genesis-3d_engine/Engine/addons/shadercompiler/ShaderElement.cc

/****************************************************************************
Copyright (c) 2011-2013,WebJet Business Division,CYOU
 
http://www.genesis-3d.com.cn

Permission is hereby granted, free of charge, to any person obtaining a copy
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****************************************************************************/
#include "stdneb.h"
#include "ShaderElement.h"
#include "Utility/ShaderCompilerUtil.h"
#include "ShaderCompiler.h"


namespace ShaderProgramCompiler
{
	__ImplementClass(ShaderBasis,'SHBS',Core::RefCounted);

ShaderBasis::ShaderBasis()
{

}

ShaderBasis::~ShaderBasis()
{

}


	__ImplementClass(ShaderPass,'SHPA', ShaderBasis);

ShaderPass::ShaderPass()
	: m_bNeedCompileVertex(false),
	  m_bNeedCompilePixel(false),
	  m_bNeedCompileCompositive(false),
	  m_PassType(ShaderJoint::Forward)
{
	m_CompilerKeyWords.Append("VertexShader");
	m_CompilerKeyWords.Append("PixelShader");
	m_CompilerKeyWords.Append("Template");
}

ShaderPass::~ShaderPass()
{

}

bool ShaderPass::Parse()
{
	bool res = _ParseCompilerStage();

	if (m_CommonShaderSetting.HasEntry(CommonShaderSetting::Template))
	{
		res &= _ParseParameterStage();
	}

	_ParseMacroStage();

	_AnalyzeShaderType();

	return res;
}

bool ShaderPass::_ParseCompilerStage()
{

	for (IndexT i = 0; i < m_CompilerKeyWords.Size(); ++i)
	{
		const Util::String& entryName = m_CompilerKeyWords[i];

		IndexT pos = m_sCompiler.FindStringIndex(entryName);

		if (pos != InvalidIndex)
		{
			IndexT nCR = m_sCompiler.FindCharIndex('\n', pos);
			Util::String sEntry; 
			if (nCR != InvalidIndex)
			{
				sEntry = m_sCompiler.ExtractRange(pos, nCR - pos + 1); 
			}

			IndexT bEqual = sEntry.FindStringIndex("=");

			if (bEqual != InvalidIndex)
			{
				Util::String shaderEntry = sEntry.ExtractToEnd(bEqual+1);
				Util::Array< Util::String > shaderEntries;
				Util::String entryValue;

				SizeT nCount = ShaderUtil::TokenizeWithoutCRLF(shaderEntry, entryValue);

				if (!nCount)
				{
					SYS_EXCEPT(Exceptions::ShaderException, 
						STRING_FORMAT("Shader Entry Name is Empty!\n", ""),
						GET_FUNCTION_NAME()
						);
				}
				else if (nCount > 1)
				{
					SYS_EXCEPT(Exceptions::ShaderException, 
						STRING_FORMAT("%s support only one name!\n", entryName.AsCharPtr()),
						GET_FUNCTION_NAME()
						);
				}

				if (entryName == "VertexShader")
				{
					m_CommonShaderSetting.AddEntry(CommonShaderSetting::Vertex, entryValue);
				}
				else if (entryName == "PixelShader")
				{
					m_CommonShaderSetting.AddEntry(CommonShaderSetting::Pixel, entryValue);
				}
				else if (entryName == "Template")
				{
					m_CommonShaderSetting.AddEntry(CommonShaderSetting::Template, entryValue);
				}
				else
				{
					SYS_EXCEPT(Exceptions::ShaderException, 
						STRING_FORMAT("Invalid Entry, shader only supports VertexShader, PixelShader or Template\n", ""),
						GET_FUNCTION_NAME()
						);


					return false;
				}
			}
			else
			{
				SYS_EXCEPT(Exceptions::ShaderException, 
					STRING_FORMAT(" there must be a '=' after VertexShader, PixelShader or Template! \n", ""),
					GET_FUNCTION_NAME()
					);
			}
			
		}
		
	}

	return true;

}

bool ShaderPass::_ParseParameterStage()
{
	static const Util::String paramKeyWord( "#PARAMETER " );

	IndexT pos = m_sCompiler.FindStringIndex(paramKeyWord);
	
	if (pos != InvalidIndex)
	{
		pos += paramKeyWord.Length();

