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#ifndef GLW_UTILITY_H
#define GLW_UTILITY_H
#include <stdio.h>
#include <stddef.h>
#include <string>
#include <sstream>
#include <map>
#include <vector>
#include "./context.h"
#define GLW_STRINGIFY(S) #S
#define GLW_OFFSET_OF(TYPE, MEMBER) ((const void *)(offsetof(TYPE, MEMBER)))
namespace glw
{
class ShaderHeaderBuilder
{
public:
typedef void BaseType;
typedef ShaderHeaderBuilder ThisType;
void clear(void)
{
this->m_version .clear();
this->m_extensions .clear();
this->m_defines .clear();
this->m_texts .clear();
}
ThisType & version(const std::string & v)
{
this->m_version = v;
return (*this);
}
ThisType & enableExtension(const std::string & ext)
{
this->m_extensions[ext] = ThisType::Enable;
return (*this);
}
ThisType & disableExtension(const std::string & ext)
{
this->m_extensions[ext] = ThisType::Disable;
return (*this);
}
ThisType & requireExtension(const std::string & ext)
{
this->m_extensions[ext] = ThisType::Require;
return (*this);
}
ThisType & define(const std::string & name, const std::string & value)
{
this->m_defines[name] = value;
return (*this);
}
ThisType & text(const std::string & txt)
{
this->m_texts.push_back(txt);
return (*this);
}
std::string toString(void) const
{
const char * extModeMap[] =
{
"",
"enable",
"disable",
"require"
};
std::ostringstream res;
if (!this->m_version.empty())
{
res << "#version " << this->m_version << std::endl;
res << std::endl;
}
if (!this->m_extensions.empty())
{
for (ExtensionMapConstIterator it=this->m_extensions.begin(); it!=this->m_extensions.end(); ++it)
{
if (it->second == ThisType::DontCare) continue;
res << "#extension " << it->first << " : " << extModeMap[it->second] << std::endl;
}
res << std::endl;
}
if (!this->m_defines.empty())
{
for (DefineMapConstIterator it=this->m_defines.begin(); it!=this->m_defines.end(); ++it)
{
res << "#define " << it->first << " " << it->second << std::endl;
}
res << std::endl;
}
if (!this->m_texts.empty())
{
for (size_t i=0; i<this->m_texts.size(); ++i)
{
res << this->m_texts[i] << std::endl;
}
res << std::endl;
}
return res.str();
}
protected:
enum ExtensionMode
{
DontCare = 0,
Enable,
Disable,
Require
};
typedef std::map<std::string, ExtensionMode> ExtensionMap;
typedef ExtensionMap::const_iterator ExtensionMapConstIterator;
typedef ExtensionMap::iterator ExtensionMapIterator;
typedef ExtensionMap::value_type ExtensionMapValue;
typedef std::map<std::string, std::string> DefineMap;
typedef DefineMap::const_iterator DefineMapConstIterator;
typedef DefineMap::iterator DefineMapIterator;
typedef DefineMap::value_type DefineMapValue;
typedef std::vector<std::string> TextVector;
std::string m_version;
ExtensionMap m_extensions;
DefineMap m_defines;
TextVector m_texts;
};
inline std::string readTextFile(const char * fileName)
{
std::string r;
if (fileName == 0) return r;
FILE * f = fopen(fileName, "rb");
if (f == 0) return r;
fseek(f, 0, SEEK_END);
const size_t sz = size_t(ftell(f));
rewind(f);
char * str = new char [sz + 1];
fread(str, sizeof(char), sz / sizeof(char), f);
fclose(f);
str[sz] = '\0';
r = str;
delete [] str;
return r;
}
inline std::string readTextFile(const std::string & fileName)
{
return readTextFile(fileName.c_str());
}
inline BufferHandle createBuffer(Context & ctx, GLsizeiptr size, const void * data = 0, GLenum usage = GL_STATIC_DRAW)
{
BufferArguments args;
args.size = size;
args.usage = usage;
args.data = data;
return ctx.createBuffer(args);
}
template <typename TValue, typename TAllocator>
inline BufferHandle createBuffer(Context & ctx, const std::vector<TValue, TAllocator> & data, GLenum usage = GL_STATIC_DRAW)
{
return createBuffer(ctx, GLsizeiptr(sizeof(TValue) * data.size()), ((!data.empty()) ? (&(data[0])) : (0)), usage);
}
inline RenderbufferHandle createRenderbuffer(Context & ctx, GLenum format, GLsizei width, GLsizei height)
{
RenderbufferArguments args;
args.format = format;
args.width = width;
args.height = height;
return ctx.createRenderbuffer(args);
}
inline Texture2DHandle createTexture2D(Context & ctx, GLenum format, GLsizei width, GLsizei height, GLenum dataFormat, GLenum dataType, const void * data = 0, const TextureSampleMode & sampler = TextureSampleMode())
{
Texture2DArguments args;
args.format = format;
args.width = width;
args.height = height;
args.dataFormat = dataFormat;
args.dataType = dataType;
args.data = data;
