--[[-------------------------------------------------------------------- lcode.lua Lua 5 code generator in Lua This file is part of Yueliang. Copyright (c) 2005-2007 Kein-Hong Man The COPYRIGHT file describes the conditions under which this software may be distributed. See the ChangeLog for more information. ----------------------------------------------------------------------]] --[[-------------------------------------------------------------------- -- Notes: -- * one function manipulate a pointer argument with a simple data type -- (can't be emulated by a table, ambiguous), now returns that value: -- luaK:concat(fs, l1, l2) -- * luaM_growvector uses the faux luaY:growvector, for limit checking -- * some function parameters changed to boolean, additional code -- translates boolean back to 1/0 for instruction fields -- -- Not implemented: -- * NOTE there is a failed assert in luaK:addk, a porting problem -- -- Added: -- * constant MAXSTACK from llimits.h -- * luaK:ttisnumber(o) (from lobject.h) -- * luaK:nvalue(o) (from lobject.h) -- * luaK:setnilvalue(o) (from lobject.h) -- * luaK:setnvalue(o, x) (from lobject.h) -- * luaK:setbvalue(o, x) (from lobject.h) -- * luaK:sethvalue(o, x) (from lobject.h), parameter L deleted -- * luaK:setsvalue(o, x) (from lobject.h), parameter L deleted -- * luaK:numadd, luaK:numsub, luaK:nummul, luaK:numdiv, luaK:nummod, -- luaK:numpow, luaK:numunm, luaK:numisnan (from luaconf.h) -- * copyexp(e1, e2) added in luaK:posfix to copy expdesc struct -- -- Changed in 5.1.x: -- * enum BinOpr has a new entry, OPR_MOD -- * enum UnOpr has a new entry, OPR_LEN -- * binopistest, unused in 5.0.x, has been deleted -- * macro setmultret is new -- * functions isnumeral, luaK_ret, boolK are new -- * funcion nilK was named nil_constant in 5.0.x -- * function interface changed: need_value, patchtestreg, concat -- * TObject now a TValue -- * functions luaK_setreturns, luaK_setoneret are new -- * function luaK:setcallreturns deleted, to be replaced by: -- luaK:setmultret, luaK:ret, luaK:setreturns, luaK:setoneret -- * functions constfolding, codearith, codecomp are new -- * luaK:codebinop has been deleted -- * function luaK_setlist is new -- * OPR_MULT renamed to OPR_MUL ----------------------------------------------------------------------]] -- requires luaP, luaX, luaY luaK = {} ------------------------------------------------------------------------ -- constants used by code generator ------------------------------------------------------------------------ -- maximum stack for a Lua function luaK.MAXSTACK = 250 -- (from llimits.h) --[[-------------------------------------------------------------------- -- other functions ----------------------------------------------------------------------]] ------------------------------------------------------------------------ -- emulation of TValue macros (these are from lobject.h) -- * TValue is a table since lcode passes references around -- * tt member field removed, using Lua's type() instead -- * for setsvalue, sethvalue, parameter L (deleted here) in lobject.h -- is used in an assert for testing, see checkliveness(g,obj) ------------------------------------------------------------------------ function luaK:ttisnumber(o) if o then return type(o.value) == "number" else return false end end function luaK:nvalue(o) return o.value end function luaK:setnilvalue(o) o.value = nil end function luaK:setsvalue(o, x) o.value = x end luaK.setnvalue = luaK.setsvalue luaK.sethvalue = luaK.setsvalue luaK.setbvalue = luaK.setsvalue ------------------------------------------------------------------------ -- The luai_num* macros define the primitive operations over numbers. -- * this is not the entire set of primitive operations from luaconf.h -- * used in luaK:constfolding() ------------------------------------------------------------------------ function luaK:numadd(a, b) return a + b end function luaK:numsub(a, b) return a - b end function luaK:nummul(a, b) return a * b end function luaK:numdiv(a, b) return a / b end function luaK:nummod(a, b) return a % b end -- ((a) - floor((a)/(b))*(b)) /* actual, for reference */ function luaK:numpow(a, b) return a ^ b end function luaK:numunm(a) return -a end function luaK:numisnan(a) return not a == a end -- a NaN cannot equal another NaN --[[-------------------------------------------------------------------- -- code generator functions ----------------------------------------------------------------------]] ------------------------------------------------------------------------ -- Marks the end of a