		IndexT nCR          = m_sCompiler.FindCharIndex('\n', pos);
		Util::String sParam = m_sCompiler.ExtractRange(pos, nCR - pos + 1);

		Util::Array< Util::String > params;
		
		ShaderUtil::TokenizeWithoutCRLF(sParam, params);

		if (params.IsEmpty())
		{
			SYS_EXCEPT(Exceptions::ShaderException, 
				STRING_FORMAT("at least, you must supply lighting model parameter! \n", ""),
				GET_FUNCTION_NAME()
				);
		}

		m_ShadingSetting.SetLightingType(params[0]);

		Util::Dictionary<Util::String, Util::String> paramValuePairs;

		for (IndexT i = 1; i < params.Size(); ++i)
		{
			const Util::String& param = params[i];
			IndexT pos = param.FindCharIndex(':');

			if (pos != InvalidIndex)
			{
				Util::Array<Util::String> pair;
				param.Tokenize(":", pair);

				if (pair.Size() < 2)
				{
					SYS_EXCEPT(Exceptions::ShaderException, 
						STRING_FORMAT("The value of %s is empty! \n", pair[0].AsCharPtr()),
						GET_FUNCTION_NAME()
						);
				}


				paramValuePairs.Add(pair[0], pair[1]);
			}
			else
			{
				paramValuePairs.Add(param, "None");
			}

			
		}

		for (IndexT i = 0; i < paramValuePairs.Size(); ++i)
		{
			const Util::String& key   = paramValuePairs.KeyAtIndex(i);
			const Util::String& value = paramValuePairs.ValueAtIndex(i);
		
			if (key == "disable")
			{
				if (value == "castshadow")
				{
					m_ShadingSetting.SetCastShadow(false);
				}
				else if (value == "genshadow")
				{
					m_ShadingSetting.SetGenShadow(false);
				}
				else if (value == "fog")
				{
					m_ShadingSetting.SetEnableFog(false);
				}
			}
			else if (key == "lightmap")  // lightmap support
			{
				m_ShadingSetting.SetEnableLightMap(true);
			}
			else if (key == "lightmapDir")
			{
				if (value == "on")
				{
					m_ShadingSetting.SetEnableLightMap(true);
					m_ShadingSetting.SetEnableDirLightMap(true);
				}
			}
			else if (key == "lightmapuv")
			{
				if (value == "firstuv")
				{
					m_ShadingSetting.SetLightMapUsetFirstUV(true);
				}
			}
			else if (key == "vertexlight")
			{
				if (value == "on")
				{
					m_ShadingSetting.SetEnableVertexLight(true);
				}
			}
			else if (key == "alphablend")
			{
				m_ShadingSetting.SetAlphaBlend(true);
			}
			else if (key == "alphatest")
			{
				m_ShadingSetting.SetAlphaTest(true);
				m_ShadingSetting.SetAlphaTestValue(value);
			}			
			else
			{
				SYS_EXCEPT(Exceptions::ShaderException, 
					STRING_FORMAT("Invalid #PARAMETER value : %s! \n", key.AsCharPtr()),
					GET_FUNCTION_NAME()
					);
			}
		}
	}
	else
	{
		SYS_EXCEPT(Exceptions::ShaderException, 
			STRING_FORMAT("Can not find #PARAMETER, maybe there is not a space between #PARAMETER and value \n", ""),
			GET_FUNCTION_NAME()
			);
	}

	return true;
}

void ShaderPass::_ParseMacroStage()
{
	static const Util::String paramKeyWord( "#MACRO " );

	IndexT pos = m_sCompiler.FindStringIndex(paramKeyWord);

	if (pos != InvalidIndex)
	{
		pos += paramKeyWord.Length();

		IndexT nCR          = m_sCompiler.FindCharIndex('\n', pos);
		Util::String sParam = m_sCompiler.ExtractRange(pos, nCR - pos + 1);