args.sampler = sampler;
return ctx.createTexture2D(args);
}
inline TextureCubeHandle createTextureCube(Context & ctx, GLenum format, GLsizei size, GLenum dataFormat, GLenum dataType, const void * data = 0, const TextureSampleMode & sampler = TextureSampleMode())
{
TextureCubeArguments args;
args.format = format;
args.size = size;
args.dataFormat = dataFormat;
args.dataType = dataType;
args.data = data;
args.sampler = sampler;
return ctx.createTextureCube(args);
}
inline FramebufferHandle createFramebufferWithDepthStencil
(
Context & ctx,
const RenderTarget & depthTarget,
const RenderTarget & stencilTarget,
const RenderTarget & colorTarget0 = RenderTarget(),
const RenderTarget & colorTarget1 = RenderTarget(),
const RenderTarget & colorTarget2 = RenderTarget(),
const RenderTarget & colorTarget3 = RenderTarget(),
const RenderTarget & colorTarget4 = RenderTarget(),
const RenderTarget & colorTarget5 = RenderTarget(),
const RenderTarget & colorTarget6 = RenderTarget(),
const RenderTarget & colorTarget7 = RenderTarget()
)
{
FramebufferArguments args;
args.depthTarget = depthTarget;
args.stencilTarget = stencilTarget;
if (colorTarget0.target) { args.colorTargets[0] = colorTarget0; args.targetInputs[0] = 0; }
if (colorTarget1.target) { args.colorTargets[1] = colorTarget1; args.targetInputs[1] = 1; }
if (colorTarget2.target) { args.colorTargets[2] = colorTarget2; args.targetInputs[2] = 2; }
if (colorTarget3.target) { args.colorTargets[3] = colorTarget3; args.targetInputs[3] = 3; }
if (colorTarget4.target) { args.colorTargets[4] = colorTarget4; args.targetInputs[4] = 4; }
if (colorTarget5.target) { args.colorTargets[5] = colorTarget5; args.targetInputs[5] = 5; }
if (colorTarget6.target) { args.colorTargets[6] = colorTarget6; args.targetInputs[6] = 6; }
if (colorTarget7.target) { args.colorTargets[7] = colorTarget7; args.targetInputs[7] = 7; }
return ctx.createFramebuffer(args);
}
inline FramebufferHandle createFramebuffer
(
Context & ctx,
const RenderTarget & depthTarget,
const RenderTarget & colorTarget0 = RenderTarget(),
const RenderTarget & colorTarget1 = RenderTarget(),
const RenderTarget & colorTarget2 = RenderTarget(),
const RenderTarget & colorTarget3 = RenderTarget(),
const RenderTarget & colorTarget4 = RenderTarget(),
const RenderTarget & colorTarget5 = RenderTarget(),
const RenderTarget & colorTarget6 = RenderTarget(),
const RenderTarget & colorTarget7 = RenderTarget()
)
{
RenderTarget nullTarget;
return createFramebufferWithDepthStencil(ctx, depthTarget, nullTarget, colorTarget0, colorTarget1, colorTarget2, colorTarget3, colorTarget4, colorTarget5, colorTarget6, colorTarget7);
}
inline ProgramHandle createProgram(Context & ctx, const std::string & srcPrefix, const std::string & vertexSrc, const std::string & geometrySrc, const std::string & fragmentSrc, const ProgramArguments & args = ProgramArguments())
{
ProgramArguments pArgs = args;
if (!vertexSrc.empty())
{
VertexShaderArguments args;
args.source = srcPrefix + vertexSrc;
pArgs.shaders.push_back(ctx.createVertexShader(args));
}
if (!geometrySrc.empty())
{
GeometryShaderArguments args;
args.source = srcPrefix + geometrySrc;
pArgs.shaders.push_back(ctx.createGeometryShader(args));
}
if (!fragmentSrc.empty())
{
FragmentShaderArguments args;
args.source = srcPrefix + fragmentSrc;
pArgs.shaders.push_back(ctx.createFragmentShader(args));
}
return ctx.createProgram(pArgs);
}
inline ProgramHandle createProgram(Context & ctx, const std::string & srcPrefix, const std::string & vertexSrc, const std::string & fragmentSrc, const ProgramArguments & args = ProgramArguments())
{
return createProgram(ctx, srcPrefix, vertexSrc, "", fragmentSrc, args);
}
inline ProgramHandle loadProgram(Context & ctx, const std::string & srcPrefix, const std::string & vertexFile, const std::string & geometryFile, const std::string & fragmentFile, const ProgramArguments & args = ProgramArguments())
{
return createProgram(ctx, srcPrefix, readTextFile(vertexFile), readTextFile(geometryFile), readTextFile(fragmentFile), args);
}
inline ProgramHandle loadProgram(Context & ctx, const std::string & srcPrefix, const std::string & vertexFile, const std::string & fragmentFile, const ProgramArguments & args = ProgramArguments())
{
return loadProgram(ctx, srcPrefix, vertexFile, "", fragmentFile.c_str(), args);
}
};
#endif // GLW_UTILITY_H
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