void Shader::compileToHLSL(void *compiler)
{
if (isCompiled() || !mSource)
{
return;
}
TRACE("\n%s", mSource);
delete[] mInfoLog;
mInfoLog = NULL;
int result = ShCompile(compiler, &mSource, 1, SH_OBJECT_CODE);
if (result)
{
int objCodeLen = 0;
ShGetInfo(compiler, SH_OBJECT_CODE_LENGTH, &objCodeLen);
mHlsl = new char[objCodeLen];
ShGetObjectCode(compiler, mHlsl);
TRACE("\n%s", mHlsl);
}
else
{
int infoLogLen = 0;
ShGetInfo(compiler, SH_INFO_LOG_LENGTH, &infoLogLen);
mInfoLog = new char[infoLogLen];
ShGetInfoLog(compiler, mInfoLog);
TRACE("\n%s", mInfoLog);
}
}
void Shader::compileToHLSL(void *compiler)
{
// ensure we don't pass a NULL source to the compiler
const char *source = "\0";
if (mSource)
{
source = mSource;
}
// ensure the compiler is loaded
initializeCompiler();
int compileOptions = SH_OBJECT_CODE;
std::string sourcePath;
if (perfActive())
{
sourcePath = "";
writeFile(sourcePath.c_str(), source, strlen(source));
compileOptions |= SH_LINE_DIRECTIVES;
}
int result;
if (sourcePath.empty())
{
result = ShCompile(compiler, &source, 1, compileOptions);
}
else
{
const char* sourceStrings[2] =
{
sourcePath.c_str(),
source
};
result = ShCompile(compiler, sourceStrings, 2, compileOptions | SH_SOURCE_PATH);
}
if (result)
{
size_t objCodeLen = 0;
ShGetInfo(compiler, SH_OBJECT_CODE_LENGTH, &objCodeLen);
mHlsl = new char[objCodeLen];
ShGetObjectCode(compiler, mHlsl);
void *activeUniforms;
ShGetInfoPointer(compiler, SH_ACTIVE_UNIFORMS_ARRAY, &activeUniforms);
mActiveUniforms = *(sh::ActiveUniforms*)activeUniforms;
}
else
{
size_t infoLogLen = 0;
ShGetInfo(compiler, SH_INFO_LOG_LENGTH, &infoLogLen);
mInfoLog = new char[infoLogLen];
ShGetInfoLog(compiler, mInfoLog);
TRACE("\n%s", mInfoLog);
}
}
static bool checkActiveUniformAndAttribMaxLengths(const ShHandle handle,
size_t expectedValue)
{
size_t activeUniformLimit = 0;
ShGetInfo(handle, SH_ACTIVE_UNIFORM_MAX_LENGTH, &activeUniformLimit);
size_t activeAttribLimit = 0;
ShGetInfo(handle, SH_ACTIVE_ATTRIBUTE_MAX_LENGTH, &activeAttribLimit);
return (expectedValue == activeUniformLimit && expectedValue == activeAttribLimit);
}
void Shader::compileToHLSL(void *compiler)
{
if (isCompiled() || !mSource)
{
return;
}
delete[] mInfoLog;
mInfoLog = NULL;
int compileOptions = SH_OBJECT_CODE;
std::string sourcePath;
if (perfActive())
{
sourcePath = getTempPath();
writeFile(sourcePath.c_str(), mSource, strlen(mSource));
compileOptions |= SH_LINE_DIRECTIVES;
}
int result;
if (sourcePath.empty())
{
result = ShCompile(compiler, &mSource, 1, compileOptions);
}
else
{
const char* sourceStrings[2] =
{
sourcePath.c_str(),
mSource
};
result = ShCompile(compiler, sourceStrings, 2, compileOptions | SH_SOURCE_PATH);
}
if (result)
{
int objCodeLen = 0;
