = new Variable();
3049 Variable X1 = new Variable();
3050 Variable FunctionName = new Variable();
3051 Variable Arg1 = new Variable();
3052 Variable x9 = new Variable();
3053 Variable X2 = new Variable();
3054 Variable Arg2 = new Variable();
3055 if (YP.nonvar(Term))
3056 {
3057 foreach (bool l3 in YP.univ(Term, new ListPair(Name, TermArgs)))
3058 {
3059 if (YP.atom(Name))
3060 {
3061 foreach (bool l5 in YP.unify(TermArgs, new ListPair(X1, Atom.NIL)))
3062 {
3063 foreach (bool l6 in unaryFunction(Name, FunctionName))
3064 {
3065 foreach (bool l7 in compileExpression(X1, State, Arg1))
3066 {
3067 foreach (bool l8 in YP.unify(Result, new Functor2(@"call", FunctionName, new ListPair(Arg1, Atom.NIL))))
3068 {
3069 yield return true;
3070 yield break;
3071 }
3072 }
3073 goto cutIf1;
3074 }
3075 }
3076 foreach (bool l5 in YP.unify(Term, new ListPair(x9, Atom.NIL)))
3077 {
3078 foreach (bool l6 in compileTerm(Term, State, Result))
3079 {
3080 yield return true;
3081 yield break;
3082 }
3083 goto cutIf2;
3084 }
3085 foreach (bool l5 in YP.unify(TermArgs, new ListPair(X1, new ListPair(X2, Atom.NIL))))
3086 {
3087 foreach (bool l6 in binaryFunction(Name, FunctionName))
3088 {
3089 foreach (bool l7 in compileExpression(X1, State, Arg1))
3090 {
3091 foreach (bool l8 in compileExpression(X2, State, Arg2))
3092 {
3093 foreach (bool l9 in YP.unify(Result, new Functor2(@"call", FunctionName, new ListPair(Arg1, new ListPair(Arg2, Atom.NIL)))))
3094 {
3095 yield return true;
3096 yield break;
3097 }
3098 }
3099 }
3100 goto cutIf3;
3101 }
3102 }
3103 YP.throwException(new Functor2(@"error", new Functor2(@"type_error", Atom.a(@"evaluable"), Name), Atom.a(@"Not an expression function")));
3104 yield return false;
3105 cutIf3:
3106 cutIf2:
3107 cutIf1:
3108 { }
3109 }
3110 }
3111 }
3112 }
3113 {
3114 foreach (bool l2 in compileTerm(Term, State, Result))
3115 {
3116 yield return true;
3117 yield break;
3118 }
3119 }
3120 }
3121
3122 public static IEnumerable<bool> unaryFunction(object arg1, object arg2)
3123 {
3124 {
3125 foreach (bool l2 in YP.unify(arg1, Atom.a(@"-")))
3126 {
3127 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.negate")))
3128 {
3129 yield return true;
3130 yield break;
3131 }
3132 }
3133 }
3134 {
3135 foreach (bool l2 in YP.unify(arg1, Atom.a(@"abs")))
3136 {
3137 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.abs")))
3138 {
3139 yield return true;
3140 yield break;
3141 }
3142 }
3143 }
3144 {
3145 foreach (bool l2 in YP.unify(arg1, Atom.a(@"sign")))
3146 {
3147 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.sign")))
3148 {
3149 yield return true;
3150 yield break;
3151 }
3152 }
3153 }
3154 {
3155 foreach (bool l2 in YP.unify(arg1, Atom.a(@"floor")))
3156 {
3157 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.floor")))
3158 {
3159 yield return true;
3160 yield break;
3161 }
3162 }
3163 }
3164 {
3165 foreach (bool l2 in YP.unify(arg1, Atom.a(@"truncate")))
3166 {
3167 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.truncate")))
3168 {
3169 yield return true;
3170 yield break;
3171 }
3172 }
3173 }
3174 {
3175 foreach (bool l2 in YP.unify(arg1, Atom.a(@"round")))
3176 {
3177 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.round")))
3178 {
3179 yield return true;
3180 yield break;
3181 }
3182 }
3183 }
3184 {
3185 foreach (bool l2 in YP.unify(arg1, Atom.a(@"floor")))
3186 {
3187 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.ceiling")))
3188 {
3189 yield return true;
3190 yield break;
3191 }
3192 }
3193 }
3194 {
3195 foreach (bool l2 in YP.unify(arg1, Atom.a(@"sin")))
3196 {
3197 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.sin")))
3198 {
3199 yield return true;
3200 yield break;
3201 }
3202 }
3203 }
3204 {
3205 foreach (bool l2 in YP.unify(arg1, Atom.a(@"cos")))
3206 {
3207 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.cos")))
3208 {
3209 yield return true;
3210 yield break;
3211 }
3212 }
3213 }
3214 {
3215 foreach (bool l2 in YP.unify(arg1, Atom.a(@"atan")))
3216 {
3217 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.atan")))
3218 {
3219 yield return true;
3220 yield break;
3221 }
3222 }
3223 }
3224 {
3225 foreach (bool l2 in YP.unify(arg1, Atom.a(@"exp")))
3226 {
3227 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.exp")))
3228 {
3229 yield return true;
3230 yield break;
3231 }
3232 }
3233 }
3234 {
3235 foreach (bool l2 in YP.unify(arg1, Atom.a(@"log")))
3236 {
3237 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.log")))
3238 {
3239 yield return true;
3240 yield break;
3241 }
3242 }
3243 }
3244 {
3245 foreach (bool l2 in YP.unify(arg1, Atom.a(@"sqrt")))
3246 {
3247 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.sqrt")))
3248 {
3249 yield return true;
3250 yield break;
3251 }
3252 }
3253 }
3254 {
3255 foreach (bool l2 in YP.unify(arg1, Atom.a(@"\")))
3256 {
3257 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.bitwiseComplement")))
3258 {
3259 yield return true;
3260 yield break;
3261 }
3262 }
3263 }
3264 }
3265
3266 public static IEnumerable<bool> binaryFunction(object arg1, object arg2)
3267 {
3268 {
3269 foreach (bool l2 in YP.unify(arg1, Atom.a(@"+")))
3270 {
3271 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.add")))
3272 {
3273 yield return true;
3274 yield break;
3275 }
3276 }
3277 }
3278 {
3279 foreach (bool l2 in YP.unify(arg1, Atom.a(@"-")))
3280 {
3281 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.subtract")))
3282 {
3283 yield return true;
3284 yield break;
3285 }
3286 }
3287 }
3288 {
3289 foreach (bool l2 in YP.unify(arg1, Atom.a(@"*")))
3290 {
3291 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.multiply")))
3292 {
3293 yield return true;
3294 yield break;
3295 }
3296 }
3297 }
3298 {
3299 foreach (bool l2 in YP.unify(arg1, Atom.a(@"/")))
3300 {
3301 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.divide")))
3302 {
3303 yield return true;
3304 yield break;
3305 }
3306 }
3307 }
3308 {
3309 foreach (bool l2 in YP.unify(arg1, Atom.a(@"//")))
3310 {
3311 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.intDivide")))
3312 {
3313 yield return true;
3314 yield break;
3315 }
3316 }
3317 }
3318 {
3319 foreach (bool l2 in YP.unify(arg1, Atom.a(@"mod")))
3320 {
3321 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.mod")))
3322 {
3323 yield return true;
3324 yield break;
3325 }
3326 }
3327 }
3328 {
3329 foreach (bool l2 in YP.unify(arg1, Atom.a(@"**")))
3330 {
3331 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.pow")))
3332 {
3333 yield return true;
3334 yield break;
3335 }
3336 }
3337 }
3338 {
3339 foreach (bool l2 in YP.unify(arg1, Atom.a(@">>")))
3340 {
3341 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.bitwiseShiftRight")))
3342 {
3343 yield return true;
3344 yield break;
3345 }
3346 }
3347 }
3348 {
3349 foreach (bool l2 in YP.unify(arg1, Atom.a(@"<<")))
3350 {
3351 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.bitwiseShiftLeft")))
3352 {
3353 yield return true;
3354 yield break;
3355 }
3356 }
3357 }
3358 {
3359 foreach (bool l2 in YP.unify(arg1, Atom.a(@"/\")))
3360 {
3361 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.bitwiseAnd")))