patch list. It is an invalid value both as an absolute -- address, and as a list link (would link an element to itself). ------------------------------------------------------------------------ luaK.NO_JUMP = -1 ------------------------------------------------------------------------ -- grep "ORDER OPR" if you change these enums ------------------------------------------------------------------------ luaK.BinOpr = { OPR_ADD = 0, OPR_SUB = 1, OPR_MUL = 2, OPR_DIV = 3, OPR_MOD = 4, OPR_POW = 5, OPR_CONCAT = 6, OPR_NE = 7, OPR_EQ = 8, OPR_LT = 9, OPR_LE = 10, OPR_GT = 11, OPR_GE = 12, OPR_AND = 13, OPR_OR = 14, OPR_NOBINOPR = 15, } -- * UnOpr is used by luaK:prefix's op argument, but not directly used -- because the function receives the symbols as strings, e.g. "OPR_NOT" luaK.UnOpr = { OPR_MINUS = 0, OPR_NOT = 1, OPR_LEN = 2, OPR_NOUNOPR = 3 } ------------------------------------------------------------------------ -- returns the instruction object for given e (expdesc), was a macro ------------------------------------------------------------------------ function luaK:getcode(fs, e) return fs.f.code[e.info] end ------------------------------------------------------------------------ -- codes an instruction with a signed Bx (sBx) field, was a macro -- * used in luaK:jump(), (lparser) luaY:forbody() ------------------------------------------------------------------------ function luaK:codeAsBx(fs, o, A, sBx) return self:codeABx(fs, o, A, sBx + luaP.MAXARG_sBx) end ------------------------------------------------------------------------ -- set the expdesc e instruction for multiple returns, was a macro ------------------------------------------------------------------------ function luaK:setmultret(fs, e) self:setreturns(fs, e, luaY.LUA_MULTRET) end ------------------------------------------------------------------------ -- there is a jump if patch lists are not identical, was a macro -- * used in luaK:exp2reg(), luaK:exp2anyreg(), luaK:exp2val() ------------------------------------------------------------------------ function luaK:hasjumps(e) return e.t ~= e.f end ------------------------------------------------------------------------ -- true if the expression is a constant number (for constant folding) -- * used in constfolding(), infix() ------------------------------------------------------------------------ function luaK:isnumeral(e) return e.k == "VKNUM" and e.t == self.NO_JUMP and e.f == self.NO_JUMP end ------------------------------------------------------------------------ -- codes loading of nil, optimization done if consecutive locations -- * used in luaK:discharge2reg(), (lparser) luaY:adjust_assign() ------------------------------------------------------------------------ function luaK:_nil(fs, from, n) if fs.pc > fs.lasttarget then -- no jumps to current position? if fs.pc == 0 then -- function start? if from >= fs.nactvar then return -- positions are already clean end else local previous = fs.f.code[fs.pc - 1] if luaP:GET_OPCODE(previous) == "OP_LOADNIL" then local pfrom = luaP:GETARG_A(previous) local pto = luaP:GETARG_B(previous) if pfrom <= from and from <= pto + 1 then -- can connect both? if from + n - 1 > pto then luaP:SETARG_B(previous, from + n - 1) end return end end end end self:codeABC(fs, "OP_LOADNIL", from, from + n - 1, 0) -- else no optimization end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:jump(fs) local jpc = fs.jpc -- save list of jumps to here fs.jpc = self.NO_JUMP local j = self:codeAsBx(fs, "OP_JMP", 0, self.NO_JUMP) j = self:concat(fs, j, jpc) -- keep them on hold return j end ------------------------------------------------------------------------ -- codes a RETURN instruction -- * used in luaY:close_func(), luaY:retstat() ------------------------------------------------------------------------ function luaK:ret(fs, first, nret) self:codeABC(fs, "OP_RETURN", first, nret + 1, 0) end ------------------------------------------------------------------------ -- -- * used in luaK:jumponcond(), luaK:codecomp() ------------------------------------------------------------------------ function luaK:condjump(fs, op, A, B, C) self:codeABC(fs, op, A, B, C) return self:jump(fs) end ------------------------------------------------------------------------ -- -- * used in luaK:patchlistaux(), luaK:concat() ------------------------------------------------------------------------ function luaK:fixjump(fs, pc, dest) local jmp = fs.f.code[pc] local offset = dest - (pc + 1) lua_assert(dest ~= self.NO_JUMP) if math.abs(offset) > luaP.MAXARG_sBx then