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//
// Copyright 2014 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.
//
// ShaderVars.cpp:
// Methods for GL variable types (varyings, uniforms, etc)
//
#include <GLSLANG/ShaderLang.h>
#include "common/debug.h"
#include "common/utilities.h"
namespace sh
{
namespace
{
InterpolationType GetNonAuxiliaryInterpolationType(InterpolationType interpolation)
{
return (interpolation == INTERPOLATION_CENTROID ? INTERPOLATION_SMOOTH : interpolation);
}
} // namespace
// The ES 3.0 spec is not clear on this point, but the ES 3.1 spec, and discussion
// on Khronos.org, clarifies that a smooth/flat mismatch produces a link error,
// but auxiliary qualifier mismatch (centroid) does not.
bool InterpolationTypesMatch(InterpolationType a, InterpolationType b)
{
return (GetNonAuxiliaryInterpolationType(a) == GetNonAuxiliaryInterpolationType(b));
}
ShaderVariable::ShaderVariable() : ShaderVariable(GL_NONE) {}
ShaderVariable::ShaderVariable(GLenum typeIn)
: type(typeIn),
precision(0),
staticUse(false),
active(false),
isRowMajorLayout(false),
location(-1),
hasImplicitLocation(false),
binding(-1),
imageUnitFormat(GL_NONE),
offset(-1),
rasterOrdered(false),
readonly(false),
writeonly(false),
isFragmentInOut(false),
index(-1),
yuv(false),
interpolation(INTERPOLATION_SMOOTH),
isInvariant(false),
isShaderIOBlock(false),
isPatch(false),
texelFetchStaticUse(false),
flattenedOffsetInParentArrays(-1)
{}
ShaderVariable::ShaderVariable(GLenum typeIn, unsigned int arraySizeIn) : ShaderVariable(typeIn)
{
ASSERT(arraySizeIn != 0);
arraySizes.push_back(arraySizeIn);
}
ShaderVariable::~ShaderVariable() {}
ShaderVariable::ShaderVariable(const ShaderVariable &other)
: type(other.type),
precision(other.precision),
name(other.name),
mappedName(other.mappedName),
arraySizes(other.arraySizes),
staticUse(other.staticUse),
active(other.active),
fields(other.fields),
structOrBlockName(other.structOrBlockName),
mappedStructOrBlockName(other.mappedStructOrBlockName),
isRowMajorLayout(other.isRowMajorLayout),
location(other.location),
hasImplicitLocation(other.hasImplicitLocation),
binding(other.binding),
imageUnitFormat(other.imageUnitFormat),
offset(other.offset),
rasterOrdered(other.rasterOrdered),
readonly(other.readonly),
writeonly(other.writeonly),
isFragmentInOut(other.isFragmentInOut),
index(other.index),
yuv(other.yuv),
interpolation(other.interpolation),
isInvariant(other.isInvariant),
isShaderIOBlock(other.isShaderIOBlock),
isPatch(other.isPatch),
texelFetchStaticUse(other.texelFetchStaticUse),
flattenedOffsetInParentArrays(other.flattenedOffsetInParentArrays)
{}
ShaderVariable &ShaderVariable::operator=(const ShaderVariable &other)
{
type = other.type;
precision = other.precision;
name = other.name;
mappedName = other.mappedName;
arraySizes = other.arraySizes;
staticUse = other.staticUse;
active = other.active;
fields = other.fields;
structOrBlockName = other.structOrBlockName;
mappedStructOrBlockName = other.mappedStructOrBlockName;
isRowMajorLayout = other.isRowMajorLayout;
flattenedOffsetInParentArrays = other.flattenedOffsetInParentArrays;
location = other.location;
hasImplicitLocation = other.hasImplicitLocation;
binding = other.binding;
imageUnitFormat = other.imageUnitFormat;
offset = other.offset;
rasterOrdered = other.rasterOrdered;
readonly = other.readonly;
writeonly = other.writeonly;
isFragmentInOut = other.isFragmentInOut;
index = other.index;
yuv = other.yuv;
interpolation = other.interpolation;
isInvariant = other.isInvariant;
isShaderIOBlock = other.isShaderIOBlock;
isPatch = other.isPatch;
texelFetchStaticUse = other.texelFetchStaticUse;
return *this;
}
bool ShaderVariable::operator==(const ShaderVariable &other) const
{
if (type != other.type || precision != other.precision || name != other.name ||
mappedName != other.mappedName || arraySizes != other.arraySizes ||
staticUse != other.staticUse || active != other.active ||
