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/**
* @file llnamevalue_tut.cpp
* @author Adroit
* @date 2007-02
* @brief LLNameValue unit test
*
* $LicenseInfo:firstyear=2007&license=viewergpl$
*
* Copyright (c) 2007-2008, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlifegrid.net/programs/open_source/licensing/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at http://secondlifegrid.net/programs/open_source/licensing/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "lltut.h"
#include "llnamevalue.h"
#include "llsdserialize.h"
#if LL_WINDOWS
// disable unreachable code warnings
#pragma warning(disable: 4702)
#endif
namespace tut
{
struct namevalue_test
{
namevalue_test()
{
}
};
typedef test_group<namevalue_test> namevalue_t;
typedef namevalue_t::object namevalue_object_t;
tut::namevalue_t tut_namevalue("namevalue_test");
template<> template<>
void namevalue_object_t::test<1>()
{
// LLNameValue()
LLNameValue nValue;
ensure("mName should have been NULL", nValue.mName == NULL);
ensure("getTypeEnum failed",nValue.getTypeEnum() == NVT_NULL);
ensure("getClassEnum failed",nValue.getClassEnum() == NVC_NULL);
ensure("getSendtoEnum failed",nValue.getSendtoEnum() == NVS_NULL);
LLNameValue nValue1(" SecondLife ASSET RW SIM 232324343");
}
// LLNameValue(const char* data);
// LLNameValue(const char* name, const char* data, const char* type, const char* nvclass, const char* nvsendto,
// TNameValueCallback nvcb = NULL, void** user_data = NULL);
template<> template<>
void namevalue_object_t::test<2>()
{
LLNameValue nValue(" SecondLife ASSET RW S 232324343");
ensure("mName not set correctly", (0 == strcmp(nValue.mName,"SecondLife")));
ensure("getTypeEnum failed", nValue.getTypeEnum() == NVT_ASSET);
ensure("getClassEnum failed", nValue.getClassEnum() == NVC_READ_WRITE);
ensure("getSendtoEnum failed", nValue.getSendtoEnum() == NVS_SIM);
ensure("getString failed", (0==strcmp(nValue.getAsset(),"232324343")));
ensure("sendToData or sendToViewer failed", !nValue.sendToData() && !nValue.sendToViewer());
LLNameValue nValue1("\n\r SecondLife_1 STRING READ_WRITE SIM 232324343");
ensure("1. mName not set correctly", (0 == strcmp(nValue1.mName,"SecondLife_1")));
ensure("1. getTypeEnum failed", nValue1.getTypeEnum() == NVT_STRING);
ensure("1. getClassEnum failed", nValue1.getClassEnum() == NVC_READ_WRITE);
ensure("1. getSendtoEnum failed", nValue1.getSendtoEnum() == NVS_SIM);
ensure("1. getString failed", (0==strcmp(nValue1.getString(),"232324343")));
ensure("1. sendToData or sendToViewer failed", !nValue1.sendToData() && !nValue1.sendToViewer());
LLNameValue nValue2("SecondLife", "23.5", "F32", "R", "DS");
ensure("2. getTypeEnum failed", nValue2.getTypeEnum() == NVT_F32);
ensure("2. getClassEnum failed", nValue2.getClassEnum() == NVC_READ_ONLY);
ensure("2. getSendtoEnum failed", nValue2.getSendtoEnum() == NVS_DATA_SIM);
ensure("2. getF32 failed", *nValue2.getF32() == 23.5f);
ensure("2. sendToData or sendToViewer failed", nValue2.sendToData() && !nValue2.sendToViewer());
LLNameValue nValue3("SecondLife", "-43456787", "S32", "READ_ONLY", "SIM_SPACE");
ensure("3. getTypeEnum failed", nValue3.getTypeEnum() == NVT_S32);
