| // Copyright 2021 The Dawn & Tint Authors |
| // |
| // Redistribution and use in source and binary forms, with or without |
| // modification, are permitted provided that the following conditions are met: |
| // |
| // 1. Redistributions of source code must retain the above copyright notice, this |
| // list of conditions and the following disclaimer. |
| // |
| // 2. Redistributions in binary form must reproduce the above copyright notice, |
| // this list of conditions and the following disclaimer in the documentation |
| // and/or other materials provided with the distribution. |
| // |
| // 3. Neither the name of the copyright holder nor the names of its |
| // contributors may be used to endorse or promote products derived from |
| // this software without specific prior written permission. |
| // |
| // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
| // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
| // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE |
| // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE |
| // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
| // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR |
| // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER |
| // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, |
| // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| #ifndef SRC_TINT_LANG_WGSL_AST_BUILDER_H_ |
| #define SRC_TINT_LANG_WGSL_AST_BUILDER_H_ |
| |
| #include <utility> |
| |
| #include "src/tint/api/common/override_id.h" |
| |
| #include "src/tint/lang/core/fluent_types.h" |
| #include "src/tint/lang/core/interpolation.h" |
| #include "src/tint/lang/core/interpolation_sampling.h" |
| #include "src/tint/lang/core/interpolation_type.h" |
| #include "src/tint/lang/core/number.h" |
| #include "src/tint/lang/core/texel_format.h" |
| #include "src/tint/lang/core/type/sampler_kind.h" |
| #include "src/tint/lang/core/type/texture_dimension.h" |
| #include "src/tint/lang/wgsl/ast/alias.h" |
| #include "src/tint/lang/wgsl/ast/assignment_statement.h" |
| #include "src/tint/lang/wgsl/ast/binary_expression.h" |
| #include "src/tint/lang/wgsl/ast/binding_attribute.h" |
| #include "src/tint/lang/wgsl/ast/blend_src_attribute.h" |
| #include "src/tint/lang/wgsl/ast/bool_literal_expression.h" |
| #include "src/tint/lang/wgsl/ast/break_if_statement.h" |
| #include "src/tint/lang/wgsl/ast/break_statement.h" |
| #include "src/tint/lang/wgsl/ast/call_expression.h" |
| #include "src/tint/lang/wgsl/ast/call_statement.h" |
| #include "src/tint/lang/wgsl/ast/case_statement.h" |
| #include "src/tint/lang/wgsl/ast/color_attribute.h" |
| #include "src/tint/lang/wgsl/ast/compound_assignment_statement.h" |
| #include "src/tint/lang/wgsl/ast/const.h" |
| #include "src/tint/lang/wgsl/ast/const_assert.h" |
| #include "src/tint/lang/wgsl/ast/continue_statement.h" |
| #include "src/tint/lang/wgsl/ast/diagnostic_attribute.h" |
| #include "src/tint/lang/wgsl/ast/diagnostic_control.h" |
| #include "src/tint/lang/wgsl/ast/diagnostic_directive.h" |
| #include "src/tint/lang/wgsl/ast/diagnostic_rule_name.h" |
| #include "src/tint/lang/wgsl/ast/disable_validation_attribute.h" |
| #include "src/tint/lang/wgsl/ast/discard_statement.h" |
| #include "src/tint/lang/wgsl/ast/enable.h" |
| #include "src/tint/lang/wgsl/ast/float_literal_expression.h" |
| #include "src/tint/lang/wgsl/ast/for_loop_statement.h" |
| #include "src/tint/lang/wgsl/ast/id_attribute.h" |
| #include "src/tint/lang/wgsl/ast/identifier.h" |
| #include "src/tint/lang/wgsl/ast/if_statement.h" |
| #include "src/tint/lang/wgsl/ast/increment_decrement_statement.h" |
| #include "src/tint/lang/wgsl/ast/index_accessor_expression.h" |
| #include "src/tint/lang/wgsl/ast/input_attachment_index_attribute.h" |
| #include "src/tint/lang/wgsl/ast/int_literal_expression.h" |
| #include "src/tint/lang/wgsl/ast/interpolate_attribute.h" |
| #include "src/tint/lang/wgsl/ast/invariant_attribute.h" |
| #include "src/tint/lang/wgsl/ast/let.h" |
| #include "src/tint/lang/wgsl/ast/loop_statement.h" |
| #include "src/tint/lang/wgsl/ast/member_accessor_expression.h" |
| #include "src/tint/lang/wgsl/ast/module.h" |
| #include "src/tint/lang/wgsl/ast/must_use_attribute.h" |
| #include "src/tint/lang/wgsl/ast/override.h" |
| #include "src/tint/lang/wgsl/ast/parameter.h" |
| #include "src/tint/lang/wgsl/ast/phony_expression.h" |
| #include "src/tint/lang/wgsl/ast/requires.h" |
| #include "src/tint/lang/wgsl/ast/return_statement.h" |
| #include "src/tint/lang/wgsl/ast/stage_attribute.h" |
| #include "src/tint/lang/wgsl/ast/stride_attribute.h" |
| #include "src/tint/lang/wgsl/ast/struct.h" |
| #include "src/tint/lang/wgsl/ast/struct_member_align_attribute.h" |
| #include "src/tint/lang/wgsl/ast/struct_member_offset_attribute.h" |
| #include "src/tint/lang/wgsl/ast/struct_member_size_attribute.h" |
| #include "src/tint/lang/wgsl/ast/switch_statement.h" |
| #include "src/tint/lang/wgsl/ast/templated_identifier.h" |
| #include "src/tint/lang/wgsl/ast/type.h" |
| #include "src/tint/lang/wgsl/ast/unary_op_expression.h" |
| #include "src/tint/lang/wgsl/ast/var.h" |
| #include "src/tint/lang/wgsl/ast/variable_decl_statement.h" |
| #include "src/tint/lang/wgsl/ast/while_statement.h" |
| #include "src/tint/lang/wgsl/ast/workgroup_attribute.h" |
| #include "src/tint/lang/wgsl/builtin_fn.h" |
| #include "src/tint/lang/wgsl/extension.h" |
| #include "src/tint/utils/id/generation_id.h" |
| #include "src/tint/utils/memory/block_allocator.h" |
| #include "src/tint/utils/symbol/symbol_table.h" |
| #include "src/tint/utils/text/string.h" |
| |
| #ifdef CURRENTLY_IN_TINT_PUBLIC_HEADER |
| #error "internal tint header being #included from tint.h" |
| #endif |
| |
| // Forward declarations |
| namespace tint::ast { |
| class CloneContext; |
| class VariableDeclStatement; |
| } // namespace tint::ast |
| |
| namespace tint::ast { |
| |
| /// Evaluates to true if T is a Infer, AInt or AFloat. |
| template <typename T> |
| static constexpr const bool IsInferOrAbstract = |
| std::is_same_v<std::decay_t<T>, core::fluent_types::Infer> || core::IsAbstract<std::decay_t<T>>; |
| |
| // Forward declare metafunction that evaluates to true iff T can be wrapped in a statement. |
| template <typename T, typename = void> |
| struct CanWrapInStatement; |
| |
| /// Builder is a mutable builder for AST nodes. |
| /// To construct a Program, populate the builder and then `std::move` it to a |
| /// Program. |
| class Builder { |
| /// Evaluates to true if T is a Source |
| template <typename T> |
| static constexpr const bool IsSource = std::is_same_v<T, Source>; |
| |
| /// Evaluates to true if T is a Number or bool. |
| template <typename T> |
| static constexpr const bool IsScalar = |
| std::is_integral_v<core::UnwrapNumber<T>> || |
| std::is_floating_point_v<core::UnwrapNumber<T>> || std::is_same_v<T, bool>; |
| |
| /// Evaluates to true if T can be converted to an identifier. |
| template <typename T> |
| static constexpr const bool IsIdentifierLike = std::is_same_v<T, Symbol> || // Symbol |
| std::is_enum_v<T> || // Enum |
| traits::IsStringLike<T>; // String |
| |
| /// A helper used to disable overloads if the first type in `TYPES` is a Source. Used to avoid |
| /// ambiguities in overloads that take a Source as the first parameter and those that |
| /// perfectly-forward the first argument. |
| template <typename... TYPES> |
| using DisableIfSource = |
| traits::EnableIf<!IsSource<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// A helper used to disable overloads if the first type in `TYPES` is a scalar type. Used to |
| /// avoid ambiguities in overloads that take a scalar as the first parameter and those that |
| /// perfectly-forward the first argument. |
| template <typename... TYPES> |
| using DisableIfScalar = |
| traits::EnableIf<!IsScalar<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// A helper used to enable overloads if the first type in `TYPES` is a scalar type. Used to |
| /// avoid ambiguities in overloads that take a scalar as the first parameter and those that |
| /// perfectly-forward the first argument. |
| template <typename... TYPES> |
| using EnableIfScalar = |
| traits::EnableIf<IsScalar<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// A helper used to disable overloads if the first type in `TYPES` is a Vector or |
| /// VectorRef. |
| template <typename... TYPES> |
| using DisableIfVectorLike = |
| traits::EnableIf<!IsVectorLike<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// A helper used to enable overloads if the first type in `TYPES` is identifier-like. |
| template <typename... TYPES> |
| using EnableIfIdentifierLike = |
| traits::EnableIf<IsIdentifierLike<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// A helper used to disable overloads if the first type in `TYPES` is Infer or an abstract |
| /// numeric. |
| template <typename... TYPES> |
| using DisableIfInferOrAbstract = |
| traits::EnableIf<!IsInferOrAbstract<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// A helper used to enable overloads if the first type in `TYPES` is Infer or an abstract |
| /// numeric. |
| template <typename... TYPES> |
| using EnableIfInferOrAbstract = |
| traits::EnableIf<IsInferOrAbstract<traits::Decay<traits::NthTypeOf<0, TYPES..., void>>>>; |
| |
| /// VarOptions is a helper for accepting an arbitrary number of order independent options for |
| /// constructing an ast::Var. |
| struct VarOptions { |
| template <typename... ARGS> |
| explicit VarOptions(Builder& b, ARGS&&... args) { |
| (Set(b, std::forward<ARGS>(args)), ...); |
| } |
| ~VarOptions(); |
| |
| ast::Type type; |
| const ast::Expression* address_space = nullptr; |
| const ast::Expression* access = nullptr; |
| const ast::Expression* initializer = nullptr; |
| Vector<const ast::Attribute*, 4> attributes; |
| |
| private: |
| void Set(Builder&, ast::Type t) { type = t; } |
| void Set(Builder& b, core::AddressSpace addr_space) { |
| if (addr_space != core::AddressSpace::kUndefined) { |
| address_space = b.Expr(addr_space); |
| } |
| } |
| void Set(Builder& b, core::Access ac) { |
| if (ac != core::Access::kUndefined) { |
| access = b.Expr(ac); |
| } |
| } |
| void Set(Builder&, const ast::Expression* c) { initializer = c; } |
| void Set(Builder&, VectorRef<const ast::Attribute*> l) { attributes = std::move(l); } |
| void Set(Builder&, const ast::Attribute* a) { attributes.Push(a); } |
| }; |
| |
| /// LetOptions is a helper for accepting an arbitrary number of order independent options for |
| /// constructing an ast::Let. |
| struct LetOptions { |
| template <typename... ARGS> |
| explicit LetOptions(ARGS&&... args) { |
| static constexpr bool has_init = |
| (traits::IsTypeOrDerived<traits::PtrElTy<ARGS>, ast::Expression> || ...); |
| static_assert(has_init, "Let() must be constructed with an initializer expression"); |
| (Set(std::forward<ARGS>(args)), ...); |
| } |
| ~LetOptions(); |
| |
| ast::Type type; |
| const ast::Expression* initializer = nullptr; |
| Vector<const ast::Attribute*, 4> attributes; |
| |
| private: |
| void Set(ast::Type t) { type = t; } |
| void Set(const ast::Expression* c) { initializer = c; } |
| void Set(VectorRef<const ast::Attribute*> l) { attributes = std::move(l); } |
| void Set(const ast::Attribute* a) { attributes.Push(a); } |
| }; |
| |
| /// ConstOptions is a helper for accepting an arbitrary number of order independent options for |
| /// constructing an ast::Const. |
| struct ConstOptions { |
| template <typename... ARGS> |
| explicit ConstOptions(ARGS&&... args) { |
| static constexpr bool has_init = |
| (traits::IsTypeOrDerived<traits::PtrElTy<ARGS>, ast::Expression> || ...); |
| static_assert(has_init, "Const() must be constructed with an initializer expression"); |
| (Set(std::forward<ARGS>(args)), ...); |
| } |
| ~ConstOptions(); |
| |
| ast::Type type; |
| const ast::Expression* initializer = nullptr; |
| Vector<const ast::Attribute*, 4> attributes; |
| |
| private: |
| void Set(ast::Type t) { type = t; } |
| void Set(const ast::Expression* c) { initializer = c; } |
| void Set(VectorRef<const ast::Attribute*> l) { attributes = std::move(l); } |
| void Set(const ast::Attribute* a) { attributes.Push(a); } |
| }; |
| |
| /// OverrideOptions is a helper for accepting an arbitrary number of order independent options |
| /// for constructing an ast::Override. |
| struct OverrideOptions { |
| template <typename... ARGS> |
| explicit OverrideOptions(ARGS&&... args) { |
| (Set(std::forward<ARGS>(args)), ...); |
| } |
| ~OverrideOptions(); |
| |
| ast::Type type; |
| const ast::Expression* initializer = nullptr; |
| Vector<const ast::Attribute*, 4> attributes; |
| |
| private: |
| void Set(ast::Type t) { type = t; } |
| void Set(const ast::Expression* c) { initializer = c; } |
| void Set(VectorRef<const ast::Attribute*> l) { attributes = std::move(l); } |
| void Set(const ast::Attribute* a) { attributes.Push(a); } |
| }; |
| |
| public: |
| /// ASTNodeAllocator is an alias to BlockAllocator<ast::Node> |
| using ASTNodeAllocator = BlockAllocator<ast::Node>; |
| |
| /// Constructor |
| Builder(); |
| |
| /// Move constructor |
| /// @param rhs the builder to move |
| Builder(Builder&& rhs); |
| |
| /// Destructor |
| ~Builder(); |
| |
| /// Move assignment operator |
| /// @param rhs the builder to move |
| /// @return this builder |
| Builder& operator=(Builder&& rhs); |
| |
| /// @returns the unique identifier for this program |
| GenerationID ID() const { return id_; } |
| |
| /// @returns a reference to the program's AST nodes storage |
| ASTNodeAllocator& ASTNodes() { |
| AssertNotMoved(); |
| return ast_nodes_; |
| } |
| |
| /// @returns a reference to the program's AST nodes storage |
| const ASTNodeAllocator& ASTNodes() const { |
| AssertNotMoved(); |
| return ast_nodes_; |
| } |
| |
| /// @returns a reference to the program's AST root Module |
| ast::Module& AST() { |
| AssertNotMoved(); |
| return *ast_; |
| } |
| |
| /// @returns a reference to the program's AST root Module |
| const ast::Module& AST() const { |
| AssertNotMoved(); |
| return *ast_; |
| } |
| |
| /// @returns a reference to the program's SymbolTable |
| SymbolTable& Symbols() { |
| AssertNotMoved(); |
| return symbols_; |
| } |
| |
| /// @returns a reference to the program's SymbolTable |
| const SymbolTable& Symbols() const { |
| AssertNotMoved(); |
| return symbols_; |
| } |
| |
| /// @returns a reference to the program's diagnostics |
| diag::List& Diagnostics() { |
| AssertNotMoved(); |
| return diagnostics_; |
| } |
| |
| /// @returns a reference to the program's diagnostics |
| const diag::List& Diagnostics() const { |
| AssertNotMoved(); |
| return diagnostics_; |
| } |
| |
| /// @returns true if the program has no error diagnostics and is not missing |
| /// information |
| bool IsValid() const; |
| |
| /// @returns the last allocated (numerically highest) AST node identifier. |
| ast::NodeID LastAllocatedNodeID() const { return last_ast_node_id_; } |
| |
| /// @returns the next sequentially unique node identifier. |
| ast::NodeID AllocateNodeID() { |
| auto out = ast::NodeID{last_ast_node_id_.value + 1}; |
| last_ast_node_id_ = out; |
| return out; |
| } |
| |
| /// Creates a new ast::Node owned by the Builder. When the |
| /// Builder is destructed, the ast::Node will also be destructed. |
| /// @param source the Source of the node |
| /// @param args the arguments to pass to the constructor |
| /// @returns the node pointer |
| template <typename T, typename... ARGS> |
| traits::EnableIfIsType<T, ast::Node>* create(const Source& source, ARGS&&... args) { |
| AssertNotMoved(); |
| return ast_nodes_.Create<T>(id_, AllocateNodeID(), source, std::forward<ARGS>(args)...); |
| } |
| |
| /// Creates a new ast::Node owned by the Builder, injecting the current |
| /// Source as set by the last call to SetSource() as the only argument to the |
| /// constructor. |
| /// When the Builder is destructed, the ast::Node will also be |
| /// destructed. |
| /// @returns the node pointer |
| template <typename T> |
| traits::EnableIfIsType<T, ast::Node>* create() { |
| AssertNotMoved(); |
| return ast_nodes_.Create<T>(id_, AllocateNodeID(), source_); |
| } |
| |
| /// Creates a new ast::Node owned by the Builder, injecting the current |
| /// Source as set by the last call to SetSource() as the first argument to the |
| /// constructor. |
| /// When the Builder is destructed, the ast::Node will also be |
| /// destructed. |
| /// @param arg0 the first arguments to pass to the constructor |
| /// @param args the remaining arguments to pass to the constructor |
| /// @returns the node pointer |
| template <typename T, typename ARG0, typename... ARGS> |
| traits::EnableIf</* T is ast::Node and ARG0 is not Source */ |
| traits::IsTypeOrDerived<T, ast::Node> && |
| !traits::IsTypeOrDerived<ARG0, Source>, |
| T>* |
| create(ARG0&& arg0, ARGS&&... args) { |
| AssertNotMoved(); |
| return ast_nodes_.Create<T>(id_, AllocateNodeID(), source_, std::forward<ARG0>(arg0), |
| std::forward<ARGS>(args)...); |
| } |
| |
| /// Marks this builder as moved, preventing any further use of the builder. |
| void MarkAsMoved(); |
| |
| ////////////////////////////////////////////////////////////////////////////// |
| // TypesBuilder |
| ////////////////////////////////////////////////////////////////////////////// |
| |
| /// TypesBuilder holds basic `tint` types and methods for constructing |
| /// complex types. |
| class TypesBuilder { |
| public: |
| /// Constructor |
| /// @param builder the program builder |
| explicit TypesBuilder(Builder* builder); |
| |
| /// @return the C type `T`. |
| template <typename T> |
| ast::Type Of() const { |
| return CToAST<T>::get(this); |
| } |
| |
| /// @param type the type to return |
| /// @return type (passthrough) |
| ast::Type operator()(const ast::Type& type) const { return type; } |
| |
| /// Creates a type |
| /// @param name the name |
| /// @param args the optional template arguments |
| /// @returns the type |
| template <typename NAME, |
| typename... ARGS, |
| typename = DisableIfSource<NAME>, |
