/* * Copyright 2011-2012 Branimir Karadzic. All rights reserved. * License: http://www.opensource.org/licenses/BSD-2-Clause */ #define SHADERC_DEBUG 0 #define NOMINMAX #include #include #include #include #include #include #include "glsl_optimizer.h" #define MAX_TAGS 256 extern "C" { #include } // extern "C" #if SHADERC_DEBUG # define BX_TRACE(_format, ...) fprintf(stderr, "" _format "\n", ##__VA_ARGS__) #endif // DEBUG #define BX_NAMESPACE 1 #include #if BX_PLATFORM_LINUX # include # define _stricmp strcasecmp # define _snprintf snprintf #endif // BX_PLATFORM_LINUX #include #include #include #include #if BX_PLATFORM_WINDOWS # include # include #endif // BX_PLATFORM_WINDOWS long int fsize(FILE* _file) { long int pos = ftell(_file); fseek(_file, 0L, SEEK_END); long int size = ftell(_file); fseek(_file, pos, SEEK_SET); return size; } struct Attrib { enum Enum { Position = 0, Normal, Color0, Color1, Indices, Weight, TexCoord0, TexCoord1, TexCoord2, TexCoord3, TexCoord4, TexCoord5, TexCoord6, TexCoord7, Count, }; }; struct RemapInputSemantic { Attrib::Enum m_attr; const char* m_name; uint8_t m_index; }; static const RemapInputSemantic s_remapInputSemantic[Attrib::Count] = { { Attrib::Position, "POSITION", 0 }, { Attrib::Normal, "NORMAL", 0 }, { Attrib::Color0, "COLOR", 0 }, { Attrib::Color1, "COLOR", 1 }, { Attrib::Indices, "BLENDINDICES", 0 }, { Attrib::Weight, "BLENDWEIGHT", 0 }, { Attrib::TexCoord0, "TEXCOORD", 0 }, { Attrib::TexCoord1, "TEXCOORD", 1 }, { Attrib::TexCoord2, "TEXCOORD", 2 }, { Attrib::TexCoord3, "TEXCOORD", 3 }, { Attrib::TexCoord4, "TEXCOORD", 4 }, { Attrib::TexCoord5, "TEXCOORD", 5 }, { Attrib::TexCoord6, "TEXCOORD", 6 }, { Attrib::TexCoord7, "TEXCOORD", 7 }, }; struct ConstantType { enum Enum { Uniform1i, Uniform1f, End, Uniform1iv, Uniform1fv, Uniform2fv, Uniform3fv, Uniform4fv, Uniform3x3fv, Uniform4x4fv, Count, TypeMask = 0x7f, FragmentBit = 0x80 }; }; static const char* s_constantTypeName[ConstantType::Count] = { "int", "float", NULL, "int", "float", "float2", "float3", "float4", "float3x3", "float4x4", }; struct Uniform { std::string name; ConstantType::Enum type; uint8_t num; uint16_t regIndex; uint16_t regCount; }; typedef std::vector UniformArray; #if BX_PLATFORM_WINDOWS struct ConstRemapDx9 { ConstantType::Enum id; D3DXPARAMETER_CLASS paramClass; D3DXPARAMETER_TYPE paramType; uint32_t paramBytes; }; static const ConstRemapDx9 s_constRemapDx9[7] = { { ConstantType::Uniform1iv, D3DXPC_SCALAR, D3DXPT_INT, 4 }, { ConstantType::Uniform1fv, D3DXPC_SCALAR, D3DXPT_FLOAT, 4 }, { ConstantType::Uniform2fv, D3DXPC_VECTOR, D3DXPT_FLOAT, 8 }, { ConstantType::Uniform3fv, D3DXPC_VECTOR, D3DXPT_FLOAT, 12 }, { ConstantType::Uniform4fv, D3DXPC_VECTOR, D3DXPT_FLOAT, 16 }, { ConstantType::Uniform3x3fv, D3DXPC_MATRIX_COLUMNS, D3DXPT_FLOAT, 36 }, { ConstantType::Uniform4x4fv, D3DXPC_MATRIX_COLUMNS, D3DXPT_FLOAT, 64 }, }; ConstantType::Enum findConstantTypeDx9(const D3DXCONSTANT_DESC& constDesc) { uint32_t count = sizeof(s_constRemapDx9)/sizeof(ConstRemapDx9); for (uint32_t ii = 0; ii < count; ++ii) { const ConstRemapDx9& remap = s_constRemapDx9[ii]; if (remap.paramClass == constDesc.Class && remap.paramType == constDesc.Type && (constDesc.Bytes%remap.paramBytes) == 0) { return remap.id; } } return ConstantType::Count; } static uint32_t s_optimizationLevelDx9[4] = { D3DXSHADER_OPTIMIZATION_LEVEL0, D3DXSHADER_OPTIMIZATION_LEVEL1, D3DXSHADER_OPTIMIZATION_LEVEL2, D3DXSHADER_OPTIMIZATION_LEVEL3, }; struct ConstRemapDx11 { ConstantType::Enum id; D3D_SHADER_VARIABLE_CLASS