ensure("3. getClassEnum failed", nValue3.getClassEnum() == NVC_READ_ONLY);
ensure("3. getSendtoEnum failed", nValue3.getSendtoEnum() == NVS_DATA_SIM);
ensure("3. getS32 failed", *nValue3.getS32() == -43456787);
ensure("sendToData or sendToViewer failed", nValue3.sendToData() && !nValue3.sendToViewer());
LLNameValue nValue4("SecondLife", "<1.0, 2.0, 3.0>", "VEC3", "RW", "SV");
LLVector3 llvec4(1.0, 2.0, 3.0);
ensure("4. getTypeEnum failed", nValue4.getTypeEnum() == NVT_VEC3);
ensure("4. getClassEnum failed", nValue4.getClassEnum() == NVC_READ_WRITE);
ensure("4. getSendtoEnum failed", nValue4.getSendtoEnum() == NVS_SIM_VIEWER);
ensure("4. getVec3 failed", *nValue4.getVec3() == llvec4);
ensure("4. sendToData or sendToViewer failed", !nValue4.sendToData() && nValue4.sendToViewer());
LLNameValue nValue5("SecondLife", "-1.0, 2.4, 3", "VEC3", "RW", "SIM_VIEWER");
LLVector3 llvec5(-1.0f, 2.4f, 3);
ensure("5. getTypeEnum failed", nValue5.getTypeEnum() == NVT_VEC3);
ensure("5. getClassEnum failed", nValue5.getClassEnum() == NVC_READ_WRITE);
ensure("5. getSendtoEnum failed", nValue5.getSendtoEnum() == NVS_SIM_VIEWER);
ensure("5. getVec3 failed", *nValue5.getVec3() == llvec5);
ensure("5. sendToData or sendToViewer failed", !nValue5.sendToData() && nValue5.sendToViewer());
LLNameValue nValue6("SecondLife", "89764323", "U32", "RW", "DSV");
ensure("6. getTypeEnum failed", nValue6.getTypeEnum() == NVT_U32);
ensure("6. getClassEnum failed", nValue6.getClassEnum() == NVC_READ_WRITE);
ensure("6. getSendtoEnum failed", nValue6.getSendtoEnum() == NVS_DATA_SIM_VIEWER);
ensure("6. getU32 failed", *nValue6.getU32() == 89764323);
ensure("6. sendToData or sendToViewer failed", nValue6.sendToData() && nValue6.sendToViewer());
LLNameValue nValue7("SecondLife", "89764323323232", "U64", "RW", "SIM_SPACE_VIEWER");
U64 u64_7 = U64L(89764323323232);
ensure("7. getTypeEnum failed", nValue7.getTypeEnum() == NVT_U64);
ensure("7. getClassEnum failed", nValue7.getClassEnum() == NVC_READ_WRITE);
ensure("7. getSendtoEnum failed", nValue7.getSendtoEnum() == NVS_DATA_SIM_VIEWER);
ensure("7. getU32 failed", *nValue7.getU64() == u64_7);
ensure("7. sendToData or sendToViewer failed", nValue7.sendToData() && nValue7.sendToViewer());
}
// LLNameValue(const char* name, const char* data, const char* type, const char* nvclass,
// TNameValueCallback nvcb = NULL, void** user_data = NULL);
template<> template<>
void namevalue_object_t::test<3>()
{
LLNameValue nValue("SecondLife", "232324343", "ASSET", "READ_WRITE");
ensure("mName not set correctly", (0 == strcmp(nValue.mName,"SecondLife")));
ensure("getTypeEnum failed", nValue.getTypeEnum() == NVT_ASSET);
ensure("getClassEnum failed", nValue.getClassEnum() == NVC_READ_WRITE);
ensure("getSendtoEnum failed", nValue.getSendtoEnum() == NVS_SIM);
ensure("getString failed", (0==strcmp(nValue.getAsset(),"232324343")));
LLNameValue nValue1("SecondLife", "232324343", "STRING", "READ_WRITE");
ensure("1. mName not set correctly", (0 == strcmp(nValue1.mName,"SecondLife")));
ensure("1. getTypeEnum failed", nValue1.getTypeEnum() == NVT_STRING);
ensure("1. getClassEnum failed", nValue1.getClassEnum() == NVC_READ_WRITE);