3362 {
3363 yield return true;
3364 yield break;
3365 }
3366 }
3367 }
3368 {
3369 foreach (bool l2 in YP.unify(arg1, Atom.a(@"\/")))
3370 {
3371 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.bitwiseOr")))
3372 {
3373 yield return true;
3374 yield break;
3375 }
3376 }
3377 }
3378 {
3379 foreach (bool l2 in YP.unify(arg1, Atom.a(@"min")))
3380 {
3381 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.min")))
3382 {
3383 yield return true;
3384 yield break;
3385 }
3386 }
3387 }
3388 {
3389 foreach (bool l2 in YP.unify(arg1, Atom.a(@"max")))
3390 {
3391 foreach (bool l3 in YP.unify(arg2, Atom.a(@"YP.max")))
3392 {
3393 yield return true;
3394 yield break;
3395 }
3396 }
3397 }
3398 }
3399
3400 public static void convertFunctionCSharp(object arg1)
3401 {
3402 {
3403 foreach (bool l2 in YP.unify(arg1, Atom.a(@"getDeclaringClass")))
3404 {
3405 YP.write(Atom.a(@"class YPInnerClass {}"));
3406 YP.nl();
3407 YP.write(Atom.a(@"static System.Type getDeclaringClass() { return typeof(YPInnerClass).DeclaringType; }"));
3408 YP.nl();
3409 YP.nl();
3410 return;
3411 }
3412 }
3413 {
3414 Variable ReturnType = new Variable();
3415 Variable Name = new Variable();
3416 Variable ArgList = new Variable();
3417 Variable Body = new Variable();
3418 Variable Level = new Variable();
3419 foreach (bool l2 in YP.unify(arg1, new Functor(@"function", new object[] { ReturnType, Name, ArgList, Body })))
3420 {
3421 YP.write(Atom.a(@"public static "));
3422 YP.write(ReturnType);
3423 YP.write(Atom.a(@" "));
3424 YP.write(Name);
3425 YP.write(Atom.a(@"("));
3426 convertArgListCSharp(ArgList);
3427 YP.write(Atom.a(@") {"));
3428 YP.nl();
3429 foreach (bool l3 in YP.unify(Level, 1))
3430 {
3431 convertStatementListCSharp(Body, Level);
3432 YP.write(Atom.a(@"}"));
3433 YP.nl();
3434 YP.nl();
3435 return;
3436 }
3437 }
3438 }
3439 }
3440
3441 public static IEnumerable<bool> convertStatementListCSharp(object arg1, object x1, object x2)
3442 {
3443 {
3444 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
3445 {
3446 yield return true;
3447 yield break;
3448 }
3449 }
3450 }
3451
3452 public static void convertStatementListCSharp(object arg1, object Level)
3453 {
3454 {
3455 Variable Name = new Variable();
3456 Variable Body = new Variable();
3457 Variable RestStatements = new Variable();
3458 Variable NewStatements = new Variable();
3459 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"breakableBlock", Name, Body), RestStatements)))
3460 {
3461 foreach (bool l3 in append(Body, new ListPair(new Functor1(@"label", Name), RestStatements), NewStatements))
3462 {
3463 convertStatementListCSharp(NewStatements, Level);
3464 return;
3465 }
3466 }
3467 }
3468 {
3469 Variable Type = new Variable();
3470 Variable Name = new Variable();
3471 Variable Expression = new Variable();
3472 Variable RestStatements = new Variable();
3473 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor3(@"declare", Type, Name, Expression), RestStatements)))
3474 {
3475 convertIndentationCSharp(Level);
3476 YP.write(Type);
3477 YP.write(Atom.a(@" "));
3478 YP.write(Name);
3479 YP.write(Atom.a(@" = "));
3480 convertExpressionCSharp(Expression);
3481 YP.write(Atom.a(@";"));
3482 YP.nl();
3483 convertStatementListCSharp(RestStatements, Level);
3484 return;
3485 }
3486 }
3487 {
3488 Variable Name = new Variable();
3489 Variable Expression = new Variable();
3490 Variable RestStatements = new Variable();
3491 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"assign", Name, Expression), RestStatements)))
3492 {
3493 convertIndentationCSharp(Level);
3494 YP.write(Name);
3495 YP.write(Atom.a(@" = "));
3496 convertExpressionCSharp(Expression);
3497 YP.write(Atom.a(@";"));
3498 YP.nl();
3499 convertStatementListCSharp(RestStatements, Level);
3500 return;
3501 }
3502 }
3503 {
3504 Variable RestStatements = new Variable();
3505 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldtrue"), RestStatements)))
3506 {
3507 convertIndentationCSharp(Level);
3508 YP.write(Atom.a(@"yield return true;"));
3509 YP.nl();
3510 convertStatementListCSharp(RestStatements, Level);
3511 return;
3512 }
3513 }
3514 {
3515 Variable RestStatements = new Variable();
3516 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldfalse"), RestStatements)))
3517 {
3518 convertIndentationCSharp(Level);
3519 YP.write(Atom.a(@"yield return false;"));
3520 YP.nl();
3521 convertStatementListCSharp(RestStatements, Level);
3522 return;
3523 }
3524 }
3525 {
3526 Variable RestStatements = new Variable();
3527 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldbreak"), RestStatements)))
3528 {
3529 convertIndentationCSharp(Level);
3530 YP.write(Atom.a(@"yield break;"));
3531 YP.nl();
3532 convertStatementListCSharp(RestStatements, Level);
3533 return;
3534 }
3535 }
3536 {
3537 Variable RestStatements = new Variable();
3538 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"return"), RestStatements)))
3539 {
3540 convertIndentationCSharp(Level);
3541 YP.write(Atom.a(@"return;"));
3542 YP.nl();
3543 convertStatementListCSharp(RestStatements, Level);
3544 return;
3545 }
3546 }
3547 {
3548 Variable RestStatements = new Variable();
3549 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"returntrue"), RestStatements)))
3550 {
3551 convertIndentationCSharp(Level);
3552 YP.write(Atom.a(@"return true;"));
3553 YP.nl();
3554 convertStatementListCSharp(RestStatements, Level);
3555 return;
3556 }
3557 }
3558 {
3559 Variable RestStatements = new Variable();
3560 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"returnfalse"), RestStatements)))
3561 {
3562 convertIndentationCSharp(Level);
3563 YP.write(Atom.a(@"return false;"));
3564 YP.nl();
3565 convertStatementListCSharp(RestStatements, Level);
3566 return;
3567 }
3568 }
3569 {
3570 Variable Name = new Variable();
3571 Variable RestStatements = new Variable();
3572 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"label", Name), RestStatements)))
3573 {
3574 convertIndentationCSharp(Level);
3575 YP.write(Name);
3576 YP.write(Atom.a(@":"));
3577 YP.nl();
3578 if (YP.termEqual(RestStatements, Atom.NIL))
3579 {
3580 convertIndentationCSharp(Level);
3581 YP.write(Atom.a(@"{}"));
3582 YP.nl();
3583 convertStatementListCSharp(RestStatements, Level);
3584 return;
3585 goto cutIf1;
3586 }
3587 convertStatementListCSharp(RestStatements, Level);
3588 return;
3589 cutIf1:
3590 { }
3591 }
3592 }
3593 {
3594 Variable Name = new Variable();
3595 Variable RestStatements = new Variable();
3596 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"breakBlock", Name), RestStatements)))
3597 {
3598 convertIndentationCSharp(Level);
3599 YP.write(Atom.a(@"goto "));
3600 YP.write(Name);
3601 YP.write(Atom.a(@";"));
3602 YP.nl();
3603 convertStatementListCSharp(RestStatements, Level);
3604 return;
3605 }
3606 }
3607 {
3608 Variable Name = new Variable();
3609 Variable ArgList = new Variable();
3610 Variable RestStatements = new Variable();
3611 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"call", Name, ArgList), RestStatements)))
3612 {
3613 convertIndentationCSharp(Level);
3614 YP.write(Name);
3615 YP.write(Atom.a(@"("));
