kc3-lang/angle/src/compiler/translator/glsl/TranslatorGLSL.cpp

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• Hash : b98e6bc0
  Author :
  Date : 2024-09-12T00:00:00
  

  Translator: Add EXT_texture_shadow_lod functions
  
  Added translator support for functions defined
  in the GL_EXT_texture_shadow_lod extension.
  
  Trivially enabled on GL and Vulkan backends.
  
  Bug: angleproject:365066518
  Bug: angleproject:365108862
  Change-Id: Ie1fc8f50e321a559d4506c479d9cebbb48802091
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/5867416
  Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
  Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org>
  

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• src/compiler/translator/glsl/TranslatorGLSL.cpp

• //
  // Copyright 2002 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/glsl/TranslatorGLSL.h"
  
  #include "angle_gl.h"
  #include "compiler/translator/glsl/BuiltInFunctionEmulatorGLSL.h"
  #include "compiler/translator/glsl/ExtensionGLSL.h"
  #include "compiler/translator/glsl/OutputGLSL.h"
  #include "compiler/translator/glsl/VersionGLSL.h"
  #include "compiler/translator/tree_ops/PreTransformTextureCubeGradDerivatives.h"
  #include "compiler/translator/tree_ops/RewriteTexelFetchOffset.h"
  #include "compiler/translator/tree_ops/glsl/apple/RewriteRowMajorMatrices.h"
  #include "compiler/translator/tree_ops/glsl/apple/RewriteUnaryMinusOperatorFloat.h"
  
  namespace sh
  {
  
  TranslatorGLSL::TranslatorGLSL(sh::GLenum type, ShShaderSpec spec, ShShaderOutput output)
      : TCompiler(type, spec, output)
  {}
  
  void TranslatorGLSL::initBuiltInFunctionEmulator(BuiltInFunctionEmulator *emu,
                                                   const ShCompileOptions &compileOptions)
  {
      if (compileOptions.emulateAbsIntFunction)
      {
          InitBuiltInAbsFunctionEmulatorForGLSLWorkarounds(emu, getShaderType());
      }
  
      if (compileOptions.emulateIsnanFloatFunction)
      {
          InitBuiltInIsnanFunctionEmulatorForGLSLWorkarounds(emu, getShaderVersion());
      }
  
      if (compileOptions.emulateAtan2FloatFunction)
      {
          InitBuiltInAtanFunctionEmulatorForGLSLWorkarounds(emu);
      }
  
      int targetGLSLVersion = ShaderOutputTypeToGLSLVersion(getOutputType());
      InitBuiltInFunctionEmulatorForGLSLMissingFunctions(emu, getShaderType(), targetGLSLVersion);
  }
  
  bool TranslatorGLSL::translate(TIntermBlock *root,
                                 const ShCompileOptions &compileOptions,
                                 PerformanceDiagnostics * /*perfDiagnostics*/)
  {
      TInfoSinkBase &sink = getInfoSink().obj;
  
      // Write GLSL version.
      writeVersion(root);
  
      // Write extension behaviour as needed
      writeExtensionBehavior(root, compileOptions);
  
      // Write pragmas after extensions because some drivers consider pragmas
      // like non-preprocessor tokens.
      WritePragma(sink, compileOptions, getPragma());
  
      // If flattening the global invariant pragma, write invariant declarations for built-in
      // variables. It should be harmless to do this twice in the case that the shader also explicitly
      // did this. However, it's important to emit invariant qualifiers only for those built-in
      // variables that are actually used, to avoid affecting the behavior of the shader.
      if (compileOptions.flattenPragmaSTDGLInvariantAll && getPragma().stdgl.invariantAll &&
          !sh::RemoveInvariant(getShaderType(), getShaderVersion(), getOutputType(), compileOptions))
      {
          switch (getShaderType())
          {
              case GL_VERTEX_SHADER:
                  sink << "invariant gl_Position;\n";
  
                  // gl_PointSize should be declared invariant in both ESSL 1.00 and 3.00 fragment
                  // shaders if it's statically referenced.
                  conditionallyOutputInvariantDeclaration("gl_PointSize");
                  break;
              case GL_FRAGMENT_SHADER:
                  // The preprocessor will reject this pragma if it's used in ESSL 3.00 fragment
                  // shaders, so we can use simple logic to determine whether to declare these
                  // variables invariant.
                  conditionallyOutputInvariantDeclaration("gl_FragCoord");
                  conditionallyOutputInvariantDeclaration("gl_PointCoord");
                  break;
              default:
                  // Currently not reached, but leave this in for future expansion.
                  ASSERT(false);
                  break;
          }
      }
  