ensure("1. getSendtoEnum failed", nValue1.getSendtoEnum() == NVS_SIM);
ensure("1. getString failed", (0==strcmp(nValue1.getString(),"232324343")));
LLNameValue nValue2("SecondLife", "23.5", "F32", "R");
ensure("2. getTypeEnum failed", nValue2.getTypeEnum() == NVT_F32);
ensure("2. getClassEnum failed", nValue2.getClassEnum() == NVC_READ_ONLY);
ensure("2. getSendtoEnum failed", nValue2.getSendtoEnum() == NVS_SIM);
ensure("2. getF32 failed", *nValue2.getF32() == 23.5f);
LLNameValue nValue3("SecondLife", "-43456787", "S32", "READ_ONLY");
ensure("3. getTypeEnum failed", nValue3.getTypeEnum() == NVT_S32);
ensure("3. getClassEnum failed", nValue3.getClassEnum() == NVC_READ_ONLY);
ensure("3. getSendtoEnum failed", nValue3.getSendtoEnum() == NVS_SIM);
ensure("3. getS32 failed", *nValue3.getS32() == -43456787);
LLNameValue nValue4("SecondLife", "<1.0, 2.0, 3.0>", "VEC3", "RW");
LLVector3 llvec4(1.0, 2.0, 3.0);
ensure("4. getTypeEnum failed", nValue4.getTypeEnum() == NVT_VEC3);
ensure("4. getClassEnum failed", nValue4.getClassEnum() == NVC_READ_WRITE);
ensure("4. getSendtoEnum failed", nValue4.getSendtoEnum() == NVS_SIM);
ensure("4. getVec3 failed", *nValue4.getVec3() == llvec4);
LLNameValue nValue5("SecondLife", "-1.0, 2.4, 3", "VEC3", "RW");
LLVector3 llvec5(-1.0f, 2.4f, 3);
ensure("5. getTypeEnum failed", nValue5.getTypeEnum() == NVT_VEC3);
ensure("5. getClassEnum failed", nValue5.getClassEnum() == NVC_READ_WRITE);
ensure("5. getSendtoEnum failed", nValue5.getSendtoEnum() == NVS_SIM);
ensure("5. getVec3 failed", *nValue5.getVec3() == llvec5);
LLNameValue nValue6("SecondLife", "89764323", "U32", "RW");
ensure("6. getTypeEnum failed", nValue6.getTypeEnum() == NVT_U32);
ensure("6. getClassEnum failed", nValue6.getClassEnum() == NVC_READ_WRITE);
ensure("6. getSendtoEnum failed", nValue6.getSendtoEnum() == NVS_SIM);
ensure("6. getU32 failed", *nValue6.getU32() == 89764323);
LLNameValue nValue7("SecondLife", "89764323323232", "U64", "RW");
U64 u64_7 = U64L(89764323323232);
ensure("7. getTypeEnum failed", nValue7.getTypeEnum() == NVT_U64);
ensure("7. getClassEnum failed", nValue7.getClassEnum() == NVC_READ_WRITE);
ensure("7. getSendtoEnum failed", nValue7.getSendtoEnum() == NVS_SIM);
ensure("7. getU32 failed", *nValue7.getU64() == u64_7);
}
// LLNameValue(const char* name, const char* type, const char* nvclass,
// TNameValueCallback nvcb = NULL, void** user_data = NULL);
template<> template<>
void namevalue_object_t::test<4>()
{
LLNameValue nValue("SecondLife", "STRING", "READ_WRITE");
ensure("mName not set correctly", (0 == strcmp(nValue.mName,"SecondLife")));
ensure("getTypeEnum failed", nValue.getTypeEnum() == NVT_STRING);
ensure("getClassEnum failed", nValue.getClassEnum() == NVC_READ_WRITE);
ensure("getSendtoEnum failed", nValue.getSendtoEnum() == NVS_SIM);
LLNameValue nValue1("SecondLife", "ASSET", "READ_WRITE");
ensure("1. mName not set correctly", (0 == strcmp(nValue1.mName,"SecondLife")));
ensure("1. getTypeEnum for RW failed", nValue1.getTypeEnum() == NVT_ASSET);
ensure("1. getClassEnum for RW failed", nValue1.getClassEnum() == NVC_READ_WRITE);
ensure("1. getSendtoEnum for RW failed", nValue1.getSendtoEnum() == NVS_SIM);