3616 convertArgListCSharp(ArgList);
3617 YP.write(Atom.a(@");"));
3618 YP.nl();
3619 convertStatementListCSharp(RestStatements, Level);
3620 return;
3621 }
3622 }
3623 {
3624 Variable Obj = new Variable();
3625 Variable Name = new Variable();
3626 Variable ArgList = new Variable();
3627 Variable RestStatements = new Variable();
3628 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor3(@"callMember", new Functor1(@"var", Obj), Name, ArgList), RestStatements)))
3629 {
3630 convertIndentationCSharp(Level);
3631 YP.write(Obj);
3632 YP.write(Atom.a(@"."));
3633 YP.write(Name);
3634 YP.write(Atom.a(@"("));
3635 convertArgListCSharp(ArgList);
3636 YP.write(Atom.a(@");"));
3637 YP.nl();
3638 convertStatementListCSharp(RestStatements, Level);
3639 return;
3640 }
3641 }
3642 {
3643 Variable Body = new Variable();
3644 Variable RestStatements = new Variable();
3645 Variable NextLevel = new Variable();
3646 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"blockScope", Body), RestStatements)))
3647 {
3648 convertIndentationCSharp(Level);
3649 YP.write(Atom.a(@"{"));
3650 YP.nl();
3651 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
3652 {
3653 convertStatementListCSharp(Body, NextLevel);
3654 convertIndentationCSharp(Level);
3655 YP.write(Atom.a(@"}"));
3656 YP.nl();
3657 convertStatementListCSharp(RestStatements, Level);
3658 return;
3659 }
3660 }
3661 }
3662 {
3663 Variable Expression = new Variable();
3664 Variable Body = new Variable();
3665 Variable RestStatements = new Variable();
3666 Variable NextLevel = new Variable();
3667 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"if", Expression, Body), RestStatements)))
3668 {
3669 convertIndentationCSharp(Level);
3670 YP.write(Atom.a(@"if ("));
3671 convertExpressionCSharp(Expression);
3672 YP.write(Atom.a(@") {"));
3673 YP.nl();
3674 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
3675 {
3676 convertStatementListCSharp(Body, NextLevel);
3677 convertIndentationCSharp(Level);
3678 YP.write(Atom.a(@"}"));
3679 YP.nl();
3680 convertStatementListCSharp(RestStatements, Level);
3681 return;
3682 }
3683 }
3684 }
3685 {
3686 Variable Expression = new Variable();
3687 Variable Body = new Variable();
3688 Variable RestStatements = new Variable();
3689 Variable NextLevel = new Variable();
3690 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"foreach", Expression, Body), RestStatements)))
3691 {
3692 convertIndentationCSharp(Level);
3693 YP.write(Atom.a(@"foreach (bool l"));
3694 YP.write(Level);
3695 YP.write(Atom.a(@" in "));
3696 convertExpressionCSharp(Expression);
3697 YP.write(Atom.a(@") {"));
3698 YP.nl();
3699 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
3700 {
3701 convertStatementListCSharp(Body, NextLevel);
3702 convertIndentationCSharp(Level);
3703 YP.write(Atom.a(@"}"));
3704 YP.nl();
3705 convertStatementListCSharp(RestStatements, Level);
3706 return;
3707 }
3708 }
3709 }
3710 }
3711
3712 public static void convertIndentationCSharp(object Level)
3713 {
3714 {
3715 Variable N = new Variable();
3716 foreach (bool l2 in YP.unify(N, YP.multiply(Level, 2)))
3717 {
3718 repeatWrite(Atom.a(@" "), N);
3719 return;
3720 }
3721 }
3722 }
3723
3724 public static void convertArgListCSharp(object arg1)
3725 {
3726 {
3727 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
3728 {
3729 return;
3730 }
3731 }
3732 {
3733 Variable Head = new Variable();
3734 Variable Tail = new Variable();
3735 foreach (bool l2 in YP.unify(arg1, new ListPair(Head, Tail)))
3736 {
3737 convertExpressionCSharp(Head);
3738 if (YP.termNotEqual(Tail, Atom.NIL))
3739 {
3740 YP.write(Atom.a(@", "));
3741 convertArgListCSharp(Tail);
3742 return;
3743 goto cutIf1;
3744 }
3745 convertArgListCSharp(Tail);
3746 return;
3747 cutIf1:
3748 { }
3749 }
3750 }
3751 }
3752
3753 public static void convertExpressionCSharp(object arg1)
3754 {
3755 {
3756 Variable X = new Variable();
3757 foreach (bool l2 in YP.unify(arg1, new Functor1(@"arg", X)))
3758 {
3759 YP.write(Atom.a(@"object "));
3760 YP.write(X);
3761 return;
3762 }
3763 }
3764 {
3765 Variable Name = new Variable();
3766 Variable ArgList = new Variable();
3767 foreach (bool l2 in YP.unify(arg1, new Functor2(@"call", Name, ArgList)))
3768 {
3769 YP.write(Name);
3770 YP.write(Atom.a(@"("));
3771 convertArgListCSharp(ArgList);
3772 YP.write(Atom.a(@")"));
3773 return;
3774 }
3775 }
3776 {
3777 Variable Obj = new Variable();
3778 Variable Name = new Variable();
3779 Variable ArgList = new Variable();
3780 foreach (bool l2 in YP.unify(arg1, new Functor3(@"callMember", new Functor1(@"var", Obj), Name, ArgList)))
3781 {
3782 YP.write(Obj);
3783 YP.write(Atom.a(@"."));
3784 YP.write(Name);
3785 YP.write(Atom.a(@"("));
3786 convertArgListCSharp(ArgList);
3787 YP.write(Atom.a(@")"));
3788 return;
3789 }
3790 }
3791 {
3792 Variable Name = new Variable();
3793 Variable ArgList = new Variable();
3794 foreach (bool l2 in YP.unify(arg1, new Functor2(@"new", Name, ArgList)))
3795 {
3796 YP.write(Atom.a(@"new "));
3797 YP.write(Name);
3798 YP.write(Atom.a(@"("));
3799 convertArgListCSharp(ArgList);
3800 YP.write(Atom.a(@")"));
3801 return;
3802 }
3803 }
3804 {
3805 Variable Name = new Variable();
3806 foreach (bool l2 in YP.unify(arg1, new Functor1(@"var", Name)))
3807 {
3808 YP.write(Name);
3809 return;
3810 }
3811 }
3812 {
3813 foreach (bool l2 in YP.unify(arg1, Atom.a(@"null")))
3814 {
3815 YP.write(Atom.a(@"null"));
3816 return;
3817 }
3818 }
3819 {
3820 Variable X = new Variable();
3821 foreach (bool l2 in YP.unify(arg1, new Functor1(@"not", X)))
3822 {
3823 YP.write(Atom.a(@"!("));
3824 convertExpressionCSharp(X);
3825 YP.write(Atom.a(@")"));
3826 return;
3827 }
3828 }
3829 {
3830 Variable X = new Variable();
3831 Variable Y = new Variable();
3832 foreach (bool l2 in YP.unify(arg1, new Functor2(@"and", X, Y)))
3833 {
3834 YP.write(Atom.a(@"("));
3835 convertExpressionCSharp(X);
3836 YP.write(Atom.a(@") && ("));
3837 convertExpressionCSharp(Y);
3838 YP.write(Atom.a(@")"));
3839 return;
3840 }
3841 }
3842 {
3843 Variable ArgList = new Variable();
3844 foreach (bool l2 in YP.unify(arg1, new Functor1(@"objectArray", ArgList)))
3845 {
3846 YP.write(Atom.a(@"new object[] {"));
3847 convertArgListCSharp(ArgList);
3848 YP.write(Atom.a(@"}"));
3849 return;
3850 }
3851 }
3852 {
3853 Variable X = new Variable();
3854 Variable Codes = new Variable();
3855 foreach (bool l2 in YP.unify(arg1, new Functor1(@"object", X)))
3856 {
3857 if (YP.atom(X))
3858 {
3859 YP.write(Atom.a(@"@"""));
3860 foreach (bool l4 in YP.atom_codes(X, Codes))
3861 {
3862 convertStringCodesCSharp(Codes);
3863 YP.write(Atom.a(@""""));
3864 return;
3865 }
3866 }
3867 }
3868 }
3869 {
3870 Variable X = new Variable();
3871 foreach (bool l2 in YP.unify(arg1, new Functor1(@"object", X)))
3872 {
3873 YP.write(X);
3874 return;
3875 }
3876 }
3877 }
3878
3879 public static void convertStringCodesCSharp(object arg1)
3880 {
3881 {
3882 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
3883 {
3884 return;
3885 }
3886 }
3887 {
3888 Variable Code = new Variable();
3889 Variable RestCodes = new Variable();
3890 foreach (bool l2 in YP.unify(arg1, new ListPair(Code, RestCodes)))