luaX:syntaxerror(fs.ls, "control structure too long") end luaP:SETARG_sBx(jmp, offset) end ------------------------------------------------------------------------ -- returns current 'pc' and marks it as a jump target (to avoid wrong -- optimizations with consecutive instructions not in the same basic block). -- * used in multiple locations -- * fs.lasttarget tested only by luaK:_nil() when optimizing OP_LOADNIL ------------------------------------------------------------------------ function luaK:getlabel(fs) fs.lasttarget = fs.pc return fs.pc end ------------------------------------------------------------------------ -- -- * used in luaK:need_value(), luaK:removevalues(), luaK:patchlistaux(), -- luaK:concat() ------------------------------------------------------------------------ function luaK:getjump(fs, pc) local offset = luaP:GETARG_sBx(fs.f.code[pc]) if offset == self.NO_JUMP then -- point to itself represents end of list return self.NO_JUMP -- end of list else return (pc + 1) + offset -- turn offset into absolute position end end ------------------------------------------------------------------------ -- -- * used in luaK:need_value(), luaK:patchtestreg(), luaK:invertjump() ------------------------------------------------------------------------ function luaK:getjumpcontrol(fs, pc) local pi = fs.f.code[pc] local ppi = fs.f.code[pc - 1] if pc >= 1 and luaP:testTMode(luaP:GET_OPCODE(ppi)) ~= 0 then return ppi else return pi end end ------------------------------------------------------------------------ -- check whether list has any jump that do not produce a value -- (or produce an inverted value) -- * return value changed to boolean -- * used only in luaK:exp2reg() ------------------------------------------------------------------------ function luaK:need_value(fs, list) while list ~= self.NO_JUMP do local i = self:getjumpcontrol(fs, list) if luaP:GET_OPCODE(i) ~= "OP_TESTSET" then return true end list = self:getjump(fs, list) end return false -- not found end ------------------------------------------------------------------------ -- -- * used in luaK:removevalues(), luaK:patchlistaux() ------------------------------------------------------------------------ function luaK:patchtestreg(fs, node, reg) local i = self:getjumpcontrol(fs, node) if luaP:GET_OPCODE(i) ~= "OP_TESTSET" then return false -- cannot patch other instructions end if reg ~= luaP.NO_REG and reg ~= luaP:GETARG_B(i) then luaP:SETARG_A(i, reg) else -- no register to put value or register already has the value -- due to use of a table as i, i cannot be replaced by another table -- so the following is required; there is no change to ARG_C luaP:SET_OPCODE(i, "OP_TEST") local b = luaP:GETARG_B(i) luaP:SETARG_A(i, b) luaP:SETARG_B(i, 0) -- *i = CREATE_ABC(OP_TEST, GETARG_B(*i), 0, GETARG_C(*i)); /* C */ end return true end ------------------------------------------------------------------------ -- -- * used only in luaK:codenot() ------------------------------------------------------------------------ function luaK:removevalues(fs, list) while list ~= self.NO_JUMP do self:patchtestreg(fs, list, luaP.NO_REG) list = self:getjump(fs, list) end end ------------------------------------------------------------------------ -- -- * used in luaK:dischargejpc(), luaK:patchlist(), luaK:exp2reg() ------------------------------------------------------------------------ function luaK:patchlistaux(fs, list, vtarget, reg, dtarget) while list ~= self.NO_JUMP do local _next = self:getjump(fs, list) if self:patchtestreg(fs, list, reg) then self:fixjump(fs, list, vtarget) else self:fixjump(fs, list, dtarget) -- jump to default target end list = _next end end ------------------------------------------------------------------------ -- -- * used only in luaK:code() ------------------------------------------------------------------------ function luaK:dischargejpc(fs) self:patchlistaux(fs, fs.jpc, fs.pc, luaP.NO_REG, fs.pc) fs.jpc = self.NO_JUMP end ------------------------------------------------------------------------ -- -- * used in (lparser) luaY:whilestat(), luaY:repeatstat(), luaY:forbody() ------------------------------------------------------------------------ function luaK:patchlist(fs, list, target) if target == fs.pc then self:patchtohere(fs, list) else lua_assert(target < fs.pc) self:patchlistaux(fs, list, target, luaP.NO_REG, target) end end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:patchtohere(fs, list) self:getlabel(fs) fs.jpc = self:concat(fs, fs.jpc, list) end ------------------------------------------------------------------------ -- * l1 was a pointer, now l1 is returned and callee assigns the value -- * used in multiple locations ------------------------------------------------------------------------ function luaK:concat(fs, l1, l2) if l2 == self.NO_JUMP then return l1 elseif l1 == self.NO_JUMP then return l2 else local list = l1 local _next = self:getjump(fs, list) while _next ~= self.NO_JUMP do -- find last element list = _next _next = self:getjump(fs, list) end self:fixjump(fs, list, l2) end return l1 end ------------------------------------------------------------------------ -- -- * used in luaK:reserveregs(), (lparser) luaY:forlist() ------------------------------------------------------------------------ function luaK:checkstack(fs, n) local newstack = fs.freereg + n if newstack > fs.f.maxstacksize then if newstack >= self.MAXSTACK then luaX:syntaxerror(fs.ls, "function or expression too complex") end fs.f.maxstacksize = newstack end end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:reserveregs(fs, n) self:checkstack(fs, n) fs.freereg = fs.freereg + n end ------------------------------------------------------------------------ -- -- * used in luaK:freeexp(), luaK:dischargevars() ------------------------------------------------------------------------ function luaK:freereg(fs, reg) if not luaP:ISK(reg) and reg >= fs.nactvar then fs.freereg = fs.freereg - 1 lua_assert(reg == fs.freereg) end end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:freeexp(fs, e) if e.k == "VNONRELOC" then self:freereg(fs, e.info) end end ------------------------------------------------------------------------ -- * TODO NOTE implementation is not 100% correct, since the assert fails -- * luaH_set, setobj deleted; direct table access used instead -- * used in luaK:stringK(), luaK:numberK(), luaK:boolK(), luaK:nilK() ------------------------------------------------------------------------ function luaK:addk(fs, k, v) local L = fs.L local idx = fs.h[k.value] --TValue *idx = luaH_set(L, fs->h, k); /* C */ local f = fs.f if self:ttisnumber(idx) then --TODO this assert currently FAILS (last tested for 5.0.2) --lua_assert(fs.f.k[self:nvalue(idx)] == v) --lua_assert(luaO_rawequalObj(&fs->f->k[cast_int(nvalue(idx))], v)); /* C */ return self:nvalue(idx) else -- constant not found; create a new entry idx = {} self:setnvalue(idx, fs.nk) fs.h[k.value] = idx -- setnvalue(idx, cast_num(fs->nk)); /* C */ luaY:growvector(L, f.k, fs.nk, f.sizek, nil, luaP.MAXARG_Bx, "constant table overflow") -- loop to initialize empty f.k positions not required f.k[fs.nk] = v -- setobj(L, &f->k[fs->nk], v); /* C */ -- luaC_barrier(L, f, v); /* GC */ local nk = fs.nk fs.nk = fs.nk + 1 return nk end end ------------------------------------------------------------------------ -- creates and sets a string object -- * used in (lparser) luaY:codestring(), luaY:singlevar() ------------------------------------------------------------------------ function luaK:stringK(fs, s) local o = {} -- TValue self:setsvalue(o, s) return self:addk(fs, o, o) end ------------------------------------------------------------------------ -- creates and sets a number object -- * used in luaK:prefix() for negative (or negation of) numbers -- * used in (lparser) luaY:simpleexp(), luaY:fornum() ------------------------------------------------------------------------ function luaK:numberK(fs, r) local o = {} -- TValue self:setnvalue(o, r) return self:addk(fs, o, o) end ------------------------------------------------------------------------ -- creates and sets a boolean object -- * used only in luaK:exp2RK() ------------------------------------------------------------------------ function luaK:boolK(fs, b) local o = {} -- TValue self:setbvalue(o, b) return self:addk(fs, o, o) end ------------------------------------------------------------------------ -- creates and sets a nil object -- * used only in luaK:exp2RK() ------------------------------------------------------------------------ function luaK:nilK(fs) local k, v = {}, {} -- TValue self:setnilvalue(v) -- cannot use nil as key; instead use table itself to represent nil self:sethvalue(k, fs.h) return self:addk(fs, k, v) end ------------------------------------------------------------------------ -- -- * used in luaK:setmultret(), (lparser) luaY:adjust_assign() ------------------------------------------------------------------------ function luaK:setreturns(fs, e, nresults) if e.k == "VCALL" then -- expression is an open function call? luaP:SETARG_C(self:getcode(fs, e), nresults + 1) elseif e.k == "VVARARG" then