| typename = std::enable_if_t<!std::is_same_v<std::decay_t<NAME>, ast::Type>>> |
| ast::Type operator()(NAME&& name, ARGS&&... args) const { |
| if constexpr (traits::IsTypeOrDerived<traits::PtrElTy<NAME>, ast::Expression>) { |
| static_assert(sizeof...(ARGS) == 0); |
| return {name}; |
| } else { |
| return {builder->Expr( |
| builder->Ident(std::forward<NAME>(name), std::forward<ARGS>(args)...))}; |
| } |
| } |
| |
| /// Creates a type |
| /// @param source the Source of the node |
| /// @param name the name |
| /// @param args the optional template arguments |
| /// @returns the type |
| template <typename NAME, |
| typename... ARGS, |
| typename = std::enable_if_t<!std::is_same_v<std::decay_t<NAME>, ast::Type>>> |
| ast::Type operator()(const Source& source, NAME&& name, ARGS&&... args) const { |
| return {builder->Expr( |
| builder->Ident(source, std::forward<NAME>(name), std::forward<ARGS>(args)...))}; |
| } |
| |
| /// @returns a a nullptr expression wrapped in an ast::Type |
| ast::Type void_() const { return ast::Type{}; } |
| |
| /// @returns a 'bool' type |
| ast::Type bool_() const { return (*this)("bool"); } |
| |
| /// @param source the Source of the node |
| /// @returns a 'bool' type |
| ast::Type bool_(const Source& source) const { return (*this)(source, "bool"); } |
| |
| /// @returns a 'f16' type |
| ast::Type f16() const { return (*this)("f16"); } |
| |
| /// @param source the Source of the node |
| /// @returns a 'f16' type |
| ast::Type f16(const Source& source) const { return (*this)(source, "f16"); } |
| |
| /// @returns a 'f32' type |
| ast::Type f32() const { return (*this)("f32"); } |
| |
| /// @param source the Source of the node |
| /// @returns a 'f32' type |
| ast::Type f32(const Source& source) const { return (*this)(source, "f32"); } |
| |
| /// @returns a 'i32' type |
| ast::Type i32() const { return (*this)("i32"); } |
| |
| /// @param source the Source of the node |
| /// @returns a 'i32' type |
| ast::Type i32(const Source& source) const { return (*this)(source, "i32"); } |
| |
| /// @returns a 'u32' type |
| ast::Type u32() const { return (*this)("u32"); } |
| |
| /// @param source the Source of the node |
| /// @returns a 'u32' type |
| ast::Type u32(const Source& source) const { return (*this)(source, "u32"); } |
| |
| /// @param type vector subtype |
| /// @param n vector width in elements |
| /// @return a @p n element vector of @p type |
| ast::Type vec(ast::Type type, uint32_t n) const { return vec(builder->source_, type, n); } |
| |
| /// @param source the Source of the node |
| /// @param type vector subtype |
| /// @param n vector width in elements |
| /// @return a @p n element vector of @p type |
| ast::Type vec(const Source& source, ast::Type type, uint32_t n) const { |
| switch (n) { |
| case 2: |
| return vec2(source, type); |
| case 3: |
| return vec3(source, type); |
| case 4: |
| return vec4(source, type); |
| } |
| TINT_ICE() << "invalid vector width " << n; |
| return ast::Type{}; |
| } |
| |
| /// @param type vector subtype |
| /// @return a 2-element vector of @p type |
| ast::Type vec2(ast::Type type) const { return vec2(builder->source_, type); } |
| |
| /// @param source the vector source |
| /// @param type vector subtype |
| /// @return a 2-element vector of @p type |
| ast::Type vec2(const Source& source, ast::Type type) const { |
| return (*this)(source, "vec2", type); |
| } |
| |
| /// @param type vector subtype |
| /// @return a 3-element vector of @p type |
| ast::Type vec3(ast::Type type) const { return vec3(builder->source_, type); } |
| |
| /// @param source the vector source |
| /// @param type vector subtype |
| /// @return a 3-element vector of @p type |
| ast::Type vec3(const Source& source, ast::Type type) const { |
| return (*this)(source, "vec3", type); |
| } |
| |
| /// @param type vector subtype |
| /// @return a 4-element vector of @p type |
| ast::Type vec4(ast::Type type) const { return vec4(builder->source_, type); } |
| |
| /// @param source the vector source |
| /// @param type vector subtype |
| /// @return a 4-element vector of @p type |
| ast::Type vec4(const Source& source, ast::Type type) const { |
| return (*this)(source, "vec4", type); |
| } |
| |
| /// @param source the Source of the node |
| /// @return a 2-element vector of the type `T` |
| template <typename T> |
| ast::Type vec2(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "vec2"); |
| } else { |
| return (*this)(source, "vec2", Of<T>()); |
| } |
| } |
| |
| /// @param source the Source of the node |
| /// @return a 3-element vector of the type `T` |
| template <typename T> |
| ast::Type vec3(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "vec3"); |
| } else { |
| return (*this)(source, "vec3", Of<T>()); |
| } |
| } |
| |
| /// @param source the Source of the node |
| /// @return a 4-element vector of the type `T` |
| template <typename T> |
| ast::Type vec4(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "vec4"); |
| } else { |
| return (*this)(source, "vec4", Of<T>()); |
| } |
| } |
| |
| /// @return a 2-element vector of the type `T` |
| template <typename T> |
| ast::Type vec2() const { |
| return vec2<T>(builder->source_); |
| } |
| |
| /// @return a 3-element vector of the type `T` |
| template <typename T> |
| ast::Type vec3() const { |
| return vec3<T>(builder->source_); |
| } |
| |
| /// @return a 4-element vector of the type `T` |
| template <typename T> |
| ast::Type vec4() const { |
| return vec4<T>(builder->source_); |
| } |
| |
| /// @param source the Source of the node |
| /// @param n vector width in elements |
| /// @return a @p n element vector of @p type |
| template <typename T> |
| ast::Type vec(const Source& source, uint32_t n) const { |
| switch (n) { |
| case 2: |
| return vec2<T>(source); |
| case 3: |
| return vec3<T>(source); |
| case 4: |
| return vec4<T>(source); |
| } |
| TINT_ICE() << "invalid vector width " << n; |
| return ast::Type{}; |
| } |
| |
| /// @return a @p N element vector of @p type |
| template <typename T, uint32_t N> |
| ast::Type vec() const { |
| return vec<T>(builder->source_, N); |
| } |
| |
| /// @param n vector width in elements |
| /// @return a @p n element vector of @p type |
| template <typename T> |
| ast::Type vec(uint32_t n) const { |
| return vec<T>(builder->source_, n); |
| } |
| |
| /// @param type matrix subtype |
| /// @param columns number of columns for the matrix |
| /// @param rows number of rows for the matrix |
| /// @return a matrix of @p type |
| ast::Type mat(ast::Type type, uint32_t columns, uint32_t rows) const { |
| return mat(builder->source_, type, columns, rows); |
| } |
| |
| /// @param source the Source of the node |
| /// @param type matrix subtype |
| /// @param columns number of columns for the matrix |
| /// @param rows number of rows for the matrix |
| /// @return a matrix of @p type |
| ast::Type mat(const Source& source, ast::Type type, uint32_t columns, uint32_t rows) const { |
| if (DAWN_LIKELY(columns >= 2 && columns <= 4 && rows >= 2 && rows <= 4)) { |
| static constexpr const char* names[] = { |
| "mat2x2", "mat2x3", "mat2x4", // |
| "mat3x2", "mat3x3", "mat3x4", // |
| "mat4x2", "mat4x3", "mat4x4", // |
| }; |
| auto i = (columns - 2) * 3 + (rows - 2); |
| return (*this)(source, names[i], type); |
| } |
| TINT_ICE() << "invalid matrix dimensions " << columns << "x" << rows; |
| return ast::Type{}; |
| } |
| |
| /// @param type matrix subtype |
| /// @return a 2x3 matrix of @p type. |
| ast::Type mat2x2(ast::Type type) const { return (*this)("mat2x2", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 2x3 matrix of @p type. |
| ast::Type mat2x3(ast::Type type) const { return (*this)("mat2x3", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 2x4 matrix of @p type. |
| ast::Type mat2x4(ast::Type type) const { return (*this)("mat2x4", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 3x2 matrix of @p type. |
| ast::Type mat3x2(ast::Type type) const { return (*this)("mat3x2", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 3x3 matrix of @p type. |
| ast::Type mat3x3(ast::Type type) const { return (*this)("mat3x3", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 3x4 matrix of @p type. |
| ast::Type mat3x4(ast::Type type) const { return (*this)("mat3x4", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 4x2 matrix of @p type. |
| ast::Type mat4x2(ast::Type type) const { return (*this)("mat4x2", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 4x3 matrix of @p type. |
| ast::Type mat4x3(ast::Type type) const { return (*this)("mat4x3", type); } |
| |
| /// @param type matrix subtype |
| /// @return a 4x4 matrix of @p type. |
| ast::Type mat4x4(ast::Type type) const { return (*this)("mat4x4", type); } |
| |
| /// @param source the source of the type |
| /// @return a 2x2 matrix of the type `T` |
| template <typename T> |
| ast::Type mat2x2(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat2x2"); |
| } else { |
| return (*this)(source, "mat2x2", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 2x3 matrix of the type `T` |
| template <typename T> |
| ast::Type mat2x3(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat2x3"); |
| } else { |
| return (*this)(source, "mat2x3", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 2x4 matrix of the type `T` |
| template <typename T> |
| ast::Type mat2x4(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat2x4"); |
| } else { |
| return (*this)(source, "mat2x4", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 3x2 matrix of the type `T` |
| template <typename T> |
| ast::Type mat3x2(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat3x2"); |
| } else { |
| return (*this)(source, "mat3x2", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 3x3 matrix of the type `T` |
| template <typename T> |
| ast::Type mat3x3(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat3x3"); |
| } else { |
| return (*this)(source, "mat3x3", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 3x4 matrix of the type `T` |
| template <typename T> |
| ast::Type mat3x4(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat3x4"); |
| } else { |
| return (*this)(source, "mat3x4", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 4x2 matrix of the type `T` |
| template <typename T> |
| ast::Type mat4x2(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat4x2"); |
| } else { |
| return (*this)(source, "mat4x2", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 4x3 matrix of the type `T` |
| template <typename T> |
| ast::Type mat4x3(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat4x3"); |
| } else { |
| return (*this)(source, "mat4x3", Of<T>()); |
| } |
| } |
| |
| /// @param source the source of the type |
| /// @return a 4x4 matrix of the type `T` |
| template <typename T> |
| ast::Type mat4x4(const Source& source) const { |
| if constexpr (IsInferOrAbstract<T>) { |
| return (*this)(source, "mat4x4"); |
| } else { |
| return (*this)(source, "mat4x4", Of<T>()); |
| } |
| } |
| |
| /// @return a 2x2 matrix of the type `T` |
| template <typename T> |
| ast::Type mat2x2() const { |
| return mat2x2<T>(builder->source_); |
| } |
| |
| /// @return a 2x3 matrix of the type `T` |
| template <typename T> |
| ast::Type mat2x3() const { |
| return mat2x3<T>(builder->source_); |
| } |
| |
| /// @return a 2x4 matrix of the type `T` |
| template <typename T> |
| ast::Type mat2x4() const { |
| return mat2x4<T>(builder->source_); |
| } |
| |
| /// @return a 3x2 matrix of the type `T` |
| template <typename T> |
| ast::Type mat3x2() const { |
| return mat3x2<T>(builder->source_); |
| } |
| |
| /// @return a 3x3 matrix of the type `T` |
| template <typename T> |
| ast::Type mat3x3() const { |
| return mat3x3<T>(builder->source_); |
| } |
| |
| /// @return a 3x4 matrix of the type `T` |
| template <typename T> |
| ast::Type mat3x4() const { |
| return mat3x4<T>(builder->source_); |
| } |
| |
| /// @return a 4x2 matrix of the type `T` |
| template <typename T> |
| ast::Type mat4x2() const { |
| return mat4x2<T>(builder->source_); |
| } |
| |
| /// @return a 4x3 matrix of the type `T` |
| template <typename T> |
| ast::Type mat4x3() const { |
| return mat4x3<T>(builder->source_); |
| } |
| |
| /// @return a 4x4 matrix of the type `T` |
| template <typename T> |
| ast::Type mat4x4() const { |
| return mat4x4<T>(builder->source_); |
| } |
| |
| /// @param source the Source of the node |
| /// @param columns number of columns for the matrix |
| /// @param rows number of rows for the matrix |
| /// @return a matrix of @p type |
| template <typename T> |
| ast::Type mat(const Source& source, uint32_t columns, uint32_t rows) const { |
| switch ((columns - 2) * 3 + (rows - 2)) { |
| case 0: |
| return mat2x2<T>(source); |
| case 1: |
| return mat2x3<T>(source); |
| case 2: |
| return mat2x4<T>(source); |
| case 3: |
| return mat3x2<T>(source); |
| case 4: |
| return mat3x3<T>(source); |
| case 5: |
| return mat3x4<T>(source); |
| case 6: |
| return mat4x2<T>(source); |
| case 7: |
| return mat4x3<T>(source); |
| case 8: |
| return mat4x4<T>(source); |
| default: |
| TINT_ICE() << "invalid matrix dimensions " << columns << "x" << rows; |
| return ast::Type{}; |
| } |
| } |
| |
| /// @param columns number of columns for the matrix |
| /// @param rows number of rows for the matrix |
| /// @return a matrix of @p type |
| template <typename T> |
| ast::Type mat(uint32_t columns, uint32_t rows) const { |
| return mat<T>(builder->source_, columns, rows); |
| } |
| |
| /// @return a matrix of @p type |
| template <typename T, uint32_t COLUMNS, uint32_t ROWS> |
| ast::Type mat() const { |
| return mat<T>(builder->source_, COLUMNS, ROWS); |
| } |
| |
| /// @param subtype the array element type |
| /// @param attrs the optional attributes for the array |
| /// @return an array of type `T` |
| ast::Type array(ast::Type subtype, VectorRef<const ast::Attribute*> attrs = Empty) const { |
| return array(builder->source_, subtype, std::move(attrs)); |
| } |
| |
| /// @param source the Source of the node |
| /// @param subtype the array element type |
| /// @param attrs the optional attributes for the array |
| /// @return an array of type `T` |
| ast::Type array(const Source& source, |
| ast::Type subtype, |
| VectorRef<const ast::Attribute*> attrs = Empty) const { |
| return ast::Type{builder->Expr( |
| builder->create<ast::TemplatedIdentifier>(source, builder->Sym("array"), |
| Vector{ |
| subtype.expr, |
| }, |
| std::move(attrs)))}; |
| } |
| |
| /// @param subtype the array element type |
| /// @param n the array size. nullptr represents a runtime-array |
| /// @param attrs the optional attributes for the array |
| /// @return an array of size `n` of type `T` |
| template <typename COUNT, typename = DisableIfVectorLike<COUNT>> |
| ast::Type array(ast::Type subtype, |
| COUNT&& n, |
| VectorRef<const ast::Attribute*> attrs = Empty) const { |
| return array(builder->source_, subtype, std::forward<COUNT>(n), std::move(attrs)); |
| } |
| |
| /// @param source the Source of the node |
| /// @param subtype the array element type |
| /// @param n the array size. nullptr represents a runtime-array |
| /// @param attrs the optional attributes for the array |
| /// @return an array of size `n` of type `T` |
| template <typename COUNT, typename = DisableIfVectorLike<COUNT>> |
| ast::Type array(const Source& source, |
| ast::Type subtype, |
| COUNT&& n, |
| VectorRef<const ast::Attribute*> attrs = Empty) const { |
| return ast::Type{builder->Expr( |
| builder->create<ast::TemplatedIdentifier>(source, builder->Sym("array"), |
| Vector{ |
| subtype.expr, |
| builder->Expr(std::forward<COUNT>(n)), |
| }, |
| std::move(attrs)))}; |
| } |
| |
| /// @param source the Source of the node |
| /// @return a inferred-size or runtime-sized array of type `T` |
| template <typename T, int N = 0, typename = EnableIfInferOrAbstract<T>> |
| ast::Type array(const Source& source) const { |
| static_assert(N == 0, "arrays with a count cannot be inferred"); |
| return (*this)(source, "array"); |
| } |
| |
| /// @return a inferred-size or runtime-sized array of type `T` |
| template <typename T, int N = 0, typename = EnableIfInferOrAbstract<T>> |
| ast::Type array() const { |
| static_assert(N == 0, "arrays with a count cannot be inferred"); |
| return array<T>(builder->source_); |
| } |
| |
| /// @param source the Source of the node |
| /// @param attrs the optional attributes for the array |
| /// @return a inferred-size or runtime-sized array of type `T` |
| template <typename T, int N = 0, typename = DisableIfInferOrAbstract<T>> |
| ast::Type array(const Source& source, |
| VectorRef<const ast::Attribute*> attrs = Empty) const { |
| if constexpr (N == 0) { |
| return ast::Type{builder->Expr( |
| builder->create<ast::TemplatedIdentifier>(source, builder->Sym("array"), |
| Vector<const ast::Expression*, 1>{ |
| Of<T>().expr, |
| }, |
| std::move(attrs)))}; |
| } else { |
| return ast::Type{builder->Expr(builder->create<ast::TemplatedIdentifier>( |
| source, builder->Sym("array"), |
| Vector{ |
| Of<T>().expr, |
| builder->Expr(builder->source_, core::u32(N)), |
| }, |
| std::move(attrs)))}; |
| } |
| } |
| |
| /// @param attrs the optional attributes for the array |
| /// @return an array of size `N` of type `T` |
| template <typename T, int N = 0, typename = DisableIfInferOrAbstract<T>> |
| ast::Type array(VectorRef<const ast::Attribute*> attrs = Empty) const { |
| return array<T, N>(builder->source_, std::move(attrs)); |
| } |
| |
| /// Creates an alias type |
| /// @param name the alias name |
| /// @param type the alias type |
| /// @returns the alias pointer |
| template <typename NAME> |
| const ast::Alias* alias(NAME&& name, ast::Type type) const { |
| return alias(builder->source_, std::forward<NAME>(name), type); |
| } |
| |
| /// Creates an alias type |
| /// @param source the Source of the node |
| /// @param name the alias name |
| /// @param type the alias type |
| /// @returns the alias pointer |
| template <typename NAME> |
| const ast::Alias* alias(const Source& source, NAME&& name, ast::Type type) const { |
