stk-code_catmod/lib/irrlicht/tests/serializeAttributes.cpp

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#include "testUtils.h"
using namespace irr;
using namespace core;
using namespace io;
#define COMPARE(a, b) if ( (a) != (b) ) { logTestString("Not identical %s in %s:%d\n", #a, __FILE__, __LINE__ ); return false; }
const u32 BINARY_BLOCK_SIZE = 10;
enum EMockEnum
{
EME_NONE,
EME_ONE,
EME_COUNT
};
const c8* const MockEnumNames[EME_COUNT+1] =
{
"none",
"one",
0,
};
class SerializableMock : public virtual io::IAttributeExchangingObject
{
public:
SerializableMock(bool comparePointers=true) : ComparePointers(comparePointers)
{
}
virtual void serializeAttributes(io::IAttributes* out, io::SAttributeReadWriteOptions* options) const
{
out->addInt("ValInt", ValInt);
out->addFloat("ValFloat", ValFloat);
out->addString("ValString", ValString.c_str());
out->addString("ValStringW", ValStringW.c_str());
out->addBinary("ValBinary", (void*)ValBinary, BINARY_BLOCK_SIZE);
out->addArray("ValStringWArray", ValStringWArray);
out->addBool("ValBool", ValBool);
out->addEnum("ValEnum", ValEnum, MockEnumNames);
out->addColor("ValColor", ValColor);
out->addColorf("ValColorf", ValColorf);
out->addVector3d("ValVector3df", ValVector3df);
out->addVector2d("ValVector2df", ValVector2df);
out->addDimension2d("ValDimension2du", ValDimension2du);
out->addPosition2d("ValPosition2di", ValPosition2di);
out->addRect("ValRect", ValRect);
out->addMatrix("ValMatrix", ValMatrix);
out->addQuaternion("ValQuaternion", ValQuaternion);
out->addBox3d("ValAabbox3df", ValAabbox3df);
out->addPlane3d("ValPlane3df", ValPlane3df);
out->addTriangle3d("ValTriangle3df", ValTriangle3df);
out->addLine2d("ValLine2df", ValLine2df);
out->addLine3d("ValLine3df", ValLine3df);
out->addTexture("ValTexture", ValTexture );
out->addUserPointer("ValPointer", ValPointer);
}
virtual void deserializeAttributes(io::IAttributes* in, io::SAttributeReadWriteOptions* options)
{
ValInt = in->getAttributeAsInt("ValInt");
ValFloat = in->getAttributeAsFloat("ValFloat");
ValString = in->getAttributeAsString("ValString");
ValStringW = in->getAttributeAsStringW("ValStringW");
in->getAttributeAsBinaryData("ValBinary", ValBinary, BINARY_BLOCK_SIZE);
ValStringWArray = in->getAttributeAsArray("ValStringWArray");
ValBool = in->getAttributeAsBool("ValBool");
ValEnum = (EMockEnum)in->getAttributeAsEnumeration("ValEnum", MockEnumNames);
ValColor = in->getAttributeAsColor("ValColor");
ValColorf = in->getAttributeAsColorf("ValColorf");
ValVector3df = in->getAttributeAsVector3d("ValVector3df");
ValVector2df = in->getAttributeAsVector2d("ValVector2df");
ValDimension2du = in->getAttributeAsDimension2d("ValDimension2du");
ValPosition2di = in->getAttributeAsPosition2d("ValPosition2di");
ValRect = in->getAttributeAsRect("ValRect");
ValMatrix = in->getAttributeAsMatrix("ValMatrix");
ValQuaternion = in->getAttributeAsQuaternion("ValQuaternion");
ValAabbox3df = in->getAttributeAsBox3d("ValAabbox3df");
ValPlane3df = in->getAttributeAsPlane3d("ValPlane3df");
ValTriangle3df = in->getAttributeAsTriangle3d("ValTriangle3df");
ValLine2df = in->getAttributeAsLine2d("ValLine2df");
ValLine3df = in->getAttributeAsLine3d("ValLine3df");