ShGetInfo(compiler, SH_OBJECT_CODE_LENGTH, &objCodeLen);
mHlsl = new char[objCodeLen];
ShGetObjectCode(compiler, mHlsl);
}
else
{
int infoLogLen = 0;
ShGetInfo(compiler, SH_INFO_LOG_LENGTH, &infoLogLen);
mInfoLog = new char[infoLogLen];
ShGetInfoLog(compiler, mInfoLog);
TRACE("\n%s", mInfoLog);
}
}
bool ANGLEWebKitBridge::validateShaderSource(const char* shaderSource, ANGLEShaderType shaderType, String& translatedShaderSource, String& shaderValidationLog)
{
if (!builtCompilers) {
m_fragmentCompiler = ShConstructCompiler(SH_FRAGMENT_SHADER, SH_WEBGL_SPEC, m_shaderOutput, &m_resources);
m_vertexCompiler = ShConstructCompiler(SH_VERTEX_SHADER, SH_WEBGL_SPEC, m_shaderOutput, &m_resources);
if (!m_fragmentCompiler || !m_vertexCompiler) {
cleanupCompilers();
return false;
}
builtCompilers = true;
}
ShHandle compiler;
if (shaderType == SHADER_TYPE_VERTEX)
compiler = m_vertexCompiler;
else
compiler = m_fragmentCompiler;
const char* const shaderSourceStrings[] = { shaderSource };
bool validateSuccess = ShCompile(compiler, shaderSourceStrings, 1, SH_OBJECT_CODE);
if (!validateSuccess) {
int logSize = 0;
ShGetInfo(compiler, SH_INFO_LOG_LENGTH, &logSize);
if (logSize > 1) {
OwnArrayPtr<char> logBuffer = adoptArrayPtr(new char[logSize]);
if (logBuffer) {
ShGetInfoLog(compiler, logBuffer.get());
shaderValidationLog = logBuffer.get();
}
}
return false;
}
int translationLength = 0;
ShGetInfo(compiler, SH_OBJECT_CODE_LENGTH, &translationLength);
if (translationLength > 1) {
OwnArrayPtr<char> translationBuffer = adoptArrayPtr(new char[translationLength]);
if (!translationBuffer)
return false;
ShGetObjectCode(compiler, translationBuffer.get());
translatedShaderSource = translationBuffer.get();
}
return true;
}
void ShGetNameHashingEntry(const ShHandle handle,
int index,
char* name,
char* hashedName)
{
if (!handle || !name || !hashedName || index < 0)
return;
TShHandleBase* base = static_cast<TShHandleBase*>(handle);
TCompiler* compiler = base->getAsCompiler();
if (!compiler) return;
const NameMap& nameMap = compiler->getNameMap();
if (index >= static_cast<int>(nameMap.size()))
return;
NameMap::const_iterator it = nameMap.begin();
for (int i = 0; i < index; ++i)
++it;
size_t len = it->first.length() + 1;
size_t max_len = 0;
ShGetInfo(handle, SH_NAME_MAX_LENGTH, &max_len);
if (len > max_len) {
ASSERT(false);
len = max_len;
}
strncpy(name, it->first.c_str(), len);
// To be on the safe side in case the source is longer than expected.
name[len - 1] = '\0';
len = it->second.length() + 1;
max_len = 0;
ShGetInfo(handle, SH_HASHED_NAME_MAX_LENGTH, &max_len);
if (len > max_len) {
ASSERT(false);
len = max_len;
}
strncpy(hashedName, it->second.c_str(), len);
// To be on the safe side in case the source is longer than expected.