| return builder->create<ast::Alias>(source, builder->Ident(std::forward<NAME>(name)), |
| type); |
| } |
| |
| /// @param address_space the address space of the pointer |
| /// @param type the type of the pointer |
| /// @param access the optional access control of the pointer |
| /// @return the pointer to `type` with the given core::AddressSpace |
| ast::Type ptr(core::AddressSpace address_space, |
| ast::Type type, |
| core::Access access = core::Access::kUndefined) const { |
| return ptr(builder->source_, address_space, type, access); |
| } |
| |
| /// @param source the Source of the node |
| /// @param address_space the address space of the pointer |
| /// @param type the type of the pointer |
| /// @param access the optional access control of the pointer |
| /// @return the pointer to `type` with the given core::AddressSpace |
| ast::Type ptr(const Source& source, |
| core::AddressSpace address_space, |
| ast::Type type, |
| core::Access access = core::Access::kUndefined) const { |
| if (access != core::Access::kUndefined) { |
| return (*this)(source, "ptr", address_space, type, access); |
| } else { |
| return (*this)(source, "ptr", address_space, type); |
| } |
| } |
| |
| /// @param address_space the address space of the pointer |
| /// @param access the optional access control of the pointer |
| /// @return the pointer to type `T` with the given core::AddressSpace. |
| template <typename T> |
| ast::Type ptr(core::AddressSpace address_space, |
| core::Access access = core::Access::kUndefined) const { |
| return ptr<T>(builder->source_, address_space, access); |
| } |
| |
| /// @param source the Source of the node |
| /// @return the pointer to type `T` with the core::AddressSpace `ADDRESS` and access |
| /// control `ACCESS`. |
| template <core::AddressSpace ADDRESS, |
| typename T, |
| core::Access ACCESS = core::Access::kUndefined> |
| ast::Type ptr(const Source& source) const { |
| return ptr<T>(source, ADDRESS, ACCESS); |
| } |
| |
| /// @param type the type of the pointer |
| /// @return the pointer to the given type with the core::AddressSpace `ADDRESS` and |
| /// access control `ACCESS`. |
| template <core::AddressSpace ADDRESS, core::Access ACCESS = core::Access::kUndefined> |
| ast::Type ptr(ast::Type type) const { |
| return ptr(builder->source_, ADDRESS, type, ACCESS); |
| } |
| |
| /// @param source the Source of the node |
| /// @param type the type of the pointer |
| /// @return the pointer to the given type with the core::AddressSpace `ADDRESS` and |
| /// access control `ACCESS`. |
| template <core::AddressSpace ADDRESS, core::Access ACCESS = core::Access::kUndefined> |
| ast::Type ptr(const Source& source, ast::Type type) const { |
| return ptr(source, ADDRESS, type, ACCESS); |
| } |
| |
| /// @return the pointer to type `T` with the core::AddressSpace `ADDRESS` and access |
| /// control `ACCESS`. |
| template <core::AddressSpace ADDRESS, |
| typename T, |
| core::Access ACCESS = core::Access::kUndefined> |
| ast::Type ptr() const { |
| return ptr<T>(builder->source_, ADDRESS, ACCESS); |
| } |
| |
| /// @param source the Source of the node |
| /// @param address_space the address space of the pointer |
| /// @param access the optional access control of the pointer |
| /// @return the pointer to type `T` the core::AddressSpace `ADDRESS` and access control |
| /// `ACCESS`. |
| template <typename T> |
| ast::Type ptr(const Source& source, |
| core::AddressSpace address_space, |
| core::Access access = core::Access::kUndefined) const { |
| if (access != core::Access::kUndefined) { |
| return (*this)(source, "ptr", address_space, Of<T>(), access); |
| } else { |
| return (*this)(source, "ptr", address_space, Of<T>()); |
| } |
| } |
| |
| /// @param source the Source of the node |
| /// @param type the type of the atomic |
| /// @return the atomic to `type` |
| ast::Type atomic(const Source& source, ast::Type type) const { |
| return (*this)(source, "atomic", type); |
| } |
| |
| /// @param type the type of the atomic |
| /// @return the atomic to `type` |
| ast::Type atomic(ast::Type type) const { return (*this)("atomic", type); } |
| |
| /// @return the atomic to type `T` |
| template <typename T> |
| ast::Type atomic() const { |
| return atomic(Of<T>()); |
| } |
| |
| /// @param kind the kind of sampler |
| /// @returns the sampler |
| ast::Type sampler(core::type::SamplerKind kind) const { |
| return sampler(builder->source_, kind); |
| } |
| |
| /// @param source the Source of the node |
| /// @param kind the kind of sampler |
| /// @returns the sampler |
| ast::Type sampler(const Source& source, core::type::SamplerKind kind) const { |
| switch (kind) { |
| case core::type::SamplerKind::kSampler: |
| return (*this)(source, "sampler"); |
| case core::type::SamplerKind::kComparisonSampler: |
| return (*this)(source, "sampler_comparison"); |
| } |
| TINT_ICE() << "invalid sampler kind " << kind; |
| return ast::Type{}; |
| } |
| |
| /// @param dims the dimensionality of the texture |
| /// @returns the depth texture |
| ast::Type depth_texture(core::type::TextureDimension dims) const { |
| return depth_texture(builder->source_, dims); |
| } |
| |
| /// @param source the Source of the node |
| /// @param dims the dimensionality of the texture |
| /// @returns the depth texture |
| ast::Type depth_texture(const Source& source, core::type::TextureDimension dims) const { |
| switch (dims) { |
| case core::type::TextureDimension::k2d: |
| return (*this)(source, "texture_depth_2d"); |
| case core::type::TextureDimension::k2dArray: |
| return (*this)(source, "texture_depth_2d_array"); |
| case core::type::TextureDimension::kCube: |
| return (*this)(source, "texture_depth_cube"); |
| case core::type::TextureDimension::kCubeArray: |
| return (*this)(source, "texture_depth_cube_array"); |
| default: |
| break; |
| } |
| TINT_ICE() << "invalid depth_texture dimensions: " << dims; |
| return ast::Type{}; |
| } |
| |
| /// @param dims the dimensionality of the texture |
| /// @returns the multisampled depth texture |
| ast::Type depth_multisampled_texture(core::type::TextureDimension dims) const { |
| return depth_multisampled_texture(builder->source_, dims); |
| } |
| |
| /// @param source the Source of the node |
| /// @param dims the dimensionality of the texture |
| /// @returns the multisampled depth texture |
| ast::Type depth_multisampled_texture(const Source& source, |
| core::type::TextureDimension dims) const { |
| if (dims == core::type::TextureDimension::k2d) { |
| return (*this)(source, "texture_depth_multisampled_2d"); |
| } |
| TINT_ICE() << "invalid depth_multisampled_texture dimensions: " << dims; |
| return ast::Type{}; |
| } |
| |
| /// @param dims the dimensionality of the texture |
| /// @param subtype the texture subtype. |
| /// @returns the sampled texture |
| ast::Type sampled_texture(core::type::TextureDimension dims, ast::Type subtype) const { |
| return sampled_texture(builder->source_, dims, subtype); |
| } |
| |
| /// @param source the Source of the node |
| /// @param dims the dimensionality of the texture |
| /// @param subtype the texture subtype. |
| /// @returns the sampled texture |
| ast::Type sampled_texture(const Source& source, |
| core::type::TextureDimension dims, |
| ast::Type subtype) const { |
| switch (dims) { |
| case core::type::TextureDimension::k1d: |
| return (*this)(source, "texture_1d", subtype); |
| case core::type::TextureDimension::k2d: |
| return (*this)(source, "texture_2d", subtype); |
| case core::type::TextureDimension::k3d: |
| return (*this)(source, "texture_3d", subtype); |
| case core::type::TextureDimension::k2dArray: |
| return (*this)(source, "texture_2d_array", subtype); |
| case core::type::TextureDimension::kCube: |
| return (*this)(source, "texture_cube", subtype); |
| case core::type::TextureDimension::kCubeArray: |
| return (*this)(source, "texture_cube_array", subtype); |
| default: |
| break; |
| } |
| TINT_ICE() << "invalid sampled_texture dimensions: " << dims; |
| return ast::Type{}; |
| } |
| |
| /// @param dims the dimensionality of the texture |
| /// @param subtype the texture subtype. |
| /// @returns the multisampled texture |
| ast::Type multisampled_texture(core::type::TextureDimension dims, ast::Type subtype) const { |
| return multisampled_texture(builder->source_, dims, subtype); |
| } |
| |
| /// @param source the Source of the node |
| /// @param dims the dimensionality of the texture |
| /// @param subtype the texture subtype. |
| /// @returns the multisampled texture |
| ast::Type multisampled_texture(const Source& source, |
| core::type::TextureDimension dims, |
| ast::Type subtype) const { |
| if (dims == core::type::TextureDimension::k2d) { |
| return (*this)(source, "texture_multisampled_2d", subtype); |
| } |
| TINT_ICE() << "invalid multisampled_texture dimensions: " << dims; |
| return ast::Type{}; |
| } |
| |
| /// @param dims the dimensionality of the texture |
| /// @param format the texel format of the texture |
| /// @param access the access control of the texture |
| /// @returns the storage texture |
| ast::Type storage_texture(core::type::TextureDimension dims, |
| core::TexelFormat format, |
| core::Access access) const { |
| return storage_texture(builder->source_, dims, format, access); |
| } |
| |
| /// @param source the Source of the node |
| /// @param dims the dimensionality of the texture |
| /// @param format the texel format of the texture |
| /// @param access the access control of the texture |
| /// @returns the storage texture |
| ast::Type storage_texture(const Source& source, |
| core::type::TextureDimension dims, |
| core::TexelFormat format, |
| core::Access access) const { |
| switch (dims) { |
| case core::type::TextureDimension::k1d: |
| return (*this)(source, "texture_storage_1d", format, access); |
| case core::type::TextureDimension::k2d: |
| return (*this)(source, "texture_storage_2d", format, access); |
| case core::type::TextureDimension::k2dArray: |
| return (*this)(source, "texture_storage_2d_array", format, access); |
| case core::type::TextureDimension::k3d: |
| return (*this)(source, "texture_storage_3d", format, access); |
| default: |
| break; |
| } |
| TINT_ICE() << "invalid storage_texture dimensions: " << dims; |
| return ast::Type{}; |
| } |
| |
| /// @returns the external texture |
| ast::Type external_texture() const { return (*this)("texture_external"); } |
| |
| /// @param subtype the texture subtype. |
| /// @returns the input attachment |
| ast::Type input_attachment(ast::Type subtype) const { |
| return (*this)("input_attachment", subtype); |
| } |
| |
| /// @param source the Source of the node |
| /// @returns the external texture |
| ast::Type external_texture(const Source& source) const { |
| return (*this)(source, "texture_external"); |
| } |
| |
| /// @param type the type |
| /// @return an ast::Type of the type declaration. |
| ast::Type Of(const ast::TypeDecl* type) const { return (*this)(type->name->symbol); } |
| |
| /// The Builder |
| Builder* const builder; |
| |
| private: |
| /// CToAST<T> is specialized for various `T` types and each specialization |
| /// contains a single static `get()` method for obtaining the corresponding |
| /// AST type for the C type `T`. |
| /// `get()` has the signature: |
| /// `static ast::Type get(Types* t)` |
| template <typename T> |
| struct CToAST {}; |
| }; |
| |
| ////////////////////////////////////////////////////////////////////////////// |
| // AST helper methods |
| ////////////////////////////////////////////////////////////////////////////// |
| |
| /// @return a new unnamed symbol |
| Symbol Sym() { return Symbols().New(); } |
| |
| /// Passthrough |
| /// @param sym the symbol |
| /// @return `sym` |
| Symbol Sym(Symbol sym) { return sym; } |
| |
| /// @param name the symbol string |
| /// @return a Symbol with the given name |
| Symbol Sym(std::string_view name) { return Symbols().Register(name); } |
| |
| /// @param enumerator the enumerator |
| /// @return a Symbol with the given enum value |
| template <typename ENUM, typename = std::enable_if_t<std::is_enum_v<std::decay_t<ENUM>>>> |
| Symbol Sym(ENUM&& enumerator) { |
| return Sym(tint::ToString(enumerator)); |
| } |
| |
| /// @return nullptr |
| const ast::Identifier* Ident(std::nullptr_t) { return nullptr; } |
| |
| /// @param identifier the identifier symbol |
| /// @return an ast::Identifier with the given symbol |
| template <typename IDENTIFIER> |
| const ast::Identifier* Ident(IDENTIFIER&& identifier) { |
| if constexpr (traits::IsTypeOrDerived<traits::PtrElTy<IDENTIFIER>, ast::Identifier>) { |
| return identifier; // Passthrough |
| } else { |
| return Ident(source_, std::forward<IDENTIFIER>(identifier)); |
| } |
| } |
| |
| /// @param source the source information |
| /// @param identifier the identifier symbol |
| /// @return an ast::Identifier with the given symbol |
| template <typename IDENTIFIER> |
| const ast::Identifier* Ident(const Source& source, IDENTIFIER&& identifier) { |
| return create<ast::Identifier>(source, Sym(std::forward<IDENTIFIER>(identifier))); |
| } |
| |
| /// @param identifier the identifier symbol |
| /// @param args the templated identifier arguments |
| /// @return an ast::Identifier with the given symbol and template arguments |
| template <typename IDENTIFIER, typename... ARGS, typename = DisableIfSource<IDENTIFIER>> |
| const ast::Identifier* Ident(IDENTIFIER&& identifier, ARGS&&... args) { |
| return Ident(source_, std::forward<IDENTIFIER>(identifier), std::forward<ARGS>(args)...); |
| } |
| |
| /// @param source the source information |
| /// @param identifier the identifier symbol |
| /// @param args the templated identifier arguments |
| /// @return an ast::Identifier with the given symbol and template arguments |
| template <typename IDENTIFIER, typename... ARGS> |
| const ast::Identifier* Ident(const Source& source, IDENTIFIER&& identifier, ARGS&&... args) { |
| auto arg_exprs = ExprList(std::forward<ARGS>(args)...); |
| if (arg_exprs.IsEmpty()) { |
| return create<ast::Identifier>(source, Sym(std::forward<IDENTIFIER>(identifier))); |
| } |
| return create<ast::TemplatedIdentifier>(source, Sym(std::forward<IDENTIFIER>(identifier)), |
| std::move(arg_exprs), Empty); |
| } |
| |
| /// @param expr the expression |
| /// @return expr (passthrough) |
| template <typename T, typename = traits::EnableIfIsType<T, ast::Expression>> |
| const T* Expr(const T* expr) { |
| return expr; |
| } |
| |
| /// @param type an ast::Type |
| /// @return type.expr |
| const ast::IdentifierExpression* Expr(ast::Type type) { return type.expr; } |
| |
| /// @param ident the identifier |
| /// @return an ast::IdentifierExpression with the given identifier |
| const ast::IdentifierExpression* Expr(const ast::Identifier* ident) { |
| return ident ? create<ast::IdentifierExpression>(ident->source, ident) : nullptr; |
| } |
| |
| /// Passthrough for nullptr |
| /// @return nullptr |
| const ast::IdentifierExpression* Expr(std::nullptr_t) { return nullptr; } |
| |
| /// @param name the identifier name |
| /// @return an ast::IdentifierExpression with the given name |
| template <typename NAME, typename = EnableIfIdentifierLike<NAME>> |
| const ast::IdentifierExpression* Expr(NAME&& name) { |
| auto* ident = Ident(source_, name); |
| return create<ast::IdentifierExpression>(ident->source, ident); |
| } |
| |
| /// @param source the source information |
| /// @param name the identifier name |
| /// @return an ast::IdentifierExpression with the given name |
| template <typename NAME, typename = EnableIfIdentifierLike<NAME>> |
| const ast::IdentifierExpression* Expr(const Source& source, NAME&& name) { |
| return create<ast::IdentifierExpression>(source, Ident(source, name)); |
| } |
| |
| /// @param variable the AST variable |
| /// @return an ast::IdentifierExpression with the variable's symbol |
| const ast::IdentifierExpression* Expr(const ast::Variable* variable) { |
| auto* ident = Ident(variable->source, variable->name->symbol); |
| return create<ast::IdentifierExpression>(ident->source, ident); |
| } |
| |
| /// @param source the source information |
| /// @param variable the AST variable |
| /// @return an ast::IdentifierExpression with the variable's symbol |
| const ast::IdentifierExpression* Expr(const Source& source, const ast::Variable* variable) { |
| return create<ast::IdentifierExpression>(source, Ident(source, variable->name->symbol)); |
| } |
| |
| /// @param source the source information |
| /// @param value the boolean value |
| /// @return a Scalar constructor for the given value |
| template <typename BOOL> |
| std::enable_if_t<std::is_same_v<BOOL, bool>, const ast::BoolLiteralExpression*> Expr( |
| const Source& source, |
| BOOL value) { |
| return create<ast::BoolLiteralExpression>(source, value); |
| } |
| |
| /// @param source the source information |
| /// @param value the float value |
| /// @return a 'f'-suffixed FloatLiteralExpression for the f32 value |
| const ast::FloatLiteralExpression* Expr(const Source& source, core::f32 value) { |
| return create<ast::FloatLiteralExpression>(source, static_cast<double>(value.value), |
| ast::FloatLiteralExpression::Suffix::kF); |
| } |
| |
| /// @param source the source information |
| /// @param value the float value |
| /// @return a 'h'-suffixed FloatLiteralExpression for the f16 value |
| const ast::FloatLiteralExpression* Expr(const Source& source, core::f16 value) { |
| return create<ast::FloatLiteralExpression>(source, static_cast<double>(value.value), |
| ast::FloatLiteralExpression::Suffix::kH); |
| } |
| |
| /// @param source the source information |
| /// @param value the integer value |
| /// @return an unsuffixed IntLiteralExpression for the AInt value |
| const ast::IntLiteralExpression* Expr(const Source& source, core::AInt value) { |
| return create<ast::IntLiteralExpression>(source, value, |
| ast::IntLiteralExpression::Suffix::kNone); |
| } |
| |
| /// @param source the source information |
| /// @param value the integer value |
| /// @return an unsuffixed FloatLiteralExpression for the AFloat value |