3891 {
3892 if (YP.termEqual(Code, 34))
3893 {
3894 YP.put_code(34);
3895 YP.put_code(Code);
3896 convertStringCodesCSharp(RestCodes);
3897 return;
3898 goto cutIf1;
3899 }
3900 YP.put_code(Code);
3901 convertStringCodesCSharp(RestCodes);
3902 return;
3903 cutIf1:
3904 { }
3905 }
3906 }
3907 }
3908
3909 public static void convertFunctionJavascript(object arg1)
3910 {
3911 {
3912 foreach (bool l2 in YP.unify(arg1, Atom.a(@"getDeclaringClass")))
3913 {
3914 YP.write(Atom.a(@"function getDeclaringClass() { return null; }"));
3915 YP.nl();
3916 return;
3917 }
3918 }
3919 {
3920 Variable x1 = new Variable();
3921 Variable Name = new Variable();
3922 Variable ArgList = new Variable();
3923 Variable Body = new Variable();
3924 foreach (bool l2 in YP.unify(arg1, new Functor(@"function", new object[] { x1, Name, ArgList, Body })))
3925 {
3926 YP.write(Atom.a(@"function "));
3927 YP.write(Name);
3928 YP.write(Atom.a(@"("));
3929 convertArgListJavascript(ArgList);
3930 YP.write(Atom.a(@") {"));
3931 YP.nl();
3932 convertStatementListJavascript(Body, 1);
3933 YP.write(Atom.a(@"}"));
3934 YP.nl();
3935 YP.nl();
3936 return;
3937 }
3938 }
3939 }
3940
3941 public static void convertStatementListJavascript(object arg1, object arg2)
3942 {
3943 {
3944 object x1 = arg2;
3945 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
3946 {
3947 return;
3948 }
3949 }
3950 {
3951 object Level = arg2;
3952 Variable Name = new Variable();
3953 Variable Body = new Variable();
3954 Variable RestStatements = new Variable();
3955 Variable NextLevel = new Variable();
3956 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"breakableBlock", Name, Body), RestStatements)))
3957 {
3958 convertIndentationJavascript(Level);
3959 YP.write(Name);
3960 YP.write(Atom.a(@":"));
3961 YP.nl();
3962 convertIndentationJavascript(Level);
3963 YP.write(Atom.a(@"{"));
3964 YP.nl();
3965 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
3966 {
3967 convertStatementListJavascript(Body, NextLevel);
3968 convertIndentationJavascript(Level);
3969 YP.write(Atom.a(@"}"));
3970 YP.nl();
3971 convertStatementListJavascript(RestStatements, Level);
3972 return;
3973 }
3974 }
3975 }
3976 {
3977 object Level = arg2;
3978 Variable _Type = new Variable();
3979 Variable Name = new Variable();
3980 Variable Expression = new Variable();
3981 Variable RestStatements = new Variable();
3982 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor3(@"declare", _Type, Name, Expression), RestStatements)))
3983 {
3984 convertIndentationJavascript(Level);
3985 YP.write(Atom.a(@"var "));
3986 YP.write(Name);
3987 YP.write(Atom.a(@" = "));
3988 convertExpressionJavascript(Expression);
3989 YP.write(Atom.a(@";"));
3990 YP.nl();
3991 convertStatementListJavascript(RestStatements, Level);
3992 return;
3993 }
3994 }
3995 {
3996 object Level = arg2;
3997 Variable Name = new Variable();
3998 Variable Expression = new Variable();
3999 Variable RestStatements = new Variable();
4000 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"assign", Name, Expression), RestStatements)))
4001 {
4002 convertIndentationJavascript(Level);
4003 YP.write(Name);
4004 YP.write(Atom.a(@" = "));
4005 convertExpressionJavascript(Expression);
4006 YP.write(Atom.a(@";"));
4007 YP.nl();
4008 convertStatementListJavascript(RestStatements, Level);
4009 return;
4010 }
4011 }
4012 {
4013 object Level = arg2;
4014 Variable RestStatements = new Variable();
4015 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldtrue"), RestStatements)))
4016 {
4017 convertIndentationJavascript(Level);
4018 YP.write(Atom.a(@"yield true;"));
4019 YP.nl();
4020 convertStatementListJavascript(RestStatements, Level);
4021 return;
4022 }
4023 }
4024 {
4025 object Level = arg2;
4026 Variable RestStatements = new Variable();
4027 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldfalse"), RestStatements)))
4028 {
4029 convertIndentationJavascript(Level);
4030 YP.write(Atom.a(@"yield false;"));
4031 YP.nl();
4032 convertStatementListJavascript(RestStatements, Level);
4033 return;
4034 }
4035 }
4036 {
4037 object Level = arg2;
4038 Variable RestStatements = new Variable();
4039 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldbreak"), RestStatements)))
4040 {
4041 convertIndentationJavascript(Level);
4042 YP.write(Atom.a(@"return;"));
4043 YP.nl();
4044 convertStatementListJavascript(RestStatements, Level);
4045 return;
4046 }
4047 }
4048 {
4049 object Level = arg2;
4050 Variable RestStatements = new Variable();
4051 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"return"), RestStatements)))
4052 {
4053 convertIndentationJavascript(Level);
4054 YP.write(Atom.a(@"return;"));
4055 YP.nl();
4056 convertStatementListJavascript(RestStatements, Level);
4057 return;
4058 }
4059 }
4060 {
4061 object Level = arg2;
4062 Variable RestStatements = new Variable();
4063 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"returntrue"), RestStatements)))
4064 {
4065 convertIndentationJavascript(Level);
4066 YP.write(Atom.a(@"return true;"));
4067 YP.nl();
4068 convertStatementListJavascript(RestStatements, Level);
4069 return;
4070 }
4071 }
4072 {
4073 object Level = arg2;
4074 Variable RestStatements = new Variable();
4075 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"returnfalse"), RestStatements)))
4076 {
4077 convertIndentationJavascript(Level);
4078 YP.write(Atom.a(@"return false;"));
4079 YP.nl();
4080 convertStatementListJavascript(RestStatements, Level);
4081 return;
4082 }
4083 }
4084 {
4085 object Level = arg2;
4086 Variable Name = new Variable();
4087 Variable RestStatements = new Variable();
4088 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"breakBlock", Name), RestStatements)))
4089 {
4090 convertIndentationJavascript(Level);
4091 YP.write(Atom.a(@"break "));
4092 YP.write(Name);
4093 YP.write(Atom.a(@";"));
4094 YP.nl();
4095 convertStatementListJavascript(RestStatements, Level);
4096 return;
4097 }
4098 }
4099 {
4100 object Level = arg2;
4101 Variable Name = new Variable();
4102 Variable ArgList = new Variable();
4103 Variable RestStatements = new Variable();
4104 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"call", Name, ArgList), RestStatements)))
4105 {
4106 convertIndentationJavascript(Level);
4107 YP.write(Name);
4108 YP.write(Atom.a(@"("));
4109 convertArgListJavascript(ArgList);
4110 YP.write(Atom.a(@");"));
4111 YP.nl();
4112 convertStatementListJavascript(RestStatements, Level);
4113 return;
4114 }
4115 }
4116 {
4117 object Level = arg2;
4118 Variable Obj = new Variable();
4119 Variable Name = new Variable();
4120 Variable ArgList = new Variable();
4121 Variable RestStatements = new Variable();
4122 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor3(@"callMember", new Functor1(@"var", Obj), Name, ArgList), RestStatements)))
4123 {
4124 convertIndentationJavascript(Level);
4125 YP.write(Obj);
4126 YP.write(Atom.a(@"."));
4127 YP.write(Name);
4128 YP.write(Atom.a(@"("));
4129 convertArgListJavascript(ArgList);
4130 YP.write(Atom.a(@");"));
4131 YP.nl();
4132 convertStatementListJavascript(RestStatements, Level);