paramClass; D3D_SHADER_VARIABLE_TYPE paramType; uint32_t paramBytes; }; static const ConstRemapDx11 s_constRemapDx11[7] = { { ConstantType::Uniform1iv, D3D_SVC_SCALAR, D3D_SVT_INT, 4 }, { ConstantType::Uniform1fv, D3D_SVC_SCALAR, D3D_SVT_FLOAT, 4 }, { ConstantType::Uniform2fv, D3D_SVC_VECTOR, D3D_SVT_FLOAT, 8 }, { ConstantType::Uniform3fv, D3D_SVC_VECTOR, D3D_SVT_FLOAT, 12 }, { ConstantType::Uniform4fv, D3D_SVC_VECTOR, D3D_SVT_FLOAT, 16 }, { ConstantType::Uniform3x3fv, D3D_SVC_MATRIX_COLUMNS, D3D_SVT_FLOAT, 36 }, { ConstantType::Uniform4x4fv, D3D_SVC_MATRIX_COLUMNS, D3D_SVT_FLOAT, 64 }, }; ConstantType::Enum findConstantTypeDx11(const D3D11_SHADER_TYPE_DESC& constDesc, uint32_t _size) { uint32_t count = sizeof(s_constRemapDx11)/sizeof(ConstRemapDx9); for (uint32_t ii = 0; ii < count; ++ii) { const ConstRemapDx11& remap = s_constRemapDx11[ii]; if (remap.paramClass == constDesc.Class && remap.paramType == constDesc.Type && remap.paramBytes == _size) { return remap.id; } } return ConstantType::Count; } static uint32_t s_optimizationLevelDx11[4] = { D3DCOMPILE_OPTIMIZATION_LEVEL0, D3DCOMPILE_OPTIMIZATION_LEVEL1, D3DCOMPILE_OPTIMIZATION_LEVEL2, D3DCOMPILE_OPTIMIZATION_LEVEL3, }; #endif // BX_PLATFORM_WINDOWS class IStreamWriter { public: virtual ~IStreamWriter() = 0; virtual bool open() = 0; virtual void close() = 0; virtual void writef(const char* _format, ...) = 0; virtual void write(const char* _str) = 0; virtual void write(const void* _data, size_t _size) = 0; template void write(Ty _value) { write(&_value, sizeof(Ty) ); } void writeString(const char* _str) { uint16_t len = (uint16_t)strlen(_str); write(len); write(_str); char term = '\0'; write(term); } // template // void write(Ty _value) // { // Ty temp = m_bigEndian ? bx::bigEndian(_value) : _value; // write(&temp, sizeof(Ty) ); // } }; IStreamWriter::~IStreamWriter() { } class FileWriter : public IStreamWriter { public: FileWriter(const char* _filePath, bool _bigEndian = false) : m_filePath(_filePath) , m_file(NULL) , m_bigEndian(_bigEndian) { } ~FileWriter() { } bool open() { BX_CHECK(NULL == m_file, "Still open!"); m_file = fopen(m_filePath.c_str(), "wb"); return NULL != m_file; } void close() { if (NULL != m_file) { fclose(m_file); m_file = NULL; } } void writef(const char* _format, ...) { if (NULL != m_file) { va_list argList; va_start(argList, _format); char temp[2048]; int len = vsnprintf(temp, sizeof(temp), _format, argList); fwrite(temp, len, 1, m_file); va_end(argList); } } void write(const char* _str) { if (NULL != m_file) { fwrite(_str, strlen(_str), 1, m_file); } } void write(const void* _data, size_t _size) { if (NULL != m_file) { fwrite(_data, _size, 1, m_file); } } private: std::string m_filePath; FILE* m_file; bool m_bigEndian; }; class Bin2cStream : public IStreamWriter { public: Bin2cStream(const char* _filePath, const char* _name) : m_filePath(_filePath) , m_name(_name) , m_file(NULL) { } ~Bin2cStream() { } bool open() { BX_CHECK(NULL == m_file, "Still open!"); m_file = fopen(m_filePath.c_str(), "wb"); return NULL != m_file; } void close() { if (NULL != m_file) { #define HEX_DUMP_WIDTH 16 #define HEX_DUMP_SPACE_WIDTH 96 #define HEX_DUMP_FORMAT "%-" BX_STRINGIZE(HEX_DUMP_SPACE_WIDTH) "." BX_STRINGIZE(HEX_DUMP_SPACE_WIDTH) "s" const uint8_t* data = &m_buffer[0]; uint32_t size = m_buffer.size(); fprintf(m_file, "static const uint8_t %s[%d] =\n{\n", m_name.c_str(), size); if (NULL != data) { char hex[HEX_DUMP_SPACE_WIDTH+1]; char ascii[HEX_DUMP_WIDTH+1]; uint32_t hexPos = 0; uint32_t