      if (getShaderVersion() >= 300 ||
          IsExtensionEnabled(getExtensionBehavior(), TExtension::EXT_shader_texture_lod))
      {
          if (compileOptions.preTransformTextureCubeGradDerivatives)
          {
              if (!sh::PreTransformTextureCubeGradDerivatives(this, root, &getSymbolTable(),
                                                              getShaderVersion()))
              {
                  return false;
              }
          }
      }
  
      if (compileOptions.rewriteTexelFetchOffsetToTexelFetch)
      {
          if (!sh::RewriteTexelFetchOffset(this, root, getSymbolTable(), getShaderVersion()))
          {
              return false;
          }
      }
  
      if (compileOptions.rewriteFloatUnaryMinusOperator)
      {
          if (!sh::RewriteUnaryMinusOperatorFloat(this, root))
          {
              return false;
          }
      }
  
      if (compileOptions.rewriteRowMajorMatrices && getShaderVersion() >= 300)
      {
          if (!RewriteRowMajorMatrices(this, root, &getSymbolTable()))
          {
              return false;
          }
      }
  
      // Write emulated built-in functions if needed.
      if (!getBuiltInFunctionEmulator().isOutputEmpty())
      {
          sink << "// BEGIN: Generated code for built-in function emulation\n\n";
          sink << "#define emu_precision\n\n";
          getBuiltInFunctionEmulator().outputEmulatedFunctions(sink);
          sink << "// END: Generated code for built-in function emulation\n\n";
      }
  
      // Declare gl_FragColor and glFragData as webgl_FragColor and webgl_FragData
      // if it's core profile shaders and they are used.
      if (getShaderType() == GL_FRAGMENT_SHADER)
      {
          const bool mayHaveESSL1SecondaryOutputs =
              IsExtensionEnabled(getExtensionBehavior(), TExtension::EXT_blend_func_extended) &&
              getShaderVersion() == 100;
          const bool declareGLFragmentOutputs = IsGLSL130OrNewer(getOutputType());
  
          bool hasGLFragColor          = false;
          bool hasGLFragData           = false;
          bool hasGLSecondaryFragColor = false;
          bool hasGLSecondaryFragData  = false;
  
          for (const auto &outputVar : mOutputVariables)
          {
              if (declareGLFragmentOutputs)
              {
                  if (outputVar.name == "gl_FragColor")
                  {
                      ASSERT(!hasGLFragColor);
                      hasGLFragColor = true;
                      continue;
                  }
                  else if (outputVar.name == "gl_FragData")
                  {
                      ASSERT(!hasGLFragData);
                      hasGLFragData = true;
                      continue;
                  }
              }
              if (mayHaveESSL1SecondaryOutputs)
              {
                  if (outputVar.name == "gl_SecondaryFragColorEXT")
                  {
                      ASSERT(!hasGLSecondaryFragColor);
                      hasGLSecondaryFragColor = true;
                      continue;
                  }
                  else if (outputVar.name == "gl_SecondaryFragDataEXT")
                  {
                      ASSERT(!hasGLSecondaryFragData);
                      hasGLSecondaryFragData = true;
                      continue;
                  }
              }
          }
          ASSERT(!((hasGLFragColor || hasGLSecondaryFragColor) &&
                   (hasGLFragData || hasGLSecondaryFragData)));
          if (hasGLFragColor)
          {
              sink << "out vec4 webgl_FragColor;\n";
          }
          if (hasGLFragData)
          {
              sink << "out vec4 webgl_FragData["
                   << (hasGLSecondaryFragData ? getResources().MaxDualSourceDrawBuffers
                                              : getResources().MaxDrawBuffers)
                   << "];\n";
          }
          if (hasGLSecondaryFragColor)
          {
              sink << "out vec4 webgl_SecondaryFragColor;\n";
          }
          if (hasGLSecondaryFragData)
          {
              sink << "out vec4 webgl_SecondaryFragData[" << getResources().MaxDualSourceDrawBuffers
                   << "];\n";
          }
  
          EmitEarlyFragmentTestsGLSL(*this, sink);
          WriteFragmentShaderLayoutQualifiers(sink, getAdvancedBlendEquations());
      }
  
      if (getShaderType() == GL_COMPUTE_SHADER)
      {
          EmitWorkGroupSizeGLSL(*this, sink);
      }
  
      if (getShaderType() == GL_GEOMETRY_SHADER_EXT)
      {
          WriteGeometryShaderLayoutQualifiers(
              sink, getGeometryShaderInputPrimitiveType(), getGeometryShaderInvocations(),
              getGeometryShaderOutputPrimitiveType(), getGeometryShaderMaxVertices());
      }
  
