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// Copyright 2022 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_RESOLVER_CONST_EVAL_H_
#define SRC_TINT_RESOLVER_CONST_EVAL_H_
#include <stddef.h>
#include <string>
#include "src/tint/utils/result.h"
#include "src/tint/utils/vector.h"
// Forward declarations
namespace tint {
class ProgramBuilder;
class Source;
} // namespace tint
namespace tint::ast {
class LiteralExpression;
} // namespace tint::ast
namespace tint::sem {
class Constant;
class Expression;
class StructMember;
class Type;
} // namespace tint::sem
namespace tint::resolver {
/// ConstEval performs shader creation-time (constant expression) expression evaluation.
/// Methods are called from the resolver, either directly or via member-function pointers indexed by
/// the IntrinsicTable. All child-expression nodes are guaranteed to have been already resolved
/// before calling a method to evaluate an expression's value.
class ConstEval {
public:
/// The result type of a method that may raise a diagnostic error and the caller should abort
/// resolving. Can be one of three distinct values:
/// * A non-null sem::Constant pointer. Returned when a expression resolves to a creation time
/// value.
/// * A null sem::Constant pointer. Returned when a expression cannot resolve to a creation time
/// value, but is otherwise legal.
/// * `utils::Failure`. Returned when there was a resolver error. In this situation the method
/// will have already reported a diagnostic error message, and the caller should abort
/// resolving.
using ConstantResult = utils::Result<const sem::Constant*>;
/// Typedef for a constant evaluation function
using Function = ConstantResult (ConstEval::*)(const sem::Type* result_ty,
utils::VectorRef<const sem::Constant*>,
const Source&);
/// Constructor
/// @param b the program builder
explicit ConstEval(ProgramBuilder& b);
////////////////////////////////////////////////////////////////////////////////////////////////
// Constant value evaluation methods, to be called directly from Resolver
////////////////////////////////////////////////////////////////////////////////////////////////
/// @param ty the target type - must be an array or constructor
/// @param args the input arguments
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult ArrayOrStructCtor(const sem::Type* ty,
utils::VectorRef<const sem::Expression*> args);
/// @param ty the target type
/// @param expr the input expression
/// @return the bit-cast of the given expression to the given type, or null if the value cannot
/// be calculated
ConstantResult Bitcast(const sem::Type* ty, const sem::Expression* expr);
/// @param obj the object being indexed
/// @param idx the index expression
/// @return the result of the index, or null if the value cannot be calculated
ConstantResult Index(const sem::Expression* obj, const sem::Expression* idx);
/// @param ty the result type
/// @param lit the literal AST node
/// @return the constant value of the literal
ConstantResult Literal(const sem::Type* ty, const ast::LiteralExpression* lit);
/// @param obj the object being accessed
/// @param member the member
/// @return the result of the member access, or null if the value cannot be calculated
ConstantResult MemberAccess(const sem::Expression* obj, const sem::StructMember* member);
/// @param ty the result type
/// @param vector the vector being swizzled
/// @param indices the swizzle indices
/// @return the result of the swizzle, or null if the value cannot be calculated
ConstantResult Swizzle(const sem::Type* ty,
const sem::Expression* vector,
utils::VectorRef<uint32_t> indices);
/// Convert the `value` to `target_type`
/// @param ty the result type
/// @param value the value being converted
/// @param source the source location of the conversion
/// @return the converted value, or null if the value cannot be calculated
ConstantResult Convert(const sem::Type* ty, const sem::Constant* value, const Source& source);
////////////////////////////////////////////////////////////////////////////////////////////////
// Constant value evaluation methods, to be indirectly called via the intrinsic table
////////////////////////////////////////////////////////////////////////////////////////////////
/// Type conversion
/// @param ty the result type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the converted value, or null if the value cannot be calculated
ConstantResult Conv(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Zero value type constructor
/// @param ty the result type
/// @param args the input arguments (no arguments provided)
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult Zero(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Identity value type constructor
/// @param ty the result type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult Identity(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Vector splat constructor
/// @param ty the vector type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult VecSplat(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Vector constructor using scalars
/// @param ty the vector type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult VecCtorS(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Vector constructor using a mix of scalars and smaller vectors
/// @param ty the vector type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult VecCtorM(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Matrix constructor using scalar values
/// @param ty the matrix type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult MatCtorS(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Matrix constructor using column vectors
/// @param ty the matrix type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the constructed value, or null if the value cannot be calculated
ConstantResult MatCtorV(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
////////////////////////////////////////////////////////////////////////////
// Unary Operators
////////////////////////////////////////////////////////////////////////////