asciiPos = 0; for (uint32_t ii = 0; ii < size; ++ii) { _snprintf(&hex[hexPos], sizeof(hex)-hexPos, "0x%02x, ", data[asciiPos]); hexPos += 6; ascii[asciiPos] = isprint(data[asciiPos]) && data[asciiPos] != '\\' ? data[asciiPos] : '.'; asciiPos++; if (HEX_DUMP_WIDTH == asciiPos) { ascii[asciiPos] = '\0'; fprintf(m_file, "\t" HEX_DUMP_FORMAT "// %s\n", hex, ascii); data += asciiPos; hexPos = 0; asciiPos = 0; } } if (0 != asciiPos) { ascii[asciiPos] = '\0'; fprintf(m_file, "\t" HEX_DUMP_FORMAT "// %s\n", hex, ascii); } } fprintf(m_file, "};\n"); #undef HEX_DUMP_WIDTH #undef HEX_DUMP_SPACE_WIDTH #undef HEX_DUMP_FORMAT fclose(m_file); m_file = NULL; } } void writef(const char* _format, ...) { va_list argList; va_start(argList, _format); char temp[2048]; int len = vsnprintf(temp, sizeof(temp), _format, argList); m_buffer.insert(m_buffer.end(), temp, temp+len); va_end(argList); } void write(const char* _str) { m_buffer.insert(m_buffer.end(), _str, _str+strlen(_str) ); } void write(const void* _data, size_t _size) { const char* data = (const char*)_data; m_buffer.insert(m_buffer.end(), data, data+_size); } private: std::string m_filePath; std::string m_name; typedef std::vector Buffer; Buffer m_buffer; FILE* m_file; }; class LineReader { public: LineReader(const char* _str) : m_str(_str) , m_pos(0) , m_size( (uint32_t)strlen(_str) ) { } std::string getLine() { const char* str = &m_str[m_pos]; skipLine(); const char* eol = &m_str[m_pos]; std::string tmp; tmp.assign(str, eol-str); return tmp; } bool isEof() const { return m_str[m_pos] == '\0'; } private: void skipLine() { const char* str = &m_str[m_pos]; const char* eol = strstr(str, "\n\r"); if (NULL != eol) { m_pos += eol-str+2; return; } eol = strstr(str, "\n"); if (NULL != eol) { m_pos += eol-str+1; return; } m_pos += (uint32_t)strlen(str); } const char* m_str; uint32_t m_pos; uint32_t m_size; }; void printCode(const char* _code) { fprintf(stderr, "Code:\n---\n"); LineReader lr(_code); for (uint32_t line = 1; !lr.isEof(); ++line) { fprintf(stderr, "%3d: %s", line, lr.getLine().c_str() ); } fprintf(stderr, "---\n"); } bool compileGLSLShader(CommandLine& _cmdLine, const std::string& _code, IStreamWriter& _stream) { const glslopt_shader_type type = tolower(_cmdLine.findOption('\0', "type")[0]) == 'f' ? kGlslOptShaderFragment : kGlslOptShaderVertex; glslopt_ctx* ctx = glslopt_initialize(false); glslopt_shader* shader = glslopt_optimize(ctx, type, _code.c_str(), 0); if( !glslopt_get_status(shader) ) { printCode(_code.c_str() ); fprintf(stderr, "Error: %s\n", glslopt_get_log(shader) ); glslopt_cleanup(ctx); return false; } const char* optimizedShader = glslopt_get_output(shader); const char* profile = _cmdLine.findOption('p'); if (NULL == profile) { _stream.write("#ifdef GL_ES\n"); _stream.write("precision highp float;\n"); _stream.write("#endif // GL_ES\n\n"); } else { _stream.writef("#version %s\n\n", profile); } _stream.write(optimizedShader, strlen(optimizedShader) ); uint8_t nul = 0; _stream.write(nul); glslopt_cleanup(ctx); return true; } bool compileHLSLShaderDx9(CommandLine& _cmdLine, const std::string& _code, IStreamWriter& _stream) { #if BX_PLATFORM_WINDOWS const char* profile = _cmdLine.findOption('p'); if (NULL == profile) { printf("Shader profile must be specified.