framework/opengl/simplereference/sglrShaderProgram.cpp - third_party/vulkan-cts - Git at Google

 /*-------------------------------------------------------------------------
  * drawElements Quality Program OpenGL ES Utilities
  * ------------------------------------------------
  *
  * Copyright 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  *//*!
  * \file
  * \brief SGLR shader program.
  *//*--------------------------------------------------------------------*/

 #include "sglrShaderProgram.hpp"

 namespace sglr
 {
 namespace pdec
 {

 ShaderProgramDeclaration::ShaderProgramDeclaration (void)
 	: m_geometryDecl		(rr::GEOMETRYSHADERINPUTTYPE_LAST, rr::GEOMETRYSHADEROUTPUTTYPE_LAST, 0, 0)
 	, m_vertexShaderSet		(false)
 	, m_fragmentShaderSet	(false)
 	, m_geometryShaderSet	(false)
 {
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexAttribute& v)
 {
 	m_vertexAttributes.push_back(v);
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexToFragmentVarying& v)
 {
 	m_vertexToFragmentVaryings.push_back(v);
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexToGeometryVarying& v)
 {
 	m_vertexToGeometryVaryings.push_back(v);
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const GeometryToFragmentVarying& v)
 {
 	m_geometryToFragmentVaryings.push_back(v);
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const FragmentOutput& v)
 {
 	m_fragmentOutputs.push_back(v);
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const Uniform& v)
 {
 	m_uniforms.push_back(v);
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexSource& c)
 {
 	DE_ASSERT(!m_vertexShaderSet);
 	m_vertexSource = c.source;
 	m_vertexShaderSet = true;
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const FragmentSource& c)
 {
 	DE_ASSERT(!m_fragmentShaderSet);
 	m_fragmentSource = c.source;
 	m_fragmentShaderSet = true;
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const GeometrySource& c)
 {
 	DE_ASSERT(!m_geometryShaderSet);
 	m_geometrySource = c.source;
 	m_geometryShaderSet = true;
 	return *this;
 }

 ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const GeometryShaderDeclaration& c)
 {
 	m_geometryDecl = c;
 	return *this;
 }

 bool ShaderProgramDeclaration::valid (void) const
 {
 	if (!m_vertexShaderSet || !m_fragmentShaderSet)
 		return false;

 	if (m_fragmentOutputs.empty())
 		return false;

 	if (hasGeometryShader())
 	{
 		if (m_geometryDecl.inputType == rr::GEOMETRYSHADERINPUTTYPE_LAST ||
 			m_geometryDecl.outputType == rr::GEOMETRYSHADEROUTPUTTYPE_LAST)
 			return false;
 	}
 	else
 	{
 		if (m_geometryDecl.inputType != rr::GEOMETRYSHADERINPUTTYPE_LAST ||
 			m_geometryDecl.outputType != rr::GEOMETRYSHADEROUTPUTTYPE_LAST ||
 			m_geometryDecl.numOutputVertices != 0 ||
 			m_geometryDecl.numInvocations != 0)
 			return false;
 	}

 	return true;
 }

 } //pdec

 ShaderProgram::ShaderProgram (const pdec::ShaderProgramDeclaration& decl)
 	: rr::VertexShader		(decl.getVertexInputCount(), decl.getVertexOutputCount())
 	, rr::GeometryShader	(decl.getGeometryInputCount(),
 							 decl.getGeometryOutputCount(),
 							 decl.m_geometryDecl.inputType,
 							 decl.m_geometryDecl.outputType,
 							 decl.m_geometryDecl.numOutputVertices,
 							 decl.m_geometryDecl.numInvocations)
 	, rr::FragmentShader	(decl.getFragmentInputCount(), decl.getFragmentOutputCount())
 	, m_attributeNames		(decl.getVertexInputCount())
 	, m_uniforms			(decl.m_uniforms.size())
 	, m_vertSrc				(decl.m_vertexSource)
 	, m_fragSrc				(decl.m_fragmentSource)
 	, m_geomSrc				(decl.hasGeometryShader() ? (decl.m_geometrySource) : (""))
 	, m_hasGeometryShader	(decl.hasGeometryShader())
 {
 	DE_ASSERT(decl.valid());

 	// Set up shader IO

 	for (size_t ndx = 0; ndx < decl.m_vertexAttributes.size(); ++ndx)
 	{
 		this->rr::VertexShader::m_inputs[ndx].type	= decl.m_vertexAttributes[ndx].type;
 		m_attributeNames[ndx]						= decl.m_vertexAttributes[ndx].name;
 	}

 	if (m_hasGeometryShader)
 	{
 		for (size_t ndx = 0; ndx < decl.m_vertexToGeometryVaryings.size(); ++ndx)
 		{
 			this->rr::VertexShader::m_outputs[ndx].type			= decl.m_vertexToGeometryVaryings[ndx].type;
 			this->rr::VertexShader::m_outputs[ndx].flatshade	= decl.m_vertexToGeometryVaryings[ndx].flatshade;