| const ast::FloatLiteralExpression* Expr(const Source& source, core::AFloat value) { |
| return create<ast::FloatLiteralExpression>(source, value.value, |
| ast::FloatLiteralExpression::Suffix::kNone); |
| } |
| |
| /// @param source the source information |
| /// @param value the integer value |
| /// @return a signed 'i'-suffixed IntLiteralExpression for the i32 value |
| const ast::IntLiteralExpression* Expr(const Source& source, core::i32 value) { |
| return create<ast::IntLiteralExpression>(source, value, |
| ast::IntLiteralExpression::Suffix::kI); |
| } |
| |
| /// @param source the source information |
| /// @param value the unsigned int value |
| /// @return an unsigned 'u'-suffixed IntLiteralExpression for the u32 value |
| const ast::IntLiteralExpression* Expr(const Source& source, core::u32 value) { |
| return create<ast::IntLiteralExpression>(source, value, |
| ast::IntLiteralExpression::Suffix::kU); |
| } |
| |
| /// @param value the scalar value |
| /// @return literal expression of the appropriate type |
| template <typename SCALAR, typename = EnableIfScalar<SCALAR>> |
| const auto* Expr(SCALAR&& value) { |
| return Expr(source_, std::forward<SCALAR>(value)); |
| } |
| |
| /// Converts `arg` to an `ast::Expression` using `Expr()`, then appends it to |
| /// `list`. |
| /// @param list the list to append too |
| /// @param arg the arg to create |
| template <size_t N, typename ARG> |
| void Append(Vector<const ast::Expression*, N>& list, ARG&& arg) { |
| list.Push(Expr(std::forward<ARG>(arg))); |
| } |
| |
| /// Converts `arg0` and `args` to `ast::Expression`s using `Expr()`, |
| /// then appends them to `list`. |
| /// @param list the list to append too |
| /// @param arg0 the first argument |
| /// @param args the rest of the arguments |
| template <size_t N, typename ARG0, typename... ARGS> |
| void Append(Vector<const ast::Expression*, N>& list, ARG0&& arg0, ARGS&&... args) { |
| Append(list, std::forward<ARG0>(arg0)); |
| Append(list, std::forward<ARGS>(args)...); |
| } |
| |
| /// @return EmptyType |
| EmptyType ExprList() { return Empty; } |
| |
| /// @param args the list of expressions |
| /// @return the list of expressions converted to `ast::Expression`s using |
| /// `Expr()`, |
| template <typename... ARGS, typename = DisableIfVectorLike<ARGS...>> |
| auto ExprList(ARGS&&... args) { |
| return Vector<const ast::Expression*, sizeof...(ARGS)>{Expr(args)...}; |
| } |
| |
| /// @param list the list of expressions |
| /// @return `list` |
| template <typename T, size_t N> |
| Vector<T, N> ExprList(Vector<T, N>&& list) { |
| return std::move(list); |
| } |
| |
| /// @param list the list of expressions |
| /// @return `list` |
| VectorRef<const ast::Expression*> ExprList(VectorRef<const ast::Expression*> list) { |
| return list; |
| } |
| |
| /// @param expr the expression for the bitcast |
| /// @return a bitcast call of type `ty`, with the values of `expr` converted to |
| /// `ast::Expression`s using `Expr()` |
| template <typename T, typename EXPR> |
| const ast::CallExpression* Bitcast(EXPR&& expr) { |
| return Bitcast(ty.Of<T>(), std::forward<EXPR>(expr)); |
| } |
| |
| /// @param type the type to cast to |
| /// @param expr the expression for the bitcast |
| /// @return a bitcast call of @p type constructed with the values `expr`. |
| template <typename EXPR> |
| const ast::CallExpression* Bitcast(ast::Type type, EXPR&& expr) { |
| return Bitcast(source_, type, Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param source the source information |
| /// @param type the type to cast to |
| /// @param expr the expression for the bitcast |
| /// @return a bitcast call of @p type constructed with the values `expr`. |
| template <typename EXPR> |
| const ast::CallExpression* Bitcast(const Source& source, ast::Type type, EXPR&& expr) { |
| return Call(source, Ident(wgsl::BuiltinFn::kBitcast, type), Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param type the vector type |
| /// @param size the vector size |
| /// @param args the arguments for the vector constructor |
| /// @return an `ast::CallExpression` of a `size`-element vector of |
| /// type `type`, constructed with the values @p args. |
| template <typename... ARGS> |
| const ast::CallExpression* vec(ast::Type type, uint32_t size, ARGS&&... args) { |
| return vec(source_, type, size, std::forward<ARGS>(args)...); |
| } |
| |
| /// @param source the source of the call |
| /// @param type the vector type |
| /// @param size the vector size |
| /// @param args the arguments for the vector constructor |
| /// @return an `ast::CallExpression` of a `size`-element vector of |
| /// type `type`, constructed with the values @p args. |
| template <typename... ARGS> |
| const ast::CallExpression* vec(const Source& source, |
| ast::Type type, |
| uint32_t size, |
| ARGS&&... args) { |
| return Call(source, ty.vec(type, size), std::forward<ARGS>(args)...); |
| } |
| |
| /// Adds the extension to the list of enable directives at the top of the module. |
| /// @param extension the extension to enable |
| /// @return an `ast::Enable` enabling the given extension. |
| const ast::Enable* Enable(wgsl::Extension extension) { |
| auto* ext = create<ast::Extension>(extension); |
| auto* enable = create<ast::Enable>(Vector{ext}); |
| AST().AddEnable(enable); |
| return enable; |
| } |
| |
| /// Adds the extension to the list of enable directives at the top of the module. |
| /// @param source the enable source |
| /// @param extension the extension to enable |
| /// @return an `ast::Enable` enabling the given extension. |
| const ast::Enable* Enable(const Source& source, wgsl::Extension extension) { |
| auto* ext = create<ast::Extension>(source, extension); |
| auto* enable = create<ast::Enable>(source, Vector{ext}); |
| AST().AddEnable(enable); |
| return enable; |
| } |
| |
| /// Adds the language feature to the list of requires directives at the top of the module. |
| /// @param feature the feature to require |
| /// @return a `ast::Requires` requiring the given language feature. |
| const ast::Requires* Require(wgsl::LanguageFeature feature) { |
| auto* req = create<ast::Requires>(Requires::LanguageFeatures({feature})); |
| AST().AddRequires(req); |
| return req; |
| } |
| |
| /// Adds the language feature to the list of requires directives at the top of the module. |
| /// @param source the requires source |
| /// @param feature the feature to require |
| /// @return a `ast::Requires` requiring the given language feature. |
| const ast::Requires* Require(const Source& source, wgsl::LanguageFeature feature) { |
| auto* req = create<ast::Requires>(source, Requires::LanguageFeatures({feature})); |
| AST().AddRequires(req); |
| return req; |
| } |
| |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Type - specifies the variable's type |
| /// * core::AddressSpace - specifies the variable's address space |
| /// * core::Access - specifies the variable's access control |
| /// * ast::Expression* - specifies the variable's initializer expression |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns a `ast::Var` with the given name, type and additional |
| /// options |
| template <typename NAME, typename... OPTIONS, typename = DisableIfSource<NAME>> |
| const ast::Var* Var(NAME&& name, OPTIONS&&... options) { |
| return Var(source_, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| } |
| |
| /// @param source the variable source |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Type - specifies the variable's type |
| /// * core::AddressSpace - specifies the variable's address space |
| /// * core::Access - specifies the variable's access control |
| /// * ast::Expression* - specifies the variable's initializer expression |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns a `ast::Var` with the given name, address_space and type |
| template <typename NAME, typename... OPTIONS> |
| const ast::Var* Var(const Source& source, NAME&& name, OPTIONS&&... options) { |
| VarOptions opts(*this, std::forward<OPTIONS>(options)...); |
| return create<ast::Var>(source, Ident(std::forward<NAME>(name)), opts.type, |
| opts.address_space, opts.access, opts.initializer, |
| std::move(opts.attributes)); |
| } |
| |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Const` with the given name, type and additional options |
| template <typename NAME, typename... OPTIONS, typename = DisableIfSource<NAME>> |
| const ast::Const* Const(NAME&& name, OPTIONS&&... options) { |
| return Const(source_, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| } |
| |
| /// @param source the variable source |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Identifier* - specifies the variable's type |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Const` with the given name, type and additional options |
| template <typename NAME, typename... OPTIONS> |
| const ast::Const* Const(const Source& source, NAME&& name, OPTIONS&&... options) { |
| ConstOptions opts(std::forward<OPTIONS>(options)...); |
| return create<ast::Const>(source, Ident(std::forward<NAME>(name)), opts.type, |
| opts.initializer, std::move(opts.attributes)); |
| } |
| |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Let` with the given name, type and additional options |
| template <typename NAME, typename... OPTIONS, typename = DisableIfSource<NAME>> |
| const ast::Let* Let(NAME&& name, OPTIONS&&... options) { |
| return Let(source_, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| } |
| |
| /// @param source the variable source |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Let` with the given name, type and additional options |
| template <typename NAME, typename... OPTIONS> |
| const ast::Let* Let(const Source& source, NAME&& name, OPTIONS&&... options) { |
| LetOptions opts(std::forward<OPTIONS>(options)...); |
| return create<ast::Let>(source, Ident(std::forward<NAME>(name)), opts.type, |
| opts.initializer, std::move(opts.attributes)); |
| } |
| |
| /// @param name the parameter name |
| /// @param type the parameter type |
| /// @param attributes optional parameter attributes |
| /// @returns an `ast::Parameter` with the given name and type |
| template <typename NAME> |
| const ast::Parameter* Param(NAME&& name, |
| ast::Type type, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return Param(source_, std::forward<NAME>(name), type, std::move(attributes)); |
| } |
| |
| /// @param source the parameter source |
| /// @param name the parameter name |
| /// @param type the parameter type |
| /// @param attributes optional parameter attributes |
| /// @returns an `ast::Parameter` with the given name and type |
| template <typename NAME> |
| const ast::Parameter* Param(const Source& source, |
| NAME&& name, |
| ast::Type type, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::Parameter>(source, Ident(std::forward<NAME>(name)), type, |
| std::move(attributes)); |
| } |
| |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Type - specifies the variable's type |
| /// * core::AddressSpace - specifies the variable address space |
| /// * core::Access - specifies the variable's access control |
| /// * ast::Expression* - specifies the variable's initializer expression |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns a new `ast::Var`, which is automatically registered as a global variable with the |
| /// ast::Module. |
| template <typename NAME, typename... OPTIONS, typename = DisableIfSource<NAME>> |
| const ast::Var* GlobalVar(NAME&& name, OPTIONS&&... options) { |
| return GlobalVar(source_, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| } |
| |
| /// @param source the variable source |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Var initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Type - specifies the variable's type |
| /// * core::AddressSpace - specifies the variable address space |
| /// * core::Access - specifies the variable's access control |
| /// * ast::Expression* - specifies the variable's initializer expression |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns a new `ast::Var`, which is automatically registered as a global variable with the |
| /// ast::Module. |
| template <typename NAME, typename... OPTIONS> |
| const ast::Var* GlobalVar(const Source& source, NAME&& name, OPTIONS&&... options) { |
| auto* variable = Var(source, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| AST().AddGlobalVariable(variable); |
| return variable; |
| } |
| |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Const initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Const` with the given name, type and additional options, which is |
| /// automatically registered as a global variable with the ast::Module. |
| template <typename NAME, typename... OPTIONS, typename = DisableIfSource<NAME>> |
| const ast::Const* GlobalConst(NAME&& name, OPTIONS&&... options) { |
| return GlobalConst(source_, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| } |
| |
| /// @param source the variable source |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Const initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Const` with the given name, type and additional options, which is |
| /// automatically registered as a global variable with the ast::Module. |
| template <typename NAME, typename... OPTIONS> |
| const ast::Const* GlobalConst(const Source& source, NAME&& name, OPTIONS&&... options) { |
| auto* variable = Const(source, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| AST().AddGlobalVariable(variable); |
| return variable; |
| } |
| |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Override initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Override` with the given name, type and additional options, which is |
| /// automatically registered as a global variable with the ast::Module. |
| template <typename NAME, typename... OPTIONS, typename = DisableIfSource<NAME>> |
| const ast::Override* Override(NAME&& name, OPTIONS&&... options) { |
| return Override(source_, std::forward<NAME>(name), std::forward<OPTIONS>(options)...); |
| } |
| |
| /// @param source the variable source |
| /// @param name the variable name |
| /// @param options the extra options passed to the ast::Override initializer |
| /// Can be any of the following, in any order: |
| /// * ast::Expression* - specifies the variable's initializer expression (required) |
| /// * ast::Type - specifies the variable's type |
| /// * ast::Attribute* - specifies the variable's attributes (repeatable, or vector) |
| /// Note that non-repeatable arguments of the same type will use the last argument's value. |
| /// @returns an `ast::Override` with the given name, type and additional options, which is |
| /// automatically registered as a global variable with the ast::Module. |
| template <typename NAME, typename... OPTIONS> |
| const ast::Override* Override(const Source& source, NAME&& name, OPTIONS&&... options) { |
| OverrideOptions opts(std::forward<OPTIONS>(options)...); |
| auto* variable = create<ast::Override>(source, Ident(std::forward<NAME>(name)), opts.type, |
| opts.initializer, std::move(opts.attributes)); |
| AST().AddGlobalVariable(variable); |
| return variable; |
| } |
| |
| /// @param source the source information |
| /// @param condition the assertion condition |
| /// @returns a new `ast::ConstAssert`, which is automatically registered as a global statement |
| /// with the ast::Module. |
| template <typename EXPR> |
| const ast::ConstAssert* GlobalConstAssert(const Source& source, EXPR&& condition) { |
| auto* sa = ConstAssert(source, std::forward<EXPR>(condition)); |
| AST().AddConstAssert(sa); |
| return sa; |
| } |
| |
| /// @param condition the assertion condition |
| /// @returns a new `ast::ConstAssert`, which is automatically registered as a global statement |
| /// with the ast::Module. |
| template <typename EXPR, typename = DisableIfSource<EXPR>> |
| const ast::ConstAssert* GlobalConstAssert(EXPR&& condition) { |
| auto* sa = ConstAssert(std::forward<EXPR>(condition)); |
| AST().AddConstAssert(sa); |
| return sa; |
| } |
| |
| /// @param source the source information |
| /// @param condition the assertion condition |
| /// @returns a new `ast::ConstAssert` with the given assertion condition |
| template <typename EXPR> |
| const ast::ConstAssert* ConstAssert(const Source& source, EXPR&& condition) { |
| return create<ast::ConstAssert>(source, Expr(std::forward<EXPR>(condition))); |
| } |
| |
| /// @param condition the assertion condition |
| /// @returns a new `ast::ConstAssert` with the given assertion condition |
| template <typename EXPR, typename = DisableIfSource<EXPR>> |
| const ast::ConstAssert* ConstAssert(EXPR&& condition) { |
| return create<ast::ConstAssert>(Expr(std::forward<EXPR>(condition))); |
| } |
| |
| /// @param source the source information |
| /// @param expr the expression to take the address of |
| /// @return an ast::UnaryOpExpression that takes the address of `expr` |
| template <typename EXPR> |
| const ast::UnaryOpExpression* AddressOf(const Source& source, EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(source, core::UnaryOp::kAddressOf, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param expr the expression to take the address of |
| /// @return an ast::UnaryOpExpression that takes the address of `expr` |
| template <typename EXPR> |
| const ast::UnaryOpExpression* AddressOf(EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(core::UnaryOp::kAddressOf, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param source the source information |
| /// @param expr the expression to perform an indirection on |
| /// @return an ast::UnaryOpExpression that dereferences the pointer `expr` |
| template <typename EXPR> |
| const ast::UnaryOpExpression* Deref(const Source& source, EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(source, core::UnaryOp::kIndirection, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param expr the expression to perform an indirection on |
| /// @return an ast::UnaryOpExpression that dereferences the pointer `expr` |