hashedName[len - 1] = '\0';
}
ShShaderOutput Shader::getCompilerOutputType(GLenum shader)
{
void *compiler = NULL;
switch (shader)
{
case GL_VERTEX_SHADER: compiler = mVertexCompiler; break;
case GL_FRAGMENT_SHADER: compiler = mFragmentCompiler; break;
default: UNREACHABLE(); return SH_HLSL9_OUTPUT;
}
size_t outputType = 0;
ShGetInfo(compiler, SH_OUTPUT_TYPE, &outputType);
return static_cast<ShShaderOutput>(outputType);
}
int main(int argc, char* argv[])
{
TFailCode failCode = ESuccess;
int compileOptions = 0;
int numCompiles = 0;
ShHandle vertexCompiler = 0;
ShHandle fragmentCompiler = 0;
char* buffer = 0;
int bufferLen = 0;
int numAttribs = 0, numUniforms = 0;
ShShaderSpec spec = SH_GLES2_SPEC;
ShShaderOutput output = SH_ESSL_OUTPUT;
ShInitialize();
ShBuiltInResources resources;
GenerateResources(&resources);
argc--;
argv++;
for (; (argc >= 1) && (failCode == ESuccess); argc--, argv++) {
if (argv[0][0] == '-') {
switch (argv[0][1]) {
case 'i':
compileOptions |= SH_INTERMEDIATE_TREE;
break;
case 'm':
compileOptions |= SH_MAP_LONG_VARIABLE_NAMES;
break;
case 'o':
compileOptions |= SH_OBJECT_CODE;
break;
case 'u':
compileOptions |= SH_ATTRIBUTES_UNIFORMS;
break;
case 'l':
compileOptions |= SH_UNROLL_FOR_LOOP_WITH_INTEGER_INDEX;
break;
case 'e':
compileOptions |= SH_EMULATE_BUILT_IN_FUNCTIONS;
break;
case 'd':
compileOptions |= SH_DEPENDENCY_GRAPH;
break;
case 't':
compileOptions |= SH_TIMING_RESTRICTIONS;
break;
case 's':
if (argv[0][2] == '=') {
switch (argv[0][3]) {
case 'e':
spec = SH_GLES2_SPEC;
break;
case 'w':
spec = SH_WEBGL_SPEC;
break;
case 'c':
spec = SH_CSS_SHADERS_SPEC;
break;
default:
failCode = EFailUsage;
}
} else {
failCode = EFailUsage;
}
break;
case 'b':
if (argv[0][2] == '=') {
switch (argv[0][3]) {
case 'e':
output = SH_ESSL_OUTPUT;
break;
case 'g':
output = SH_GLSL_OUTPUT;
break;
case 'h':
output = SH_HLSL_OUTPUT;
break;
default:
failCode = EFailUsage;
}
} else {
failCode = EFailUsage;
}
break;
case 'x':
if (argv[0][2] == '=') {
switch (argv[0][3]) {
case 'i':
resources.OES_EGL_image_external = 1;
break;
case 'd':
resources.OES_standard_derivatives = 1;
break;
case 'r':
resources.ARB_texture_rectangle = 1;
break;
default:
failCode = EFailUsage;
}
} else {
failCode = EFailUsage;
}
break;
default:
failCode = EFailUsage;
}
} else {
ShHandle compiler = 0;
switch (FindShaderType(argv[0])) {
case SH_VERTEX_SHADER:
if (vertexCompiler == 0)
vertexCompiler = ShConstructCompiler(
SH_VERTEX_SHADER, spec, output, &resources);
compiler = vertexCompiler;
break;
case SH_FRAGMENT_SHADER:
if (fragmentCompiler == 0)
fragmentCompiler = ShConstructCompiler(
SH_FRAGMENT_SHADER, spec, output, &resources);
compiler = fragmentCompiler;
break;
default:
break;
}
if (compiler) {
bool compiled = CompileFile(argv[0], compiler, compileOptions);
LogMsg("BEGIN", "COMPILER", numCompiles, "INFO LOG");
ShGetInfo(compiler, SH_INFO_LOG_LENGTH, &bufferLen);
buffer = (char*) realloc(buffer, bufferLen * sizeof(char));
ShGetInfoLog(compiler, buffer);
puts(buffer);
LogMsg("END", "COMPILER", numCompiles, "INFO LOG");