luaP:SETARG_B(self:getcode(fs, e), nresults + 1); luaP:SETARG_A(self:getcode(fs, e), fs.freereg); luaK:reserveregs(fs, 1) end end ------------------------------------------------------------------------ -- -- * used in luaK:dischargevars(), (lparser) luaY:assignment() ------------------------------------------------------------------------ function luaK:setoneret(fs, e) if e.k == "VCALL" then -- expression is an open function call? e.k = "VNONRELOC" e.info = luaP:GETARG_A(self:getcode(fs, e)) elseif e.k == "VVARARG" then luaP:SETARG_B(self:getcode(fs, e), 2) e.k = "VRELOCABLE" -- can relocate its simple result end end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:dischargevars(fs, e) local k = e.k if k == "VLOCAL" then e.k = "VNONRELOC" elseif k == "VUPVAL" then e.info = self:codeABC(fs, "OP_GETUPVAL", 0, e.info, 0) e.k = "VRELOCABLE" elseif k == "VGLOBAL" then e.info = self:codeABx(fs, "OP_GETGLOBAL", 0, e.info) e.k = "VRELOCABLE" elseif k == "VINDEXED" then self:freereg(fs, e.aux) self:freereg(fs, e.info) e.info = self:codeABC(fs, "OP_GETTABLE", 0, e.info, e.aux) e.k = "VRELOCABLE" elseif k == "VVARARG" or k == "VCALL" then self:setoneret(fs, e) else -- there is one value available (somewhere) end end ------------------------------------------------------------------------ -- -- * used only in luaK:exp2reg() ------------------------------------------------------------------------ function luaK:code_label(fs, A, b, jump) self:getlabel(fs) -- those instructions may be jump targets return self:codeABC(fs, "OP_LOADBOOL", A, b, jump) end ------------------------------------------------------------------------ -- -- * used in luaK:discharge2anyreg(), luaK:exp2reg() ------------------------------------------------------------------------ function luaK:discharge2reg(fs, e, reg) self:dischargevars(fs, e) local k = e.k if k == "VNIL" then self:_nil(fs, reg, 1) elseif k == "VFALSE" or k == "VTRUE" then self:codeABC(fs, "OP_LOADBOOL", reg, (e.k == "VTRUE") and 1 or 0, 0) elseif k == "VK" then self:codeABx(fs, "OP_LOADK", reg, e.info) elseif k == "VKNUM" then self:codeABx(fs, "OP_LOADK", reg, self:numberK(fs, e.nval)) elseif k == "VRELOCABLE" then local pc = self:getcode(fs, e) luaP:SETARG_A(pc, reg) elseif k == "VNONRELOC" then if reg ~= e.info then self:codeABC(fs, "OP_MOVE", reg, e.info, 0) end else lua_assert(e.k == "VVOID" or e.k == "VJMP") return -- nothing to do... end e.info = reg e.k = "VNONRELOC" end ------------------------------------------------------------------------ -- -- * used in luaK:jumponcond(), luaK:codenot() ------------------------------------------------------------------------ function luaK:discharge2anyreg(fs, e) if e.k ~= "VNONRELOC" then self:reserveregs(fs, 1) self:discharge2reg(fs, e, fs.freereg - 1) end end ------------------------------------------------------------------------ -- -- * used in luaK:exp2nextreg(), luaK:exp2anyreg(), luaK:storevar() ------------------------------------------------------------------------ function luaK:exp2reg(fs, e, reg) self:discharge2reg(fs, e, reg) if e.k == "VJMP" then e.t = self:concat(fs, e.t, e.info) -- put this jump in 't' list end if self:hasjumps(e) then local final -- position after whole expression local p_f = self.NO_JUMP -- position of an eventual LOAD false local p_t = self.NO_JUMP -- position of an eventual LOAD true if self:need_value(fs, e.t) or self:need_value(fs, e.f) then local fj = (e.k == "VJMP") and self.NO_JUMP or self:jump(fs) p_f = self:code_label(fs, reg, 0, 1) p_t = self:code_label(fs, reg, 1, 0) self:patchtohere(fs, fj) end final = self:getlabel(fs) self:patchlistaux(fs, e.f, final, reg, p_f) self:patchlistaux(fs, e.t, final, reg, p_t) end e.f, e.t = self.NO_JUMP, self.NO_JUMP e.info = reg e.k = "VNONRELOC" end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:exp2nextreg(fs, e) self:dischargevars(fs, e) self:freeexp(fs, e) self:reserveregs(fs, 1) self:exp2reg(fs, e, fs.freereg - 1) end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:exp2anyreg(fs, e) self:dischargevars(fs, e) if e.k == "VNONRELOC" then if not self:hasjumps(e) then -- exp is already in a register return e.info end if e.info >= fs.nactvar then -- reg. is not a local? self:exp2reg(fs, e, e.info) -- put value on it return e.info end end self:exp2nextreg(fs, e) -- default return e.info end ------------------------------------------------------------------------ -- -- * used in luaK:exp2RK(), luaK:prefix(), luaK:posfix() -- * used in (lparser) luaY:yindex() ------------------------------------------------------------------------ function luaK:exp2val(fs, e) if self:hasjumps(e) then self:exp2anyreg(fs, e) else self:dischargevars(fs, e) end end ------------------------------------------------------------------------ -- -- * used in multiple locations ------------------------------------------------------------------------ function luaK:exp2RK(fs, e) self:exp2val(fs, e) local k = e.k if k == "VKNUM" or k == "VTRUE" or k == "VFALSE" or k == "VNIL" then if fs.nk <= luaP.MAXINDEXRK then -- constant fit in RK operand? -- converted from a 2-deep ternary operator expression if e.k == "VNIL" then e.info = self:nilK(fs) else e.info = (e.k == "VKNUM") and self:numberK(fs, e.nval) or self:boolK(fs, e.k == "VTRUE") end e.k = "VK" return luaP:RKASK(e.info) end elseif k == "VK" then if e.info <= luaP.MAXINDEXRK then -- constant fit in argC? return luaP:RKASK(e.info) end else -- default end -- not a constant in the right range: put it in a register return self:exp2anyreg(fs, e) end ------------------------------------------------------------------------ -- -- * used in (lparser) luaY:assignment(), luaY:localfunc(), luaY:funcstat() ------------------------------------------------------------------------ function luaK:storevar(fs, var, ex) local k = var.k if k == "VLOCAL" then self:freeexp(fs, ex) self:exp2reg(fs, ex, var.info) return elseif k == "VUPVAL" then local e = self:exp2anyreg(fs, ex) self:codeABC(fs, "OP_SETUPVAL", e, var.info, 0) elseif k == "VGLOBAL" then local e = self:exp2anyreg(fs, ex) self:codeABx(fs, "OP_SETGLOBAL", e, var.info) elseif k == "VINDEXED" then local e = self:exp2RK(fs, ex) self:codeABC(fs, "OP_SETTABLE", var.info, var.aux, e) else lua_assert(0) -- invalid var kind to store end self:freeexp(fs, ex) end ------------------------------------------------------------------------ -- -- * used only in (lparser) luaY:primaryexp() ------------------------------------------------------------------------ function luaK:_self(fs, e, key) self:exp2anyreg(fs, e) self:freeexp(fs, e) local func = fs.freereg self:reserveregs(fs, 2) self:codeABC(fs, "OP_SELF", func, e.info, self:exp2RK(fs, key)) self:freeexp(fs, key) e.info = func e.k = "VNONRELOC" end ------------------------------------------------------------------------ -- -- * used in luaK:goiftrue(), luaK:codenot() ------------------------------------------------------------------------ function luaK:invertjump(fs, e) local pc = self:getjumpcontrol(fs, e.info) lua_assert(luaP:testTMode(luaP:GET_OPCODE(pc)) ~= 0 and luaP:GET_OPCODE(pc) ~= "OP_TESTSET" and luaP:GET_OPCODE(pc) ~= "OP_TEST") luaP:SETARG_A(pc, (luaP:GETARG_A(pc) == 0) and 1 or 0) end ------------------------------------------------------------------------ -- -- * used in luaK:goiftrue(), luaK:goiffalse() ------------------------------------------------------------------------ function luaK:jumponcond(fs, e, cond) if e.k == "VRELOCABLE" then local ie = self:getcode(fs, e) if luaP:GET_OPCODE(ie) == "OP_NOT" then fs.pc = fs.pc - 1 -- remove previous OP_NOT return self:condjump(fs, "OP_TEST", luaP:GETARG_B(ie), 0, cond and 0 or 1) end -- else go through end self:discharge2anyreg(fs, e) self:freeexp(fs, e) return self:condjump(fs, "OP_TESTSET", luaP.NO_REG, e.info, cond and 1 or 0) end ------------------------------------------------------------------------ -- -- * used in luaK:infix(), (lparser) luaY:cond() ------------------------------------------------------------------------ function luaK:goiftrue(fs, e) local pc -- pc of last jump self:dischargevars(fs, e) local k = e.k if k == "VK" or k == "VKNUM" or k == "VTRUE" then pc = self.NO_JUMP -- always true; do nothing elseif k == "VFALSE" then pc = self:jump(fs) -- always jump elseif k == "VJMP" then self:invertjump(fs, e) pc = e.info else pc = self:jumponcond(fs, e, false) end e.f = self:concat(fs, e.f, pc) -- insert last jump in `f' list self:patchtohere(fs, e.t) e.t = self.NO_JUMP end ------------------------------------------------------------------------ -- -- * used in luaK:infix() ------------------------------------------------------------------------ function luaK:goiffalse(fs, e) local pc -- pc of last jump self:dischargevars(fs, e) local k = e.k if k == "VNIL" or k == "VFALSE"then pc = self.NO_JUMP -- always false; do nothing elseif k == "VTRUE" then pc = self:jump(fs) -- always jump elseif k == "VJMP" then pc = e.info else pc = self:jumponcond(fs, e, true) end e.t = self:concat(fs, e.t, pc) -- insert last jump in `t' list self:patchtohere(fs, e.f) e.f = self.NO_JUMP end ------------------------------------------------------------------------ -- -- * used only in luaK:prefix() ------------------------------------------------------------------------ function luaK:codenot(fs, e) self:dischargevars(fs, e) local k = e.k if k == "VNIL" or k == "VFALSE" then e.k = "VTRUE" elseif k == "VK" or k == "VKNUM" or k == "VTRUE" then e.k = "VFALSE" elseif k == "VJMP" then self:invertjump(fs, e) elseif k == "VRELOCABLE" or k == "VNONRELOC" then self:discharge2anyreg(fs, e) self:freeexp(fs, e) e.info = self:codeABC(fs, "OP_NOT", 0, e.info, 0) e.k = "VRELOCABLE" else lua_assert(0) -- cannot happen end -- interchange true and false lists e.f, e.t = e.t, e.f self:removevalues(fs, e.f) self:removevalues(fs, e.t) end ------------------------------------------------------------------------ -- -- * used in (lparser) luaY:field(), luaY:primaryexp() ------------------------------------------------------------------------ function luaK:indexed(fs, t, k) t.aux = self:exp2RK(fs, k) t.k = "VINDEXED" end ------------------------------------------------------------------------ -- -- * used only in luaK:codearith() ------------------------------------------------------------------------ function luaK:constfolding(op, e1, e2) local r if not self:isnumeral(e1) or not self:isnumeral(e2) then return false end local v1 = e1.nval local v2 = e2.nval if op == "OP_ADD" then r = self:numadd(v1, v2) elseif op == "OP_SUB" then r = self:numsub(v1, v2) elseif op == "OP_MUL" then r = self:nummul(v1, v2) elseif op == "OP_DIV" then if v2 == 0 then return false end -- do not attempt to divide by 0 r = self:numdiv(v1, v2) elseif op == "OP_MOD" then if v2 == 0 then return false end -- do not attempt to divide by 0 r = self:nummod(v1, v2) elseif op == "OP_POW" then r = self:numpow(v1, v2) elseif op == "OP_UNM" then r = self:numunm(v1) elseif op == "OP_LEN" then return false -- no constant folding for 'len' else lua_assert(0) r = 0 end if self:numisnan(r) then return false end -- do not attempt to produce NaN e1.nval = r return true end ------------------------------------------------------------------------ -- -- * used in luaK:prefix(), luaK:posfix() ------------------------------------------------------------------------ function luaK:codearith(fs, op, e1, e2) if self:constfolding(op, e1, e2) then return else local o2 = (op ~= "OP_UNM" and op ~= "OP_LEN") and self:exp2RK(fs, e2) or 0 local o1 = self:exp2RK(fs, e1) if o1 > o2 then self:freeexp(fs, e1) self:freeexp(fs, e2) else self:freeexp(fs, e2) self:freeexp(fs, e1) end e1.info = self:codeABC(fs, op, 0, o1, o2) e1.k = "VRELOCABLE" end end ------------------------------------------------------------------------ -- -- * used only in luaK:posfix() ------------------------------------------------------------------------ function luaK:codecomp(fs, op, cond, e1, e2) local o1 = self:exp2RK(fs, e1) local o2 = self:exp2RK(fs, e2) self:freeexp(fs, e2) self:freeexp(fs, e1) if cond == 0 and op ~= "OP_EQ" then -- exchange args to replace by `<' or `<=' o1, o2 = o2, o1 -- o1 <==> o2 cond = 1 end e1.info = self:condjump(fs, op, cond, o1, o2) e1.k = "VJMP" end ------------------------------------------------------------------------ -- -- * used only in (lparser) luaY:subexpr() ------------------------------------------------------------------------ function luaK:prefix(fs, op, e) local e2 = {} -- expdesc e2.t, e2.f = self.NO_JUMP, self.NO_JUMP e2.k = "VKNUM" e2.nval = 0 if op == "OPR_MINUS" then if not self:isnumeral(e) then self:exp2anyreg(fs, e) -- cannot operate on non-numeric constants end self:codearith(fs, "OP_UNM", e, e2) elseif op == "OPR_NOT" then self:codenot(fs, e) elseif op == "OPR_LEN" then self:exp2anyreg(fs, e) -- cannot operate on constants self:codearith(fs, "OP_LEN", e, e2) else lua_assert(0) end end ------------------------------------------------------------------------ -- -- * used only in (lparser) luaY:subexpr() ------------------------------------------------------------------------ function luaK:infix(fs, op, v) if op == "OPR_AND" then self:goiftrue(fs, v) elseif op == "OPR_OR" then self:goiffalse(fs, v) elseif op == "OPR_CONCAT" then self:exp2nextreg(fs, v) -- operand must be on the 'stack' elseif op == "OPR_ADD" or op == "OPR_SUB" or op == "OPR_MUL" or op == "OPR_DIV" or op == "OPR_MOD" or op == "OPR_POW" then if not self:isnumeral(v) then self:exp2RK(fs, v) end else self:exp2RK(fs, v) end end ------------------------------------------------------------------------ -- -- * used only in (lparser) luaY:subexpr() ------------------------------------------------------------------------ -- table