fields.size() != other.fields.size() || structOrBlockName != other.structOrBlockName ||
mappedStructOrBlockName != other.mappedStructOrBlockName ||
isRowMajorLayout != other.isRowMajorLayout || location != other.location ||
hasImplicitLocation != other.hasImplicitLocation || binding != other.binding ||
imageUnitFormat != other.imageUnitFormat || offset != other.offset ||
rasterOrdered != other.rasterOrdered || readonly != other.readonly ||
writeonly != other.writeonly || index != other.index || yuv != other.yuv ||
interpolation != other.interpolation || isInvariant != other.isInvariant ||
isShaderIOBlock != other.isShaderIOBlock || isPatch != other.isPatch ||
texelFetchStaticUse != other.texelFetchStaticUse ||
isFragmentInOut != other.isFragmentInOut)
{
return false;
}
for (size_t ii = 0; ii < fields.size(); ++ii)
{
if (fields[ii] != other.fields[ii])
return false;
}
return true;
}
void ShaderVariable::setArraySize(unsigned int size)
{
arraySizes.clear();
if (size != 0)
{
arraySizes.push_back(size);
}
}
unsigned int ShaderVariable::getInnerArraySizeProduct() const
{
return gl::InnerArraySizeProduct(arraySizes);
}
unsigned int ShaderVariable::getArraySizeProduct() const
{
return gl::ArraySizeProduct(arraySizes);
}
void ShaderVariable::indexIntoArray(unsigned int arrayIndex)
{
ASSERT(isArray());
flattenedOffsetInParentArrays = arrayIndex + getOutermostArraySize() * parentArrayIndex();
arraySizes.pop_back();
}
unsigned int ShaderVariable::getNestedArraySize(unsigned int arrayNestingIndex) const
{
ASSERT(arraySizes.size() > arrayNestingIndex);
unsigned int arraySize = arraySizes[arraySizes.size() - 1u - arrayNestingIndex];
if (arraySize == 0)
{
// Unsized array, so give it at least 1 entry
arraySize = 1;
}
return arraySize;
}
unsigned int ShaderVariable::getBasicTypeElementCount() const
{
// GLES 3.1 Nov 2016 section 7.3.1.1 page 77 specifies that a separate entry should be generated
// for each array element when dealing with an array of arrays or an array of structs.
ASSERT(!isArrayOfArrays());
ASSERT(!isStruct() || !isArray());
// GLES 3.1 Nov 2016 page 82.
if (isArray())
{
return getOutermostArraySize();
}
return 1u;
}
unsigned int ShaderVariable::getExternalSize() const
{
unsigned int memorySize = 0;
if (isStruct())
{
// Have a structure, need to compute the structure size.
for (const auto &field : fields)
{
memorySize += field.getExternalSize();
}
}
else
{
memorySize += gl::VariableExternalSize(type);
}
// multiply by array size to get total memory size of this variable / struct.
memorySize *= getArraySizeProduct();
return memorySize;
}
bool ShaderVariable::findInfoByMappedName(const std::string &mappedFullName,
const ShaderVariable **leafVar,
std::string *originalFullName) const
{
ASSERT(leafVar && originalFullName);
// There are three cases:
// 1) the top variable is of struct type;
// 2) the top variable is an array;
// 3) otherwise.
size_t pos = mappedFullName.find_first_of(".[");
if (pos == std::string::npos)
{
// Case 3.
if (mappedFullName != this->mappedName)
return false;
*originalFullName = this->name;
*leafVar = this;
return true;
}
else
{
std::string topName = mappedFullName.substr(0, pos);
if (topName != this->mappedName)
return false;
std::string originalName = this->name;
std::string remaining;
if (mappedFullName[pos] == '[')
{
// Case 2.
size_t closePos = mappedFullName.find_first_of(']');
if (closePos < pos || closePos == std::string::npos)
return false;
// Append '[index]'.
originalName += mappedFullName.substr(pos, closePos - pos + 1);
if (closePos + 1 == mappedFullName.size())
{
*originalFullName = originalName;
*leafVar = this;
return true;
}
else
{
// In the form of 'a[0].b', so after ']', '.' is expected.
if (mappedFullName[closePos + 1] != '.')
return false;
remaining = mappedFullName.substr(closePos + 2); // Skip "]."
}
}
else
{
// Case 1.
remaining = mappedFullName.substr(pos + 1); // Skip "."