		ShaderUtil::TokenizeWithoutCRLF(sParam, m_CustomMacros);

		if (m_CustomMacros.IsEmpty())
		{
			SYS_EXCEPT(Exceptions::ShaderException, 
				STRING_FORMAT("at least, you must one macro! \n", ""),
				GET_FUNCTION_NAME()
				);
		}
	}
}

void ShaderPass::_AnalyzeShaderType()
{
	bool bRes = true;

	if (!m_CommonShaderSetting.HasEntry())
	{

		SYS_EXCEPT(Exceptions::ShaderException, 
			STRING_FORMAT("No VetexShader , PixelShader or Template! \n", ""),
			GET_FUNCTION_NAME()
			);

		bRes = false;
	}

	if (!m_CommonShaderSetting.HasEntry(CommonShaderSetting::Template))
	{
		if (!m_CommonShaderSetting.HasEntry(CommonShaderSetting::Pixel) && !m_CommonShaderSetting.HasEntry(CommonShaderSetting::Vertex))
		{

			SYS_EXCEPT(Exceptions::ShaderException, 
				STRING_FORMAT("if there is no Template, shader must define a VertexShader and a PixelShader!\n", ""),
				GET_FUNCTION_NAME()
				);

			bRes = false;
		}
	}

	if (!m_CommonShaderSetting.HasEntry(CommonShaderSetting::Pixel) && !m_CommonShaderSetting.HasEntry(CommonShaderSetting::Template))
	{

		SYS_EXCEPT(Exceptions::ShaderException, 
			STRING_FORMAT("Shader must define a PixelShader or Template!\n", ""),
			GET_FUNCTION_NAME()
			);

		bRes = false;
	}

	if (bRes)
	{
		if (m_CommonShaderSetting.HasEntry(CommonShaderSetting::Vertex) && !m_CommonShaderSetting.HasEntry(CommonShaderSetting::Template))
		{
			m_bNeedCompileVertex = true;
		}

		if (m_CommonShaderSetting.HasEntry(CommonShaderSetting::Pixel))
		{
			m_bNeedCompilePixel = true;
		}

		if (m_CommonShaderSetting.HasEntry(CommonShaderSetting::Template))
		{
			m_bNeedCompileCompositive = true;
		}
	}
}

void ShaderPass::Compile(GpuProgramCompiler* pCompiler)
{
	if (m_bNeedCompileVertex && m_bNeedCompilePixel)
	{
		pCompiler->CreateBuiltInMarcro(0, m_CustomMacros, NULL);
	}


	if (m_bNeedCompileVertex)
	{
		m_CommonShaderSetting.SetShaderType(CommonShaderSetting::Vertex);
		pCompiler->Compile(this);

		Util::String result = pCompiler->GetResult();

		m_sResult += "ShaderType \"vs\" {\n" + result + "}\n";
	}

	if (m_bNeedCompilePixel)
	{
		m_CommonShaderSetting.SetShaderType(CommonShaderSetting::Pixel);
		pCompiler->Compile(this);

		Util::String result = pCompiler->GetResult();

		m_sResult += "ShaderType \"ps\" {\n" + result + "}\n";

		Util::String sCustom;

		if (m_CustomMacros.IsEmpty())
		{
			sCustom += "\"\"";
		}
		else
		{
			sCustom += "\"";
			for (IndexT i = 0; i < m_CustomMacros.Size(); ++i)
			{
				sCustom +=  m_CustomMacros[i] + " ";
			}
			sCustom += "\"";
		}

		m_sResult += "CustomMacro {\n" + sCustom + "}\n";
	}

	if (m_bNeedCompileCompositive)
	{
		ShaderJoint* pJonit = n_new(ShaderJoint);
		pJonit->Generate(&m_CommonShaderSetting, &m_ShadingSetting, m_sRenderState, m_sSourceCode);

		const Util::Dictionary< ShaderJoint::PassType, ShaderJoint::PassInfo >& passInfos = pJonit->GetPassInfo();
		const Util::Dictionary< ShaderJoint::PassType, Util::String>&     passRenderState = pJonit->GetPassRenderState();

		m_sResult += "\t\n";

		SizeT nCount = passInfos.Size();
		for (IndexT i = 0; i < nCount; ++i)
		{
			const ShaderJoint::PassInfo& info     = passInfos.ValueAtIndex(i);
			const ShaderJoint::PassType& passType = passInfos.KeyAtIndex(i);
			
			m_PassType = passType;

			SetCode(info.source);
			