ValTexture = in->getAttributeAsTexture("ValTexture");
ValPointer = in->getAttributeAsUserPointer("ValPointer");
}
bool operator==(const SerializableMock& other)
{
COMPARE(ValInt, other.ValInt);
COMPARE(ValFloat, other.ValFloat);
COMPARE(ValString, other.ValString);
COMPARE(ValStringW, other.ValStringW);
if ( memcmp( ValBinary, other.ValBinary, BINARY_BLOCK_SIZE) != 0 )
{
logTestString("Not identical %s in %s:%d", "ValBinary", __FILE__, __LINE__ );
return false;
}
COMPARE(ValStringWArray, other.ValStringWArray);
COMPARE(ValBool, other.ValBool);
COMPARE(ValEnum, other.ValEnum);
COMPARE(ValColor, other.ValColor);
if ( ValColorf.r != other.ValColorf.r || ValColorf.g != other.ValColorf.g || ValColorf.b != other.ValColorf.b || ValColorf.a != other.ValColorf.a )
{
logTestString("Not identical %s in %s:%d", "ValColorf", __FILE__, __LINE__ );
return false;
}
COMPARE(ValVector3df, other.ValVector3df);
COMPARE(ValVector2df, other.ValVector2df);
COMPARE(ValDimension2du, other.ValDimension2du);
COMPARE(ValPosition2di, other.ValPosition2di);
COMPARE(ValRect, other.ValRect);
COMPARE(ValMatrix, other.ValMatrix);
COMPARE(ValQuaternion, other.ValQuaternion);
COMPARE(ValAabbox3df, other.ValAabbox3df);
COMPARE(ValPlane3df, other.ValPlane3df);
COMPARE(ValTriangle3df, other.ValTriangle3df);
COMPARE(ValLine2df, other.ValLine2df);
COMPARE(ValLine3df, other.ValLine3df);
// ValTexture; // TODO
if ( ComparePointers )
COMPARE(ValPointer, other.ValPointer);
return true;
}
void reset()
{
ValInt = 0;
ValFloat = 0.f;
ValString = "";
ValStringW = L"";
memset(ValBinary, 0, BINARY_BLOCK_SIZE);
ValStringWArray.clear();
ValBool = false;
ValEnum = EME_NONE;
ValColor.set(0,0,0,0);
ValColorf.set(0.f, 0.f, 0.f, 0.f);
ValVector3df.set(0.f, 0.f, 0.f);
ValVector2df.set(0.f, 0.f);
ValDimension2du.set(0, 0);
ValPosition2di.set(0,0);
ValRect = core::rect<s32>(0,0,0,0);
ValMatrix.makeIdentity();
ValQuaternion.set(0,0,0,0);
ValAabbox3df.reset(0,0,0);
ValPlane3df.setPlane(vector3df(0.f,0.f,0.f), 0.f);
ValTriangle3df.set( vector3df(0.f,0.f,0.f), vector3df(0.f,0.f,0.f), vector3df(0.f,0.f,0.f) );
ValLine2df.setLine(0.f, 0.f, 0.f, 0.f);
ValLine3df.setLine(0.f, 0.f, 0.f, 0.f, 0.f, 0.f);
ValTexture = NULL;
ValPointer = 0;
}
void set()
{
ValInt = 152722522;
ValFloat = 1.f;
ValString = "one";
ValStringW = L"ONE";
memset(ValBinary, 0xff, BINARY_BLOCK_SIZE);
ValStringWArray.push_back( stringw("ONE") );
ValStringWArray.push_back( stringw("TWO") );
ValStringWArray.push_back( stringw("THREE") );
ValBool = true;
ValEnum = EME_ONE;
ValColor.set(1,2,3,4);
ValColorf.set(1.f, 2.f, 3.f, 4.f);
ValVector3df.set(1.f, 2.f, 3.f);
ValVector2df.set(1.f, 2.f);
ValDimension2du.set(1, 2);
ValPosition2di.set(1,2);
ValRect = core::rect<s32>(1,2,3,4);
ValMatrix = 99.9f;
ValQuaternion.set(1,2,3,4);
ValAabbox3df.reset(1,2,3);
ValPlane3df.setPlane(vector3df(1.f,2.f,3.f), 4.f);
ValTriangle3df.set( vector3df(1.f,2.f,3.f), vector3df(4.f,5.f,6.f), vector3df(7.f,8.f,9.f) );
ValLine2df.setLine(1.f, 2.f, 3.f, 4.f);
ValLine3df.setLine(1.f, 2.f, 3.f, 4.f, 5.f, 6.f);
ValTexture = NULL; // TODO
ValPointer = (void*)0xffffff;
}
s32 ValInt;
f32 ValFloat;
core::stringc ValString;
core::stringw ValStringW;
char ValBinary[BINARY_BLOCK_SIZE];