| template <typename EXPR> |
| const ast::UnaryOpExpression* Deref(EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(core::UnaryOp::kIndirection, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param expr the expression to perform a unary not on |
| /// @return an ast::UnaryOpExpression that is the unary not of the input |
| /// expression |
| template <typename EXPR> |
| const ast::UnaryOpExpression* Not(EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(core::UnaryOp::kNot, Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param source the source information |
| /// @param expr the expression to perform a unary not on |
| /// @return an ast::UnaryOpExpression that is the unary not of the input |
| /// expression |
| template <typename EXPR> |
| const ast::UnaryOpExpression* Not(const Source& source, EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(source, core::UnaryOp::kNot, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param expr the expression to perform a unary complement on |
| /// @return an ast::UnaryOpExpression that is the unary complement of the |
| /// input expression |
| template <typename EXPR> |
| const ast::UnaryOpExpression* Complement(EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(core::UnaryOp::kComplement, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param expr the expression to perform a unary negation on |
| /// @return an ast::UnaryOpExpression that is the unary negation of the |
| /// input expression |
| template <typename EXPR> |
| const ast::UnaryOpExpression* Negation(EXPR&& expr) { |
| return create<ast::UnaryOpExpression>(core::UnaryOp::kNegation, |
| Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// @param args the arguments for the constructor |
| /// @returns an ast::CallExpression to the type `T`, with the arguments of @p args converted to |
| /// `ast::Expression`s using Expr(). |
| template <typename T, typename... ARGS, typename = DisableIfSource<ARGS...>> |
| const ast::CallExpression* Call(ARGS&&... args) { |
| return Call(source_, ty.Of<T>(), std::forward<ARGS>(args)...); |
| } |
| |
| /// @param source the source of the call |
| /// @param args the arguments for the constructor |
| /// @returns an ast::CallExpression to the type `T` with the arguments of @p args converted to |
| /// `ast::Expression`s using Expr(). |
| template <typename T, typename... ARGS> |
| const ast::CallExpression* Call(const Source& source, ARGS&&... args) { |
| return Call(source, ty.Of<T>(), std::forward<ARGS>(args)...); |
| } |
| |
| /// @param target the call target |
| /// @param args the function call arguments |
| /// @returns an ast::CallExpression to the target @p target, with the arguments of @p args |
| /// converted to `ast::Expression`s using Expr(). |
| template <typename TARGET, |
| typename... ARGS, |
| typename = DisableIfSource<TARGET>, |
| typename = DisableIfScalar<TARGET>> |
| const ast::CallExpression* Call(TARGET&& target, ARGS&&... args) { |
| return Call(source_, Expr(std::forward<TARGET>(target)), std::forward<ARGS>(args)...); |
| } |
| |
| /// @param source the source of the call |
| /// @param target the call target |
| /// @param args the function call arguments |
| /// @returns an ast::CallExpression to the target @p target, with the arguments of @p args |
| /// converted to `ast::Expression`s using Expr(). |
| template <typename TARGET, typename... ARGS, typename = DisableIfScalar<TARGET>> |
| const ast::CallExpression* Call(const Source& source, TARGET&& target, ARGS&&... args) { |
| return create<ast::CallExpression>(source, Expr(std::forward<TARGET>(target)), |
| ExprList(std::forward<ARGS>(args)...)); |
| } |
| |
| /// @param source the source information |
| /// @param call the call expression to wrap in a call statement |
| /// @returns a `ast::CallStatement` for the given call expression |
| const ast::CallStatement* CallStmt(const Source& source, const ast::CallExpression* call) { |
| return create<ast::CallStatement>(source, call); |
| } |
| |
| /// @param call the call expression to wrap in a call statement |
| /// @returns a `ast::CallStatement` for the given call expression |
| const ast::CallStatement* CallStmt(const ast::CallExpression* call) { |
| return create<ast::CallStatement>(call); |
| } |
| |
| /// @param source the source information |
| /// @returns a `ast::PhonyExpression` |
| const ast::PhonyExpression* Phony(const Source& source) { |
| return create<ast::PhonyExpression>(source); |
| } |
| |
| /// @returns a `ast::PhonyExpression` |
| const ast::PhonyExpression* Phony() { return create<ast::PhonyExpression>(); } |
| |
| /// @param expr the expression to ignore |
| /// @returns a `ast::AssignmentStatement` that assigns 'expr' to the phony |
| /// (underscore) variable. |
| template <typename EXPR> |
| const ast::AssignmentStatement* Ignore(EXPR&& expr) { |
| return create<ast::AssignmentStatement>(Phony(), Expr(expr)); |
| } |
| |
| /// @param lhs the left hand argument to the addition operation |
| /// @param rhs the right hand argument to the addition operation |
| /// @returns a `ast::BinaryExpression` summing the arguments `lhs` and `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Add(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kAdd, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the addition operation |
| /// @param rhs the right hand argument to the addition operation |
| /// @returns a `ast::BinaryExpression` summing the arguments `lhs` and `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Add(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kAdd, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the and operation |
| /// @param rhs the right hand argument to the and operation |
| /// @returns a `ast::BinaryExpression` bitwise anding `lhs` and `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* And(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kAnd, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the or operation |
| /// @param rhs the right hand argument to the or operation |
| /// @returns a `ast::BinaryExpression` bitwise or-ing `lhs` and `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Or(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kOr, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the subtraction operation |
| /// @param rhs the right hand argument to the subtraction operation |
| /// @returns a `ast::BinaryExpression` subtracting `rhs` from `lhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Sub(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>( |
| core::BinaryOp::kSubtract, Expr(std::forward<LHS>(lhs)), Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the multiplication operation |
| /// @param rhs the right hand argument to the multiplication operation |
| /// @returns a `ast::BinaryExpression` multiplying `rhs` from `lhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Mul(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>( |
| core::BinaryOp::kMultiply, Expr(std::forward<LHS>(lhs)), Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the multiplication operation |
| /// @param rhs the right hand argument to the multiplication operation |
| /// @returns a `ast::BinaryExpression` multiplying `rhs` from `lhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Mul(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kMultiply, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the division operation |
| /// @param rhs the right hand argument to the division operation |
| /// @returns a `ast::BinaryExpression` dividing `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Div(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kDivide, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the division operation |
| /// @param rhs the right hand argument to the division operation |
| /// @returns a `ast::BinaryExpression` dividing `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Div(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kDivide, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the modulo operation |
| /// @param rhs the right hand argument to the modulo operation |
| /// @returns a `ast::BinaryExpression` applying modulo of `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Mod(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kModulo, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the bit shift right operation |
| /// @param rhs the right hand argument to the bit shift right operation |
| /// @returns a `ast::BinaryExpression` bit shifting right `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Shr(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kShiftRight, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the bit shift right operation |
| /// @param rhs the right hand argument to the bit shift right operation |
| /// @returns a `ast::BinaryExpression` bit shifting right `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Shr(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kShiftRight, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the bit shift left operation |
| /// @param rhs the right hand argument to the bit shift left operation |
| /// @returns a `ast::BinaryExpression` bit shifting left `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Shl(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>( |
| core::BinaryOp::kShiftLeft, Expr(std::forward<LHS>(lhs)), Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the bit shift left operation |
| /// @param rhs the right hand argument to the bit shift left operation |
| /// @returns a `ast::BinaryExpression` bit shifting left `lhs` by `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Shl(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kShiftLeft, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the xor operation |
| /// @param rhs the right hand argument to the xor operation |
| /// @returns a `ast::BinaryExpression` bitwise xor-ing `lhs` and `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Xor(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kXor, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the logical and operation |
| /// @param rhs the right hand argument to the logical and operation |
| /// @returns a `ast::BinaryExpression` of `lhs` && `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* LogicalAnd(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kLogicalAnd, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the logical and operation |
| /// @param rhs the right hand argument to the logical and operation |
| /// @returns a `ast::BinaryExpression` of `lhs` && `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* LogicalAnd(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kLogicalAnd, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the logical or operation |
| /// @param rhs the right hand argument to the logical or operation |
| /// @returns a `ast::BinaryExpression` of `lhs` || `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* LogicalOr(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>( |
| core::BinaryOp::kLogicalOr, Expr(std::forward<LHS>(lhs)), Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the logical or operation |
| /// @param rhs the right hand argument to the logical or operation |
| /// @returns a `ast::BinaryExpression` of `lhs` || `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* LogicalOr(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kLogicalOr, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the greater than operation |
| /// @param rhs the right hand argument to the greater than operation |
| /// @returns a `ast::BinaryExpression` of `lhs` > `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* GreaterThan(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kGreaterThan, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the greater than or equal operation |
| /// @param rhs the right hand argument to the greater than or equal operation |
| /// @returns a `ast::BinaryExpression` of `lhs` >= `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* GreaterThanEqual(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kGreaterThanEqual, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the less than operation |
| /// @param rhs the right hand argument to the less than operation |
| /// @returns a `ast::BinaryExpression` of `lhs` < `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* LessThan(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>( |
| core::BinaryOp::kLessThan, Expr(std::forward<LHS>(lhs)), Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the less than or equal operation |
| /// @param rhs the right hand argument to the less than or equal operation |
| /// @returns a `ast::BinaryExpression` of `lhs` <= `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* LessThanEqual(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kLessThanEqual, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the equal expression |
| /// @param rhs the right hand argument to the equal expression |
| /// @returns a `ast::BinaryExpression` comparing `lhs` equal to `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Equal(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(core::BinaryOp::kEqual, Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param lhs the left hand argument to the equal expression |
| /// @param rhs the right hand argument to the equal expression |
| /// @returns a `ast::BinaryExpression` comparing `lhs` equal to `rhs` |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* Equal(const Source& source, LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>(source, core::BinaryOp::kEqual, |
| Expr(std::forward<LHS>(lhs)), |
| Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param lhs the left hand argument to the not-equal expression |
| /// @param rhs the right hand argument to the not-equal expression |
| /// @returns a `ast::BinaryExpression` comparing `lhs` equal to `rhs` for |
| /// disequality |
| template <typename LHS, typename RHS> |
| const ast::BinaryExpression* NotEqual(LHS&& lhs, RHS&& rhs) { |
| return create<ast::BinaryExpression>( |
| core::BinaryOp::kNotEqual, Expr(std::forward<LHS>(lhs)), Expr(std::forward<RHS>(rhs))); |
| } |
| |
| /// @param source the source information |
| /// @param object the object for the index accessor expression |
| /// @param index the index argument for the index accessor expression |
| /// @returns a `ast::IndexAccessorExpression` that indexes @p object with @p index |
| template <typename OBJECT, typename INDEX> |
| const ast::IndexAccessorExpression* IndexAccessor(const Source& source, |
| OBJECT&& object, |
| INDEX&& index) { |
| return create<ast::IndexAccessorExpression>(source, Expr(std::forward<OBJECT>(object)), |
| Expr(std::forward<INDEX>(index))); |
| } |
| |
| /// @param object the object for the index accessor expression |
| /// @param index the index argument for the index accessor expression |
| /// @returns a `ast::IndexAccessorExpression` that indexes @p object with @p index |
| template <typename OBJECT, typename INDEX> |
| const ast::IndexAccessorExpression* IndexAccessor(OBJECT&& object, INDEX&& index) { |
| return create<ast::IndexAccessorExpression>(Expr(std::forward<OBJECT>(object)), |
| Expr(std::forward<INDEX>(index))); |
| } |
| |
| /// @param source the source information |
| /// @param object the object for the member accessor expression |
| /// @param member the member argument for the member accessor expression |
| /// @returns a `ast::MemberAccessorExpression` that indexes @p object with @p member |
| template <typename OBJECT, typename MEMBER> |
| const ast::MemberAccessorExpression* MemberAccessor(const Source& source, |
| OBJECT&& object, |
| MEMBER&& member) { |
| static_assert(!traits::IsType<traits::PtrElTy<MEMBER>, ast::TemplatedIdentifier>, |
| "it is currently invalid for a structure to hold a templated member"); |
| return create<ast::MemberAccessorExpression>(source, Expr(std::forward<OBJECT>(object)), |
| Ident(std::forward<MEMBER>(member))); |
| } |
| |
| /// @param object the object for the member accessor expression |
| /// @param member the member argument for the member accessor expression |
| /// @returns a `ast::MemberAccessorExpression` that indexes @p object with @p member |
| template <typename OBJECT, typename MEMBER> |
| const ast::MemberAccessorExpression* MemberAccessor(OBJECT&& object, MEMBER&& member) { |
| return MemberAccessor(source_, std::forward<OBJECT>(object), std::forward<MEMBER>(member)); |
| } |
| |
| /// Creates a ast::StructMemberOffsetAttribute |
| /// @param val the offset expression |
| /// @returns the offset attribute pointer |
| template <typename EXPR> |
| const ast::StructMemberOffsetAttribute* MemberOffset(EXPR&& val) { |
| return create<ast::StructMemberOffsetAttribute>(source_, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates a ast::StructMemberOffsetAttribute |
| /// @param source the source information |
| /// @param val the offset expression |
| /// @returns the offset attribute pointer |
| template <typename EXPR> |
| const ast::StructMemberOffsetAttribute* MemberOffset(const Source& source, EXPR&& val) { |
| return create<ast::StructMemberOffsetAttribute>(source, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates a ast::StructMemberSizeAttribute |
| /// @param source the source information |
| /// @param val the size value |
| /// @returns the size attribute pointer |
| template <typename EXPR> |
| const ast::StructMemberSizeAttribute* MemberSize(const Source& source, EXPR&& val) { |
| return create<ast::StructMemberSizeAttribute>(source, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates a ast::StructMemberSizeAttribute |
| /// @param val the size value |
| /// @returns the size attribute pointer |
| template <typename EXPR> |
| const ast::StructMemberSizeAttribute* MemberSize(EXPR&& val) { |
| return create<ast::StructMemberSizeAttribute>(source_, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates a ast::StructMemberAlignAttribute |
| /// @param source the source information |