4133 return;
4134 }
4135 }
4136 {
4137 object Level = arg2;
4138 Variable Body = new Variable();
4139 Variable RestStatements = new Variable();
4140 Variable NextLevel = new Variable();
4141 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"blockScope", Body), RestStatements)))
4142 {
4143 convertIndentationJavascript(Level);
4144 YP.write(Atom.a(@"{"));
4145 YP.nl();
4146 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
4147 {
4148 convertStatementListJavascript(Body, NextLevel);
4149 convertIndentationJavascript(Level);
4150 YP.write(Atom.a(@"}"));
4151 YP.nl();
4152 convertStatementListJavascript(RestStatements, Level);
4153 return;
4154 }
4155 }
4156 }
4157 {
4158 object Level = arg2;
4159 Variable Expression = new Variable();
4160 Variable Body = new Variable();
4161 Variable RestStatements = new Variable();
4162 Variable NextLevel = new Variable();
4163 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"if", Expression, Body), RestStatements)))
4164 {
4165 convertIndentationJavascript(Level);
4166 YP.write(Atom.a(@"if ("));
4167 convertExpressionJavascript(Expression);
4168 YP.write(Atom.a(@") {"));
4169 YP.nl();
4170 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
4171 {
4172 convertStatementListJavascript(Body, NextLevel);
4173 convertIndentationJavascript(Level);
4174 YP.write(Atom.a(@"}"));
4175 YP.nl();
4176 convertStatementListJavascript(RestStatements, Level);
4177 return;
4178 }
4179 }
4180 }
4181 {
4182 object Level = arg2;
4183 Variable Expression = new Variable();
4184 Variable Body = new Variable();
4185 Variable RestStatements = new Variable();
4186 Variable NextLevel = new Variable();
4187 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"foreach", Expression, Body), RestStatements)))
4188 {
4189 convertIndentationJavascript(Level);
4190 YP.write(Atom.a(@"for each (var l"));
4191 YP.write(Level);
4192 YP.write(Atom.a(@" in "));
4193 convertExpressionJavascript(Expression);
4194 YP.write(Atom.a(@") {"));
4195 YP.nl();
4196 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
4197 {
4198 convertStatementListJavascript(Body, NextLevel);
4199 convertIndentationJavascript(Level);
4200 YP.write(Atom.a(@"}"));
4201 YP.nl();
4202 convertStatementListJavascript(RestStatements, Level);
4203 return;
4204 }
4205 }
4206 }
4207 }
4208
4209 public static void convertIndentationJavascript(object Level)
4210 {
4211 {
4212 Variable N = new Variable();
4213 foreach (bool l2 in YP.unify(N, YP.multiply(Level, 2)))
4214 {
4215 repeatWrite(Atom.a(@" "), N);
4216 return;
4217 }
4218 }
4219 }
4220
4221 public static void convertArgListJavascript(object arg1)
4222 {
4223 {
4224 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
4225 {
4226 return;
4227 }
4228 }
4229 {
4230 Variable Head = new Variable();
4231 Variable Tail = new Variable();
4232 foreach (bool l2 in YP.unify(arg1, new ListPair(Head, Tail)))
4233 {
4234 convertExpressionJavascript(Head);
4235 if (YP.termNotEqual(Tail, Atom.NIL))
4236 {
4237 YP.write(Atom.a(@", "));
4238 convertArgListJavascript(Tail);
4239 return;
4240 goto cutIf1;
4241 }
4242 convertArgListJavascript(Tail);
4243 return;
4244 cutIf1:
4245 { }
4246 }
4247 }
4248 }
4249
4250 public static void convertExpressionJavascript(object arg1)
4251 {
4252 {
4253 Variable X = new Variable();
4254 foreach (bool l2 in YP.unify(arg1, new Functor1(@"arg", X)))
4255 {
4256 YP.write(X);
4257 return;
4258 }
4259 }
4260 {
4261 Variable Name = new Variable();
4262 Variable ArgList = new Variable();
4263 foreach (bool l2 in YP.unify(arg1, new Functor2(@"call", Name, ArgList)))
4264 {
4265 YP.write(Name);
4266 YP.write(Atom.a(@"("));
4267 convertArgListJavascript(ArgList);
4268 YP.write(Atom.a(@")"));
4269 return;
4270 }
4271 }
4272 {
4273 Variable Obj = new Variable();
4274 Variable Name = new Variable();
4275 Variable ArgList = new Variable();
4276 foreach (bool l2 in YP.unify(arg1, new Functor3(@"callMember", new Functor1(@"var", Obj), Name, ArgList)))
4277 {
4278 YP.write(Obj);
4279 YP.write(Atom.a(@"."));
4280 YP.write(Name);
4281 YP.write(Atom.a(@"("));
4282 convertArgListJavascript(ArgList);
4283 YP.write(Atom.a(@")"));
4284 return;
4285 }
4286 }
4287 {
4288 Variable Name = new Variable();
4289 Variable ArgList = new Variable();
4290 foreach (bool l2 in YP.unify(arg1, new Functor2(@"new", Name, ArgList)))
4291 {
4292 YP.write(Atom.a(@"new "));
4293 YP.write(Name);
4294 YP.write(Atom.a(@"("));
4295 convertArgListJavascript(ArgList);
4296 YP.write(Atom.a(@")"));
4297 return;
4298 }
4299 }
4300 {
4301 Variable Name = new Variable();
4302 foreach (bool l2 in YP.unify(arg1, new Functor1(@"var", Name)))
4303 {
4304 YP.write(Name);
4305 return;
4306 }
4307 }
4308 {
4309 foreach (bool l2 in YP.unify(arg1, Atom.a(@"null")))
4310 {
4311 YP.write(Atom.a(@"null"));
4312 return;
4313 }
4314 }
4315 {
4316 Variable X = new Variable();
4317 foreach (bool l2 in YP.unify(arg1, new Functor1(@"not", X)))
4318 {
4319 YP.write(Atom.a(@"!("));
4320 convertExpressionJavascript(X);
4321 YP.write(Atom.a(@")"));
4322 return;
4323 }
4324 }
4325 {
4326 Variable X = new Variable();
4327 Variable Y = new Variable();
4328 foreach (bool l2 in YP.unify(arg1, new Functor2(@"and", X, Y)))
4329 {
4330 YP.write(Atom.a(@"("));
4331 convertExpressionJavascript(X);
4332 YP.write(Atom.a(@") && ("));
4333 convertExpressionJavascript(Y);
4334 YP.write(Atom.a(@")"));
4335 return;
4336 }
4337 }
4338 {
4339 Variable ArgList = new Variable();
4340 foreach (bool l2 in YP.unify(arg1, new Functor1(@"objectArray", ArgList)))
4341 {
4342 YP.write(Atom.a(@"["));
4343 convertArgListJavascript(ArgList);
4344 YP.write(Atom.a(@"]"));
4345 return;
4346 }
4347 }
4348 {
4349 Variable X = new Variable();
4350 Variable Codes = new Variable();
4351 foreach (bool l2 in YP.unify(arg1, new Functor1(@"object", X)))
4352 {
4353 if (YP.atom(X))
4354 {
4355 YP.write(Atom.a(@""""));
4356 foreach (bool l4 in YP.atom_codes(X, Codes))
4357 {
4358 convertStringCodesJavascript(Codes);
4359 YP.write(Atom.a(@""""));
4360 return;
4361 }
4362 }
4363 }
4364 }
4365 {
4366 Variable X = new Variable();
4367 foreach (bool l2 in YP.unify(arg1, new Functor1(@"object", X)))
4368 {
4369 YP.write(X);
4370 return;
4371 }
4372 }
4373 }
4374
4375 public static void convertStringCodesJavascript(object arg1)
4376 {
4377 {
4378 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
4379 {
4380 return;
4381 }
4382 }
4383 {
4384 Variable Code = new Variable();
4385 Variable RestCodes = new Variable();
4386 foreach (bool l2 in YP.unify(arg1, new ListPair(Code, RestCodes)))
4387 {
4388 if (YP.termEqual(Code, 34))
4389 {
4390 YP.put_code(92);
4391 YP.put_code(Code);
4392 convertStringCodesJavascript(RestCodes);
4393 return;
4394 goto cutIf1;
4395 }
4396 if (YP.termEqual(Code, 92))
4397 {
4398 YP.put_code(92);
4399 YP.put_code(Code);
4400 convertStringCodesJavascript(RestCodes);
4401 return;
4402 goto cutIf1;
4403 }
4404 YP.put_code(Code);
4405 convertStringCodesJavascript(RestCodes);
4406 return;
4407 cutIf1:
4408 { }
4409 }
4410 }
4411 }
4412
4413 public static void convertFunctionPython(object arg1)
4414 {
4415 {