}
for (size_t ii = 0; ii < this->fields.size(); ++ii)
{
const ShaderVariable *fieldVar = nullptr;
std::string originalFieldName;
bool found = fields[ii].findInfoByMappedName(remaining, &fieldVar, &originalFieldName);
if (found)
{
*originalFullName = originalName + "." + originalFieldName;
*leafVar = fieldVar;
return true;
}
}
return false;
}
}
const sh::ShaderVariable *ShaderVariable::findField(const std::string &fullName,
uint32_t *fieldIndexOut) const
{
if (fields.empty())
{
return nullptr;
}
size_t pos = fullName.find_first_of(".");
std::string topName, fieldName;
if (pos == std::string::npos)
{
// If this is a shader I/O block without an instance name, return the field given only the
// field name.
if (!isShaderIOBlock || !name.empty())
{
return nullptr;
}
fieldName = fullName;
}
else
{
std::string baseName = isShaderIOBlock ? structOrBlockName : name;
topName = fullName.substr(0, pos);
if (topName != baseName)
{
return nullptr;
}
fieldName = fullName.substr(pos + 1);
}
if (fieldName.empty())
{
return nullptr;
}
for (size_t field = 0; field < fields.size(); ++field)
{
if (fields[field].name == fieldName)
{
*fieldIndexOut = static_cast<GLuint>(field);
return &fields[field];
}
}
return nullptr;
}
bool ShaderVariable::isBuiltIn() const
{
return gl::IsBuiltInName(name);
}
bool ShaderVariable::isEmulatedBuiltIn() const
{
return isBuiltIn() && name != mappedName;
}
bool ShaderVariable::isSameVariableAtLinkTime(const ShaderVariable &other,
bool matchPrecision,
bool matchName) const
{
if (type != other.type)
return false;
if (matchPrecision && precision != other.precision)
return false;
if (matchName && name != other.name)
return false;
ASSERT(!matchName || mappedName == other.mappedName);
if (arraySizes != other.arraySizes)
return false;
if (isRowMajorLayout != other.isRowMajorLayout)
return false;
if (fields.size() != other.fields.size())
return false;
// [OpenGL ES 3.1 SPEC Chapter 7.4.1]
// Variables declared as structures are considered to match in type if and only if structure
// members match in name, type, qualification, and declaration order.
for (size_t ii = 0; ii < fields.size(); ++ii)
{
if (!fields[ii].isSameVariableAtLinkTime(other.fields[ii], matchPrecision, true))
{
return false;
}
}
if (structOrBlockName != other.structOrBlockName ||
mappedStructOrBlockName != other.mappedStructOrBlockName)
return false;
return true;
}
void ShaderVariable::updateEffectiveLocation(const sh::ShaderVariable &parent)
{
if ((location < 0 || hasImplicitLocation) && !parent.hasImplicitLocation)
{
location = parent.location;
}
}
void ShaderVariable::resetEffectiveLocation()
{
if (hasImplicitLocation)
{
location = -1;
}
}
bool ShaderVariable::isSameUniformAtLinkTime(const ShaderVariable &other) const
{
// Enforce a consistent match.
// https://cvs.khronos.org/bugzilla/show_bug.cgi?id=16261
if (binding != -1 && other.binding != -1 && binding != other.binding)
{
return false;
}
if (imageUnitFormat != other.imageUnitFormat)
{
return false;
}
if (location != -1 && other.location != -1 && location != other.location)
{
return false;
}
if (offset != other.offset)
{
return false;
}
if (rasterOrdered != other.rasterOrdered)
{
return false;
}
if (readonly != other.readonly || writeonly != other.writeonly)
{
return false;
}
return ShaderVariable::isSameVariableAtLinkTime(other, true, true);
}
bool ShaderVariable::isSameInterfaceBlockFieldAtLinkTime(const ShaderVariable &other) const
{
return (ShaderVariable::isSameVariableAtLinkTime(other, true, true));
}
bool ShaderVariable::isSameVaryingAtLinkTime(const ShaderVariable &other) const
{
return isSameVaryingAtLinkTime(other, 100);
}
bool ShaderVariable::isSameVaryingAtLinkTime(const ShaderVariable &other, int shaderVersion) const
{
return ShaderVariable::isSameVariableAtLinkTime(other, false, false) &&
InterpolationTypesMatch(interpolation, other.interpolation) &&
(shaderVersion >= 300 || isInvariant == other.isInvariant) &&
(isPatch == other.isPatch) && location == other.location &&
(isSameNameAtLinkTime(other) || (shaderVersion >= 310 && location >= 0));
}
bool ShaderVariable::isSameNameAtLinkTime(const ShaderVariable &other) const
{
if (isShaderIOBlock != other.isShaderIOBlock)
{
return false;
}
if (isShaderIOBlock)
{
// Shader I/O blocks match by block name.