| /// @param val the align value expression |
| /// @returns the align attribute pointer |
| template <typename EXPR> |
| const ast::StructMemberAlignAttribute* MemberAlign(const Source& source, EXPR&& val) { |
| return create<ast::StructMemberAlignAttribute>(source, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates a ast::StructMemberAlignAttribute |
| /// @param val the align value expression |
| /// @returns the align attribute pointer |
| template <typename EXPR> |
| const ast::StructMemberAlignAttribute* MemberAlign(EXPR&& val) { |
| return create<ast::StructMemberAlignAttribute>(source_, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates a ast::StrideAttribute |
| /// @param stride the array stride |
| /// @returns the ast::StrideAttribute attribute |
| const ast::StrideAttribute* Stride(uint32_t stride) { |
| return create<ast::StrideAttribute>(source_, stride); |
| } |
| |
| /// Creates the ast::GroupAttribute |
| /// @param value group attribute index expresion |
| /// @returns the group attribute pointer |
| template <typename EXPR> |
| const ast::GroupAttribute* Group(EXPR&& value) { |
| return create<ast::GroupAttribute>(Expr(std::forward<EXPR>(value))); |
| } |
| |
| /// Creates the ast::GroupAttribute |
| /// @param source the source |
| /// @param value group attribute index expression |
| /// @returns the group attribute pointer |
| template <typename EXPR> |
| const ast::GroupAttribute* Group(const Source& source, EXPR&& value) { |
| return create<ast::GroupAttribute>(source, Expr(std::forward<EXPR>(value))); |
| } |
| |
| /// Creates the ast::BindingAttribute |
| /// @param value the binding index expression |
| /// @returns the binding deocration pointer |
| template <typename EXPR> |
| const ast::BindingAttribute* Binding(EXPR&& value) { |
| return create<ast::BindingAttribute>(Expr(std::forward<EXPR>(value))); |
| } |
| |
| /// Creates the ast::BindingAttribute |
| /// @param source the source |
| /// @param value the binding index expression |
| /// @returns the binding deocration pointer |
| template <typename EXPR> |
| const ast::BindingAttribute* Binding(const Source& source, EXPR&& value) { |
| return create<ast::BindingAttribute>(source, Expr(std::forward<EXPR>(value))); |
| } |
| |
| /// Creates an ast::Function and registers it with the ast::Module. |
| /// @param name the function name |
| /// @param params the function parameters |
| /// @param type the function return type |
| /// @param body the function body. Can be an ast::BlockStatement*, as ast::Statement* which will |
| /// be automatically placed into a block, or nullptr for a stub function. |
| /// @param attributes the optional function attributes |
| /// @param return_type_attributes the optional function return type attributes |
| /// @returns the function pointer |
| template <typename NAME, typename BODY = VectorRef<const ast::Statement*>> |
| const ast::Function* Func(NAME&& name, |
| VectorRef<const ast::Parameter*> params, |
| ast::Type type, |
| BODY&& body, |
| VectorRef<const ast::Attribute*> attributes = Empty, |
| VectorRef<const ast::Attribute*> return_type_attributes = Empty) { |
| return Func(source_, std::forward<NAME>(name), std::move(params), type, |
| std::forward<BODY>(body), std::move(attributes), |
| std::move(return_type_attributes)); |
| } |
| |
| /// Creates an ast::Function and registers it with the ast::Module. |
| /// @param source the source information |
| /// @param name the function name |
| /// @param params the function parameters |
| /// @param type the function return type |
| /// @param body the function body. Can be an ast::BlockStatement*, as ast::Statement* which will |
| /// be automatically placed into a block, or nullptr for a stub function. |
| /// @param attributes the optional function attributes |
| /// @param return_type_attributes the optional function return type attributes |
| /// @returns the function pointer |
| template <typename NAME, typename BODY = VectorRef<const ast::Statement*>> |
| const ast::Function* Func(const Source& source, |
| NAME&& name, |
| VectorRef<const ast::Parameter*> params, |
| ast::Type type, |
| BODY&& body, |
| VectorRef<const ast::Attribute*> attributes = Empty, |
| VectorRef<const ast::Attribute*> return_type_attributes = Empty) { |
| const ast::BlockStatement* block = nullptr; |
| using BODY_T = traits::PtrElTy<BODY>; |
| if constexpr (traits::IsTypeOrDerived<BODY_T, ast::BlockStatement> || |
| std::is_same_v<BODY_T, std::nullptr_t>) { |
| block = body; |
| } else { |
| block = Block(std::forward<BODY>(body)); |
| } |
| auto* func = |
| create<ast::Function>(source, Ident(std::forward<NAME>(name)), std::move(params), type, |
| block, std::move(attributes), std::move(return_type_attributes)); |
| AST().AddFunction(func); |
| return func; |
| } |
| |
| /// Creates an ast::BreakStatement |
| /// @param source the source information |
| /// @returns the break statement pointer |
| const ast::BreakStatement* Break(const Source& source) { |
| return create<ast::BreakStatement>(source); |
| } |
| |
| /// Creates an ast::BreakStatement |
| /// @returns the break statement pointer |
| const ast::BreakStatement* Break() { return create<ast::BreakStatement>(); } |
| |
| /// Creates a ast::BreakIfStatement with input condition |
| /// @param source the source information for the if statement |
| /// @param condition the if statement condition expression |
| /// @returns the break-if statement pointer |
| template <typename CONDITION> |
| const ast::BreakIfStatement* BreakIf(const Source& source, CONDITION&& condition) { |
| return create<ast::BreakIfStatement>(source, Expr(std::forward<CONDITION>(condition))); |
| } |
| |
| /// Creates a ast::BreakIfStatement with input condition |
| /// @param condition the if statement condition expression |
| /// @returns the break-if statement pointer |
| template <typename CONDITION> |
| const ast::BreakIfStatement* BreakIf(CONDITION&& condition) { |
| return create<ast::BreakIfStatement>(Expr(std::forward<CONDITION>(condition))); |
| } |
| |
| /// Creates an ast::ContinueStatement |
| /// @param source the source information |
| /// @returns the continue statement pointer |
| const ast::ContinueStatement* Continue(const Source& source) { |
| return create<ast::ContinueStatement>(source); |
| } |
| |
| /// Creates an ast::ContinueStatement |
| /// @returns the continue statement pointer |
| const ast::ContinueStatement* Continue() { return create<ast::ContinueStatement>(); } |
| |
| /// Creates an ast::ReturnStatement with no return value |
| /// @param source the source information |
| /// @returns the return statement pointer |
| const ast::ReturnStatement* Return(const Source& source) { |
| return create<ast::ReturnStatement>(source); |
| } |
| |
| /// Creates an ast::ReturnStatement with no return value |
| /// @returns the return statement pointer |
| const ast::ReturnStatement* Return() { return create<ast::ReturnStatement>(); } |
| |
| /// Creates an ast::ReturnStatement with the given return value |
| /// @param source the source information |
| /// @param val the return value |
| /// @returns the return statement pointer |
| template <typename EXPR> |
| const ast::ReturnStatement* Return(const Source& source, EXPR&& val) { |
| return create<ast::ReturnStatement>(source, Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates an ast::ReturnStatement with the given return value |
| /// @param val the return value |
| /// @returns the return statement pointer |
| template <typename EXPR, typename = DisableIfSource<EXPR>> |
| const ast::ReturnStatement* Return(EXPR&& val) { |
| return create<ast::ReturnStatement>(Expr(std::forward<EXPR>(val))); |
| } |
| |
| /// Creates an ast::DiscardStatement |
| /// @param source the source information |
| /// @returns the discard statement pointer |
| const ast::DiscardStatement* Discard(const Source& source) { |
| return create<ast::DiscardStatement>(source); |
| } |
| |
| /// Creates an ast::DiscardStatement |
| /// @returns the discard statement pointer |
| const ast::DiscardStatement* Discard() { return create<ast::DiscardStatement>(); } |
| |
| /// Creates a ast::Alias registering it with the AST().TypeDecls(). |
| /// @param name the alias name |
| /// @param type the alias target type |
| /// @returns the alias type |
| template <typename NAME> |
| const ast::Alias* Alias(NAME&& name, ast::Type type) { |
| return Alias(source_, std::forward<NAME>(name), type); |
| } |
| |
| /// Creates a ast::Alias registering it with the AST().TypeDecls(). |
| /// @param source the source information |
| /// @param name the alias name |
| /// @param type the alias target type |
| /// @returns the alias type |
| template <typename NAME> |
| const ast::Alias* Alias(const Source& source, NAME&& name, ast::Type type) { |
| auto out = ty.alias(source, std::forward<NAME>(name), type); |
| AST().AddTypeDecl(out); |
| return out; |
| } |
| |
| /// Creates a ast::Struct registering it with the AST().TypeDecls(). |
| /// @param name the struct name |
| /// @param members the struct members |
| /// @param attributes the optional struct attributes |
| /// @returns the struct type |
| template <typename NAME> |
| const ast::Struct* Structure(NAME&& name, |
| VectorRef<const ast::StructMember*> members, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return Structure(source_, std::forward<NAME>(name), std::move(members), |
| std::move(attributes)); |
| } |
| |
| /// Creates a ast::Struct registering it with the AST().TypeDecls(). |
| /// @param source the source information |
| /// @param name the struct name |
| /// @param members the struct members |
| /// @param attributes the optional struct attributes |
| /// @returns the struct type |
| template <typename NAME> |
| const ast::Struct* Structure(const Source& source, |
| NAME&& name, |
| VectorRef<const ast::StructMember*> members, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| auto* type = create<ast::Struct>(source, Ident(std::forward<NAME>(name)), |
| std::move(members), std::move(attributes)); |
| AST().AddTypeDecl(type); |
| return type; |
| } |
| |
| /// Creates a ast::StructMember |
| /// @param name the struct member name |
| /// @param type the struct member type |
| /// @param attributes the optional struct member attributes |
| /// @returns the struct member pointer |
| template <typename NAME, typename = DisableIfSource<NAME>> |
| const ast::StructMember* Member(NAME&& name, |
| ast::Type type, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return Member(source_, std::forward<NAME>(name), type, std::move(attributes)); |
| } |
| |
| /// Creates a ast::StructMember |
| /// @param source the struct member source |
| /// @param name the struct member name |
| /// @param type the struct member type |
| /// @param attributes the optional struct member attributes |
| /// @returns the struct member pointer |
| template <typename NAME> |
| const ast::StructMember* Member(const Source& source, |
| NAME&& name, |
| ast::Type type, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::StructMember>(source, Ident(std::forward<NAME>(name)), type, |
| std::move(attributes)); |
| } |
| |
| /// Creates a ast::StructMember with the given byte offset |
| /// @param offset the offset to use in the StructMemberOffsetAttribute |
| /// @param name the struct member name |
| /// @param type the struct member type |
| /// @returns the struct member pointer |
| template <typename NAME> |
| const ast::StructMember* Member(uint32_t offset, NAME&& name, ast::Type type) { |
| return create<ast::StructMember>(source_, Ident(std::forward<NAME>(name)), type, |
| Vector<const ast::Attribute*, 1>{ |
| MemberOffset(core::AInt(offset)), |
| }); |
| } |
| |
| /// Creates a ast::BlockStatement with input statements and attributes |
| /// @param statements the statements of the block |
| /// @param attributes the optional attributes of the block |
| /// @returns the block statement pointer |
| const ast::BlockStatement* Block(VectorRef<const ast::Statement*> statements, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return Block(source_, std::move(statements), std::move(attributes)); |
| } |
| |
| /// Creates a ast::BlockStatement with input statements and attributes |
| /// @param source the source information for the block |
| /// @param statements the statements of the block |
| /// @param attributes the optional attributes of the block |
| /// @returns the block statement pointer |
| const ast::BlockStatement* Block(const Source& source, |
| VectorRef<const ast::Statement*> statements, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::BlockStatement>(source, std::move(statements), std::move(attributes)); |
| } |
| |
| /// Creates a ast::BlockStatement with a parameter list of input statements |
| /// @param statements the optional statements of the block |
| /// @returns the block statement pointer |
| template <typename... STATEMENTS, |
| typename = DisableIfSource<STATEMENTS...>, |
| typename = DisableIfVectorLike<STATEMENTS...>> |
| const ast::BlockStatement* Block(STATEMENTS&&... statements) { |
| return Block(source_, std::forward<STATEMENTS>(statements)...); |
| } |
| |
| /// Creates a ast::BlockStatement with a parameter list of input statements |
| /// @param source the source information for the block |
| /// @param statements the optional statements of the block |
| /// @returns the block statement pointer |
| template <typename... STATEMENTS, typename = DisableIfVectorLike<STATEMENTS...>> |
| const ast::BlockStatement* Block(const Source& source, STATEMENTS&&... statements) { |
| return create<ast::BlockStatement>(source, |
| Vector<const ast::Statement*, sizeof...(statements)>{ |
| std::forward<STATEMENTS>(statements)..., |
| }, |
| Empty); |
| } |
| |
| /// A wrapper type for the Else statement used to create If statements. |
| struct ElseStmt { |
| /// Default constructor - no else statement. |
| ElseStmt() : stmt(nullptr) {} |
| /// Constructor |
| /// @param s The else statement |
| explicit ElseStmt(const ast::Statement* s) : stmt(s) {} |
| /// The else statement, or nullptr. |
| const ast::Statement* stmt; |
| }; |
| |
| /// Creates a ast::IfStatement with input condition, body, and optional |
| /// else statement |
| /// @param source the source information for the if statement |
| /// @param condition the if statement condition expression |
| /// @param body the if statement body |
| /// @param else_stmt optional else statement |
| /// @param attributes optional attributes |
| /// @returns the if statement pointer |
| template <typename CONDITION> |
| const ast::IfStatement* If(const Source& source, |
| CONDITION&& condition, |
| const ast::BlockStatement* body, |
| const ElseStmt else_stmt = ElseStmt(), |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::IfStatement>(source, Expr(std::forward<CONDITION>(condition)), body, |
| else_stmt.stmt, std::move(attributes)); |
| } |
| |
| /// Creates a ast::IfStatement with input condition, body, and optional |
| /// else statement |
| /// @param condition the if statement condition expression |
| /// @param body the if statement body |
| /// @param else_stmt optional else statement |
| /// @param attributes optional attributes |
| /// @returns the if statement pointer |
| template <typename CONDITION> |
| const ast::IfStatement* If(CONDITION&& condition, |
| const ast::BlockStatement* body, |
| const ElseStmt else_stmt = ElseStmt(), |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::IfStatement>(Expr(std::forward<CONDITION>(condition)), body, |
| else_stmt.stmt, std::move(attributes)); |
| } |
| |
| /// Creates an Else object. |
| /// @param stmt else statement |
| /// @returns the Else object |
| ElseStmt Else(const ast::Statement* stmt) { return ElseStmt(stmt); } |
| |
| /// Creates a ast::AssignmentStatement with input lhs and rhs expressions |
| /// @param source the source information |
| /// @param lhs the left hand side expression initializer |
| /// @param rhs the right hand side expression initializer |
| /// @returns the assignment statement pointer |
| template <typename LhsExpressionInit, typename RhsExpressionInit> |
| const ast::AssignmentStatement* Assign(const Source& source, |
| LhsExpressionInit&& lhs, |
| RhsExpressionInit&& rhs) { |
| return create<ast::AssignmentStatement>(source, Expr(std::forward<LhsExpressionInit>(lhs)), |
| Expr(std::forward<RhsExpressionInit>(rhs))); |
| } |
| |
| /// Creates a ast::AssignmentStatement with input lhs and rhs expressions |
| /// @param lhs the left hand side expression initializer |
| /// @param rhs the right hand side expression initializer |
| /// @returns the assignment statement pointer |
| template <typename LhsExpressionInit, typename RhsExpressionInit> |
| const ast::AssignmentStatement* Assign(LhsExpressionInit&& lhs, RhsExpressionInit&& rhs) { |
| return create<ast::AssignmentStatement>(Expr(std::forward<LhsExpressionInit>(lhs)), |
| Expr(std::forward<RhsExpressionInit>(rhs))); |
| } |
| |
| /// Creates a ast::CompoundAssignmentStatement with input lhs and rhs |
| /// expressions, and a binary operator. |
| /// @param source the source information |
| /// @param lhs the left hand side expression initializer |
| /// @param rhs the right hand side expression initializer |
| /// @param op the binary operator |
| /// @returns the compound assignment statement pointer |
| template <typename LhsExpressionInit, typename RhsExpressionInit> |
| const ast::CompoundAssignmentStatement* CompoundAssign(const Source& source, |
| LhsExpressionInit&& lhs, |
| RhsExpressionInit&& rhs, |
| core::BinaryOp op) { |
| return create<ast::CompoundAssignmentStatement>( |
| source, Expr(std::forward<LhsExpressionInit>(lhs)), |
| Expr(std::forward<RhsExpressionInit>(rhs)), op); |
| } |
| |
| /// Creates a ast::CompoundAssignmentStatement with input lhs and rhs |
| /// expressions, and a binary operator. |
| /// @param lhs the left hand side expression initializer |
| /// @param rhs the right hand side expression initializer |
| /// @param op the binary operator |
