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// Copyright 2020 The Tint Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef SRC_TINT_SEM_BUILTIN_H_
#define SRC_TINT_SEM_BUILTIN_H_
#include <string>
#include <vector>
#include "src/tint/builtin/extension.h"
#include "src/tint/sem/builtin_type.h"
#include "src/tint/sem/call_target.h"
#include "src/tint/sem/pipeline_stage_set.h"
#include "src/tint/utils/hash.h"
namespace tint::sem {
/// Determines if the given `i` is a coarse derivative
/// @param i the builtin type
/// @returns true if the given derivative is coarse.
bool IsCoarseDerivativeBuiltin(BuiltinType i);
/// Determines if the given `i` is a fine derivative
/// @param i the builtin type
/// @returns true if the given derivative is fine.
bool IsFineDerivativeBuiltin(BuiltinType i);
/// Determine if the given `i` is a derivative builtin
/// @param i the builtin type
/// @returns true if the given `i` is a derivative builtin
bool IsDerivativeBuiltin(BuiltinType i);
/// Determines if the given `i` is a texture operation builtin
/// @param i the builtin type
/// @returns true if the given `i` is a texture operation builtin
bool IsTextureBuiltin(BuiltinType i);
/// Determines if the given `i` is a image query builtin
/// @param i the builtin type
/// @returns true if the given `i` is a image query builtin
bool IsImageQueryBuiltin(BuiltinType i);
/// Determines if the given `i` is a data packing builtin
/// @param i the builtin
/// @returns true if the given `i` is a data packing builtin
bool IsDataPackingBuiltin(BuiltinType i);
/// Determines if the given `i` is a data unpacking builtin
/// @param i the builtin
/// @returns true if the given `i` is a data unpacking builtin
bool IsDataUnpackingBuiltin(BuiltinType i);
/// Determines if the given `i` is a barrier builtin
/// @param i the builtin
/// @returns true if the given `i` is a barrier builtin
bool IsBarrierBuiltin(BuiltinType i);
/// Determines if the given `i` is a atomic builtin
/// @param i the builtin
/// @returns true if the given `i` is a atomic builtin
bool IsAtomicBuiltin(BuiltinType i);
/// Determins if the given `i` is a DP4a builtin
/// @param i the builtin
/// @returns true if the given `i` is a DP4a builtin
bool IsDP4aBuiltin(BuiltinType i);
/// Builtin holds the semantic information for a builtin function.
class Builtin final : public Castable<Builtin, CallTarget> {
public:
/// Constructor
/// @param type the builtin type
/// @param return_type the return type for the builtin call
/// @param parameters the parameters for the builtin overload
/// @param eval_stage the earliest evaluation stage for a call to the builtin
/// @param supported_stages the pipeline stages that this builtin can be used in
/// @param is_deprecated true if the particular overload is considered deprecated
/// @param must_use true if the builtin was annotated with `@must_use`
Builtin(BuiltinType type,
const type::Type* return_type,
utils::VectorRef<Parameter*> parameters,
EvaluationStage eval_stage,
PipelineStageSet supported_stages,
bool is_deprecated,
bool must_use);
/// Destructor
~Builtin() override;
/// @return the type of the builtin
BuiltinType Type() const { return type_; }
/// @return the pipeline stages that this builtin can be used in
PipelineStageSet SupportedStages() const { return supported_stages_; }
/// @return true if the builtin overload is considered deprecated
bool IsDeprecated() const { return is_deprecated_; }
/// @returns the name of the builtin function type. The spelling, including
/// case, matches the name in the WGSL spec.
const char* str() const;
/// @returns true if builtin is a coarse derivative builtin
bool IsCoarseDerivative() const;
/// @returns true if builtin is a fine a derivative builtin
bool IsFineDerivative() const;
/// @returns true if builtin is a derivative builtin
bool IsDerivative() const;
/// @returns true if builtin is a texture operation builtin
bool IsTexture() const;
/// @returns true if builtin is a image query builtin
bool IsImageQuery() const;
/// @returns true if builtin is a data packing builtin
bool IsDataPacking() const;
/// @returns true if builtin is a data unpacking builtin
bool IsDataUnpacking() const;
/// @returns true if builtin is a barrier builtin
bool IsBarrier() const;
/// @returns true if builtin is a atomic builtin
bool IsAtomic() const;
/// @returns true if builtin is a DP4a builtin (defined in the extension
/// chromium_experimental_DP4a)
bool IsDP4a() const;
/// @returns true if intrinsic may have side-effects (i.e. writes to at least
/// one of its inputs)
bool HasSideEffects() const;
/// @returns the required extension of this builtin function. Returns
/// builtin::Extension::kNone if no extension is required.
builtin::Extension RequiredExtension() const;
private:
const BuiltinType type_;
const PipelineStageSet supported_stages_;
const bool is_deprecated_;
};
/// Constant value used by the degrees() builtin
static constexpr double kRadToDeg = 57.295779513082322865;
/// Constant value used by the radians() builtin
static constexpr double kDegToRad = 0.017453292519943295474;
} // namespace tint::sem
namespace std {
/// Custom std::hash specialization for tint::sem::Builtin
template <>
class hash<tint::sem::Builtin> {
public:
/// @param i the Builtin to create a hash for
/// @return the hash value
inline std::size_t operator()(const tint::sem::Builtin& i) const {
return tint::utils::Hash(i.Type(), i.SupportedStages(), i.ReturnType(), i.Parameters(),
i.IsDeprecated());
}
};
} // namespace std
#endif // SRC_TINT_SEM_BUILTIN_H_