src/sksl/SkSLMemoryLayout.h - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SKIASL_MEMORYLAYOUT
 #define SKIASL_MEMORYLAYOUT

 #include <algorithm>

 #include "src/sksl/ir/SkSLType.h"

 namespace SkSL {

 class MemoryLayout {
 public:
     enum Standard {
         k140_Standard,
         k430_Standard,
         kMetal_Standard
     };

     MemoryLayout(Standard std)
     : fStd(std) {}

     static size_t vector_alignment(size_t componentSize, int columns) {
         return componentSize * (columns + columns % 2);
     }

     /**
      * Rounds up to the nearest multiple of 16 if in std140, otherwise returns the parameter
      * unchanged (std140 requires various things to be rounded up to the nearest multiple of 16,
      * std430 does not).
      */
     size_t roundUpIfNeeded(size_t raw) const {
         switch (fStd) {
             case k140_Standard: return (raw + 15) & ~15;
             case k430_Standard: return raw;
             case kMetal_Standard: return raw;
         }
         SkUNREACHABLE;
     }

     /**
      * Returns a type's required alignment when used as a standalone variable.
      */
     size_t alignment(const Type& type) const {
         // See OpenGL Spec 7.6.2.2 Standard Uniform Block Layout
         switch (type.typeKind()) {
             case Type::TypeKind::kScalar:
                 return this->size(type);
             case Type::TypeKind::kVector:
                 return vector_alignment(this->size(type.componentType()), type.columns());
             case Type::TypeKind::kMatrix:
                 return this->roundUpIfNeeded(vector_alignment(this->size(type.componentType()),
                                                               type.rows()));
             case Type::TypeKind::kArray:
                 return this->roundUpIfNeeded(this->alignment(type.componentType()));
             case Type::TypeKind::kStruct: {
                 size_t result = 0;
                 for (const auto& f : type.fields()) {
                     size_t alignment = this->alignment(*f.fType);
                     if (alignment > result) {
                         result = alignment;
                     }
                 }
                 return this->roundUpIfNeeded(result);
             }
             default:
                 SK_ABORT("cannot determine size of type %s", String(type.name()).c_str());
         }
     }

     /**
      * For matrices and arrays, returns the number of bytes from the start of one entry (row, in
      * the case of matrices) to the start of the next.
      */
     size_t stride(const Type& type) const {
         switch (type.typeKind()) {
             case Type::TypeKind::kMatrix: {
                 size_t base = vector_alignment(this->size(type.componentType()), type.rows());
                 return this->roundUpIfNeeded(base);
             }
             case Type::TypeKind::kArray: {
                 int stride = this->size(type.componentType());
                 if (stride > 0) {
                     int align = this->alignment(type.componentType());
                     stride += align - 1;
                     stride -= stride % align;
                     stride = this->roundUpIfNeeded(stride);
                 }
                 return stride;
             }
             default:
                 SK_ABORT("type does not have a stride");
         }
     }

     /**
      * Returns the size of a type in bytes.
      */
     size_t size(const Type& type) const {
         switch (type.typeKind()) {
             case Type::TypeKind::kScalar:
                 if (type.isBoolean()) {
                     return 1;
                 }
                 // FIXME need to take precision into account, once we figure out how we want to
                 // handle it...
                 return 4;
             case Type::TypeKind::kVector:
                 if (fStd == kMetal_Standard && type.columns() == 3) {
                     return 4 * this->size(type.componentType());
                 }
                 return type.columns() * this->size(type.componentType());
             case Type::TypeKind::kMatrix: // fall through
             case Type::TypeKind::kArray:
                 return type.columns() * this->stride(type);
             case Type::TypeKind::kStruct: {
                 size_t total = 0;
                 for (const auto& f : type.fields()) {
                     size_t alignment = this->alignment(*f.fType);
                     if (total % alignment != 0) {
                         total += alignment - total % alignment;
                     }
                     SkASSERT(total % alignment == 0);
                     total += this->size(*f.fType);
                 }
                 size_t alignment = this->alignment(type);
                 SkASSERT(!type.fields().size() ||
                        (0 == alignment % this->alignment(*type.fields()[0].fType)));
                 return (total + alignment - 1) & ~(alignment - 1);
             }
             default:
                 SK_ABORT("cannot determine size of type %s", String(type.name()).c_str());
         }
     }

     /**
      * Not all types are compatible with memory layout.
      */
     static size_t LayoutIsSupported(const Type& type) {
         switch (type.typeKind()) {
             case Type::TypeKind::kScalar:
             case Type::TypeKind::kVector:
             case Type::TypeKind::kMatrix:
                 return true;

             case Type::TypeKind::kArray:
                 return LayoutIsSupported(type.componentType());

             case Type::TypeKind::kStruct:
                 return std::all_of(
                         type.fields().begin(), type.fields().end(),
                         [](const Type::Field& f) { return LayoutIsSupported(*f.fType); });

             default:
                 return false;
         }
     }

     const Standard fStd;
 };