4416 foreach (bool l2 in YP.unify(arg1, Atom.a(@"getDeclaringClass")))
4417 {
4418 YP.write(Atom.a(@"def getDeclaringClass():"));
4419 YP.nl();
4420 YP.write(Atom.a(@" return None"));
4421 YP.nl();
4422 YP.nl();
4423 return;
4424 }
4425 }
4426 {
4427 Variable x1 = new Variable();
4428 Variable Name = new Variable();
4429 Variable ArgList = new Variable();
4430 Variable Body = new Variable();
4431 Variable Level = new Variable();
4432 Variable HasBreakableBlock = new Variable();
4433 foreach (bool l2 in YP.unify(arg1, new Functor(@"function", new object[] { x1, Name, ArgList, Body })))
4434 {
4435 YP.write(Atom.a(@"def "));
4436 YP.write(Name);
4437 YP.write(Atom.a(@"("));
4438 convertArgListPython(ArgList);
4439 YP.write(Atom.a(@"):"));
4440 YP.nl();
4441 foreach (bool l3 in YP.unify(Level, 1))
4442 {
4443 if (hasBreakableBlockPython(Body))
4444 {
4445 foreach (bool l5 in YP.unify(HasBreakableBlock, 1))
4446 {
4447 if (YP.termEqual(HasBreakableBlock, 1))
4448 {
4449 convertIndentationPython(Level);
4450 YP.write(Atom.a(@"doBreak = False"));
4451 YP.nl();
4452 foreach (bool l7 in convertStatementListPython(Body, Level, HasBreakableBlock))
4453 {
4454 YP.nl();
4455 return;
4456 }
4457 goto cutIf2;
4458 }
4459 foreach (bool l6 in convertStatementListPython(Body, Level, HasBreakableBlock))
4460 {
4461 YP.nl();
4462 return;
4463 }
4464 cutIf2:
4465 { }
4466 }
4467 goto cutIf1;
4468 }
4469 foreach (bool l4 in YP.unify(HasBreakableBlock, 0))
4470 {
4471 if (YP.termEqual(HasBreakableBlock, 1))
4472 {
4473 convertIndentationPython(Level);
4474 YP.write(Atom.a(@"doBreak = False"));
4475 YP.nl();
4476 foreach (bool l6 in convertStatementListPython(Body, Level, HasBreakableBlock))
4477 {
4478 YP.nl();
4479 return;
4480 }
4481 goto cutIf3;
4482 }
4483 foreach (bool l5 in convertStatementListPython(Body, Level, HasBreakableBlock))
4484 {
4485 YP.nl();
4486 return;
4487 }
4488 cutIf3:
4489 { }
4490 }
4491 cutIf1:
4492 { }
4493 }
4494 }
4495 }
4496 }
4497
4498 public static bool hasBreakableBlockPython(object arg1)
4499 {
4500 {
4501 Variable _Name = new Variable();
4502 Variable _Body = new Variable();
4503 Variable _RestStatements = new Variable();
4504 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"breakableBlock", _Name, _Body), _RestStatements)))
4505 {
4506 return true;
4507 }
4508 }
4509 {
4510 Variable Body = new Variable();
4511 Variable _RestStatements = new Variable();
4512 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"blockScope", Body), _RestStatements)))
4513 {
4514 if (hasBreakableBlockPython(Body))
4515 {
4516 return true;
4517 }
4518 }
4519 }
4520 {
4521 Variable _Expression = new Variable();
4522 Variable Body = new Variable();
4523 Variable _RestStatements = new Variable();
4524 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"if", _Expression, Body), _RestStatements)))
4525 {
4526 if (hasBreakableBlockPython(Body))
4527 {
4528 return true;
4529 }
4530 }
4531 }
4532 {
4533 Variable _Expression = new Variable();
4534 Variable Body = new Variable();
4535 Variable _RestStatements = new Variable();
4536 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"foreach", _Expression, Body), _RestStatements)))
4537 {
4538 if (hasBreakableBlockPython(Body))
4539 {
4540 return true;
4541 }
4542 }
4543 }
4544 {
4545 Variable x1 = new Variable();
4546 Variable RestStatements = new Variable();
4547 foreach (bool l2 in YP.unify(arg1, new ListPair(x1, RestStatements)))
4548 {
4549 if (hasBreakableBlockPython(RestStatements))
4550 {
4551 return true;
4552 }
4553 }
4554 }
4555 return false;
4556 }
4557
4558 public static IEnumerable<bool> convertStatementListPython(object arg1, object arg2, object arg3)
4559 {
4560 {
4561 object x1 = arg2;
4562 object x2 = arg3;
4563 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
4564 {
4565 yield return true;
4566 yield break;
4567 }
4568 }
4569 {
4570 object Level = arg2;
4571 object HasBreakableBlock = arg3;
4572 Variable Name = new Variable();
4573 Variable Body = new Variable();
4574 Variable RestStatements = new Variable();
4575 Variable NextLevel = new Variable();
4576 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"breakableBlock", Name, Body), RestStatements)))
4577 {
4578 convertIndentationPython(Level);
4579 YP.write(Name);
4580 YP.write(Atom.a(@" = False"));
4581 YP.nl();
4582 convertIndentationPython(Level);
4583 YP.write(Atom.a(@"for _ in [1]:"));
4584 YP.nl();
4585 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
4586 {
4587 foreach (bool l4 in convertStatementListPython(Body, NextLevel, HasBreakableBlock))
4588 {
4589 convertIndentationPython(Level);
4590 YP.write(Atom.a(@"if "));
4591 YP.write(Name);
4592 YP.write(Atom.a(@":"));
4593 YP.nl();
4594 convertIndentationPython(NextLevel);
4595 YP.write(Atom.a(@"doBreak = False"));
4596 YP.nl();
4597 convertIndentationPython(Level);
4598 YP.write(Atom.a(@"if doBreak:"));
4599 YP.nl();
4600 convertIndentationPython(NextLevel);
4601 YP.write(Atom.a(@"break"));
4602 YP.nl();
4603 foreach (bool l5 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4604 {
4605 yield return true;
4606 yield break;
4607 }
4608 }
4609 }
4610 }
4611 }
4612 {
4613 object Level = arg2;
4614 object HasBreakableBlock = arg3;
4615 Variable _Type = new Variable();
4616 Variable Name = new Variable();
4617 Variable Expression = new Variable();
4618 Variable RestStatements = new Variable();
4619 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor3(@"declare", _Type, Name, Expression), RestStatements)))
4620 {
4621 convertIndentationPython(Level);
4622 YP.write(Name);
4623 YP.write(Atom.a(@" = "));
4624 convertExpressionPython(Expression);
4625 YP.nl();
4626 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4627 {
4628 yield return true;
4629 yield break;
4630 }
4631 }
4632 }
4633 {
4634 object Level = arg2;
4635 object HasBreakableBlock = arg3;
4636 Variable Name = new Variable();
4637 Variable Expression = new Variable();
4638 Variable RestStatements = new Variable();
4639 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"assign", Name, Expression), RestStatements)))
4640 {
4641 convertIndentationPython(Level);
4642 YP.write(Name);
4643 YP.write(Atom.a(@" = "));
4644 convertExpressionPython(Expression);
4645 YP.nl();
4646 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4647 {
4648 yield return true;
4649 yield break;
4650 }
4651 }
4652 }
4653 {
4654 object Level = arg2;
4655 object HasBreakableBlock = arg3;
4656 Variable RestStatements = new Variable();
4657 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldtrue"), RestStatements)))
4658 {
4659 convertIndentationPython(Level);
4660 YP.write(Atom.a(@"yield True"));
4661 YP.nl();
4662 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4663 {
4664 yield return true;
4665 yield break;
4666 }
4667 }
4668 }
4669 {
4670 object Level = arg2;
4671 object HasBreakableBlock = arg3;
4672 Variable RestStatements = new Variable();
4673 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldfalse"), RestStatements)))
4674 {
4675 convertIndentationPython(Level);
4676 YP.write(Atom.a(@"yield False"));
4677 YP.nl();
4678 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4679 {
