kc3-lang/angle/src/libANGLE/VaryingPacking.cpp

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• Hash : a9042d3c
  Author :
  Date : 2017-03-17T08:50:45
  

  ES31: Add array element transformfeedback
  
  This enhances the PackedVarying to be either one element of array, or
  whole array. Correspondingly the VaryingPacking is expanded to pack it
  properly.
  
  BUG=angleproject:1950
  
  Change-Id: I0529d7ac4367d42b2b433410fbf08351412aada8
  Reviewed-on: https://chromium-review.googlesource.com/459115
  Commit-Queue: Corentin Wallez <cwallez@chromium.org>
  Reviewed-by: Corentin Wallez <cwallez@chromium.org>
  

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• src/libANGLE/VaryingPacking.cpp

• //
  // Copyright 2015 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.
  //
  // VaryingPacking:
  //   Class which describes a mapping from varyings to registers, according
  //   to the spec, or using custom packing algorithms. We also keep a register
  //   allocation list for the D3D renderer.
  //
  
  #include "libANGLE/VaryingPacking.h"
  
  #include "common/utilities.h"
  #include "libANGLE/Program.h"
  
  namespace gl
  {
  
  // Implementation of VaryingPacking
  VaryingPacking::VaryingPacking(GLuint maxVaryingVectors, PackMode packMode)
      : mRegisterMap(maxVaryingVectors), mPackMode(packMode)
  {
  }
  
  // Packs varyings into generic varying registers, using the algorithm from
  // See [OpenGL ES Shading Language 1.00 rev. 17] appendix A section 7 page 111
  // Also [OpenGL ES Shading Language 3.00 rev. 4] Section 11 page 119
  // Returns false if unsuccessful.
  bool VaryingPacking::packVarying(const PackedVarying &packedVarying)
  {
      const auto &varying = *packedVarying.varying;
  
      // "Non - square matrices of type matCxR consume the same space as a square matrix of type matN
      // where N is the greater of C and R."
      // Here we are a bit more conservative and allow packing non-square matrices more tightly.
      // Make sure we use transposed matrix types to count registers correctly.
      ASSERT(!varying.isStruct());
      GLenum transposedType       = gl::TransposeMatrixType(varying.type);
      unsigned int varyingRows    = gl::VariableRowCount(transposedType);
      unsigned int varyingColumns = gl::VariableColumnCount(transposedType);
  
      // "Variables of type mat2 occupies 2 complete rows."
      // For non-WebGL contexts, we allow mat2 to occupy only two columns per row.
      if (mPackMode == PackMode::WEBGL_STRICT && varying.type == GL_FLOAT_MAT2)
      {
          varyingColumns = 4;
      }
  
      // "Arrays of size N are assumed to take N times the size of the base type"
      varyingRows *= (packedVarying.isArrayElement() ? 1 : varying.elementCount());
  
      unsigned int maxVaryingVectors = static_cast<unsigned int>(mRegisterMap.size());
  
      // Fail if we are packing a single over-large varying.
      if (varyingRows > maxVaryingVectors)
      {
          return false;
      }
  
      // "For 2, 3 and 4 component variables packing is started using the 1st column of the 1st row.
      // Variables are then allocated to successive rows, aligning them to the 1st column."
      if (varyingColumns >= 2 && varyingColumns <= 4)
      {
          for (unsigned int row = 0; row <= maxVaryingVectors - varyingRows; ++row)
          {
              if (isFree(row, 0, varyingRows, varyingColumns))
              {
                  insert(row, 0, packedVarying);
                  return true;
              }
          }
  