LLNameValue nValue2("SecondLife", "F32", "READ_ONLY");
ensure("2. getTypeEnum failed", nValue2.getTypeEnum() == NVT_F32);
ensure("2. getClassEnum failed", nValue2.getClassEnum() == NVC_READ_ONLY);
ensure("2. getSendtoEnum failed", nValue2.getSendtoEnum() == NVS_SIM);
LLNameValue nValue3("SecondLife", "S32", "READ_ONLY");
ensure("3. getTypeEnum failed", nValue3.getTypeEnum() == NVT_S32);
ensure("3. getClassEnum failed", nValue3.getClassEnum() == NVC_READ_ONLY);
ensure("3. getSendtoEnum failed", nValue3.getSendtoEnum() == NVS_SIM);
LLNameValue nValue4("SecondLife", "VEC3", "READ_WRITE");
ensure("4. getTypeEnum failed", nValue4.getTypeEnum() == NVT_VEC3);
ensure("4. getClassEnum failed", nValue4.getClassEnum() == NVC_READ_WRITE);
ensure("4. getSendtoEnum failed", nValue4.getSendtoEnum() == NVS_SIM);
LLNameValue nValue6("SecondLife", "U32", "READ_WRITE");
ensure("6. getTypeEnum failed", nValue6.getTypeEnum() == NVT_U32);
ensure("6. getClassEnum failed", nValue6.getClassEnum() == NVC_READ_WRITE);
ensure("6. getSendtoEnum failed", nValue6.getSendtoEnum() == NVS_SIM);
LLNameValue nValue7("SecondLife", "U64", "READ_WRITE");
ensure("7. getTypeEnum failed", nValue7.getTypeEnum() == NVT_U64);
ensure("7. getClassEnum failed", nValue7.getClassEnum() == NVC_READ_WRITE);
ensure("7. getSendtoEnum failed", nValue7.getSendtoEnum() == NVS_SIM);
}
template<> template<>
void namevalue_object_t::test<5>()
{
LLNameValue nValue("SecondLife", "This is a test", "STRING", "RW", "SIM");
ensure("getString failed", (0 == strcmp(nValue.getString(),"This is a test")));
}
template<> template<>
void namevalue_object_t::test<6>()
{
LLNameValue nValue("SecondLife", "This is a test", "ASSET", "RW", "S");
ensure("getAsset failed", (0 == strcmp(nValue.getAsset(),"This is a test")));
}
template<> template<>
void namevalue_object_t::test<7>()
{
LLNameValue nValue("SecondLife", "555555", "F32", "RW", "SIM");
ensure("getF32 failed",*nValue.getF32() == 555555.f);
}
template<> template<>
void namevalue_object_t::test<8>()
{
LLNameValue nValue("SecondLife", "-5555", "S32", "RW", "SIM");
ensure("getS32 failed", *nValue.getS32() == -5555);
S32 sVal = 0x7FFFFFFF;
nValue.setS32(sVal);
ensure("getS32 failed", *nValue.getS32() == sVal);
sVal = -0x7FFFFFFF;
nValue.setS32(sVal);
ensure("getS32 failed", *nValue.getS32() == sVal);
sVal = 0;
nValue.setS32(sVal);
ensure("getS32 failed", *nValue.getS32() == sVal);
}
template<> template<>
void namevalue_object_t::test<9>()
{
LLNameValue nValue("SecondLife", "<-3, 2, 1>", "VEC3", "RW", "SIM");
LLVector3 vecExpected(-3, 2, 1);
LLVector3 vec;
nValue.getVec3(vec);
ensure("getVec3 failed", vec == vecExpected);
}
template<> template<>
void namevalue_object_t::test<10>()
{
LLNameValue nValue("SecondLife", "12345678", "U32", "RW", "SIM");
ensure("getU32 failed",*nValue.getU32() == 12345678);
U32 val = 0xFFFFFFFF;
nValue.setU32(val);
ensure("U32 max", *nValue.getU32() == val);
val = 0;
nValue.setU32(val);
ensure("U32 min", *nValue.getU32() == val);
}
template<> template<>
void namevalue_object_t::test<11>()
{
//skip_fail("incomplete support for U64.");
LLNameValue nValue("SecondLife", "44444444444", "U64", "RW", "SIM");