return structOrBlockName == other.structOrBlockName;
}
// Otherwise match by name.
return name == other.name;
}
InterfaceBlock::InterfaceBlock()
: arraySize(0),
layout(BLOCKLAYOUT_PACKED),
isRowMajorLayout(false),
binding(-1),
staticUse(false),
active(false),
blockType(BlockType::BLOCK_UNIFORM)
{}
InterfaceBlock::~InterfaceBlock() {}
InterfaceBlock::InterfaceBlock(const InterfaceBlock &other)
: name(other.name),
mappedName(other.mappedName),
instanceName(other.instanceName),
arraySize(other.arraySize),
layout(other.layout),
isRowMajorLayout(other.isRowMajorLayout),
binding(other.binding),
staticUse(other.staticUse),
active(other.active),
blockType(other.blockType),
fields(other.fields)
{}
InterfaceBlock &InterfaceBlock::operator=(const InterfaceBlock &other)
{
name = other.name;
mappedName = other.mappedName;
instanceName = other.instanceName;
arraySize = other.arraySize;
layout = other.layout;
isRowMajorLayout = other.isRowMajorLayout;
binding = other.binding;
staticUse = other.staticUse;
active = other.active;
blockType = other.blockType;
fields = other.fields;
return *this;
}
std::string InterfaceBlock::fieldPrefix() const
{
return instanceName.empty() ? "" : name;
}
std::string InterfaceBlock::fieldMappedPrefix() const
{
return instanceName.empty() ? "" : mappedName;
}
bool InterfaceBlock::isSameInterfaceBlockAtLinkTime(const InterfaceBlock &other) const
{
if (name != other.name || mappedName != other.mappedName || arraySize != other.arraySize ||
layout != other.layout || isRowMajorLayout != other.isRowMajorLayout ||
binding != other.binding || blockType != other.blockType ||
fields.size() != other.fields.size())
{
return false;
}
for (size_t fieldIndex = 0; fieldIndex < fields.size(); ++fieldIndex)
{
if (!fields[fieldIndex].isSameInterfaceBlockFieldAtLinkTime(other.fields[fieldIndex]))
{
return false;
}
}
return true;
}
bool InterfaceBlock::isBuiltIn() const
{
return gl::IsBuiltInName(name);
}
void WorkGroupSize::fill(int fillValue)
{
localSizeQualifiers[0] = fillValue;
localSizeQualifiers[1] = fillValue;
localSizeQualifiers[2] = fillValue;
}
void WorkGroupSize::setLocalSize(int localSizeX, int localSizeY, int localSizeZ)
{
localSizeQualifiers[0] = localSizeX;
localSizeQualifiers[1] = localSizeY;
localSizeQualifiers[2] = localSizeZ;
}
// check that if one of them is less than 1, then all of them are.
// Or if one is positive, then all of them are positive.
bool WorkGroupSize::isLocalSizeValid() const
{
return (
(localSizeQualifiers[0] < 1 && localSizeQualifiers[1] < 1 && localSizeQualifiers[2] < 1) ||
(localSizeQualifiers[0] > 0 && localSizeQualifiers[1] > 0 && localSizeQualifiers[2] > 0));
}
bool WorkGroupSize::isAnyValueSet() const
{
return localSizeQualifiers[0] > 0 || localSizeQualifiers[1] > 0 || localSizeQualifiers[2] > 0;
}
bool WorkGroupSize::isDeclared() const
{
bool localSizeDeclared = localSizeQualifiers[0] > 0;
ASSERT(isLocalSizeValid());
return localSizeDeclared;
}
bool WorkGroupSize::isWorkGroupSizeMatching(const WorkGroupSize &right) const
{
for (size_t i = 0u; i < size(); ++i)
{
bool result = (localSizeQualifiers[i] == right.localSizeQualifiers[i] ||
(localSizeQualifiers[i] == 1 && right.localSizeQualifiers[i] == -1) ||
(localSizeQualifiers[i] == -1 && right.localSizeQualifiers[i] == 1));
if (!result)
{
return false;
}
}
return true;
}
int &WorkGroupSize::operator[](size_t index)
{
ASSERT(index < size());
return localSizeQualifiers[index];
}
int WorkGroupSize::operator[](size_t index) const
{
ASSERT(index < size());
return localSizeQualifiers[index];
}
size_t WorkGroupSize::size() const
{
return 3u;
}
} // namespace sh
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