 }  // namespace SkSL

 #endif
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SKIASL_MEMORYLAYOUT
	#define SKIASL_MEMORYLAYOUT

	#include <algorithm>

	#include "src/sksl/ir/SkSLType.h"

	namespace SkSL {

	class MemoryLayout {
	public:
	enum Standard {
	k140_Standard,
	k430_Standard,
	kMetal_Standard
	};

	MemoryLayout(Standard std)
	: fStd(std) {}

	static size_t vector_alignment(size_t componentSize, int columns) {
	return componentSize * (columns + columns % 2);
	}

	/**
	* Rounds up to the nearest multiple of 16 if in std140, otherwise returns the parameter
	* unchanged (std140 requires various things to be rounded up to the nearest multiple of 16,
	* std430 does not).
	*/
	size_t roundUpIfNeeded(size_t raw) const {
	switch (fStd) {
	case k140_Standard: return (raw + 15) & ~15;
	case k430_Standard: return raw;
	case kMetal_Standard: return raw;
	}
	SkUNREACHABLE;
	}

	/**
	* Returns a type's required alignment when used as a standalone variable.
	*/
	size_t alignment(const Type& type) const {
	// See OpenGL Spec 7.6.2.2 Standard Uniform Block Layout
	switch (type.typeKind()) {
	case Type::TypeKind::kScalar:
	return this->size(type);
	case Type::TypeKind::kVector:
	return vector_alignment(this->size(type.componentType()), type.columns());
	case Type::TypeKind::kMatrix:
	return this->roundUpIfNeeded(vector_alignment(this->size(type.componentType()),
	type.rows()));
	case Type::TypeKind::kArray:
	return this->roundUpIfNeeded(this->alignment(type.componentType()));
	case Type::TypeKind::kStruct: {
	size_t result = 0;
	for (const auto& f : type.fields()) {
	size_t alignment = this->alignment(*f.fType);
	if (alignment > result) {
	result = alignment;
	}
	}
	return this->roundUpIfNeeded(result);
	}
	default:
	SK_ABORT("cannot determine size of type %s", String(type.name()).c_str());
	}
	}

	/**
	* For matrices and arrays, returns the number of bytes from the start of one entry (row, in
	* the case of matrices) to the start of the next.
	*/
	size_t stride(const Type& type) const {
	switch (type.typeKind()) {
	case Type::TypeKind::kMatrix: {
	size_t base = vector_alignment(this->size(type.componentType()), type.rows());
	return this->roundUpIfNeeded(base);
	}
	case Type::TypeKind::kArray: {
	int stride = this->size(type.componentType());
	if (stride > 0) {
	int align = this->alignment(type.componentType());
	stride += align - 1;
	stride -= stride % align;
	stride = this->roundUpIfNeeded(stride);
	}
	return stride;
	}
	default:
	SK_ABORT("type does not have a stride");
	}
	}

	/**
	* Returns the size of a type in bytes.
	*/
	size_t size(const Type& type) const {
	switch (type.typeKind()) {
	case Type::TypeKind::kScalar:
	if (type.isBoolean()) {
	return 1;
	}
	// FIXME need to take precision into account, once we figure out how we want to
	// handle it...
	return 4;
	case Type::TypeKind::kVector:
	if (fStd == kMetal_Standard && type.columns() == 3) {
	return 4 * this->size(type.componentType());
	}
	return type.columns() * this->size(type.componentType());
	case Type::TypeKind::kMatrix: // fall through
	case Type::TypeKind::kArray:
	return type.columns() * this->stride(type);
	case Type::TypeKind::kStruct: {
	size_t total = 0;
	for (const auto& f : type.fields()) {
	size_t alignment = this->alignment(*f.fType);
	if (total % alignment != 0) {
	total += alignment - total % alignment;
	}
	SkASSERT(total % alignment == 0);
	total += this->size(*f.fType);
	}
	size_t alignment = this->alignment(type);
	SkASSERT(!type.fields().size() \|\|
	(0 == alignment % this->alignment(*type.fields()[0].fType)));
	return (total + alignment - 1) & ~(alignment - 1);
	}
	default:
	SK_ABORT("cannot determine size of type %s", String(type.name()).c_str());
	}
	}

	/**
	* Not all types are compatible with memory layout.
	*/
	static size_t LayoutIsSupported(const Type& type) {
	switch (type.typeKind()) {
	case Type::TypeKind::kScalar:
	case Type::TypeKind::kVector:
	case Type::TypeKind::kMatrix:
	return true;

	case Type::TypeKind::kArray:
	return LayoutIsSupported(type.componentType());

	case Type::TypeKind::kStruct:
	return std::all_of(
	type.fields().begin(), type.fields().end(),
	[](const Type::Field& f) { return LayoutIsSupported(*f.fType); });

	default:
	return false;
	}
	}

	const Standard fStd;
	};

	} // namespace SkSL

	#endif