printf("\n\n");
if (compiled && (compileOptions & SH_OBJECT_CODE)) {
LogMsg("BEGIN", "COMPILER", numCompiles, "OBJ CODE");
ShGetInfo(compiler, SH_OBJECT_CODE_LENGTH, &bufferLen);
buffer = (char*) realloc(buffer, bufferLen * sizeof(char));
ShGetObjectCode(compiler, buffer);
puts(buffer);
LogMsg("END", "COMPILER", numCompiles, "OBJ CODE");
printf("\n\n");
}
if (compiled && (compileOptions & SH_ATTRIBUTES_UNIFORMS)) {
LogMsg("BEGIN", "COMPILER", numCompiles, "ACTIVE ATTRIBS");
PrintActiveVariables(compiler, SH_ACTIVE_ATTRIBUTES, (compileOptions & SH_MAP_LONG_VARIABLE_NAMES) != 0);
LogMsg("END", "COMPILER", numCompiles, "ACTIVE ATTRIBS");
printf("\n\n");
LogMsg("BEGIN", "COMPILER", numCompiles, "ACTIVE UNIFORMS");
PrintActiveVariables(compiler, SH_ACTIVE_UNIFORMS, (compileOptions & SH_MAP_LONG_VARIABLE_NAMES) != 0);
LogMsg("END", "COMPILER", numCompiles, "ACTIVE UNIFORMS");
printf("\n\n");
}
if (!compiled)
failCode = EFailCompile;
++numCompiles;
} else {
failCode = EFailCompilerCreate;
}
}
}
if ((vertexCompiler == 0) && (fragmentCompiler == 0))
failCode = EFailUsage;
if (failCode == EFailUsage)
usage();
if (vertexCompiler)
ShDestruct(vertexCompiler);
if (fragmentCompiler)
ShDestruct(fragmentCompiler);
if (buffer)
free(buffer);
ShFinalize();
return failCode;
}
void PrintActiveVariables(ShHandle compiler, ShShaderInfo varType, bool mapLongVariableNames)
{
int nameSize = 0;
switch (varType) {
case SH_ACTIVE_ATTRIBUTES:
ShGetInfo(compiler, SH_ACTIVE_ATTRIBUTE_MAX_LENGTH, &nameSize);
break;
case SH_ACTIVE_UNIFORMS:
ShGetInfo(compiler, SH_ACTIVE_UNIFORM_MAX_LENGTH, &nameSize);
break;
default:
assert(0);
}
if (nameSize <= 1) return;
char* name = new char[nameSize];
char* mappedName = NULL;
if (mapLongVariableNames) {
int mappedNameSize = 0;
ShGetInfo(compiler, SH_MAPPED_NAME_MAX_LENGTH, &mappedNameSize);
mappedName = new char[mappedNameSize];
}
int activeVars = 0, size = 0;
ShDataType type = SH_NONE;
const char* typeName = NULL;
ShGetInfo(compiler, varType, &activeVars);
for (int i = 0; i < activeVars; ++i) {
switch (varType) {
case SH_ACTIVE_ATTRIBUTES:
ShGetActiveAttrib(compiler, i, NULL, &size, &type, name, mappedName);
break;
case SH_ACTIVE_UNIFORMS:
ShGetActiveUniform(compiler, i, NULL, &size, &type, name, mappedName);
break;
default:
assert(0);
}
switch (type) {
case SH_FLOAT:
typeName = "GL_FLOAT";
break;
case SH_FLOAT_VEC2:
typeName = "GL_FLOAT_VEC2";
break;
case SH_FLOAT_VEC3:
typeName = "GL_FLOAT_VEC3";
break;
case SH_FLOAT_VEC4:
typeName = "GL_FLOAT_VEC4";
break;
case SH_INT:
typeName = "GL_INT";
break;
case SH_INT_VEC2:
typeName = "GL_INT_VEC2";
break;
case SH_INT_VEC3:
typeName = "GL_INT_VEC3";
break;
case SH_INT_VEC4:
typeName = "GL_INT_VEC4";
break;
case SH_BOOL:
typeName = "GL_BOOL";
break;
case SH_BOOL_VEC2:
typeName = "GL_BOOL_VEC2";
break;
case SH_BOOL_VEC3:
typeName = "GL_BOOL_VEC3";
break;
case SH_BOOL_VEC4:
typeName = "GL_BOOL_VEC4";
break;
case SH_FLOAT_MAT2:
typeName = "GL_FLOAT_MAT2";
break;
case SH_FLOAT_MAT3:
typeName = "GL_FLOAT_MAT3";