          // "For 2 component variables, when there are no spare rows, the strategy is switched to
          // using the highest numbered row and the lowest numbered column where the variable will
          // fit."
          if (varyingColumns == 2)
          {
              for (unsigned int r = maxVaryingVectors - varyingRows + 1; r-- >= 1;)
              {
                  if (isFree(r, 2, varyingRows, 2))
                  {
                      insert(r, 2, packedVarying);
                      return true;
                  }
              }
          }
  
          return false;
      }
  
      // "1 component variables have their own packing rule. They are packed in order of size, largest
      // first. Each variable is placed in the column that leaves the least amount of space in the
      // column and aligned to the lowest available rows within that column."
      ASSERT(varyingColumns == 1);
      unsigned int contiguousSpace[4]     = {0};
      unsigned int bestContiguousSpace[4] = {0};
      unsigned int totalSpace[4]          = {0};
  
      for (unsigned int row = 0; row < maxVaryingVectors; ++row)
      {
          for (unsigned int column = 0; column < 4; ++column)
          {
              if (mRegisterMap[row][column])
              {
                  contiguousSpace[column] = 0;
              }
              else
              {
                  contiguousSpace[column]++;
                  totalSpace[column]++;
  
                  if (contiguousSpace[column] > bestContiguousSpace[column])
                  {
                      bestContiguousSpace[column] = contiguousSpace[column];
                  }
              }
          }
      }
  
      unsigned int bestColumn = 0;
      for (unsigned int column = 1; column < 4; ++column)
      {
          if (bestContiguousSpace[column] >= varyingRows &&
              (bestContiguousSpace[bestColumn] < varyingRows ||
               totalSpace[column] < totalSpace[bestColumn]))
          {
              bestColumn = column;
          }
      }
  
      if (bestContiguousSpace[bestColumn] >= varyingRows)
      {
          for (unsigned int row = 0; row < maxVaryingVectors; row++)
          {
              if (isFree(row, bestColumn, varyingRows, 1))
              {
                  for (unsigned int arrayIndex = 0; arrayIndex < varyingRows; ++arrayIndex)
                  {
                      // If varyingRows > 1, it must be an array.
                      PackedVaryingRegister registerInfo;
                      registerInfo.packedVarying     = &packedVarying;
                      registerInfo.registerRow       = row + arrayIndex;
                      registerInfo.registerColumn    = bestColumn;
                      registerInfo.varyingArrayIndex =
                          (packedVarying.isArrayElement() ? packedVarying.arrayIndex : arrayIndex);
                      registerInfo.varyingRowIndex   = 0;
                      // Do not record register info for builtins.
                      // TODO(jmadill): Clean this up.
                      if (!packedVarying.varying->isBuiltIn())
                      {
                          mRegisterList.push_back(registerInfo);
                      }
                      mRegisterMap[row + arrayIndex][bestColumn] = true;
                  }
                  break;
              }
          }
          return true;
      }
  
      return false;
  }
  
  bool VaryingPacking::isFree(unsigned int registerRow,
                              unsigned int registerColumn,
                              unsigned int varyingRows,
                              unsigned int varyingColumns) const
  {
      for (unsigned int row = 0; row < varyingRows; ++row)
      {
          ASSERT(registerRow + row < mRegisterMap.size());
          for (unsigned int column = 0; column < varyingColumns; ++column)
          {
              ASSERT(registerColumn + column < 4);
              if (mRegisterMap[registerRow + row][registerColumn + column])
              {
                  return false;
              }
          }
      }
  
      return true;
  }
  
  void VaryingPacking::insert(unsigned int registerRow,
                              unsigned int registerColumn,
                              const PackedVarying &packedVarying)
  {
      unsigned int varyingRows    = 0;
      unsigned int varyingColumns = 0;
  
      const auto &varying = *packedVarying.varying;
      ASSERT(!varying.isStruct());
      GLenum transposedType = gl::TransposeMatrixType(varying.type);
      varyingRows           = gl::VariableRowCount(transposedType);
      varyingColumns        = gl::VariableColumnCount(transposedType);
  
