kc3-lang/angle/src/compiler/translator/OutputVulkanGLSL.cpp

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• Hash : 061188a7
  Author :
  Date : 2021-08-04T10:07:47
  

  Translator: General clean up
  
  General clean up done as part of other changes, split to simplify
  review.
  
  Bug: angleproject:4889
  Bug: angleproject:6132
  Change-Id: Iade9954d187a759be9edd0e3754be007f4133c56
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3071598
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Tim Van Patten <timvp@google.com>
  Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
  

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• src/compiler/translator/OutputVulkanGLSL.cpp

• //
  // Copyright 2016 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.
  //
  // OutputVulkanGLSL:
  //   Code that outputs shaders that fit GL_KHR_vulkan_glsl, to be fed to glslang to generate
  //   SPIR-V.
  //   See: https://www.khronos.org/registry/vulkan/specs/misc/GL_KHR_vulkan_glsl.txt
  //
  
  #include "compiler/translator/OutputVulkanGLSL.h"
  
  #include "compiler/translator/BaseTypes.h"
  #include "compiler/translator/Symbol.h"
  #include "compiler/translator/ValidateVaryingLocations.h"
  #include "compiler/translator/util.h"
  
  namespace sh
  {
  
  TOutputVulkanGLSL::TOutputVulkanGLSL(TCompiler *compiler,
                                       TInfoSinkBase &objSink,
                                       bool enablePrecision,
                                       ShCompileOptions compileOptions)
      : TOutputGLSL(compiler, objSink, compileOptions),
        mNextUnusedBinding(0),
        mNextUnusedInputLocation(0),
        mNextUnusedOutputLocation(0),
        mEnablePrecision(enablePrecision)
  {}
  
  void TOutputVulkanGLSL::writeLayoutQualifier(TIntermSymbol *symbol)
  {
      const TType &type = symbol->getType();
  
      bool needsSetBinding = IsSampler(type.getBasicType()) ||
                             (type.isInterfaceBlock() && (type.getQualifier() == EvqUniform ||
                                                          type.getQualifier() == EvqBuffer)) ||
                             IsImage(type.getBasicType()) || IsSubpassInputType(type.getBasicType());
      bool needsLocation = type.getQualifier() == EvqAttribute ||
                           type.getQualifier() == EvqVertexIn ||
                           type.getQualifier() == EvqFragmentOut || IsVarying(type.getQualifier());
      bool needsInputAttachmentIndex = IsSubpassInputType(type.getBasicType());
      bool needsSpecConstId          = type.getQualifier() == EvqSpecConst;
  
      if (!NeedsToWriteLayoutQualifier(type) && !needsSetBinding && !needsLocation &&
          !needsInputAttachmentIndex && !needsSpecConstId)
      {
          return;
      }
  
      TInfoSinkBase &out                      = objSink();
      const TLayoutQualifier &layoutQualifier = type.getLayoutQualifier();
  
      // This isn't super clean, but it gets the job done.
      // See corresponding code in glslang_wrapper_utils.cpp.
      const char *blockStorage  = nullptr;
      const char *matrixPacking = nullptr;
  
      if (type.isInterfaceBlock())
      {
          const TInterfaceBlock *interfaceBlock = type.getInterfaceBlock();
          TLayoutBlockStorage storage           = interfaceBlock->blockStorage();
  
          // Make sure block storage format is specified.
          if (storage != EbsStd430)
          {
              // Change interface block layout qualifiers to std140 for any layout that is not
              // explicitly set to std430.  This is to comply with GL_KHR_vulkan_glsl where shared and
              // packed are not allowed (and std140 could be used instead) and unspecified layouts can
              // assume either std140 or std430 (and we choose std140 as std430 is not yet universally
              // supported).
              storage = EbsStd140;
          }
  
          if (interfaceBlock->blockStorage() != EbsUnspecified)
          {
              blockStorage = getBlockStorageString(storage);
          }
      }
  
      // Specify matrix packing if necessary.
      if (layoutQualifier.matrixPacking != EmpUnspecified)
      {
          matrixPacking = getMatrixPackingString(layoutQualifier.matrixPacking);
      }
      const char *kCommaSeparator = ", ";
      const char *separator       = "";
      out << "layout(";
  
      // If the resource declaration is about input attachment, need to specify input_attachment_index
      if (needsInputAttachmentIndex)
      {
          out << "input_attachment_index=" << layoutQualifier.inputAttachmentIndex;
          separator = kCommaSeparator;
      }
  
      // If it's a specialization constant, add that constant_id qualifier.
      if (needsSpecConstId)
      {
          out << separator << "constant_id=" << layoutQualifier.location;
      }
  
      // If the resource declaration requires set & binding layout qualifiers, specify arbitrary
      // ones.
      if (needsSetBinding)
      {
          out << separator << "set=0, binding=" << nextUnusedBinding();
          separator = kCommaSeparator;
      }
  
      if (needsLocation)
      {
          uint32_t location = 0;
          if (layoutQualifier.index <= 0)
          {
              // Note: for index == 1 (dual source blending), don't count locations as they are
              // expected to alias the color output locations.  Only one dual-source output is
              // supported, so location will be always 0.
              const unsigned int locationCount =
                  CalculateVaryingLocationCount(symbol->getType(), getShaderType());
              location = IsShaderIn(type.getQualifier()) ? nextUnusedInputLocation(locationCount)
                                                         : nextUnusedOutputLocation(locationCount);
          }
  
          out << separator << "location=" << location;
          separator = kCommaSeparator;
      }
  
      // Output the list of qualifiers already known at this stage, i.e. everything other than
      // `location` and `set`/`binding`.
      std::string otherQualifiers = getCommonLayoutQualifiers(symbol);
  
      if (blockStorage)
      {
          out << separator << blockStorage;
          separator = kCommaSeparator;
      }
      if (matrixPacking)
      {
          out << separator << matrixPacking;
          separator = kCommaSeparator;
      }
      if (!otherQualifiers.empty())
      {
          out << separator << otherQualifiers;
      }
  
      out << ") ";
  }
  
  void TOutputVulkanGLSL::writeVariableType(const TType &type,
                                            const TSymbol *symbol,
                                            bool isFunctionArgument)
  {
      TType overrideType(type);
  
      // External textures are treated as 2D textures in the vulkan back-end
      if (type.getBasicType() == EbtSamplerExternalOES)
      {
          overrideType.setBasicType(EbtSampler2D);
      }
  
      TOutputGLSL::writeVariableType(overrideType, symbol, isFunctionArgument);
  }
  
  bool TOutputVulkanGLSL::writeVariablePrecision(TPrecision precision)
  {
      if ((precision == EbpUndefined) || !mEnablePrecision)
          return false;
  
      TInfoSinkBase &out = objSink();
      out << getPrecisionString(precision);
      return true;
  }
  
  }  // namespace sh
  

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