\n"); return false; } bool bigEndian = _cmdLine.hasArg('\0', "xbox360"); uint32_t flags = 0; flags |= _cmdLine.hasArg('\0', "debug") ? D3DXSHADER_DEBUG : 0; flags |= _cmdLine.hasArg('\0', "avoid-flow-control") ? D3DXSHADER_AVOID_FLOW_CONTROL : 0; flags |= _cmdLine.hasArg('\0', "no-preshader") ? D3DXSHADER_NO_PRESHADER : 0; flags |= _cmdLine.hasArg('\0', "partial-precision") ? D3DXSHADER_PARTIALPRECISION : 0; flags |= _cmdLine.hasArg('\0', "prefer-flow-control") ? D3DXSHADER_PREFER_FLOW_CONTROL : 0; flags |= _cmdLine.hasArg('\0', "backwards-compatibility") ? D3DXSHADER_ENABLE_BACKWARDS_COMPATIBILITY : 0; bool werror = _cmdLine.hasArg('\0', "Werror"); uint32_t optimization = 3; if (_cmdLine.hasArg(optimization, 'O') ) { optimization = bx::uint32_min(optimization, countof(s_optimizationLevelDx9)-1); flags |= s_optimizationLevelDx9[optimization]; } else { flags |= D3DXSHADER_SKIPOPTIMIZATION; } BX_TRACE("Profile: %s", profile); BX_TRACE("Flags: 0x%08x", flags); BX_TRACE("Big Endian: %s", bigEndian?"true":"false"); LPD3DXBUFFER code; LPD3DXBUFFER errorMsg; LPD3DXCONSTANTTABLE constantTable; HRESULT hr = D3DXCompileShader(_code.c_str() , _code.size() , NULL , NULL , "main" , profile , flags , &code , &errorMsg , &constantTable ); if (FAILED(hr) || werror && NULL != errorMsg) { printCode(_code.c_str() ); fprintf(stderr, "Error: 0x%08x %s\n", hr, errorMsg->GetBufferPointer() ); return false; } D3DXCONSTANTTABLE_DESC desc; hr = constantTable->GetDesc(&desc); if (FAILED(hr) ) { fprintf(stderr, "Error 0x%08x\n", hr); return false; } BX_TRACE("Creator: %s 0x%08x", desc.Creator, desc.Version); BX_TRACE("Num constants: %d", desc.Constants); BX_TRACE("# cl ty RxC S By Name"); UniformArray uniforms; for (uint32_t ii = 0; ii < desc.Constants; ++ii) { D3DXHANDLE handle = constantTable->GetConstant(NULL, ii); D3DXCONSTANT_DESC constDesc; uint32_t count; constantTable->GetConstantDesc(handle, &constDesc, &count); BX_TRACE("%3d %2d %2d [%dx%d] %d %3d %s[%d] c%d (%d)" , ii , constDesc.Class , constDesc.Type , constDesc.Rows , constDesc.Columns , constDesc.StructMembers , constDesc.Bytes , constDesc.Name , constDesc.Elements , constDesc.RegisterIndex , constDesc.RegisterCount ); ConstantType::Enum type = findConstantTypeDx9(constDesc); if (ConstantType::Count != type) { Uniform un; un.name = '$' == constDesc.Name[0] ? constDesc.Name+1 : constDesc.Name; un.type = type; un.num = constDesc.Elements; un.regIndex = constDesc.RegisterIndex; un.regCount = constDesc.RegisterCount; uniforms.push_back(un); } } uint16_t count = (uint16_t)uniforms.size(); _stream.write(count); uint32_t fragmentBit = profile[0] == 'p' ? ConstantType::FragmentBit : 0; for (UniformArray::const_iterator it = uniforms.begin(); it != uniforms.end(); ++it) { const Uniform& un = *it; uint8_t nameSize = (uint8_t)un.name.size(); _stream.write(nameSize); _stream.write(un.name.c_str(), nameSize); _stream.write(un.type|fragmentBit); _stream.write(un.num); _stream.write(un.regIndex); _stream.write(un.regCount); BX_TRACE("%s, %s, %d, %d, %d" , un.name.c_str() , s_constantTypeName[un.type] , un.num , un.regIndex , un.regCount ); } uint16_t shaderSize = (uint16_t)code->GetBufferSize(); _stream.write(shaderSize); _stream.write(code->GetBufferPointer(), shaderSize); uint8_t nul = 0; _stream.write(nul); if (NULL != code) { code->Release(); } if (NULL != errorMsg) { errorMsg->Release(); } if (NULL != constantTable) { constantTable->Release(); } return true; #else fprintf(stderr, "HLSL compiler is not supported on this platform.\n"); return false; #endif // BX_PLATFORM_WINDOWS } bool compileHLSLShaderDx11(CommandLine& _cmdLine, const std::string& _code, IStreamWriter& _stream) { #if BX_PLATFORM_WINDOWS const char* profile = _cmdLine.findOption('p'); if (NULL == profile) { printf("Shader profile must be specified.