      // Write translated shader.
      TOutputGLSL outputGLSL(this, sink, compileOptions);
  
      root->traverse(&outputGLSL);
  
      return true;
  }
  
  bool TranslatorGLSL::shouldFlattenPragmaStdglInvariantAll()
  {
      // Required when outputting to any GLSL version greater than 1.20, but since ANGLE doesn't
      // translate to that version, return true for the next higher version.
      return IsGLSL130OrNewer(getOutputType());
  }
  
  void TranslatorGLSL::writeVersion(TIntermNode *root)
  {
      TVersionGLSL versionGLSL(getShaderType(), getPragma(), getOutputType());
      root->traverse(&versionGLSL);
      int version = versionGLSL.getVersion();
      // We need to write version directive only if it is greater than 110.
      // If there is no version directive in the shader, 110 is implied.
      if (version > 110)
      {
          TInfoSinkBase &sink = getInfoSink().obj;
          sink << "#version " << version << "\n";
      }
  }
  
  void TranslatorGLSL::writeExtensionBehavior(TIntermNode *root,
                                              const ShCompileOptions &compileOptions)
  {
      bool usesTextureCubeMapArray = false;
      bool usesTextureBuffer       = false;
      bool usesGPUShader5          = false;
  
      TInfoSinkBase &sink                   = getInfoSink().obj;
      const TExtensionBehavior &extBehavior = getExtensionBehavior();
      for (const auto &iter : extBehavior)
      {
          if (iter.second == EBhUndefined)
          {
              continue;
          }
  
          if (getOutputType() == SH_GLSL_COMPATIBILITY_OUTPUT)
          {
              // For GLSL output, we don't need to emit most extensions explicitly,
              // but some we need to translate in GL compatibility profile.
              if (iter.first == TExtension::EXT_shader_texture_lod)
              {
                  sink << "#extension GL_ARB_shader_texture_lod : " << GetBehaviorString(iter.second)
                       << "\n";
              }
  
              if (iter.first == TExtension::EXT_draw_buffers)
              {
                  sink << "#extension GL_ARB_draw_buffers : " << GetBehaviorString(iter.second)
                       << "\n";
              }
  
              if (iter.first == TExtension::EXT_geometry_shader ||
                  iter.first == TExtension::OES_geometry_shader)
              {
                  sink << "#extension GL_ARB_geometry_shader4 : " << GetBehaviorString(iter.second)
                       << "\n";
              }
          }
  
          const bool isMultiview =
              (iter.first == TExtension::OVR_multiview) || (iter.first == TExtension::OVR_multiview2);
          if (isMultiview)
          {
              // Only either OVR_multiview or OVR_multiview2 should be emitted.
              if ((iter.first != TExtension::OVR_multiview) ||
                  !IsExtensionEnabled(extBehavior, TExtension::OVR_multiview2))
              {
                  EmitMultiviewGLSL(*this, compileOptions, iter.first, iter.second, sink);
              }
          }
  
          // Support ANGLE_texture_multisample extension on GLSL300
          if (getShaderVersion() >= 300 && iter.first == TExtension::ANGLE_texture_multisample &&
              getOutputType() < SH_GLSL_330_CORE_OUTPUT)
          {
              sink << "#extension GL_ARB_texture_multisample : " << GetBehaviorString(iter.second)
                   << "\n";
          }
  
          if (getOutputType() != SH_ESSL_OUTPUT &&
              (iter.first == TExtension::EXT_clip_cull_distance ||
               (iter.first == TExtension::ANGLE_clip_cull_distance &&
                getResources().MaxCullDistances > 0)) &&
              getOutputType() < SH_GLSL_450_CORE_OUTPUT)
          {
              sink << "#extension GL_ARB_cull_distance : " << GetBehaviorString(iter.second) << "\n";
          }
  
          if (getOutputType() != SH_ESSL_OUTPUT && iter.first == TExtension::EXT_conservative_depth &&
              getOutputType() < SH_GLSL_420_CORE_OUTPUT)
          {
              sink << "#extension GL_ARB_conservative_depth : " << GetBehaviorString(iter.second)
                   << "\n";
          }
  
          if (iter.first == TExtension::EXT_texture_shadow_lod)
          {
              sink << "#extension " << GetExtensionNameString(iter.first) << " : "
                   << GetBehaviorString(iter.second) << "\n";
          }
  