4680 yield return true;
4681 yield break;
4682 }
4683 }
4684 }
4685 {
4686 object Level = arg2;
4687 object HasBreakableBlock = arg3;
4688 Variable RestStatements = new Variable();
4689 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"yieldbreak"), RestStatements)))
4690 {
4691 convertIndentationPython(Level);
4692 YP.write(Atom.a(@"return"));
4693 YP.nl();
4694 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4695 {
4696 yield return true;
4697 yield break;
4698 }
4699 }
4700 }
4701 {
4702 object Level = arg2;
4703 object HasBreakableBlock = arg3;
4704 Variable RestStatements = new Variable();
4705 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"return"), RestStatements)))
4706 {
4707 convertIndentationPython(Level);
4708 YP.write(Atom.a(@"return"));
4709 YP.nl();
4710 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4711 {
4712 yield return true;
4713 yield break;
4714 }
4715 }
4716 }
4717 {
4718 object Level = arg2;
4719 object HasBreakableBlock = arg3;
4720 Variable RestStatements = new Variable();
4721 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"returntrue"), RestStatements)))
4722 {
4723 convertIndentationPython(Level);
4724 YP.write(Atom.a(@"return True"));
4725 YP.nl();
4726 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4727 {
4728 yield return true;
4729 yield break;
4730 }
4731 }
4732 }
4733 {
4734 object Level = arg2;
4735 object HasBreakableBlock = arg3;
4736 Variable RestStatements = new Variable();
4737 foreach (bool l2 in YP.unify(arg1, new ListPair(Atom.a(@"returnfalse"), RestStatements)))
4738 {
4739 convertIndentationPython(Level);
4740 YP.write(Atom.a(@"return False"));
4741 YP.nl();
4742 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4743 {
4744 yield return true;
4745 yield break;
4746 }
4747 }
4748 }
4749 {
4750 object Level = arg2;
4751 object HasBreakableBlock = arg3;
4752 Variable Name = new Variable();
4753 Variable RestStatements = new Variable();
4754 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"breakBlock", Name), RestStatements)))
4755 {
4756 convertIndentationPython(Level);
4757 YP.write(Name);
4758 YP.write(Atom.a(@" = True"));
4759 YP.nl();
4760 convertIndentationPython(Level);
4761 YP.write(Atom.a(@"doBreak = True"));
4762 YP.nl();
4763 convertIndentationPython(Level);
4764 YP.write(Atom.a(@"break"));
4765 YP.nl();
4766 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4767 {
4768 yield return true;
4769 yield break;
4770 }
4771 }
4772 }
4773 {
4774 object Level = arg2;
4775 object HasBreakableBlock = arg3;
4776 Variable Name = new Variable();
4777 Variable ArgList = new Variable();
4778 Variable RestStatements = new Variable();
4779 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"call", Name, ArgList), RestStatements)))
4780 {
4781 convertIndentationPython(Level);
4782 YP.write(Name);
4783 YP.write(Atom.a(@"("));
4784 convertArgListPython(ArgList);
4785 YP.write(Atom.a(@")"));
4786 YP.nl();
4787 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4788 {
4789 yield return true;
4790 yield break;
4791 }
4792 }
4793 }
4794 {
4795 object Level = arg2;
4796 object HasBreakableBlock = arg3;
4797 Variable Obj = new Variable();
4798 Variable Name = new Variable();
4799 Variable ArgList = new Variable();
4800 Variable RestStatements = new Variable();
4801 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor3(@"callMember", new Functor1(@"var", Obj), Name, ArgList), RestStatements)))
4802 {
4803 convertIndentationPython(Level);
4804 YP.write(Obj);
4805 YP.write(Atom.a(@"."));
4806 YP.write(Name);
4807 YP.write(Atom.a(@"("));
4808 convertArgListPython(ArgList);
4809 YP.write(Atom.a(@")"));
4810 YP.nl();
4811 foreach (bool l3 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4812 {
4813 yield return true;
4814 yield break;
4815 }
4816 }
4817 }
4818 {
4819 object Level = arg2;
4820 object HasBreakableBlock = arg3;
4821 Variable Body = new Variable();
4822 Variable RestStatements = new Variable();
4823 Variable NextLevel = new Variable();
4824 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor1(@"blockScope", Body), RestStatements)))
4825 {
4826 if (YP.termEqual(HasBreakableBlock, 1))
4827 {
4828 convertIndentationPython(Level);
4829 YP.write(Atom.a(@"for _ in [1]:"));
4830 YP.nl();
4831 foreach (bool l4 in YP.unify(NextLevel, YP.add(Level, 1)))
4832 {
4833 foreach (bool l5 in convertStatementListPython(Body, NextLevel, HasBreakableBlock))
4834 {
4835 if (YP.termEqual(HasBreakableBlock, 1))
4836 {
4837 if (YP.greaterThan(Level, 1))
4838 {
4839 convertIndentationPython(Level);
4840 YP.write(Atom.a(@"if doBreak:"));
4841 YP.nl();
4842 convertIndentationPython(NextLevel);
4843 YP.write(Atom.a(@"break"));
4844 YP.nl();
4845 foreach (bool l8 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4846 {
4847 yield return true;
4848 yield break;
4849 }
4850 goto cutIf3;
4851 }
4852 foreach (bool l7 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4853 {
4854 yield return true;
4855 yield break;
4856 }
4857 cutIf3:
4858 goto cutIf2;
4859 }
4860 foreach (bool l6 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4861 {
4862 yield return true;
4863 yield break;
4864 }
4865 cutIf2:
4866 { }
4867 }
4868 }
4869 goto cutIf1;
4870 }
4871 foreach (bool l3 in YP.unify(NextLevel, Level))
4872 {
4873 foreach (bool l4 in convertStatementListPython(Body, NextLevel, HasBreakableBlock))
4874 {
4875 if (YP.termEqual(HasBreakableBlock, 1))
4876 {
4877 if (YP.greaterThan(Level, 1))
4878 {
4879 convertIndentationPython(Level);
4880 YP.write(Atom.a(@"if doBreak:"));
4881 YP.nl();
4882 convertIndentationPython(NextLevel);
4883 YP.write(Atom.a(@"break"));
4884 YP.nl();
4885 foreach (bool l7 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4886 {
4887 yield return true;
4888 yield break;
4889 }
4890 goto cutIf5;
4891 }
4892 foreach (bool l6 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4893 {
4894 yield return true;
4895 yield break;
4896 }
4897 cutIf5:
4898 goto cutIf4;
4899 }
4900 foreach (bool l5 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4901 {
4902 yield return true;
4903 yield break;
4904 }
4905 cutIf4:
4906 { }
4907 }
4908 }
4909 cutIf1:
4910 { }
4911 }
4912 }
4913 {
4914 object Level = arg2;
4915 object HasBreakableBlock = arg3;
4916 Variable Expression = new Variable();
4917 Variable Body = new Variable();
4918 Variable RestStatements = new Variable();
4919 Variable NextLevel = new Variable();
4920 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"if", Expression, Body), RestStatements)))
4921 {
4922 convertIndentationPython(Level);
4923 YP.write(Atom.a(@"if "));
4924 convertExpressionPython(Expression);
4925 YP.write(Atom.a(@":"));
4926 YP.nl();
4927 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
4928 {
4929 foreach (bool l4 in convertStatementListPython(Body, NextLevel, HasBreakableBlock))
4930 {
4931 foreach (bool l5 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4932 {
4933 yield return true;
4934 yield break;
4935 }
4936 }
4937 }
4938 }
4939 }
4940 {
4941 object Level = arg2;
4942 object HasBreakableBlock = arg3;
4943 Variable Expression = new Variable();