\n"); return false; } bool bigEndian = _cmdLine.hasArg('\0', "xbox360"); uint32_t flags = D3DCOMPILE_ENABLE_BACKWARDS_COMPATIBILITY; flags |= _cmdLine.hasArg('\0', "debug") ? D3DCOMPILE_DEBUG : 0; flags |= _cmdLine.hasArg('\0', "avoid-flow-control") ? D3DCOMPILE_AVOID_FLOW_CONTROL : 0; flags |= _cmdLine.hasArg('\0', "no-preshader") ? D3DCOMPILE_NO_PRESHADER : 0; flags |= _cmdLine.hasArg('\0', "partial-precision") ? D3DCOMPILE_PARTIAL_PRECISION : 0; flags |= _cmdLine.hasArg('\0', "prefer-flow-control") ? D3DCOMPILE_PREFER_FLOW_CONTROL : 0; flags |= _cmdLine.hasArg('\0', "backwards-compatibility") ? D3DCOMPILE_ENABLE_BACKWARDS_COMPATIBILITY : 0; bool werror = _cmdLine.hasArg('\0', "Werror"); if (werror) { flags |= D3DCOMPILE_WARNINGS_ARE_ERRORS; } uint32_t optimization = 3; if (_cmdLine.hasArg(optimization, 'O') ) { optimization = bx::uint32_min(optimization, countof(s_optimizationLevelDx11)-1); flags |= s_optimizationLevelDx11[optimization]; } else { flags |= D3DCOMPILE_SKIP_OPTIMIZATION; } BX_TRACE("Profile: %s", profile); BX_TRACE("Flags: 0x%08x", flags); BX_TRACE("Big Endian: %s", bigEndian?"true":"false"); ID3DBlob* code; ID3DBlob* errorMsg; HRESULT hr = D3DCompile(_code.c_str() , _code.size() , NULL , NULL , NULL , "main" , profile , flags , 0 , &code , &errorMsg ); if (FAILED(hr) || werror && NULL != errorMsg) { printCode(_code.c_str() ); fprintf(stderr, BX_FILE_LINE_LITERAL "Error: 0x%08x %s\n", hr, errorMsg->GetBufferPointer() ); return false; } UniformArray uniforms; ID3D11ShaderReflection* reflect = NULL; hr = D3DReflect(code->GetBufferPointer() , code->GetBufferSize() , IID_ID3D11ShaderReflection , (void**)&reflect ); if (FAILED(hr) ) { fprintf(stderr, BX_FILE_LINE_LITERAL "Error: 0x%08x\n", hr); return false; } D3D11_SHADER_DESC desc; hr = reflect->GetDesc(&desc); if (FAILED(hr) ) { fprintf(stderr, BX_FILE_LINE_LITERAL "Error: 0x%08x\n", hr); return false; } BX_TRACE("Creator: %s 0x%08x", desc.Creator, desc.Version); BX_TRACE("Num constant buffers: %d", desc.ConstantBuffers); BX_TRACE("Input:"); uint8_t numAttr = (uint8_t)desc.InputParameters; _stream.write(numAttr); for (uint32_t ii = 0; ii < numAttr; ++ii) { D3D11_SIGNATURE_PARAMETER_DESC spd; reflect->GetInputParameterDesc(ii, &spd); BX_TRACE("\t%2d: %s%d, %d, %d, %x, %d" , ii , spd.SemanticName , spd.SemanticIndex , spd.SystemValueType , spd.ComponentType , spd.Mask , spd.Register ); uint8_t semanticIndex = spd.SemanticIndex; _stream.write(semanticIndex); uint8_t len = (uint8_t)strlen(spd.SemanticName); _stream.write(len); _stream.write(spd.SemanticName); } BX_TRACE("Output:"); for (uint32_t ii = 0; ii < desc.OutputParameters; ++ii) { D3D11_SIGNATURE_PARAMETER_DESC spd; reflect->GetOutputParameterDesc(ii, &spd); BX_TRACE("\t%2d: %s%d, %d, %d", ii, spd.SemanticName, spd.SemanticIndex, spd.SystemValueType, spd.ComponentType); } uint16_t size = 0; for (uint32_t ii = 0; ii < bx::uint32_min(1, desc.ConstantBuffers); ++ii) { ID3D11ShaderReflectionConstantBuffer* cbuffer = reflect->GetConstantBufferByIndex(ii); D3D11_SHADER_BUFFER_DESC bufferDesc; hr = cbuffer->GetDesc(&bufferDesc); size = (uint16_t)bufferDesc.Size; if (SUCCEEDED(hr) ) { BX_TRACE("%s, %d, vars %d, size %d" , bufferDesc.Name , bufferDesc.Type , bufferDesc.Variables , bufferDesc.Size ); for (uint32_t jj = 0; jj < bufferDesc.Variables; ++jj) { ID3D11ShaderReflectionVariable* var = cbuffer->GetVariableByIndex(jj); ID3D11ShaderReflectionType* type = var->GetType(); D3D11_SHADER_VARIABLE_DESC varDesc; hr = var->GetDesc(&varDesc); if (SUCCEEDED(hr) ) { D3D11_SHADER_TYPE_DESC constDesc; hr = type->GetDesc(&constDesc); if (SUCCEEDED(hr) ) { ConstantType::Enum type = findConstantTypeDx11(constDesc, varDesc.Size); if (ConstantType::Count != type && 0 != (varDesc.uFlags & D3D_SVF_USED) ) { Uniform un; un.name = varDesc.Name; un.type = type; un.num = constDesc.Elements; un.regIndex = varDesc.StartOffset; un.regCount = varDesc.Size; uniforms.push_back(un); BX_TRACE("\t%s, %d, size %d, flags 0x%08x, %d" , varDesc.Name , varDesc.StartOffset , varDesc.Size , varDesc.uFlags , type ); } } } } } } BX_TRACE("Bound:"); for (uint32_t ii = 0; ii < desc.BoundResources; ++ii) { D3D11_SHADER_INPUT_BIND_DESC bindDesc; hr = reflect->GetResourceBindingDesc(ii, &bindDesc); if (SUCCEEDED(hr) ) { // if (bindDesc.Type == D3D_SIT_SAMPLER) { BX_TRACE("\t%s, %d, %d, %d" , bindDesc.Name , bindDesc.Type , bindDesc.BindPoint , bindDesc.BindCount ); } } } uint16_t count = (uint16_t)uniforms.size(); _stream.write(count); _stream.write(size); uint32_t fragmentBit = profile[0] == 'p' ? ConstantType::FragmentBit : 0; for (UniformArray::const_iterator it = uniforms.begin(); it != uniforms.end(); ++it) { const Uniform& un = *it; uint8_t nameSize = (uint8_t)un.name.size(); _stream.write(nameSize); _stream.write(un.name.c_str(), nameSize); _stream.write(un.type|fragmentBit); _stream.write(un.num); _stream.write(un.regIndex); _stream.write(un.regCount); BX_TRACE("%s, %s, %d, %d, %d" , un.name.c_str() , s_constantTypeName[un.type] , un.num , un.regIndex , un.regCount ); } uint16_t shaderSize = (uint16_t)code->GetBufferSize(); _stream.write(shaderSize); _stream.write(code->GetBufferPointer(), shaderSize); uint8_t nul = 0; _stream.write(nul); if (NULL != reflect) { reflect->Release(); } if (NULL != code) { code->Release(); } if (NULL != errorMsg) { errorMsg->Release(); } return true; #else fprintf(stderr, "HLSL compiler is not supported on this platform.\n"); return false; #endif // BX_PLATFORM_WINDOWS } struct Preprocessor { Preprocessor(const char* _filePath) : m_tagptr(m_tags) , m_scratchPos(0) , m_fgetsPos(0) { m_filePath = scratch(_filePath); m_tagptr->tag = FPPTAG_USERDATA; m_tagptr->data = this; m_tagptr++; m_tagptr->tag = FPPTAG_DEPENDS; m_tagptr->data = (void*)fppDepends; m_tagptr++; m_tagptr->tag = FPPTAG_INPUT; m_tagptr->data = (void*)fppInput; m_tagptr++; m_tagptr->tag = FPPTAG_OUTPUT; m_tagptr->data = (void*)fppOutput; m_tagptr++; m_tagptr->tag = FPPTAG_ERROR; m_tagptr->data = (void*)fppError; m_tagptr++; m_tagptr->tag = FPPTAG_IGNOREVERSION; m_tagptr->data = (void*)0; m_tagptr++; m_tagptr->tag = FPPTAG_LINE; m_tagptr->data = (void*)0; m_tagptr++; m_tagptr->tag = FPPTAG_INPUT_NAME; m_tagptr->data = m_filePath; m_tagptr++; m_default = "#define lowp\n#define mediump\n#define highp\n"; } void setDefine(const char* _define) { m_tagptr->tag = FPPTAG_DEFINE; m_tagptr->data = scratch(_define); m_tagptr++; } void setDefaultDefine(const char* _name) { char temp[1024]; _snprintf(temp, countof(temp) , "#ifndef %s\n" "# define %s 0\n" "#endif // %s\n" "\n" , _name , _name , _name ); m_default += temp; } void addDependency(const char* _fileName) { m_depends += " \\\n "; m_depends += _fileName; } bool run() { m_fgetsPos = 0; FILE* file = fopen(m_filePath, "r"); if (NULL == file) { return false; } long int size = fsize(file); char* input = new char[size+1]; size = fread(input, 1, size, file); input[size] = '\0'; fclose(file); m_input = m_default; m_input += input; fppTag* tagptr = m_tagptr; tagptr->tag = FPPTAG_END; tagptr->data = 0; tagptr++; int result = fppPreProcess(m_tags); return 0 == result; } char* fgets(char* _buffer, int _size) { int ii = 0; for (char ch = m_input[m_fgetsPos]; m_fgetsPos < m_input.size() && ii < _size-1; ch = m_input[++m_fgetsPos]) { _buffer[ii++] = ch; if (ch == '\n' || ii == _size) { _buffer[ii] = '\0'; m_fgetsPos++; return _buffer; } } return NULL; } static void fppDepends(char* _fileName, void* _userData) { Preprocessor* thisClass = (Preprocessor*)_userData; thisClass->addDependency(_fileName); } static char* fppInput(char* _buffer, int _size, void* _userData) { Preprocessor* thisClass = (Preprocessor*)_userData; return thisClass->fgets(_buffer, _size); } static void fppOutput(int _ch, void* _userData) { Preprocessor* thisClass = (Preprocessor*)_userData; thisClass->m_preprocessed += _ch; } static void fppError(void* _userData, char* _format, va_list _vargs) { vfprintf(stderr, _format, _vargs); } char* scratch(const char* _str) { char* result = &m_scratch[m_scratchPos]; strcpy(result, _str); m_scratchPos += strlen(_str)+1; return result; } fppTag m_tags[MAX_TAGS]; fppTag* m_tagptr; char* m_filePath; std::string m_depends; std::string m_default; std::string m_input; std::string m_preprocessed; char m_scratch[16<<10]; uint32_t m_scratchPos; uint32_t m_fgetsPos; }; const char* baseName(const char* _filePath) { const char* bs = strrchr(_filePath, '\\'); const char* fs = strrchr(_filePath, '/'); const char* column = strrchr(_filePath, ':'); const char* basename = std::max(std::max(bs, fs), column); if (NULL != basename) { return basename+1; } return _filePath; } // OpenGL #version Features Direct3D Features Shader Model // 2.1 120 vf 9.0 vf 2.0 // 3.0 130 // 3.1 140 // 3.2 150 vgf // 3.3 330 10.0 vgf 4.0 // 4.0 400 vhdgf // 4.1 410 // 4.2 420 11.0 vhdgf 5.0 int main(int _argc, const char* _argv[]) { CommandLine cmdLine(_argc, _argv); const char* filePath = cmdLine.findOption('f'); if (NULL == filePath) { fprintf(stderr, "Shader file name must be specified.\n"); return EXIT_FAILURE; } const char* outFilePath = cmdLine.findOption('o'); if (NULL == outFilePath) { fprintf(stderr, "Output file name must be specified.\n"); return EXIT_FAILURE; } const char* type = cmdLine.findOption('\0', "type"); if (NULL == type) { fprintf(stderr, "Must specify shader type."); return EXIT_FAILURE; } const char* platform = cmdLine.findOption('\0', "platform"); if (NULL == platform) { fprintf(stderr, "Must specify platform.\n"); return EXIT_FAILURE; } uint32_t hlsl = 2; const char* profile = cmdLine.findOption('p'); if (NULL != profile) { if (0 == strncmp(&profile[1], "s_3", 3) ) { hlsl = 3; } else if (0 == strncmp(&profile[1], "s_4", 3) ) { hlsl = 4; } else if (0 == strncmp(&profile[1], "s_5", 3) ) { hlsl = 5; } } const char* bin2c = NULL; if (cmdLine.hasArg("bin2c") ) { bin2c = cmdLine.findOption("bin2c"); if (NULL == bin2c) { bin2c = baseName(outFilePath); uint32_t len = strlen(bin2c); char* temp = (char*)alloca(len+1); for (char *out = temp; *bin2c != '\0';) { char ch = *bin2c++; if (isalnum(ch) ) { *out++ = ch; } else { *out++ = '_'; } } temp[len] = '\0'; bin2c = temp; } } bool depends = cmdLine.hasArg("depends"); bool preprocessOnly = cmdLine.hasArg("preprocess"); Preprocessor