| /// @returns the compound assignment statement pointer |
| template <typename LhsExpressionInit, typename RhsExpressionInit> |
| const ast::CompoundAssignmentStatement* CompoundAssign(LhsExpressionInit&& lhs, |
| RhsExpressionInit&& rhs, |
| core::BinaryOp op) { |
| return create<ast::CompoundAssignmentStatement>(Expr(std::forward<LhsExpressionInit>(lhs)), |
| Expr(std::forward<RhsExpressionInit>(rhs)), |
| op); |
| } |
| |
| /// Creates an ast::IncrementDecrementStatement with input lhs. |
| /// @param source the source information |
| /// @param lhs the left hand side expression initializer |
| /// @returns the increment decrement statement pointer |
| template <typename LhsExpressionInit> |
| const ast::IncrementDecrementStatement* Increment(const Source& source, |
| LhsExpressionInit&& lhs) { |
| return create<ast::IncrementDecrementStatement>( |
| source, Expr(std::forward<LhsExpressionInit>(lhs)), true); |
| } |
| |
| /// Creates a ast::IncrementDecrementStatement with input lhs. |
| /// @param lhs the left hand side expression initializer |
| /// @returns the increment decrement statement pointer |
| template <typename LhsExpressionInit> |
| const ast::IncrementDecrementStatement* Increment(LhsExpressionInit&& lhs) { |
| return create<ast::IncrementDecrementStatement>(Expr(std::forward<LhsExpressionInit>(lhs)), |
| true); |
| } |
| |
| /// Creates an ast::IncrementDecrementStatement with input lhs. |
| /// @param source the source information |
| /// @param lhs the left hand side expression initializer |
| /// @returns the increment decrement statement pointer |
| template <typename LhsExpressionInit> |
| const ast::IncrementDecrementStatement* Decrement(const Source& source, |
| LhsExpressionInit&& lhs) { |
| return create<ast::IncrementDecrementStatement>( |
| source, Expr(std::forward<LhsExpressionInit>(lhs)), false); |
| } |
| |
| /// Creates a ast::IncrementDecrementStatement with input lhs. |
| /// @param lhs the left hand side expression initializer |
| /// @returns the increment decrement statement pointer |
| template <typename LhsExpressionInit> |
| const ast::IncrementDecrementStatement* Decrement(LhsExpressionInit&& lhs) { |
| return create<ast::IncrementDecrementStatement>(Expr(std::forward<LhsExpressionInit>(lhs)), |
| false); |
| } |
| |
| /// Creates a ast::LoopStatement with input body and optional continuing |
| /// @param source the source information |
| /// @param body the loop body |
| /// @param continuing the optional continuing block |
| /// @param attributes optional attributes |
| /// @returns the loop statement pointer |
| const ast::LoopStatement* Loop(const Source& source, |
| const ast::BlockStatement* body, |
| const ast::BlockStatement* continuing = nullptr, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::LoopStatement>(source, body, continuing, std::move(attributes)); |
| } |
| |
| /// Creates a ast::LoopStatement with input body and optional continuing |
| /// @param body the loop body |
| /// @param continuing the optional continuing block |
| /// @param attributes optional attributes |
| /// @returns the loop statement pointer |
| const ast::LoopStatement* Loop(const ast::BlockStatement* body, |
| const ast::BlockStatement* continuing = nullptr, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::LoopStatement>(body, continuing, std::move(attributes)); |
| } |
| |
| /// Creates a ast::ForLoopStatement with input body and optional initializer, condition, |
| /// continuing, and attributes. |
| /// @param source the source information |
| /// @param init the optional loop initializer |
| /// @param cond the optional loop condition |
| /// @param cont the optional loop continuing |
| /// @param body the loop body |
| /// @param attributes optional attributes |
| /// @returns the for loop statement pointer |
| template <typename COND> |
| const ast::ForLoopStatement* For(const Source& source, |
| const ast::Statement* init, |
| COND&& cond, |
| const ast::Statement* cont, |
| const ast::BlockStatement* body, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::ForLoopStatement>(source, init, Expr(std::forward<COND>(cond)), cont, |
| body, std::move(attributes)); |
| } |
| |
| /// Creates a ast::ForLoopStatement with input body and optional initializer, condition, |
| /// continuing, and attributes. |
| /// @param init the optional loop initializer |
| /// @param cond the optional loop condition |
| /// @param cont the optional loop continuing |
| /// @param body the loop body |
| /// @param attributes optional attributes |
| /// @returns the for loop statement pointer |
| template <typename COND> |
| const ast::ForLoopStatement* For(const ast::Statement* init, |
| COND&& cond, |
| const ast::Statement* cont, |
| const ast::BlockStatement* body, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::ForLoopStatement>(init, Expr(std::forward<COND>(cond)), cont, body, |
| std::move(attributes)); |
| } |
| |
| /// Creates a ast::WhileStatement with input body, condition, and optional attributes. |
| /// @param source the source information |
| /// @param cond the loop condition |
| /// @param body the loop body |
| /// @param attributes optional attributes |
| /// @returns the while statement pointer |
| template <typename COND> |
| const ast::WhileStatement* While(const Source& source, |
| COND&& cond, |
| const ast::BlockStatement* body, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::WhileStatement>(source, Expr(std::forward<COND>(cond)), body, |
| std::move(attributes)); |
| } |
| |
| /// Creates a ast::WhileStatement with input body, condition, and optional attributes. |
| /// @param cond the condition |
| /// @param body the loop body |
| /// @param attributes optional attributes |
| /// @returns the while loop statement pointer |
| template <typename COND> |
| const ast::WhileStatement* While(COND&& cond, |
| const ast::BlockStatement* body, |
| VectorRef<const ast::Attribute*> attributes = Empty) { |
| return create<ast::WhileStatement>(Expr(std::forward<COND>(cond)), body, |
| std::move(attributes)); |
| } |
| |
| /// Creates a ast::VariableDeclStatement for the input variable |
| /// @param source the source information |
| /// @param var the variable to wrap in a decl statement |
| /// @returns the variable decl statement pointer |
| const ast::VariableDeclStatement* Decl(const Source& source, const ast::Variable* var) { |
| return create<ast::VariableDeclStatement>(source, var); |
| } |
| |
| /// Creates a ast::VariableDeclStatement for the input variable |
| /// @param var the variable to wrap in a decl statement |
| /// @returns the variable decl statement pointer |
| const ast::VariableDeclStatement* Decl(const ast::Variable* var) { |
| return create<ast::VariableDeclStatement>(var); |
| } |
| |
| /// Creates a ast::SwitchStatement with input expression and cases |
| /// @param source the source information |
| /// @param condition the condition expression initializer |
| /// @param cases case statements |
| /// @returns the switch statement pointer |
| template <typename ExpressionInit, typename... Cases, typename = DisableIfVectorLike<Cases...>> |
| const ast::SwitchStatement* Switch(const Source& source, |
| ExpressionInit&& condition, |
| Cases&&... cases) { |
| return create<ast::SwitchStatement>( |
| source, Expr(std::forward<ExpressionInit>(condition)), |
| Vector<const ast::CaseStatement*, sizeof...(cases)>{std::forward<Cases>(cases)...}, |
| Empty, Empty); |
| } |
| |
| /// Creates a ast::SwitchStatement with input expression and cases |
| /// @param condition the condition expression initializer |
| /// @param cases case statements |
| /// @returns the switch statement pointer |
| template <typename ExpressionInit, |
| typename... Cases, |
| typename = DisableIfSource<ExpressionInit>, |
| typename = DisableIfVectorLike<Cases...>> |
| const ast::SwitchStatement* Switch(ExpressionInit&& condition, Cases&&... cases) { |
| return create<ast::SwitchStatement>( |
| Expr(std::forward<ExpressionInit>(condition)), |
| Vector<const ast::CaseStatement*, sizeof...(cases)>{std::forward<Cases>(cases)...}, |
| Empty, Empty); |
| } |
| |
| /// Creates a ast::SwitchStatement with input expression, cases, and optional attributes |
| /// @param source the source information |
| /// @param condition the condition expression initializer |
| /// @param cases case statements |
| /// @param stmt_attributes optional statement attributes |
| /// @param body_attributes optional body attributes |
| /// @returns the switch statement pointer |
| template <typename ExpressionInit> |
| const ast::SwitchStatement* Switch(const Source& source, |
| ExpressionInit&& condition, |
| VectorRef<const ast::CaseStatement*> cases, |
| VectorRef<const ast::Attribute*> stmt_attributes = Empty, |
| VectorRef<const ast::Attribute*> body_attributes = Empty) { |
| return create<ast::SwitchStatement>(source, Expr(std::forward<ExpressionInit>(condition)), |
| cases, std::move(stmt_attributes), |
| std::move(body_attributes)); |
| } |
| |
| /// Creates a ast::SwitchStatement with input expression, cases, and optional attributes |
| /// @param condition the condition expression initializer |
| /// @param cases case statements |
| /// @param stmt_attributes optional statement attributes |
| /// @param body_attributes optional body attributes |
| /// @returns the switch statement pointer |
| template <typename ExpressionInit, typename = DisableIfSource<ExpressionInit>> |
| const ast::SwitchStatement* Switch(ExpressionInit&& condition, |
| VectorRef<const ast::CaseStatement*> cases, |
| VectorRef<const ast::Attribute*> stmt_attributes = Empty, |
| VectorRef<const ast::Attribute*> body_attributes = Empty) { |
| return create<ast::SwitchStatement>(Expr(std::forward<ExpressionInit>(condition)), cases, |
| std::move(stmt_attributes), std::move(body_attributes)); |
| } |
| |
| /// Creates a ast::CaseStatement with input list of selectors, and body |
| /// @param selectors list of selectors |
| /// @param body the case body |
| /// @returns the case statement pointer |
| const ast::CaseStatement* Case(VectorRef<const ast::CaseSelector*> selectors, |
| const ast::BlockStatement* body = nullptr) { |
| return Case(source_, std::move(selectors), body); |
| } |
| |
| /// Creates a ast::CaseStatement with input list of selectors, and body |
| /// @param source the source information |
| /// @param selectors list of selectors |
| /// @param body the case body |
| /// @returns the case statement pointer |
| const ast::CaseStatement* Case(const Source& source, |
| VectorRef<const ast::CaseSelector*> selectors, |
| const ast::BlockStatement* body = nullptr) { |
| return create<ast::CaseStatement>(source, std::move(selectors), body ? body : Block()); |
| } |
| |
| /// Convenient overload that takes a single selector |
| /// @param selector a single case selector |
| /// @param body the case body |
| /// @returns the case statement pointer |
| const ast::CaseStatement* Case(const ast::CaseSelector* selector, |
| const ast::BlockStatement* body = nullptr) { |
| return Case(Vector{selector}, body ? body : Block()); |
| } |
| |
| /// Convenience function that creates a 'default' ast::CaseStatement |
| /// @param body the case body |
| /// @returns the case statement pointer |
| const ast::CaseStatement* DefaultCase(const ast::BlockStatement* body = nullptr) { |
| return DefaultCase(source_, body); |
| } |
| |
| /// Convenience function that creates a 'default' ast::CaseStatement |
| /// @param source the source information |
| /// @param body the case body |
| /// @returns the case statement pointer |
| const ast::CaseStatement* DefaultCase(const Source& source, |
| const ast::BlockStatement* body = nullptr) { |
| return Case(source, Vector{DefaultCaseSelector(source)}, body); |
| } |
| |
| /// Convenience function that creates a case selector |
| /// @param source the source information |
| /// @param expr the selector expression |
| /// @returns the selector pointer |
| template <typename EXPR> |
| const ast::CaseSelector* CaseSelector(const Source& source, EXPR&& expr) { |
| return create<ast::CaseSelector>(source, Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// Convenience function that creates a case selector |
| /// @param expr the selector expression |
| /// @returns the selector pointer |
| template <typename EXPR> |
| const ast::CaseSelector* CaseSelector(EXPR&& expr) { |
| return create<ast::CaseSelector>(source_, Expr(std::forward<EXPR>(expr))); |
| } |
| |
| /// Convenience function that creates a default case selector |
| /// @param source the source information |
| /// @returns the selector pointer |
| const ast::CaseSelector* DefaultCaseSelector(const Source& source) { |
| return create<ast::CaseSelector>(source, nullptr); |
| } |
| |
| /// Convenience function that creates a default case selector |
| /// @returns the selector pointer |
| const ast::CaseSelector* DefaultCaseSelector() { return create<ast::CaseSelector>(nullptr); } |
| |
| /// Creates an ast::BuiltinAttribute |
| /// @param source the source information |
| /// @param builtin the builtin value |
| /// @returns the builtin attribute pointer |
| const ast::BuiltinAttribute* Builtin(const Source& source, core::BuiltinValue builtin) { |
| return create<ast::BuiltinAttribute>(source, builtin); |
| } |
| |
| /// Creates an ast::BuiltinAttribute |
| /// @param builtin the builtin value |
| /// @returns the builtin attribute pointer |
| const ast::BuiltinAttribute* Builtin(core::BuiltinValue builtin) { |
| return Builtin(source_, builtin); |
| } |
| |
| /// Creates an ast::InterpolateAttribute |
| /// @param type the interpolation type |
| /// @returns the interpolate attribute pointer |
| const ast::InterpolateAttribute* Interpolate(core::InterpolationType type) { |
| return Interpolate(source_, type); |
| } |
| |
| /// Creates an ast::InterpolateAttribute |
| /// @param source the source information |
| /// @param type the interpolation type |
| /// @returns the interpolate attribute pointer |
| const ast::InterpolateAttribute* Interpolate(const Source& source, |
| core::InterpolationType type) { |
| return Interpolate(source, type, core::InterpolationSampling::kUndefined); |
| } |
| |
| /// Creates an ast::InterpolateAttribute |
| /// @param type the interpolation type |
| /// @param sampling the interpolation sampling |
| /// @returns the interpolate attribute pointer |
| const ast::InterpolateAttribute* Interpolate(core::InterpolationType type, |
| core::InterpolationSampling sampling) { |
| return Interpolate(source_, type, sampling); |
| } |
| |
| /// Creates an ast::InterpolateAttribute |
| /// @param source the source information |
| /// @param type the interpolation type |
| /// @param sampling the interpolation sampling |
| /// @returns the interpolate attribute pointer |
| const ast::InterpolateAttribute* Interpolate(const Source& source, |
| core::InterpolationType type, |
| core::InterpolationSampling sampling) { |
| core::Interpolation interpolation{type, sampling}; |
| return create<ast::InterpolateAttribute>(source, interpolation); |
| } |
| |
| /// Creates an ast::InterpolateAttribute using flat interpolation |
| /// @param source the source information |
| /// @returns the interpolate attribute pointer |
| const ast::InterpolateAttribute* Flat(const Source& source) { |
| return Interpolate(source, core::InterpolationType::kFlat); |
| } |
| |
| /// Creates an ast::InterpolateAttribute using flat interpolation |
| /// @returns the interpolate attribute pointer |
| const ast::InterpolateAttribute* Flat() { return Interpolate(core::InterpolationType::kFlat); } |
| |
| /// Creates an ast::InvariantAttribute |
| /// @param source the source information |
| /// @returns the invariant attribute pointer |
| const ast::InvariantAttribute* Invariant(const Source& source) { |
| return create<ast::InvariantAttribute>(source); |
| } |
| |
| /// Creates an ast::InvariantAttribute |
| /// @returns the invariant attribute pointer |
| const ast::InvariantAttribute* Invariant() { return create<ast::InvariantAttribute>(source_); } |
| |
| /// Creates an ast::MustUseAttribute |
| /// @param source the source information |
| /// @returns the invariant attribute pointer |
| const ast::MustUseAttribute* MustUse(const Source& source) { |
| return create<ast::MustUseAttribute>(source); |
| } |
| |
| /// Creates an ast::MustUseAttribute |
| /// @returns the invariant attribute pointer |
| const ast::MustUseAttribute* MustUse() { return create<ast::MustUseAttribute>(source_); } |
| |
| /// Creates an ast::LocationAttribute |
| /// @param source the source information |
| /// @param location the location value expression |
| /// @returns the location attribute pointer |
| template <typename EXPR> |
| const ast::LocationAttribute* Location(const Source& source, EXPR&& location) { |
| return create<ast::LocationAttribute>(source, Expr(std::forward<EXPR>(location))); |
| } |
| |
| /// Creates an ast::ColorAttribute |
| /// @param index the index value expression |
| /// @returns the index attribute pointer |
| template <typename EXPR> |
| const ast::ColorAttribute* Color(EXPR&& index) { |
| return create<ast::ColorAttribute>(source_, Expr(std::forward<EXPR>(index))); |
| } |
| |
| /// Creates an ast::ColorAttribute |
| /// @param source the source information |
| /// @param index the index value expression |
| /// @returns the index attribute pointer |
| template <typename EXPR> |
| const ast::ColorAttribute* Color(const Source& source, EXPR&& index) { |
| return create<ast::ColorAttribute>(source, Expr(std::forward<EXPR>(index))); |
| } |
| |
| /// Creates an ast::LocationAttribute |
| /// @param location the location value expression |
| /// @returns the location attribute pointer |
| template <typename EXPR> |
| const ast::LocationAttribute* Location(EXPR&& location) { |
| return create<ast::LocationAttribute>(source_, Expr(std::forward<EXPR>(location))); |
| } |
| |
| /// Creates an ast::BlendSrcAttribute |
| /// @param source the source information |
| /// @param blend_src the blend_src value expression |