      PackedVaryingRegister registerInfo;
      registerInfo.packedVarying  = &packedVarying;
      registerInfo.registerColumn = registerColumn;
  
      for (unsigned int arrayElement = 0; arrayElement < varying.elementCount(); ++arrayElement)
      {
          if (packedVarying.isArrayElement() && arrayElement != packedVarying.arrayIndex)
          {
              continue;
          }
          for (unsigned int varyingRow = 0; varyingRow < varyingRows; ++varyingRow)
          {
              registerInfo.registerRow     = registerRow + (arrayElement * varyingRows) + varyingRow;
              registerInfo.varyingRowIndex = varyingRow;
              registerInfo.varyingArrayIndex = arrayElement;
              // Do not record register info for builtins.
              // TODO(jmadill): Clean this up.
              if (!packedVarying.varying->isBuiltIn())
              {
                  mRegisterList.push_back(registerInfo);
              }
  
              for (unsigned int columnIndex = 0; columnIndex < varyingColumns; ++columnIndex)
              {
                  mRegisterMap[registerInfo.registerRow][registerColumn + columnIndex] = true;
              }
          }
      }
  }
  
  // See comment on packVarying.
  bool VaryingPacking::packUserVaryings(gl::InfoLog &infoLog,
                                        const std::vector<PackedVarying> &packedVaryings,
                                        const std::vector<std::string> &transformFeedbackVaryings)
  {
      std::set<std::string> uniqueVaryingNames;
  
      // "Variables are packed into the registers one at a time so that they each occupy a contiguous
      // subrectangle. No splitting of variables is permitted."
      for (const PackedVarying &packedVarying : packedVaryings)
      {
          const auto &varying = *packedVarying.varying;
  
          // Do not assign registers to built-in or unreferenced varyings
          if (!varying.staticUse && !packedVarying.isStructField())
          {
              continue;
          }
  
          ASSERT(!varying.isStruct());
          ASSERT(uniqueVaryingNames.count(packedVarying.nameWithArrayIndex()) == 0);
  
          if (packVarying(packedVarying))
          {
              uniqueVaryingNames.insert(packedVarying.nameWithArrayIndex());
          }
          else
          {
              infoLog << "Could not pack varying " << packedVarying.nameWithArrayIndex();
              return false;
          }
      }
  
      for (const std::string &transformFeedbackVaryingName : transformFeedbackVaryings)
      {
          if (transformFeedbackVaryingName.compare(0, 3, "gl_") == 0)
          {
              // do not pack builtin XFB varyings
              continue;
          }
  
          bool found = false;
          for (const PackedVarying &packedVarying : packedVaryings)
          {
              const auto &varying = *packedVarying.varying;
              size_t subscript     = GL_INVALID_INDEX;
              std::string baseName = ParseResourceName(transformFeedbackVaryingName, &subscript);
  
              // Make sure transform feedback varyings aren't optimized out.
              if (uniqueVaryingNames.count(transformFeedbackVaryingName) > 0 ||
                  uniqueVaryingNames.count(baseName) > 0)
              {
                  found = true;
                  break;
              }
  
              if (baseName == varying.name)
              {
                  if (!packVarying(packedVarying))
                  {
                      infoLog << "Could not pack varying " << varying.name;
                      return false;
                  }
                  uniqueVaryingNames.insert(packedVarying.nameWithArrayIndex());
                  found = true;
                  break;
              }
          }
  
          if (!found)
          {
              infoLog << "Transform feedback varying " << transformFeedbackVaryingName
                      << " does not exist in the vertex shader.";
              return false;
          }
      }
  
      // Sort the packed register list
      std::sort(mRegisterList.begin(), mRegisterList.end());
  
      // Assign semantic indices
      for (unsigned int semanticIndex = 0;
           semanticIndex < static_cast<unsigned int>(mRegisterList.size()); ++semanticIndex)
      {
          mRegisterList[semanticIndex].semanticIndex = semanticIndex;
      }
  
      return true;
  }
  
  unsigned int VaryingPacking::getRegisterCount() const
  {
      unsigned int count = 0;
  
      for (const Register &reg : mRegisterMap)
      {
          if (reg.data[0] || reg.data[1] || reg.data[2] || reg.data[3])
          {
              ++count;
          }
      }
  
      return count;
  }
  
  }  // namespace rx
  

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