preprocessor(filePath); preprocessor.setDefaultDefine("BX_PLATFORM_ANDROID"); preprocessor.setDefaultDefine("BX_PLATFORM_IOS"); preprocessor.setDefaultDefine("BX_PLATFORM_LINUX"); preprocessor.setDefaultDefine("BX_PLATFORM_NACL"); preprocessor.setDefaultDefine("BX_PLATFORM_OSX"); preprocessor.setDefaultDefine("BX_PLATFORM_WINDOWS"); preprocessor.setDefaultDefine("BX_PLATFORM_XBOX360"); preprocessor.setDefaultDefine("BGFX_SHADER_LANGUAGE_GLSL"); preprocessor.setDefaultDefine("BGFX_SHADER_LANGUAGE_HLSL"); preprocessor.setDefaultDefine("BGFX_SHADER_TYPE_FRAGMENT"); preprocessor.setDefaultDefine("BGFX_SHADER_TYPE_VERTEX"); bool glsl = false; if (0 == _stricmp(platform, "android") ) { preprocessor.setDefine("BX_PLATFORM_ANDROID=1"); preprocessor.setDefine("BGFX_SHADER_LANGUAGE_GLSL=1"); glsl = true; } else if (0 == _stricmp(platform, "ios") ) { preprocessor.setDefine("BX_PLATFORM_IOS=1"); preprocessor.setDefine("BGFX_SHADER_LANGUAGE_GLSL=1"); glsl = true; } else if (0 == _stricmp(platform, "linux") ) { preprocessor.setDefine("BX_PLATFORM_IOS=1"); preprocessor.setDefine("BGFX_SHADER_LANGUAGE_GLSL=1"); glsl = true; } else if (0 == _stricmp(platform, "nacl") ) { preprocessor.setDefine("BX_PLATFORM_NACL=1"); preprocessor.setDefine("BGFX_SHADER_LANGUAGE_GLSL=1"); glsl = true; } else if (0 == _stricmp(platform, "osx") ) { preprocessor.setDefine("BX_PLATFORM_OSX=1"); preprocessor.setDefine("BGFX_SHADER_LANGUAGE_GLSL=1"); glsl = true; } else if (0 == _stricmp(platform, "windows") ) { preprocessor.setDefine("BX_PLATFORM_WINDOWS=1"); char temp[256]; _snprintf(temp, sizeof(temp), "BGFX_SHADER_LANGUAGE_HLSL=%d", hlsl); preprocessor.setDefine(temp); } else if (0 == _stricmp(platform, "xbox360") ) { preprocessor.setDefine("BX_PLATFORM_XBOX360=1"); preprocessor.setDefine("BGFX_SHADER_LANGUAGE_HLSL=3"); } else { fprintf(stderr, "Unknown platform %s?!", platform); return EXIT_FAILURE; } switch (tolower(type[0]) ) { case 'f': preprocessor.setDefine("BGFX_SHADER_TYPE_FRAGMENT=1"); break; case 'v': preprocessor.setDefine("BGFX_SHADER_TYPE_VERTEX=1"); break; default: fprintf(stderr, "Unknown type: %s?!", type); return EXIT_FAILURE; } if (preprocessor.run() ) { BX_TRACE("Input file: %s", filePath); BX_TRACE("Output file: %s", outFilePath); if (preprocessOnly) { FileWriter stream(outFilePath); if (!stream.open() ) { fprintf(stderr, "Unable to open output file '%s'.", outFilePath); return false; } if (glsl) { const char* profile = cmdLine.findOption('p'); if (NULL == profile) { stream.write("#ifdef GL_ES\n"); stream.write("precision highp float;\n"); stream.write("#endif // GL_ES\n\n"); } else { stream.writef("#version %s\n\n", profile); } } stream.write(preprocessor.m_preprocessed.c_str(), preprocessor.m_preprocessed.size() ); stream.close(); return EXIT_SUCCESS; } bool compiled = false; { IStreamWriter* stream = NULL; if (NULL != bin2c) { stream = new Bin2cStream(outFilePath, bin2c); } else { stream = new FileWriter(outFilePath); } if (!stream->open() ) { fprintf(stderr, "Unable to open output file '%s'.", outFilePath); return false; } if (glsl) { compiled = compileGLSLShader(cmdLine, preprocessor.m_preprocessed, *stream); } else { if (hlsl > 3) { compiled = compileHLSLShaderDx11(cmdLine, preprocessor.m_preprocessed, *stream); } else { compiled = compileHLSLShaderDx9(cmdLine, preprocessor.m_preprocessed, *stream); } } #if SHADERC_DEBUG stream->writeString(filePath); #endif // SHADERC_DEBUG stream->close(); delete stream; } if (compiled) { if (depends) { std::string ofp = outFilePath; ofp += ".d"; FileWriter stream(ofp.c_str() ); if (stream.open() ) { stream.write(outFilePath); stream.write(":"); stream.write(preprocessor.m_depends.c_str() ); stream.write("\n"); stream.close(); } } return EXIT_SUCCESS; } } fprintf(stderr, "Failed to build shader.\n"); return EXIT_FAILURE; }