 			this->rr::GeometryShader::m_inputs[ndx]				= this->rr::VertexShader::m_outputs[ndx];
 		}
 		for (size_t ndx = 0; ndx < decl.m_geometryToFragmentVaryings.size(); ++ndx)
 		{
 			this->rr::GeometryShader::m_outputs[ndx].type		= decl.m_geometryToFragmentVaryings[ndx].type;
 			this->rr::GeometryShader::m_outputs[ndx].flatshade	= decl.m_geometryToFragmentVaryings[ndx].flatshade;

 			this->rr::FragmentShader::m_inputs[ndx]				= this->rr::GeometryShader::m_outputs[ndx];
 		}
 	}
 	else
 	{
 		for (size_t ndx = 0; ndx < decl.m_vertexToFragmentVaryings.size(); ++ndx)
 		{
 			this->rr::VertexShader::m_outputs[ndx].type			= decl.m_vertexToFragmentVaryings[ndx].type;
 			this->rr::VertexShader::m_outputs[ndx].flatshade	= decl.m_vertexToFragmentVaryings[ndx].flatshade;

 			this->rr::FragmentShader::m_inputs[ndx]				= this->rr::VertexShader::m_outputs[ndx];
 		}
 	}

 	for (size_t ndx = 0; ndx < decl.m_fragmentOutputs.size(); ++ndx)
 		this->rr::FragmentShader::m_outputs[ndx].type = decl.m_fragmentOutputs[ndx].type;

 	// Set up uniforms

 	for (size_t ndx = 0; ndx < decl.m_uniforms.size(); ++ndx)
 	{
 		this->m_uniforms[ndx].name = decl.m_uniforms[ndx].name;
 		this->m_uniforms[ndx].type = decl.m_uniforms[ndx].type;
 	}
 }

 ShaderProgram::~ShaderProgram (void)
 {
 }

 const UniformSlot& ShaderProgram::getUniformByName (const char* name) const
 {
 	DE_ASSERT(name);

 	for (size_t ndx = 0; ndx < m_uniforms.size(); ++ndx)
 		if (m_uniforms[ndx].name == std::string(name))
 			return m_uniforms[ndx];

 	DE_FATAL("Invalid uniform name, uniform not found.");
 	return m_uniforms[0];
 }

 void ShaderProgram::shadePrimitives (rr::GeometryEmitter& output, int verticesIn, const rr::PrimitivePacket* packets, const int numPackets, int invocationID) const
 {
 	DE_UNREF(output);
 	DE_UNREF(verticesIn && packets && numPackets && invocationID);

 	// Should never be called.
 	DE_ASSERT(DE_FALSE);
 }

 } // sglr
	/*-------------------------------------------------------------------------
	* drawElements Quality Program OpenGL ES Utilities
	* ------------------------------------------------
	*
	* Copyright 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	//!
	* \file
	* \brief SGLR shader program.
	//--------------------------------------------------------------------*/

	#include "sglrShaderProgram.hpp"

	namespace sglr
	{
	namespace pdec
	{

	ShaderProgramDeclaration::ShaderProgramDeclaration (void)
	: m_geometryDecl (rr::GEOMETRYSHADERINPUTTYPE_LAST, rr::GEOMETRYSHADEROUTPUTTYPE_LAST, 0, 0)
	, m_vertexShaderSet (false)
	, m_fragmentShaderSet (false)
	, m_geometryShaderSet (false)
	{
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexAttribute& v)
	{
	m_vertexAttributes.push_back(v);
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexToFragmentVarying& v)
	{
	m_vertexToFragmentVaryings.push_back(v);
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexToGeometryVarying& v)
	{
	m_vertexToGeometryVaryings.push_back(v);
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const GeometryToFragmentVarying& v)
	{
	m_geometryToFragmentVaryings.push_back(v);
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const FragmentOutput& v)
	{
	m_fragmentOutputs.push_back(v);
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const Uniform& v)
	{
	m_uniforms.push_back(v);
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const VertexSource& c)
	{
	DE_ASSERT(!m_vertexShaderSet);
	m_vertexSource = c.source;
	m_vertexShaderSet = true;
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const FragmentSource& c)
	{
	DE_ASSERT(!m_fragmentShaderSet);
	m_fragmentSource = c.source;
	m_fragmentShaderSet = true;
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const GeometrySource& c)
	{
	DE_ASSERT(!m_geometryShaderSet);
	m_geometrySource = c.source;
	m_geometryShaderSet = true;
	return *this;
	}