break;
case SH_FLOAT_MAT4:
typeName = "GL_FLOAT_MAT4";
break;
case SH_SAMPLER_2D:
typeName = "GL_SAMPLER_2D";
break;
case SH_SAMPLER_CUBE:
typeName = "GL_SAMPLER_CUBE";
break;
case SH_SAMPLER_EXTERNAL_OES:
typeName = "GL_SAMPLER_EXTERNAL_OES";
break;
default:
assert(0);
}
printf("%d: name:%s type:%s size:%d", i, name, typeName, size);
if (mapLongVariableNames)
printf(" mapped name:%s", mappedName);
printf("\n");
}
delete [] name;
if (mappedName)
delete [] mappedName;
}
static bool checkMappedNameMaxLength(const ShHandle handle, size_t expectedValue)
{
size_t mappedNameMaxLength = 0;
ShGetInfo(handle, SH_MAPPED_NAME_MAX_LENGTH, &mappedNameMaxLength);
return (expectedValue == mappedNameMaxLength);
}
void Shader::compileToHLSL(void *compiler)
{
// ensure the compiler is loaded
initializeCompiler();
int compileOptions = SH_OBJECT_CODE;
std::string sourcePath;
if (perfActive())
{
sourcePath = getTempPath();
writeFile(sourcePath.c_str(), mSource.c_str(), mSource.length());
compileOptions |= SH_LINE_DIRECTIVES;
}
int result;
if (sourcePath.empty())
{
const char* sourceStrings[] =
{
mSource.c_str(),
};
result = ShCompile(compiler, sourceStrings, ArraySize(sourceStrings), compileOptions);
}
else
{
const char* sourceStrings[] =
{
sourcePath.c_str(),
mSource.c_str(),
};
result = ShCompile(compiler, sourceStrings, ArraySize(sourceStrings), compileOptions | SH_SOURCE_PATH);
}
size_t shaderVersion = 100;
ShGetInfo(compiler, SH_SHADER_VERSION, &shaderVersion);
mShaderVersion = static_cast<int>(shaderVersion);
if (shaderVersion == 300 && mRenderer->getCurrentClientVersion() < 3)
{
mInfoLog = "GLSL ES 3.00 is not supported by OpenGL ES 2.0 contexts";
TRACE("\n%s", mInfoLog.c_str());
}
else if (result)
{
size_t objCodeLen = 0;
ShGetInfo(compiler, SH_OBJECT_CODE_LENGTH, &objCodeLen);
char* outputHLSL = new char[objCodeLen];
ShGetObjectCode(compiler, outputHLSL);
#ifdef _DEBUG
std::ostringstream hlslStream;
hlslStream << "// GLSL\n";
hlslStream << "//\n";
size_t curPos = 0;
while (curPos != std::string::npos)
{
size_t nextLine = mSource.find("\n", curPos);
size_t len = (nextLine == std::string::npos) ? std::string::npos : (nextLine - curPos + 1);
hlslStream << "// " << mSource.substr(curPos, len);
curPos = (nextLine == std::string::npos) ? std::string::npos : (nextLine + 1);
}
hlslStream << "\n\n";
hlslStream << outputHLSL;
mHlsl = hlslStream.str();
#else
mHlsl = outputHLSL;
#endif
delete[] outputHLSL;
void *activeUniforms;
ShGetInfoPointer(compiler, SH_ACTIVE_UNIFORMS_ARRAY, &activeUniforms);
mActiveUniforms = *(std::vector<Uniform>*)activeUniforms;
void *activeInterfaceBlocks;
ShGetInfoPointer(compiler, SH_ACTIVE_INTERFACE_BLOCKS_ARRAY, &activeInterfaceBlocks);
mActiveInterfaceBlocks = *(std::vector<InterfaceBlock>*)activeInterfaceBlocks;
}
else
{
size_t infoLogLen = 0;
ShGetInfo(compiler, SH_INFO_LOG_LENGTH, &infoLogLen);
char* infoLog = new char[infoLogLen];
ShGetInfoLog(compiler, infoLog);
mInfoLog = infoLog;
TRACE("\n%s", mInfoLog.c_str());
}
}
void PrintActiveVariables(ShHandle compiler, ShShaderInfo varType)