| /// @returns the blend_src attribute pointer |
| template <typename EXPR> |
| const ast::BlendSrcAttribute* BlendSrc(const Source& source, EXPR&& blend_src) { |
| return create<ast::BlendSrcAttribute>(source, Expr(std::forward<EXPR>(blend_src))); |
| } |
| |
| /// Creates an ast::BlendSrcAttribute |
| /// @param blend_src the blend_src value expression |
| /// @returns the blend_src attribute pointer |
| template <typename EXPR> |
| const ast::BlendSrcAttribute* BlendSrc(EXPR&& blend_src) { |
| return create<ast::BlendSrcAttribute>(source_, Expr(std::forward<EXPR>(blend_src))); |
| } |
| |
| /// Creates an ast::IdAttribute |
| /// @param source the source information |
| /// @param id the id value |
| /// @returns the override attribute pointer |
| const ast::IdAttribute* Id(const Source& source, OverrideId id) { |
| return create<ast::IdAttribute>(source, Expr(core::AInt(id.value))); |
| } |
| |
| /// Creates an ast::IdAttribute with an override identifier |
| /// @param id the optional id value |
| /// @returns the override attribute pointer |
| const ast::IdAttribute* Id(OverrideId id) { |
| return create<ast::IdAttribute>(Expr(core::AInt(id.value))); |
| } |
| |
| /// Creates an ast::IdAttribute |
| /// @param source the source information |
| /// @param id the id value expression |
| /// @returns the override attribute pointer |
| template <typename EXPR> |
| const ast::IdAttribute* Id(const Source& source, EXPR&& id) { |
| return create<ast::IdAttribute>(source, Expr(std::forward<EXPR>(id))); |
| } |
| |
| /// Creates an ast::IdAttribute with an override identifier |
| /// @param id the optional id value expression |
| /// @returns the override attribute pointer |
| template <typename EXPR> |
| const ast::IdAttribute* Id(EXPR&& id) { |
| return create<ast::IdAttribute>(Expr(std::forward<EXPR>(id))); |
| } |
| |
| /// Creates an ast::InputAttachmentIndexAttribute |
| /// @param index the index value expression |
| /// @returns the index attribute pointer |
| template <typename EXPR> |
| const ast::InputAttachmentIndexAttribute* InputAttachmentIndex(EXPR&& index) { |
| return create<ast::InputAttachmentIndexAttribute>(source_, Expr(std::forward<EXPR>(index))); |
| } |
| |
| /// Creates an ast::InputAttachmentIndexAttribute |
| /// @param source the source information |
| /// @param index the index value expression |
| /// @returns the index attribute pointer |
| template <typename EXPR> |
| const ast::InputAttachmentIndexAttribute* InputAttachmentIndex(const Source& source, |
| EXPR&& index) { |
| return create<ast::InputAttachmentIndexAttribute>(source, Expr(std::forward<EXPR>(index))); |
| } |
| |
| /// Creates an ast::StageAttribute |
| /// @param source the source information |
| /// @param stage the pipeline stage |
| /// @returns the stage attribute pointer |
| const ast::StageAttribute* Stage(const Source& source, ast::PipelineStage stage) { |
| return create<ast::StageAttribute>(source, stage); |
| } |
| |
| /// Creates an ast::StageAttribute |
| /// @param stage the pipeline stage |
| /// @returns the stage attribute pointer |
| const ast::StageAttribute* Stage(ast::PipelineStage stage) { |
| return create<ast::StageAttribute>(source_, stage); |
| } |
| |
| /// Creates an ast::WorkgroupAttribute |
| /// @param x the x dimension expression |
| /// @returns the workgroup attribute pointer |
| template <typename EXPR_X> |
| const ast::WorkgroupAttribute* WorkgroupSize(EXPR_X&& x) { |
| return WorkgroupSize(std::forward<EXPR_X>(x), nullptr, nullptr); |
| } |
| |
| /// Creates an ast::WorkgroupAttribute |
| /// @param source the source information |
| /// @param x the x dimension expression |
| /// @returns the workgroup attribute pointer |
| template <typename EXPR_X> |
| const ast::WorkgroupAttribute* WorkgroupSize(const Source& source, EXPR_X&& x) { |
| return WorkgroupSize(source, std::forward<EXPR_X>(x), nullptr, nullptr); |
| } |
| |
| /// Creates an ast::WorkgroupAttribute |
| /// @param source the source information |
| /// @param x the x dimension expression |
| /// @param y the y dimension expression |
| /// @returns the workgroup attribute pointer |
| template <typename EXPR_X, typename EXPR_Y> |
| const ast::WorkgroupAttribute* WorkgroupSize(const Source& source, EXPR_X&& x, EXPR_Y&& y) { |
| return WorkgroupSize(source, std::forward<EXPR_X>(x), std::forward<EXPR_Y>(y), nullptr); |
| } |
| |
| /// Creates an ast::WorkgroupAttribute |
| /// @param x the x dimension expression |
| /// @param y the y dimension expression |
| /// @returns the workgroup attribute pointer |
| template <typename EXPR_X, typename EXPR_Y, typename = DisableIfSource<EXPR_X>> |
| const ast::WorkgroupAttribute* WorkgroupSize(EXPR_X&& x, EXPR_Y&& y) { |
| return WorkgroupSize(std::forward<EXPR_X>(x), std::forward<EXPR_Y>(y), nullptr); |
| } |
| |
| /// Creates an ast::WorkgroupAttribute |
| /// @param source the source information |
| /// @param x the x dimension expression |
| /// @param y the y dimension expression |
| /// @param z the z dimension expression |
| /// @returns the workgroup attribute pointer |
| template <typename EXPR_X, typename EXPR_Y, typename EXPR_Z> |
| const ast::WorkgroupAttribute* WorkgroupSize(const Source& source, |
| EXPR_X&& x, |
| EXPR_Y&& y, |
| EXPR_Z&& z) { |
| return create<ast::WorkgroupAttribute>(source, Expr(std::forward<EXPR_X>(x)), |
| Expr(std::forward<EXPR_Y>(y)), |
| Expr(std::forward<EXPR_Z>(z))); |
| } |
| |
| /// Creates an ast::WorkgroupAttribute |
| /// @param x the x dimension expression |
| /// @param y the y dimension expression |
| /// @param z the z dimension expression |
| /// @returns the workgroup attribute pointer |
| template <typename EXPR_X, typename EXPR_Y, typename EXPR_Z, typename = DisableIfSource<EXPR_X>> |
| const ast::WorkgroupAttribute* WorkgroupSize(EXPR_X&& x, EXPR_Y&& y, EXPR_Z&& z) { |
| return create<ast::WorkgroupAttribute>(source_, Expr(std::forward<EXPR_X>(x)), |
| Expr(std::forward<EXPR_Y>(y)), |
| Expr(std::forward<EXPR_Z>(z))); |
| } |
| |
| /// Creates an ast::DisableValidationAttribute |
| /// @param validation the validation to disable |
| /// @returns the disable validation attribute pointer |
| const ast::DisableValidationAttribute* Disable(ast::DisabledValidation validation) { |
| return ASTNodes().Create<ast::DisableValidationAttribute>(ID(), AllocateNodeID(), |
| validation); |
| } |
| |
| /// Passthrough overload |
| /// @param name the diagnostic rule name |
| /// @returns @p name |
| const ast::DiagnosticRuleName* DiagnosticRuleName(const ast::DiagnosticRuleName* name) { |
| return name; |
| } |
| |
| /// Creates an ast::DiagnosticRuleName |
| /// @param name the diagnostic rule name |
| /// @returns the diagnostic rule name |
| template <typename NAME> |
| const ast::DiagnosticRuleName* DiagnosticRuleName(NAME&& name) { |
| static_assert(!traits::IsType<traits::PtrElTy<NAME>, ast::TemplatedIdentifier>, |
| "it is invalid for a diagnostic rule name to be templated"); |
| auto* name_ident = Ident(std::forward<NAME>(name)); |
| return create<ast::DiagnosticRuleName>(name_ident->source, name_ident); |
| } |
| |
| /// Creates an ast::DiagnosticRuleName |
| /// @param category the diagnostic rule category |
| /// @param name the diagnostic rule name |
| /// @returns the diagnostic rule name |
| template <typename CATEGORY, typename NAME, typename = DisableIfSource<CATEGORY>> |
| const ast::DiagnosticRuleName* DiagnosticRuleName(CATEGORY&& category, NAME&& name) { |
| static_assert(!traits::IsType<traits::PtrElTy<NAME>, ast::TemplatedIdentifier>, |
| "it is invalid for a diagnostic rule name to be templated"); |
| static_assert(!traits::IsType<traits::PtrElTy<CATEGORY>, ast::TemplatedIdentifier>, |
| "it is invalid for a diagnostic rule category to be templated"); |
| auto* category_ident = Ident(std::forward<CATEGORY>(category)); |
| auto* name_ident = Ident(std::forward<NAME>(name)); |
| Source source = category_ident->source; |
| source.range.end = name_ident->source.range.end; |
| return create<ast::DiagnosticRuleName>(source, category_ident, name_ident); |
| } |
| |
| /// Creates an ast::DiagnosticRuleName |
| /// @param source the source information |
| /// @param name the diagnostic rule name |
| /// @returns the diagnostic rule name |
| template <typename NAME> |
| const ast::DiagnosticRuleName* DiagnosticRuleName(const Source& source, NAME&& name) { |
| static_assert(!traits::IsType<traits::PtrElTy<NAME>, ast::TemplatedIdentifier>, |
| "it is invalid for a diagnostic rule name to be templated"); |
| auto* name_ident = Ident(std::forward<NAME>(name)); |
| return create<ast::DiagnosticRuleName>(source, name_ident); |
| } |
| |
| /// Creates an ast::DiagnosticRuleName |
| /// @param source the source information |
| /// @param category the diagnostic rule category |
| /// @param name the diagnostic rule name |
| /// @returns the diagnostic rule name |
| template <typename CATEGORY, typename NAME> |
| const ast::DiagnosticRuleName* DiagnosticRuleName(const Source& source, |
| CATEGORY&& category, |
| NAME&& name) { |
| static_assert(!traits::IsType<traits::PtrElTy<NAME>, ast::TemplatedIdentifier>, |
| "it is invalid for a diagnostic rule name to be templated"); |
| static_assert(!traits::IsType<traits::PtrElTy<CATEGORY>, ast::TemplatedIdentifier>, |
| "it is invalid for a diagnostic rule category to be templated"); |
| auto* category_ident = Ident(std::forward<CATEGORY>(category)); |
| auto* name_ident = Ident(std::forward<NAME>(name)); |
| return create<ast::DiagnosticRuleName>(source, category_ident, name_ident); |
| } |
| |
| /// Creates an ast::DiagnosticAttribute |
| /// @param source the source information |
| /// @param severity the diagnostic severity control |
| /// @param rule_args the arguments used to construct the rule name |
| /// @returns the diagnostic attribute pointer |
| template <typename... RULE_ARGS> |
| const ast::DiagnosticAttribute* DiagnosticAttribute(const Source& source, |
| wgsl::DiagnosticSeverity severity, |
| RULE_ARGS&&... rule_args) { |
| return create<ast::DiagnosticAttribute>( |
| source, ast::DiagnosticControl( |
| severity, DiagnosticRuleName(std::forward<RULE_ARGS>(rule_args)...))); |
| } |
| |
| /// Creates an ast::DiagnosticAttribute |
| /// @param severity the diagnostic severity control |
| /// @param rule_args the arguments used to construct the rule name |
| /// @returns the diagnostic attribute pointer |
| template <typename... RULE_ARGS> |
| const ast::DiagnosticAttribute* DiagnosticAttribute(wgsl::DiagnosticSeverity severity, |
| RULE_ARGS&&... rule_args) { |
| return create<ast::DiagnosticAttribute>( |
| source_, ast::DiagnosticControl( |
| severity, DiagnosticRuleName(std::forward<RULE_ARGS>(rule_args)...))); |
| } |
| |
| /// Add a diagnostic directive to the module. |
| /// @param source the source information |
| /// @param severity the diagnostic severity control |
| /// @param rule_args the arguments used to construct the rule name |
| /// @returns the diagnostic directive pointer |
| template <typename... RULE_ARGS> |
| const ast::DiagnosticDirective* DiagnosticDirective(const Source& source, |
| wgsl::DiagnosticSeverity severity, |
| RULE_ARGS&&... rule_args) { |
| auto* rule = DiagnosticRuleName(std::forward<RULE_ARGS>(rule_args)...); |
| auto* directive = |
| create<ast::DiagnosticDirective>(source, ast::DiagnosticControl(severity, rule)); |
| AST().AddDiagnosticDirective(directive); |
| return directive; |
| } |
| |
| /// Add a diagnostic directive to the module. |
| /// @param severity the diagnostic severity control |
| /// @param rule_args the arguments used to construct the rule name |
| /// @returns the diagnostic directive pointer |
| template <typename... RULE_ARGS> |
| const ast::DiagnosticDirective* DiagnosticDirective(wgsl::DiagnosticSeverity severity, |
| RULE_ARGS&&... rule_args) { |
| auto* rule = DiagnosticRuleName(std::forward<RULE_ARGS>(rule_args)...); |
| auto* directive = |
| create<ast::DiagnosticDirective>(source_, ast::DiagnosticControl(severity, rule)); |
| AST().AddDiagnosticDirective(directive); |
| return directive; |
| } |
| |
| /// Sets the current builder source to `src` |
| /// @param src the Source used for future create() calls |
| void SetSource(const Source& src) { |
| AssertNotMoved(); |
| source_ = src; |
| } |
| |
| /// Sets the current builder source to `loc` |
| /// @param loc the Source used for future create() calls |
| void SetSource(const Source::Location& loc) { |
| AssertNotMoved(); |
| source_ = Source(loc); |
| } |
| |
| /// Wraps the ast::Expression in a statement. This is used by tests that |
| /// construct a partial AST and require the Resolver to reach these |
| /// nodes. |
| /// @param expr the ast::Expression to be wrapped by an ast::Statement |
| /// @return the ast::Statement that wraps the ast::Expression |
| const ast::Statement* WrapInStatement(const ast::Expression* expr); |
| /// Wraps the ast::Variable in a ast::VariableDeclStatement. This is used by |
| /// tests that construct a partial AST and require the Resolver to reach |
| /// these nodes. |
| /// @param v the ast::Variable to be wrapped by an ast::VariableDeclStatement |
| /// @return the ast::VariableDeclStatement that wraps the ast::Variable |
| const ast::VariableDeclStatement* WrapInStatement(const ast::Variable* v); |
| /// Returns the statement argument. Used as a passthrough-overload by |
| /// WrapInFunction(). |
| /// @param stmt the ast::Statement |
| /// @return `stmt` |
| const ast::Statement* WrapInStatement(const ast::Statement* stmt); |
| /// Wraps the list of arguments in a simple function so that each is reachable |
| /// by the Resolver. |
| /// @param args a mix of ast::Expression, ast::Statement, ast::Variables. |
| /// @returns the function |
| template <typename... ARGS, |
| typename = traits::EnableIf<(CanWrapInStatement<ARGS>::value && ...)>> |
| const ast::Function* WrapInFunction(ARGS&&... args) { |
| Vector stmts{ |
| WrapInStatement(std::forward<ARGS>(args))..., |
| }; |
| return WrapInFunction(std::move(stmts)); |
| } |
| /// @param stmts a list of ast::Statement that will be wrapped by a function, |
| /// so that each statement is reachable by the Resolver. |
| /// @returns the function |
| const ast::Function* WrapInFunction(VectorRef<const ast::Statement*> stmts); |
| |
| /// The builder types |
| TypesBuilder const ty{this}; |
| |
| protected: |
| /// Asserts that the builder has not been moved. |
| void AssertNotMoved() const; |
| |
| /// The unique identifier for this program |
| GenerationID id_; |
| |
| /// The last Node identifier |
| ast::NodeID last_ast_node_id_ = ast::NodeID{static_cast<decltype(ast::NodeID::value)>(0) - 1}; |
| |
| /// Allocator for AST nodes |
| ASTNodeAllocator ast_nodes_; |
| |
| /// The AST node module |
| ast::Module* ast_ = nullptr; |
| |
| /// The symbol table |
| SymbolTable symbols_{id_}; |
| |
| /// The diagnostic list |
| diag::List diagnostics_; |
| |
| /// The source to use when creating AST nodes without providing a Source as |
| /// the first argument. |
| Source source_; |
| |
| /// Set by MarkAsMoved(). Once set, no methods may be called on this builder. |
| bool moved_ = false; |
| }; |
| |
| //! @cond Doxygen_Suppress |
| // Various template specializations for Builder::TypesBuilder::CToAST. |
| template <> |
| struct Builder::TypesBuilder::CToAST<core::AInt> { |
| static ast::Type get(const Builder::TypesBuilder*) { return ast::Type{}; } |
| }; |
| template <> |
| struct Builder::TypesBuilder::CToAST<core::AFloat> { |
| static ast::Type get(const Builder::TypesBuilder*) { return ast::Type{}; } |
| }; |
| template <> |
| struct Builder::TypesBuilder::CToAST<core::i32> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->i32(); } |
| }; |
| template <> |
| struct Builder::TypesBuilder::CToAST<core::u32> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->u32(); } |
| }; |
| template <> |
| struct Builder::TypesBuilder::CToAST<core::f32> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->f32(); } |
| }; |
| template <> |
| struct Builder::TypesBuilder::CToAST<core::f16> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->f16(); } |
| }; |
| template <> |
| struct Builder::TypesBuilder::CToAST<bool> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->bool_(); } |
| }; |
| template <typename T, uint32_t N> |
| struct Builder::TypesBuilder::CToAST<core::fluent_types::array<T, N>> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->array<T, N>(); } |
| }; |
| template <typename T> |
| struct Builder::TypesBuilder::CToAST<core::fluent_types::atomic<T>> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->atomic<T>(); } |
| }; |
| template <uint32_t C, uint32_t R, typename T> |
| struct Builder::TypesBuilder::CToAST<core::fluent_types::mat<C, R, T>> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->mat<T>(C, R); } |
| }; |
| template <uint32_t N, typename T> |
| struct Builder::TypesBuilder::CToAST<core::fluent_types::vec<N, T>> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->vec<T, N>(); } |
| }; |
| template <core::AddressSpace ADDRESS, typename T, core::Access ACCESS> |
| struct Builder::TypesBuilder::CToAST<core::fluent_types::ptr<ADDRESS, T, ACCESS>> { |
| static ast::Type get(const Builder::TypesBuilder* t) { return t->ptr<ADDRESS, T, ACCESS>(); } |
| }; |
| //! @endcond |
| |
| // Primary template for metafunction that evaluates to true iff T can be wrapped in a statement. |
| template <typename T, typename /* = void */> |
| struct CanWrapInStatement : std::false_type {}; |
| |
| // Specialization of CanWrapInStatement |
| template <typename T> |
| struct CanWrapInStatement< |
| T, |
| std::void_t<decltype(std::declval<Builder>().WrapInStatement(std::declval<T>()))>> |
| : std::true_type {}; |
| |
| } // namespace tint::ast |
| |
| namespace tint { |
| |
| /// @param builder the Builder |
| /// @returns the GenerationID of the ast::Builder |
| inline GenerationID GenerationIDOf(const ast::Builder* builder) { |
| return builder->ID(); |
| } |
| |
| } // namespace tint |
| |
| #endif // SRC_TINT_LANG_WGSL_AST_BUILDER_H_ |