          if (iter.first == TExtension::KHR_blend_equation_advanced)
          {
              sink << "#ifdef GL_KHR_blend_equation_advanced\n"
                   << "#extension GL_KHR_blend_equation_advanced : " << GetBehaviorString(iter.second)
                   << "\n"
                   << "#elif defined GL_NV_blend_equation_advanced\n"
                   << "#extension GL_NV_blend_equation_advanced : " << GetBehaviorString(iter.second)
                   << "\n";
              if (iter.second == EBhRequire)
              {
                  sink << "#else\n" << "#error \"No advanced blend equation extensions available.\n";
              }
              sink << "#endif\n";
          }
  
          if ((iter.first == TExtension::OES_texture_cube_map_array ||
               iter.first == TExtension::EXT_texture_cube_map_array) &&
              (iter.second == EBhRequire || iter.second == EBhEnable))
          {
              usesTextureCubeMapArray = true;
          }
  
          if ((iter.first == TExtension::OES_texture_buffer ||
               iter.first == TExtension::EXT_texture_buffer) &&
              (iter.second == EBhRequire || iter.second == EBhEnable))
          {
              usesTextureBuffer = true;
          }
  
          if ((iter.first == TExtension::OES_gpu_shader5 ||
               iter.first == TExtension::EXT_gpu_shader5) &&
              (iter.second == EBhRequire || iter.second == EBhEnable))
          {
              usesGPUShader5 = true;
          }
      }
  
      // GLSL ES 3 explicit location qualifiers need to use an extension before GLSL 330
      if (getShaderVersion() >= 300 && getOutputType() < SH_GLSL_330_CORE_OUTPUT &&
          getShaderType() != GL_COMPUTE_SHADER)
      {
          sink << "#extension GL_ARB_explicit_attrib_location : require\n";
      }
  
      // Need to enable gpu_shader5 to have index constant sampler array indexing
      if (usesGPUShader5)
      {
          if (getOutputType() >= SH_GLSL_COMPATIBILITY_OUTPUT &&
              getOutputType() < SH_GLSL_400_CORE_OUTPUT && getShaderVersion() == 100)
          {
              // Don't use "require" on to avoid breaking WebGL 1 on drivers that silently
              // support index constant sampler array indexing, but don't have the extension or
              // on drivers that don't have the extension at all as it would break WebGL 1 for
              // some users.
              sink << "#extension GL_ARB_gpu_shader5 : enable\n";
              sink << "#extension GL_OES_gpu_shader5 : enable\n";
              sink << "#extension GL_EXT_gpu_shader5 : enable\n";
          }
          else if (getOutputType() == SH_ESSL_OUTPUT && getShaderVersion() < 320)
          {
              sink << "#extension GL_OES_gpu_shader5 : enable\n";
              sink << "#extension GL_EXT_gpu_shader5 : enable\n";
          }
      }
  
      if (usesTextureCubeMapArray)
      {
          if (getOutputType() >= SH_GLSL_COMPATIBILITY_OUTPUT &&
              getOutputType() < SH_GLSL_400_CORE_OUTPUT)
          {
              sink << "#extension GL_ARB_texture_cube_map_array : enable\n";
          }
          else if (getOutputType() == SH_ESSL_OUTPUT && getShaderVersion() < 320)
          {
              sink << "#extension GL_OES_texture_cube_map_array : enable\n";
              sink << "#extension GL_EXT_texture_cube_map_array : enable\n";
          }
      }
  
      if (usesTextureBuffer)
      {
          if (getOutputType() >= SH_GLSL_COMPATIBILITY_OUTPUT &&
              getOutputType() < SH_GLSL_400_CORE_OUTPUT)
          {
              sink << "#extension GL_ARB_texture_buffer_objects : enable\n";
          }
          else if (getOutputType() == SH_ESSL_OUTPUT && getShaderVersion() < 320)
          {
              sink << "#extension GL_OES_texture_buffer : enable\n";
              sink << "#extension GL_EXT_texture_buffer : enable\n";
          }
      }
  
      TExtensionGLSL extensionGLSL(getOutputType());
      root->traverse(&extensionGLSL);
  
      for (const auto &ext : extensionGLSL.getEnabledExtensions())
      {
          sink << "#extension " << ext << " : enable\n";
      }
      for (const auto &ext : extensionGLSL.getRequiredExtensions())
      {
          sink << "#extension " << ext << " : require\n";
      }
  }
  
  void TranslatorGLSL::conditionallyOutputInvariantDeclaration(const char *builtinVaryingName)
  {
      if (isVaryingDefined(builtinVaryingName))
      {
          TInfoSinkBase &sink = getInfoSink().obj;
          sink << "invariant " << builtinVaryingName << ";\n";
      }
  }
  
  }  // namespace sh
  

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