src/third_party/angle/src/compiler/translator/TranslatorESSL.cpp - cobalt - Git at Google

 //
 // Copyright (c) 2002-2013 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //

 #include "compiler/translator/TranslatorESSL.h"

 #include "compiler/translator/BuiltInFunctionEmulatorGLSL.h"
 #include "compiler/translator/EmulatePrecision.h"
 #include "compiler/translator/PrunePureLiteralStatements.h"
 #include "compiler/translator/RecordConstantPrecision.h"
 #include "compiler/translator/OutputESSL.h"
 #include "angle_gl.h"

 namespace sh
 {

 TranslatorESSL::TranslatorESSL(sh::GLenum type, ShShaderSpec spec)
     : TCompiler(type, spec, SH_ESSL_OUTPUT)
 {
 }

 void TranslatorESSL::initBuiltInFunctionEmulator(BuiltInFunctionEmulator *emu,
                                                  ShCompileOptions compileOptions)
 {
     if (compileOptions & SH_EMULATE_ATAN2_FLOAT_FUNCTION)
     {
         InitBuiltInAtanFunctionEmulatorForGLSLWorkarounds(emu);
     }
 }

 void TranslatorESSL::translate(TIntermBlock *root, ShCompileOptions compileOptions)
 {
     // The ESSL output doesn't define a default precision for float, so float literal statements
     // end up with no precision which is invalid ESSL.
     PrunePureLiteralStatements(root);

     TInfoSinkBase &sink = getInfoSink().obj;

     int shaderVer = getShaderVersion();
     if (shaderVer > 100)
     {
         sink << "#version " << shaderVer << " es\n";
     }

     // Write built-in extension behaviors.
     writeExtensionBehavior(compileOptions);

     // Write pragmas after extensions because some drivers consider pragmas
     // like non-preprocessor tokens.
     writePragma(compileOptions);

     bool precisionEmulation =
         getResources().WEBGL_debug_shader_precision && getPragma().debugShaderPrecision;

     if (precisionEmulation)
     {
         EmulatePrecision emulatePrecision(getSymbolTable(), shaderVer);
         root->traverse(&emulatePrecision);
         emulatePrecision.updateTree();
         emulatePrecision.writeEmulationHelpers(sink, shaderVer, SH_ESSL_OUTPUT);
     }

     RecordConstantPrecision(root, getTemporaryIndex());

     // Write emulated built-in functions if needed.
     if (!getBuiltInFunctionEmulator().isOutputEmpty())
     {
         sink << "// BEGIN: Generated code for built-in function emulation\n\n";
         if (getShaderType() == GL_FRAGMENT_SHADER)
         {
             sink << "#if defined(GL_FRAGMENT_PRECISION_HIGH)\n"
                  << "#define webgl_emu_precision highp\n"
                  << "#else\n"
                  << "#define webgl_emu_precision mediump\n"
                  << "#endif\n\n";
         }
         else
         {
             sink << "#define webgl_emu_precision highp\n";
         }

         getBuiltInFunctionEmulator().outputEmulatedFunctions(sink);
         sink << "// END: Generated code for built-in function emulation\n\n";
     }

     // Write array bounds clamping emulation if needed.
     getArrayBoundsClamper().OutputClampingFunctionDefinition(sink);

     if (getShaderType() == GL_COMPUTE_SHADER && isComputeShaderLocalSizeDeclared())
     {
         const sh::WorkGroupSize &localSize = getComputeShaderLocalSize();
         sink << "layout (local_size_x=" << localSize[0] << ", local_size_y=" << localSize[1]
              << ", local_size_z=" << localSize[2] << ") in;\n";
     }

     // Write translated shader.
     TOutputESSL outputESSL(sink, getArrayIndexClampingStrategy(), getHashFunction(), getNameMap(),
                            getSymbolTable(), getShaderType(), shaderVer, precisionEmulation,
                            compileOptions);

     if (compileOptions & SH_TRANSLATE_VIEWID_OVR_TO_UNIFORM)
     {
         TName uniformName(TString("ViewID_OVR"));
         uniformName.setInternal(true);
         sink << "highp uniform int " << outputESSL.hashName(uniformName) << ";\n";
     }

     root->traverse(&outputESSL);
 }

 bool TranslatorESSL::shouldFlattenPragmaStdglInvariantAll()
 {
     // Not necessary when translating to ESSL.
     return false;
 }

 void TranslatorESSL::writeExtensionBehavior(ShCompileOptions compileOptions)
 {
     TInfoSinkBase &sink                   = getInfoSink().obj;
     const TExtensionBehavior &extBehavior = getExtensionBehavior();
     for (TExtensionBehavior::const_iterator iter = extBehavior.begin(); iter != extBehavior.end();
          ++iter)
     {
         if (iter->second != EBhUndefined)
         {
             if (getResources().NV_shader_framebuffer_fetch &&
                 iter->first == "GL_EXT_shader_framebuffer_fetch")
             {
                 sink << "#extension GL_NV_shader_framebuffer_fetch : "
                      << getBehaviorString(iter->second) << "\n";
             }
             else if (getResources().NV_draw_buffers && iter->first == "GL_EXT_draw_buffers")
             {
                 sink << "#extension GL_NV_draw_buffers : " << getBehaviorString(iter->second)
                      << "\n";
             }
             else if (compileOptions & SH_TRANSLATE_VIEWID_OVR_TO_UNIFORM &&
                      (iter->first == "GL_OVR_multiview" || iter->first == "GL_OVR_multiview2"))
             {
                 // No output
                 continue;
             }
             else
             {
                 sink << "#extension " << iter->first << " : " << getBehaviorString(iter->second)
                      << "\n";
             }
         }
     }
 }