	ShaderProgramDeclaration& pdec::ShaderProgramDeclaration::operator<< (const GeometryShaderDeclaration& c)
	{
	m_geometryDecl = c;
	return *this;
	}

	bool ShaderProgramDeclaration::valid (void) const
	{
	if (!m_vertexShaderSet \|\| !m_fragmentShaderSet)
	return false;

	if (m_fragmentOutputs.empty())
	return false;

	if (hasGeometryShader())
	{
	if (m_geometryDecl.inputType == rr::GEOMETRYSHADERINPUTTYPE_LAST \|\|
	m_geometryDecl.outputType == rr::GEOMETRYSHADEROUTPUTTYPE_LAST)
	return false;
	}
	else
	{
	if (m_geometryDecl.inputType != rr::GEOMETRYSHADERINPUTTYPE_LAST \|\|
	m_geometryDecl.outputType != rr::GEOMETRYSHADEROUTPUTTYPE_LAST \|\|
	m_geometryDecl.numOutputVertices != 0 \|\|
	m_geometryDecl.numInvocations != 0)
	return false;
	}

	return true;
	}

	} //pdec

	ShaderProgram::ShaderProgram (const pdec::ShaderProgramDeclaration& decl)
	: rr::VertexShader (decl.getVertexInputCount(), decl.getVertexOutputCount())
	, rr::GeometryShader (decl.getGeometryInputCount(),
	decl.getGeometryOutputCount(),
	decl.m_geometryDecl.inputType,
	decl.m_geometryDecl.outputType,
	decl.m_geometryDecl.numOutputVertices,
	decl.m_geometryDecl.numInvocations)
	, rr::FragmentShader (decl.getFragmentInputCount(), decl.getFragmentOutputCount())
	, m_attributeNames (decl.getVertexInputCount())
	, m_uniforms (decl.m_uniforms.size())
	, m_vertSrc (decl.m_vertexSource)
	, m_fragSrc (decl.m_fragmentSource)
	, m_geomSrc (decl.hasGeometryShader() ? (decl.m_geometrySource) : (""))
	, m_hasGeometryShader (decl.hasGeometryShader())
	{
	DE_ASSERT(decl.valid());

	// Set up shader IO

	for (size_t ndx = 0; ndx < decl.m_vertexAttributes.size(); ++ndx)
	{
	this->rr::VertexShader::m_inputs[ndx].type = decl.m_vertexAttributes[ndx].type;
	m_attributeNames[ndx] = decl.m_vertexAttributes[ndx].name;
	}

	if (m_hasGeometryShader)
	{
	for (size_t ndx = 0; ndx < decl.m_vertexToGeometryVaryings.size(); ++ndx)
	{
	this->rr::VertexShader::m_outputs[ndx].type = decl.m_vertexToGeometryVaryings[ndx].type;
	this->rr::VertexShader::m_outputs[ndx].flatshade = decl.m_vertexToGeometryVaryings[ndx].flatshade;

	this->rr::GeometryShader::m_inputs[ndx] = this->rr::VertexShader::m_outputs[ndx];
	}
	for (size_t ndx = 0; ndx < decl.m_geometryToFragmentVaryings.size(); ++ndx)
	{
	this->rr::GeometryShader::m_outputs[ndx].type = decl.m_geometryToFragmentVaryings[ndx].type;
	this->rr::GeometryShader::m_outputs[ndx].flatshade = decl.m_geometryToFragmentVaryings[ndx].flatshade;

	this->rr::FragmentShader::m_inputs[ndx] = this->rr::GeometryShader::m_outputs[ndx];
	}
	}
	else
	{
	for (size_t ndx = 0; ndx < decl.m_vertexToFragmentVaryings.size(); ++ndx)
	{
	this->rr::VertexShader::m_outputs[ndx].type = decl.m_vertexToFragmentVaryings[ndx].type;
	this->rr::VertexShader::m_outputs[ndx].flatshade = decl.m_vertexToFragmentVaryings[ndx].flatshade;

	this->rr::FragmentShader::m_inputs[ndx] = this->rr::VertexShader::m_outputs[ndx];
	}
	}

	for (size_t ndx = 0; ndx < decl.m_fragmentOutputs.size(); ++ndx)
	this->rr::FragmentShader::m_outputs[ndx].type = decl.m_fragmentOutputs[ndx].type;

	// Set up uniforms

	for (size_t ndx = 0; ndx < decl.m_uniforms.size(); ++ndx)
	{
	this->m_uniforms[ndx].name = decl.m_uniforms[ndx].name;
	this->m_uniforms[ndx].type = decl.m_uniforms[ndx].type;
	}
	}

	ShaderProgram::~ShaderProgram (void)
	{
	}

	const UniformSlot& ShaderProgram::getUniformByName (const char* name) const
	{
	DE_ASSERT(name);

	for (size_t ndx = 0; ndx < m_uniforms.size(); ++ndx)
	if (m_uniforms[ndx].name == std::string(name))
	return m_uniforms[ndx];

	DE_FATAL("Invalid uniform name, uniform not found.");
	return m_uniforms[0];
	}

	void ShaderProgram::shadePrimitives (rr::GeometryEmitter& output, int verticesIn, const rr::PrimitivePacket* packets, const int numPackets, int invocationID) const
	{
	DE_UNREF(output);
	DE_UNREF(verticesIn && packets && numPackets && invocationID);

	// Should never be called.
	DE_ASSERT(DE_FALSE);
	}

	} // sglr