ensure("getU64 failed",*nValue.getU64() == U64L(44444444444));
// there is no LLNameValue::setU64()
}
template<> template<>
void namevalue_object_t::test<12>()
{
//skip_fail("incomplete support for U64.");
LLNameValue nValue("SecondLife U64 RW DSV 44444444444");
std::string ret_str = nValue.printNameValue();
ensure_equals("1:printNameValue failed",ret_str,"SecondLife U64 RW DSV 44444444444");
LLNameValue nValue1(ret_str.c_str());
ensure_equals("Serialization of printNameValue failed", *nValue.getU64(), *nValue1.getU64());
}
template<> template<>
void namevalue_object_t::test<13>()
{
LLNameValue nValue("SecondLife STRING RW DSV 44444444444");
std::string ret_str = nValue.printData();
ensure_equals("1:printData failed",ret_str,"44444444444");
LLNameValue nValue1("SecondLife S32 RW DSV 44444");
ret_str = nValue1.printData();
ensure_equals("2:printData failed",ret_str,"44444");
}
template<> template<>
void namevalue_object_t::test<14>()
{
LLNameValue nValue("SecodLife STRING RW SIM 22222");
std::ostringstream stream1,stream2,stream3, stream4, stream5;
stream1 << nValue;
ensure_equals("STRING << failed",stream1.str(),"22222");
LLNameValue nValue1("SecodLife F32 RW SIM 22222");
stream2 << nValue1;
ensure_equals("F32 << failed",stream2.str(),"22222");
LLNameValue nValue2("SecodLife S32 RW SIM 22222");
stream3<< nValue2;
ensure_equals("S32 << failed",stream3.str(),"22222");
LLNameValue nValue3("SecodLife U32 RW SIM 122222");
stream4<< nValue3;
ensure_equals("U32 << failed",stream4.str(),"122222");
// I don't think we use U64 name value pairs. JC
//skip_fail("incomplete support for U64.");
//LLNameValue nValue4("SecodLife U64 RW SIM 22222");
//stream5<< nValue4;
//ensure("U64 << failed",0 == strcmp((stream5.str()).c_str(),"22222"));
}
template<> template<>
void namevalue_object_t::test<15>()
{
LLNameValue nValue("SecondLife", "This is a test", "ASSET", "R", "S");
ensure("getAsset failed", (0 == strcmp(nValue.getAsset(),"This is a test")));
// this should not have updated as it is read only.
nValue.setAsset("New Value should not be updated");
ensure("setAsset on ReadOnly failed", (0 == strcmp(nValue.getAsset(),"This is a test")));
LLNameValue nValue1("SecondLife", "1234", "U32", "R", "S");
// this should not have updated as it is read only.
nValue1.setU32(4567);
ensure("setU32 on ReadOnly failed", *nValue1.getU32() == 1234);
LLNameValue nValue2("SecondLife", "1234", "S32", "R", "S");
// this should not have updated as it is read only.
nValue2.setS32(4567);
ensure("setS32 on ReadOnly failed", *nValue2.getS32() == 1234);
LLNameValue nValue3("SecondLife", "1234", "F32", "R", "S");
// this should not have updated as it is read only.
nValue3.setF32(4567);
ensure("setF32 on ReadOnly failed", *nValue3.getF32() == 1234);
LLNameValue nValue4("SecondLife", "<1,2,3>", "VEC3", "R", "S");
// this should not have updated as it is read only.
LLVector3 vec(4,5,6);
nValue3.setVec3(vec);
LLVector3 vec1(1,2,3);
ensure("setVec3 on ReadOnly failed", *nValue4.getVec3() == vec1);
// cant test for U64 as no set64 exists nor any operators support U64 type
}
}
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