			//Set Entry name of Shader
			if (!m_CommonShaderSetting.HasEntry(CommonShaderSetting::Vertex))
			{
				m_CommonShaderSetting.AddEntry(CommonShaderSetting::Vertex, info.vertEntry);
			}

			if (!m_CommonShaderSetting.HasEntry(CommonShaderSetting::Pixel))
			{
				m_CommonShaderSetting.AddEntry(CommonShaderSetting::Pixel, info.pixelEntry);
			} 
			else
			{
				m_CommonShaderSetting.SetEntryName(CommonShaderSetting::Pixel, info.pixelEntry);
			}

			pCompiler->CreateBuiltInMarcro((uint)passType, m_CustomMacros, &m_ShadingSetting);

			//Compile Vertex Shader
			m_CommonShaderSetting.SetShaderType(CommonShaderSetting::Vertex);
			pCompiler->Compile(this);

			if (passType != ShaderJoint::Forward)
			{
				m_sResult += passRenderState[passType];
			}

			Util::String vsResult = pCompiler->GetResult();
			
			m_sResult += "ShaderType \"vs\" {\n" + vsResult + "}\n";

			//Compile Pixel Shader

			m_CommonShaderSetting.SetShaderType(CommonShaderSetting::Pixel);
			pCompiler->Compile(this);

			Util::String psResult = pCompiler->GetResult();

			m_sResult += "ShaderType \"ps\" {\n" + psResult + "}\n";
			
			m_sResult += "BuiltInMacro {\n" + pCompiler->GetBuiltInMacroName(i) + "}\n";

			Util::String sCustom;

			if (passType == ShaderJoint::Forward)
			{

				if (m_CustomMacros.IsEmpty())
				{
					sCustom += "\"\"";
				}
				else
				{
					sCustom += "\"";
					for (IndexT i = 0; i < m_CustomMacros.Size(); ++i)
					{
						sCustom +=  m_CustomMacros[i] + " ";
					}
					sCustom += "\"";
				}
			}
			else
			{
				sCustom += "\"\"";
			}
			
			m_sResult += "CustomMacro {\n" + sCustom + "}\n";
		}
	}
}

	__ImplementClass(ShaderTechnique,'SHTQ', ShaderBasis);

ShaderTechnique::ShaderTechnique()
{

}

ShaderTechnique::~ShaderTechnique()
{
	m_AllShaderPass.Clear();
}

void ShaderTechnique::Finish()
{
	IndexT res = m_sRawSegment.FindStringIndex("#CODE");

	if (res != InvalidIndex)
	{
		m_sProcessed = m_sRawSegment.InsertRange(res, m_AllShaderPass[0]->GetResult());
		m_sProcessed.SubstituteString("#CODE", "");
	}
}

	__ImplementClass(ShaderElement,'SHET',Core::RefCounted);

ShaderElement::ShaderElement()
{

}

ShaderElement::~ShaderElement()
{
	m_AllTechs.Clear();
}

void ShaderElement::Compile(GpuProgramCompiler* pCompiler)
{
	IndexT nTech = m_AllTechs.Size();

	for (IndexT i = 0; i < nTech; ++i)
	{
		const Util::Array< GPtr<ShaderPass> >& allPass = m_AllTechs[i]->GetAllShaderPass();

		SizeT nPass = allPass.Size();

		for (IndexT j = 0; j < nPass; ++j)
		{
			allPass[j]->Compile(pCompiler);
		}
	}
}

void ShaderElement::Parse()
{
	SizeT nTech = m_AllTechs.Size();

	for (IndexT i = 0; i < nTech; ++i)
	{
		const Util::Array< GPtr<ShaderPass> >& allPass = m_AllTechs[i]->GetAllShaderPass();

		IndexT nPass = allPass.Size();

		for (IndexT j = 0; j < nPass; ++j)
		{
			allPass[j]->Parse();
		}
	}
}

void ShaderElement::Finish()
{
	SizeT nTech = m_AllTechs.Size();

	for (IndexT i = 0; i < nTech; ++i)
	{
		m_AllTechs[i]->Finish();

		m_sOutput += m_AllTechs[i]->GetProcessedTechSegment();
	}
}

Util::String ShaderElement::GetResult() const
{
	return m_sOutput;
}

}