4944 Variable Body = new Variable();
4945 Variable RestStatements = new Variable();
4946 Variable NextLevel = new Variable();
4947 foreach (bool l2 in YP.unify(arg1, new ListPair(new Functor2(@"foreach", Expression, Body), RestStatements)))
4948 {
4949 convertIndentationPython(Level);
4950 YP.write(Atom.a(@"for l"));
4951 YP.write(Level);
4952 YP.write(Atom.a(@" in "));
4953 convertExpressionPython(Expression);
4954 YP.write(Atom.a(@":"));
4955 YP.nl();
4956 foreach (bool l3 in YP.unify(NextLevel, YP.add(Level, 1)))
4957 {
4958 foreach (bool l4 in convertStatementListPython(Body, NextLevel, HasBreakableBlock))
4959 {
4960 if (YP.termEqual(HasBreakableBlock, 1))
4961 {
4962 convertIndentationPython(Level);
4963 YP.write(Atom.a(@"if doBreak:"));
4964 YP.nl();
4965 convertIndentationPython(NextLevel);
4966 YP.write(Atom.a(@"break"));
4967 YP.nl();
4968 foreach (bool l6 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4969 {
4970 yield return true;
4971 yield break;
4972 }
4973 goto cutIf6;
4974 }
4975 foreach (bool l5 in convertStatementListPython(RestStatements, Level, HasBreakableBlock))
4976 {
4977 yield return true;
4978 yield break;
4979 }
4980 cutIf6:
4981 { }
4982 }
4983 }
4984 }
4985 }
4986 }
4987
4988 public static void convertIndentationPython(object Level)
4989 {
4990 {
4991 Variable N = new Variable();
4992 foreach (bool l2 in YP.unify(N, YP.multiply(Level, 2)))
4993 {
4994 repeatWrite(Atom.a(@" "), N);
4995 return;
4996 }
4997 }
4998 }
4999
5000 public static void convertArgListPython(object arg1)
5001 {
5002 {
5003 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
5004 {
5005 return;
5006 }
5007 }
5008 {
5009 Variable Head = new Variable();
5010 Variable Tail = new Variable();
5011 foreach (bool l2 in YP.unify(arg1, new ListPair(Head, Tail)))
5012 {
5013 convertExpressionPython(Head);
5014 if (YP.termNotEqual(Tail, Atom.NIL))
5015 {
5016 YP.write(Atom.a(@", "));
5017 convertArgListPython(Tail);
5018 return;
5019 goto cutIf1;
5020 }
5021 convertArgListPython(Tail);
5022 return;
5023 cutIf1:
5024 { }
5025 }
5026 }
5027 }
5028
5029 public static void convertExpressionPython(object arg1)
5030 {
5031 {
5032 Variable X = new Variable();
5033 foreach (bool l2 in YP.unify(arg1, new Functor1(@"arg", X)))
5034 {
5035 YP.write(X);
5036 return;
5037 }
5038 }
5039 {
5040 Variable Name = new Variable();
5041 Variable ArgList = new Variable();
5042 foreach (bool l2 in YP.unify(arg1, new Functor2(@"call", Name, ArgList)))
5043 {
5044 YP.write(Name);
5045 YP.write(Atom.a(@"("));
5046 convertArgListPython(ArgList);
5047 YP.write(Atom.a(@")"));
5048 return;
5049 }
5050 }
5051 {
5052 Variable Obj = new Variable();
5053 Variable Name = new Variable();
5054 Variable ArgList = new Variable();
5055 foreach (bool l2 in YP.unify(arg1, new Functor3(@"callMember", new Functor1(@"var", Obj), Name, ArgList)))
5056 {
5057 YP.write(Obj);
5058 YP.write(Atom.a(@"."));
5059 YP.write(Name);
5060 YP.write(Atom.a(@"("));
5061 convertArgListPython(ArgList);
5062 YP.write(Atom.a(@")"));
5063 return;
5064 }
5065 }
5066 {
5067 Variable Name = new Variable();
5068 Variable ArgList = new Variable();
5069 foreach (bool l2 in YP.unify(arg1, new Functor2(@"new", Name, ArgList)))
5070 {
5071 YP.write(Name);
5072 YP.write(Atom.a(@"("));
5073 convertArgListPython(ArgList);
5074 YP.write(Atom.a(@")"));
5075 return;
5076 }
5077 }
5078 {
5079 Variable Name = new Variable();
5080 foreach (bool l2 in YP.unify(arg1, new Functor1(@"var", Name)))
5081 {
5082 YP.write(Name);
5083 return;
5084 }
5085 }
5086 {
5087 foreach (bool l2 in YP.unify(arg1, Atom.a(@"null")))
5088 {
5089 YP.write(Atom.a(@"None"));
5090 return;
5091 }
5092 }
5093 {
5094 Variable X = new Variable();
5095 foreach (bool l2 in YP.unify(arg1, new Functor1(@"not", X)))
5096 {
5097 YP.write(Atom.a(@"not ("));
5098 convertExpressionPython(X);
5099 YP.write(Atom.a(@")"));
5100 return;
5101 }
5102 }
5103 {
5104 Variable X = new Variable();
5105 Variable Y = new Variable();
5106 foreach (bool l2 in YP.unify(arg1, new Functor2(@"and", X, Y)))
5107 {
5108 YP.write(Atom.a(@"("));
5109 convertExpressionPython(X);
5110 YP.write(Atom.a(@") and ("));
5111 convertExpressionPython(Y);
5112 YP.write(Atom.a(@")"));
5113 return;
5114 }
5115 }
5116 {
5117 Variable ArgList = new Variable();
5118 foreach (bool l2 in YP.unify(arg1, new Functor1(@"objectArray", ArgList)))
5119 {
5120 YP.write(Atom.a(@"["));
5121 convertArgListPython(ArgList);
5122 YP.write(Atom.a(@"]"));
5123 return;
5124 }
5125 }
5126 {
5127 Variable X = new Variable();
5128 Variable Codes = new Variable();
5129 foreach (bool l2 in YP.unify(arg1, new Functor1(@"object", X)))
5130 {
5131 if (YP.atom(X))
5132 {
5133 YP.write(Atom.a(@""""));
5134 foreach (bool l4 in YP.atom_codes(X, Codes))
5135 {
5136 convertStringCodesPython(Codes);
5137 YP.write(Atom.a(@""""));
5138 return;
5139 }
5140 }
5141 }
5142 }
5143 {
5144 Variable X = new Variable();
5145 foreach (bool l2 in YP.unify(arg1, new Functor1(@"object", X)))
5146 {
5147 YP.write(X);
5148 return;
5149 }
5150 }
5151 }
5152
5153 public static void convertStringCodesPython(object arg1)
5154 {
5155 {
5156 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
5157 {
5158 return;
5159 }
5160 }
5161 {
5162 Variable Code = new Variable();
5163 Variable RestCodes = new Variable();
5164 foreach (bool l2 in YP.unify(arg1, new ListPair(Code, RestCodes)))
5165 {
5166 if (YP.termEqual(Code, 34))
5167 {
5168 YP.put_code(92);
5169 YP.put_code(Code);
5170 convertStringCodesPython(RestCodes);
5171 return;
5172 goto cutIf1;
5173 }
5174 if (YP.termEqual(Code, 92))
5175 {
5176 YP.put_code(92);
5177 YP.put_code(Code);
5178 convertStringCodesPython(RestCodes);
5179 return;
5180 goto cutIf1;
5181 }
5182 YP.put_code(Code);
5183 convertStringCodesPython(RestCodes);
5184 return;
5185 cutIf1:
5186 { }
5187 }
5188 }
5189 }
5190
5191 public static IEnumerable<bool> member(object X, object arg2)
5192 {
5193 {
5194 Variable x2 = new Variable();
5195 foreach (bool l2 in YP.unify(arg2, new ListPair(X, x2)))
5196 {
5197 yield return false;
5198 }
5199 }
5200 {
5201 Variable x2 = new Variable();
5202 Variable Rest = new Variable();
5203 foreach (bool l2 in YP.unify(arg2, new ListPair(x2, Rest)))
5204 {
5205 foreach (bool l3 in member(X, Rest))
5206 {
5207 yield return false;
5208 }
5209 }
5210 }
5211 }
5212
5213 public static IEnumerable<bool> append(object arg1, object arg2, object arg3)
5214 {
5215 {
5216 Variable List = new Variable();
5217 foreach (bool l2 in YP.unify(arg1, Atom.NIL))
5218 {
5219 foreach (bool l3 in YP.unify(arg2, List))
5220 {
5221 foreach (bool l4 in YP.unify(arg3, List))
5222 {
5223 yield return false;
5224 }
5225 }
5226 }
5227 }
5228 {
5229 object List2 = arg2;
5230 Variable X = new Variable();
5231 Variable List1 = new Variable();
5232 Variable List12 = new Variable();
5233 foreach (bool l2 in YP.unify(arg1, new ListPair(X, List1)))
5234 {
5235 foreach (bool l3 in YP.unify(arg3, new ListPair(X, List12)))
5236 {
5237 foreach (bool l4 in append(List1, List2, List12))
5238 {
5239 yield return false;
5240 }
5241 }
5242 }
5243 }
5244 }
5245
5246 }
5247}