lookups to simplify testing luaK.arith_op = { OPR_ADD = "OP_ADD", OPR_SUB = "OP_SUB", OPR_MUL = "OP_MUL", OPR_DIV = "OP_DIV", OPR_MOD = "OP_MOD", OPR_POW = "OP_POW", } luaK.comp_op = { OPR_EQ = "OP_EQ", OPR_NE = "OP_EQ", OPR_LT = "OP_LT", OPR_LE = "OP_LE", OPR_GT = "OP_LT", OPR_GE = "OP_LE", } luaK.comp_cond = { OPR_EQ = 1, OPR_NE = 0, OPR_LT = 1, OPR_LE = 1, OPR_GT = 0, OPR_GE = 0, } function luaK:posfix(fs, op, e1, e2) -- needed because e1 = e2 doesn't copy values... -- * in 5.0.x, only k/info/aux/t/f copied, t for AND, f for OR -- but here, all elements are copied for completeness' sake local function copyexp(e1, e2) e1.k = e2.k e1.info = e2.info; e1.aux = e2.aux e1.nval = e2.nval e1.t = e2.t; e1.f = e2.f end if op == "OPR_AND" then lua_assert(e1.t == self.NO_JUMP) -- list must be closed self:dischargevars(fs, e2) e2.f = self:concat(fs, e2.f, e1.f) copyexp(e1, e2) elseif op == "OPR_OR" then lua_assert(e1.f == self.NO_JUMP) -- list must be closed self:dischargevars(fs, e2) e2.t = self:concat(fs, e2.t, e1.t) copyexp(e1, e2) elseif op == "OPR_CONCAT" then self:exp2val(fs, e2) if e2.k == "VRELOCABLE" and luaP:GET_OPCODE(self:getcode(fs, e2)) == "OP_CONCAT" then lua_assert(e1.info == luaP:GETARG_B(self:getcode(fs, e2)) - 1) self:freeexp(fs, e1) luaP:SETARG_B(self:getcode(fs, e2), e1.info) e1.k = "VRELOCABLE" e1.info = e2.info else self:exp2nextreg(fs, e2) -- operand must be on the 'stack' self:codearith(fs, "OP_CONCAT", e1, e2) end else -- the following uses a table lookup in place of conditionals local arith = self.arith_op[op] if arith then self:codearith(fs, arith, e1, e2) else local comp = self.comp_op[op] if comp then self:codecomp(fs, comp, self.comp_cond[op], e1, e2) else lua_assert(0) end end--if arith end--if op end ------------------------------------------------------------------------ -- adjusts debug information for last instruction written, in order to -- change the line where item comes into existence -- * used in (lparser) luaY:funcargs(), luaY:forbody(), luaY:funcstat() ------------------------------------------------------------------------ function luaK:fixline(fs, line) fs.f.lineinfo[fs.pc - 1] = line end ------------------------------------------------------------------------ -- general function to write an instruction into the instruction buffer, -- sets debug information too -- * used in luaK:codeABC(), luaK:codeABx() -- * called directly by (lparser) luaY:whilestat() ------------------------------------------------------------------------ function luaK:code(fs, i, line) local f = fs.f self:dischargejpc(fs) -- 'pc' will change -- put new instruction in code array luaY:growvector(fs.L, f.code, fs.pc, f.sizecode, nil, luaY.MAX_INT, "code size overflow") f.code[fs.pc] = i -- save corresponding line information luaY:growvector(fs.L, f.lineinfo, fs.pc, f.sizelineinfo, nil, luaY.MAX_INT, "code size overflow") f.lineinfo[fs.pc] = line local pc = fs.pc fs.pc = fs.pc + 1 return pc end ------------------------------------------------------------------------ -- writes an instruction of type ABC -- * calls luaK:code() ------------------------------------------------------------------------ function luaK:codeABC(fs, o, a, b, c) lua_assert(luaP:getOpMode(o) == luaP.OpMode.iABC) lua_assert(luaP:getBMode(o) ~= luaP.OpArgMask.OpArgN or b == 0) lua_assert(luaP:getCMode(o) ~= luaP.OpArgMask.OpArgN or c == 0) return self:code(fs, luaP:CREATE_ABC(o, a, b, c), fs.ls.lastline) end ------------------------------------------------------------------------ -- writes an instruction of type ABx -- * calls luaK:code(), called by luaK:codeAsBx() ------------------------------------------------------------------------ function luaK:codeABx(fs, o, a, bc) lua_assert(luaP:getOpMode(o) == luaP.OpMode.iABx or luaP:getOpMode(o) == luaP.OpMode.iAsBx) lua_assert(luaP:getCMode(o) == luaP.OpArgMask.OpArgN) return self:code(fs, luaP:CREATE_ABx(o, a, bc), fs.ls.lastline) end ------------------------------------------------------------------------ -- -- * used in (lparser) luaY:closelistfield(), luaY:lastlistfield() ------------------------------------------------------------------------ function luaK:setlist(fs, base, nelems, tostore) local c = math.floor((nelems - 1)/luaP.LFIELDS_PER_FLUSH) + 1 local b = (tostore == luaY.LUA_MULTRET) and 0 or tostore lua_assert(tostore ~= 0) if c <= luaP.MAXARG_C then self:codeABC(fs, "OP_SETLIST", base, b, c) else self:codeABC(fs, "OP_SETLIST", base, b, 0) self:code(fs, luaP:CREATE_Inst(c), fs.ls.lastline) end fs.freereg = base + 1 -- free registers with list values end