 }  // namespace sh
	//
	// Copyright (c) 2002-2013 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//

	#include "compiler/translator/TranslatorESSL.h"

	#include "compiler/translator/BuiltInFunctionEmulatorGLSL.h"
	#include "compiler/translator/EmulatePrecision.h"
	#include "compiler/translator/PrunePureLiteralStatements.h"
	#include "compiler/translator/RecordConstantPrecision.h"
	#include "compiler/translator/OutputESSL.h"
	#include "angle_gl.h"

	namespace sh
	{

	TranslatorESSL::TranslatorESSL(sh::GLenum type, ShShaderSpec spec)
	: TCompiler(type, spec, SH_ESSL_OUTPUT)
	{
	}

	void TranslatorESSL::initBuiltInFunctionEmulator(BuiltInFunctionEmulator *emu,
	ShCompileOptions compileOptions)
	{
	if (compileOptions & SH_EMULATE_ATAN2_FLOAT_FUNCTION)
	{
	InitBuiltInAtanFunctionEmulatorForGLSLWorkarounds(emu);
	}
	}

	void TranslatorESSL::translate(TIntermBlock *root, ShCompileOptions compileOptions)
	{
	// The ESSL output doesn't define a default precision for float, so float literal statements
	// end up with no precision which is invalid ESSL.
	PrunePureLiteralStatements(root);

	TInfoSinkBase &sink = getInfoSink().obj;

	int shaderVer = getShaderVersion();
	if (shaderVer > 100)
	{
	sink << "#version " << shaderVer << " es\n";
	}

	// Write built-in extension behaviors.
	writeExtensionBehavior(compileOptions);

	// Write pragmas after extensions because some drivers consider pragmas
	// like non-preprocessor tokens.
	writePragma(compileOptions);

	bool precisionEmulation =
	getResources().WEBGL_debug_shader_precision && getPragma().debugShaderPrecision;

	if (precisionEmulation)
	{
	EmulatePrecision emulatePrecision(getSymbolTable(), shaderVer);
	root->traverse(&emulatePrecision);
	emulatePrecision.updateTree();
	emulatePrecision.writeEmulationHelpers(sink, shaderVer, SH_ESSL_OUTPUT);
	}

	RecordConstantPrecision(root, getTemporaryIndex());

	// Write emulated built-in functions if needed.
	if (!getBuiltInFunctionEmulator().isOutputEmpty())
	{
	sink << "// BEGIN: Generated code for built-in function emulation\n\n";
	if (getShaderType() == GL_FRAGMENT_SHADER)
	{
	sink << "#if defined(GL_FRAGMENT_PRECISION_HIGH)\n"
	<< "#define webgl_emu_precision highp\n"
	<< "#else\n"
	<< "#define webgl_emu_precision mediump\n"
	<< "#endif\n\n";
	}
	else
	{
	sink << "#define webgl_emu_precision highp\n";
	}

	getBuiltInFunctionEmulator().outputEmulatedFunctions(sink);
	sink << "// END: Generated code for built-in function emulation\n\n";
	}

	// Write array bounds clamping emulation if needed.
	getArrayBoundsClamper().OutputClampingFunctionDefinition(sink);

	if (getShaderType() == GL_COMPUTE_SHADER && isComputeShaderLocalSizeDeclared())
	{
	const sh::WorkGroupSize &localSize = getComputeShaderLocalSize();
	sink << "layout (local_size_x=" << localSize[0] << ", local_size_y=" << localSize[1]
	<< ", local_size_z=" << localSize[2] << ") in;\n";
	}

	// Write translated shader.
	TOutputESSL outputESSL(sink, getArrayIndexClampingStrategy(), getHashFunction(), getNameMap(),
	getSymbolTable(), getShaderType(), shaderVer, precisionEmulation,
	compileOptions);

	if (compileOptions & SH_TRANSLATE_VIEWID_OVR_TO_UNIFORM)
	{
	TName uniformName(TString("ViewID_OVR"));
	uniformName.setInternal(true);
	sink << "highp uniform int " << outputESSL.hashName(uniformName) << ";\n";
	}

	root->traverse(&outputESSL);
	}

	bool TranslatorESSL::shouldFlattenPragmaStdglInvariantAll()
	{
	// Not necessary when translating to ESSL.
	return false;
	}

	void TranslatorESSL::writeExtensionBehavior(ShCompileOptions compileOptions)
	{
	TInfoSinkBase &sink = getInfoSink().obj;
	const TExtensionBehavior &extBehavior = getExtensionBehavior();
	for (TExtensionBehavior::const_iterator iter = extBehavior.begin(); iter != extBehavior.end();
	++iter)
	{
	if (iter->second != EBhUndefined)
	{
	if (getResources().NV_shader_framebuffer_fetch &&
	iter->first == "GL_EXT_shader_framebuffer_fetch")
	{
	sink << "#extension GL_NV_shader_framebuffer_fetch : "
	<< getBehaviorString(iter->second) << "\n";
	}
	else if (getResources().NV_draw_buffers && iter->first == "GL_EXT_draw_buffers")
	{
	sink << "#extension GL_NV_draw_buffers : " << getBehaviorString(iter->second)
	<< "\n";
	}
	else if (compileOptions & SH_TRANSLATE_VIEWID_OVR_TO_UNIFORM &&
	(iter->first == "GL_OVR_multiview" \|\| iter->first == "GL_OVR_multiview2"))
	{
	// No output
	continue;
	}
	else
	{
	sink << "#extension " << iter->first << " : " << getBehaviorString(iter->second)
	<< "\n";
	}
	}
	}
	}

	} // namespace sh