{
size_t nameSize = 0;
switch (varType) {
case SH_ACTIVE_ATTRIBUTES:
ShGetInfo(compiler, SH_ACTIVE_ATTRIBUTE_MAX_LENGTH, &nameSize);
break;
case SH_ACTIVE_UNIFORMS:
ShGetInfo(compiler, SH_ACTIVE_UNIFORM_MAX_LENGTH, &nameSize);
break;
default:
assert(0);
}
if (nameSize <= 1) return;
char* name = new char[nameSize];
size_t activeVars = 0;
int size = 0;
sh::GLenum type = GL_NONE;
ShPrecisionType precision = SH_PRECISION_UNDEFINED;
int staticUse = 0;
const char* typeName = NULL;
ShGetInfo(compiler, varType, &activeVars);
for (size_t i = 0; i < activeVars; ++i) {
switch (varType) {
case SH_ACTIVE_ATTRIBUTES:
ShGetVariableInfo(compiler, SH_ACTIVE_ATTRIBUTES, static_cast<int>(i), NULL, &size, &type, &precision, &staticUse, name, NULL);
break;
case SH_ACTIVE_UNIFORMS:
ShGetVariableInfo(compiler, SH_ACTIVE_UNIFORMS, static_cast<int>(i), NULL, &size, &type, &precision, &staticUse, name, NULL);
break;
default:
assert(0);
}
switch (type) {
case GL_FLOAT:
typeName = "GL_FLOAT";
break;
case GL_FLOAT_VEC2:
typeName = "GL_FLOAT_VEC2";
break;
case GL_FLOAT_VEC3:
typeName = "GL_FLOAT_VEC3";
break;
case GL_FLOAT_VEC4:
typeName = "GL_FLOAT_VEC4";
break;
case GL_INT:
typeName = "GL_INT";
break;
case GL_INT_VEC2:
typeName = "GL_INT_VEC2";
break;
case GL_INT_VEC3:
typeName = "GL_INT_VEC3";
break;
case GL_INT_VEC4:
typeName = "GL_INT_VEC4";
break;
case GL_UNSIGNED_INT:
typeName = "GL_UNSIGNED_INT";
break;
case GL_UNSIGNED_INT_VEC2:
typeName = "GL_UNSIGNED_INT_VEC2";
break;
case GL_UNSIGNED_INT_VEC3:
typeName = "GL_UNSIGNED_INT_VEC3";
break;
case GL_UNSIGNED_INT_VEC4:
typeName = "GL_UNSIGNED_INT_VEC4";
break;
case GL_BOOL:
typeName = "GL_BOOL";
break;
case GL_BOOL_VEC2:
typeName = "GL_BOOL_VEC2";
break;
case GL_BOOL_VEC3:
typeName = "GL_BOOL_VEC3";
break;
case GL_BOOL_VEC4:
typeName = "GL_BOOL_VEC4";
break;
case GL_FLOAT_MAT2:
typeName = "GL_FLOAT_MAT2";
break;
case GL_FLOAT_MAT3:
typeName = "GL_FLOAT_MAT3";
break;
case GL_FLOAT_MAT4:
typeName = "GL_FLOAT_MAT4";
break;
case GL_FLOAT_MAT2x3:
typeName = "GL_FLOAT_MAT2x3";
break;
case GL_FLOAT_MAT3x2:
typeName = "GL_FLOAT_MAT3x2";
break;
case GL_FLOAT_MAT4x2:
typeName = "GL_FLOAT_MAT4x2";
break;
case GL_FLOAT_MAT2x4:
typeName = "GL_FLOAT_MAT2x4";
break;
case GL_FLOAT_MAT3x4:
typeName = "GL_FLOAT_MAT3x4";
break;
case GL_FLOAT_MAT4x3:
typeName = "GL_FLOAT_MAT4x3";
break;
case GL_SAMPLER_2D:
typeName = "GL_SAMPLER_2D";
break;
case GL_SAMPLER_CUBE:
typeName = "GL_SAMPLER_CUBE";
break;
case GL_SAMPLER_EXTERNAL_OES:
typeName = "GL_SAMPLER_EXTERNAL_OES";
break;
default:
assert(0);
}
printf("%lu: name:%s type:%s size:%d\n", i, name, typeName, size);
}
delete [] name;
}
inline static ANGLEGetInfoType getValidationResultValue(const ShHandle compiler, ShShaderInfo shaderInfo)
{
ANGLEGetInfoType value = 0;
ShGetInfo(compiler, shaderInfo, &value);
return value;
}
inline static int getValidationResultValue(const ShHandle compiler, ShShaderInfo shaderInfo)
{
int value = -1;
ShGetInfo(compiler, shaderInfo, &value);
return value;
}