core::array<core::stringw> ValStringWArray;
bool ValBool;
EMockEnum ValEnum;
video::SColor ValColor;
video::SColorf ValColorf;
core::vector3df ValVector3df;
core::vector2df ValVector2df;
core::dimension2du ValDimension2du;
core::position2di ValPosition2di;
core::rect<s32> ValRect;
core::matrix4 ValMatrix;
core::quaternion ValQuaternion;
core::aabbox3df ValAabbox3df;
core::plane3df ValPlane3df;
core::triangle3df ValTriangle3df;
core::line2df ValLine2df;
core::line3df ValLine3df;
video::ITexture* ValTexture;
void* ValPointer;
bool ComparePointers;
};
// Serialization in memory
bool MemorySerialization(io::IFileSystem * fs )
{
SerializableMock origMock, copyMock;
origMock.set();
copyMock.reset();
io::IAttributes* attr = fs->createEmptyAttributes();
origMock.serializeAttributes(attr, 0);
copyMock.deserializeAttributes(attr, 0);
attr->drop();
return origMock == copyMock;
}
// Serialization to/from an xml-file
bool XmlSerialization(io::IFileSystem * fs, video::IVideoDriver * driver )
{
const io::path XML_FILENAME("results/attributeSerialization.xml");
SerializableMock origMock(false), copyMock;
origMock.set();
copyMock.reset();
// write to xml
io::IWriteFile* fileWrite = fs->createAndWriteFile(XML_FILENAME);
if (!fileWrite)
{
logTestString("Could not create xml in %s:%d\n", __FILE__, __LINE__ );
return false;
}
io::IXMLWriter* writer = fs->createXMLWriter(fileWrite);
if (!writer)
{
logTestString("Could not create xml-writer in %s:%d\n", __FILE__, __LINE__ );
return false;
}
writer->writeXMLHeader();
writer->writeLineBreak();
io::IAttributes* attrToXml = fs->createEmptyAttributes();
origMock.serializeAttributes(attrToXml, 0);
attrToXml->write(writer);
attrToXml->drop();
writer->writeLineBreak();
writer->drop();
fileWrite->drop();
// read from xml
io::IReadFile* fileRead = fs->createAndOpenFile(XML_FILENAME);
if (!fileRead)
{
logTestString("Could not open xml-file in %s:%d\n", __FILE__, __LINE__ );
return false;
}
io::IXMLReader* reader = fs->createXMLReader(fileRead);
if (!reader)
{
logTestString("createXMLReader failed in %s:%d\n", __FILE__, __LINE__ );
return false;
}
while(reader->read())
{
switch (reader->getNodeType())
{
case EXN_ELEMENT:
{
// read attributes
io::IAttributes* attr = fs->createEmptyAttributes(driver);
if ( attr->read(reader, true) )
{
copyMock.deserializeAttributes(attr, 0);
}
else
{
logTestString("attr->read failed in %s:%d\n", __FILE__, __LINE__ );
}
attr->drop();
}
break;
default:
break;
}
}
reader->drop();
fileRead->drop();
return origMock == copyMock;
}
bool serializeAttributes()
{
bool result = true;
IrrlichtDevice * device = irr::createDevice(video::EDT_NULL, dimension2d<u32>(1, 1));
assert(device);
if(!device)
{
logTestString("device creation failed in %s:%d\n", __FILE__, __LINE__ );
return false;
}
io::IFileSystem * fs = device->getFileSystem ();
if ( !fs )
{
return false;
}
result &= MemorySerialization(fs);
if ( !result )
{
logTestString("MemorySerialization failed in %s:%d\n", __FILE__, __LINE__ );
}
result &= XmlSerialization(fs, device->getVideoDriver());
if ( !result )
{
logTestString("XmlSerialization failed in %s:%d\n", __FILE__, __LINE__ );
}
device->closeDevice();
device->run();
device->drop();
return result;
}