/// Complement operator '~'
/// @param ty the integer type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpComplement(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Unary minus operator '-'
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpUnaryMinus(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
////////////////////////////////////////////////////////////////////////////
// Binary Operators
////////////////////////////////////////////////////////////////////////////
/// Plus operator '+'
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpPlus(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Minus operator '-'
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpMinus(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Multiply operator '*' for the same type on the LHS and RHS
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpMultiply(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Multiply operator '*' for matCxR<T> * vecC<T>
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpMultiplyMatVec(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Multiply operator '*' for vecR<T> * matCxR<T>
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpMultiplyVecMat(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Multiply operator '*' for matKxR<T> * matCxK<T>
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpMultiplyMatMat(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// Divide operator '/'
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult OpDivide(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
////////////////////////////////////////////////////////////////////////////
// Builtins
////////////////////////////////////////////////////////////////////////////
/// atan2 builtin
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult atan2(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
/// clamp builtin
/// @param ty the expression type
/// @param args the input arguments
/// @param source the source location of the conversion
/// @return the result value, or null if the value cannot be calculated
ConstantResult clamp(const sem::Type* ty,
utils::VectorRef<const sem::Constant*> args,
const Source& source);
private:
/// Adds the given error message to the diagnostics
void AddError(const std::string& msg, const Source& source) const;
/// Adds the given warning message to the diagnostics
void AddWarning(const std::string& msg, const Source& source) const;
/// Adds two Number<T>s
/// @param a the lhs number
/// @param b the rhs number
/// @returns the result number on success, or logs an error and returns Failure
template <typename NumberT>
utils::Result<NumberT> Add(NumberT a, NumberT b);
/// Multiplies two Number<T>s
/// @param a the lhs number
/// @param b the rhs number
/// @returns the result number on success, or logs an error and returns Failure
template <typename NumberT>
utils::Result<NumberT> Mul(NumberT a, NumberT b);
/// Returns the dot product of (a1,a2) with (b1,b2)
/// @param a1 component 1 of lhs vector
/// @param a2 component 2 of lhs vector
/// @param b1 component 1 of rhs vector
/// @param b2 component 2 of rhs vector
/// @returns the result number on success, or logs an error and returns Failure
template <typename NumberT>
utils::Result<NumberT> Dot2(NumberT a1, NumberT a2, NumberT b1, NumberT b2);
/// Returns the dot product of (a1,a2,a3) with (b1,b2,b3)
/// @param a1 component 1 of lhs vector
/// @param a2 component 2 of lhs vector
/// @param a3 component 3 of lhs vector
/// @param b1 component 1 of rhs vector
/// @param b2 component 2 of rhs vector
/// @param b3 component 3 of rhs vector
/// @returns the result number on success, or logs an error and returns Failure
template <typename NumberT>
utils::Result<NumberT> Dot3(NumberT a1,
NumberT a2,
NumberT a3,
NumberT b1,
NumberT b2,
NumberT b3);
/// Returns the dot product of (a1,b1,c1,d1) with (a2,b2,c2,d2)
/// @param a1 component 1 of lhs vector
/// @param a2 component 2 of lhs vector
/// @param a3 component 3 of lhs vector
/// @param a4 component 4 of lhs vector
/// @param b1 component 1 of rhs vector
/// @param b2 component 2 of rhs vector
/// @param b3 component 3 of rhs vector
/// @param b4 component 4 of rhs vector
/// @returns the result number on success, or logs an error and returns Failure
template <typename NumberT>
utils::Result<NumberT> Dot4(NumberT a1,
NumberT a2,
NumberT a3,
NumberT a4,
NumberT b1,
NumberT b2,
NumberT b3,
NumberT b4);
/// Returns a callable that calls Add, and creates a Constant with its result of type `elem_ty`
/// if successful, or returns Failure otherwise.
/// @param elem_ty the element type of the Constant to create on success
/// @returns the callable function
auto AddFunc(const sem::Type* elem_ty);
/// Returns a callable that calls Mul, and creates a Constant with its result of type `elem_ty`
/// if successful, or returns Failure otherwise.
/// @param elem_ty the element type of the Constant to create on success
/// @returns the callable function
auto MulFunc(const sem::Type* elem_ty);
/// Returns a callable that calls Dot2, and creates a Constant with its result of type `elem_ty`
/// if successful, or returns Failure otherwise.
/// @param elem_ty the element type of the Constant to create on success
/// @returns the callable function
auto Dot2Func(const sem::Type* elem_ty);
/// Returns a callable that calls Dot3, and creates a Constant with its result of type `elem_ty`
/// if successful, or returns Failure otherwise.
/// @param elem_ty the element type of the Constant to create on success
/// @returns the callable function
auto Dot3Func(const sem::Type* elem_ty);
/// Returns a callable that calls Dot4, and creates a Constant with its result of type `elem_ty`
/// if successful, or returns Failure otherwise.
/// @param elem_ty the element type of the Constant to create on success
/// @returns the callable function
auto Dot4Func(const sem::Type* elem_ty);
ProgramBuilder& builder;
const Source* current_source = nullptr;
};
} // namespace tint::resolver
#endif // SRC_TINT_RESOLVER_CONST_EVAL_H_