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// Copyright 2023 The Tint Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "src/tint/resolver/builtin_structs.h"
#include <algorithm>
#include <string>
#include <utility>
#include "src/tint/switch.h"
#include "src/tint/symbol_table.h"
#include "src/tint/type/abstract_float.h"
#include "src/tint/type/abstract_int.h"
#include "src/tint/type/bool.h"
#include "src/tint/type/f16.h"
#include "src/tint/type/f32.h"
#include "src/tint/type/i32.h"
#include "src/tint/type/manager.h"
#include "src/tint/type/u32.h"
#include "src/tint/type/vector.h"
#include "src/tint/utils/string.h"
namespace tint::resolver {
constexpr std::array kModfVecF32Names{
builtin::Builtin::kModfResultVec2F32,
builtin::Builtin::kModfResultVec3F32,
builtin::Builtin::kModfResultVec4F32,
};
constexpr std::array kModfVecF16Names{
builtin::Builtin::kModfResultVec2F16,
builtin::Builtin::kModfResultVec3F16,
builtin::Builtin::kModfResultVec4F16,
};
constexpr std::array kModfVecAbstractNames{
builtin::Builtin::kModfResultVec2Abstract,
builtin::Builtin::kModfResultVec3Abstract,
builtin::Builtin::kModfResultVec4Abstract,
};
type::Struct* CreateModfResult(type::Manager& types, SymbolTable& symbols, const type::Type* ty) {
auto build = [&](builtin::Builtin name, const type::Type* t) {
return types.Struct(symbols.Register(utils::ToString(name)),
{{symbols.Register("fract"), t}, {symbols.Register("whole"), t}});
};
return Switch(
ty, //
[&](const type::F32*) { return build(builtin::Builtin::kModfResultF32, ty); },
[&](const type::F16*) { return build(builtin::Builtin::kModfResultF16, ty); },
[&](const type::AbstractFloat*) {
auto* abstract = build(builtin::Builtin::kModfResultAbstract, ty);
abstract->SetConcreteTypes(utils::Vector{
build(builtin::Builtin::kModfResultF32, types.f32()),
build(builtin::Builtin::kModfResultF16, types.f16()),
});
return abstract;
},
[&](const type::Vector* vec) {
auto width = vec->Width();
return Switch(
vec->type(), //
[&](const type::F32*) { return build(kModfVecF32Names[width - 2], vec); },
[&](const type::F16*) { return build(kModfVecF16Names[width - 2], vec); },
[&](const type::AbstractFloat*) {
auto* abstract = build(kModfVecAbstractNames[width - 2], vec);
abstract->SetConcreteTypes(utils::Vector{
build(kModfVecF32Names[width - 2], types.vec(types.f32(), width)),
build(kModfVecF16Names[width - 2], types.vec(types.f16(), width)),
});
return abstract;
},
[&](Default) {
TINT_ASSERT(Resolver, false && "unhandled modf type");
return nullptr;
});
},
[&](Default) {
TINT_ASSERT(Resolver, false && "unhandled modf type");
return nullptr;
});
}
constexpr std::array kFrexpVecF32Names{
builtin::Builtin::kFrexpResultVec2F32,
builtin::Builtin::kFrexpResultVec3F32,
builtin::Builtin::kFrexpResultVec4F32,
};
constexpr std::array kFrexpVecF16Names{
builtin::Builtin::kFrexpResultVec2F16,
builtin::Builtin::kFrexpResultVec3F16,
builtin::Builtin::kFrexpResultVec4F16,
};
constexpr std::array kFrexpVecAbstractNames{
builtin::Builtin::kFrexpResultVec2Abstract,
builtin::Builtin::kFrexpResultVec3Abstract,
builtin::Builtin::kFrexpResultVec4Abstract,
};
type::Struct* CreateFrexpResult(type::Manager& types, SymbolTable& symbols, const type::Type* ty) {
auto build = [&](builtin::Builtin name, const type::Type* fract_ty, const type::Type* exp_ty) {
return types.Struct(
symbols.Register(utils::ToString(name)),
{{symbols.Register("fract"), fract_ty}, {symbols.Register("exp"), exp_ty}});
};
return Switch(
ty, //
[&](const type::F32*) { return build(builtin::Builtin::kFrexpResultF32, ty, types.i32()); },
[&](const type::F16*) { return build(builtin::Builtin::kFrexpResultF16, ty, types.i32()); },
[&](const type::AbstractFloat*) {
auto* abstract = build(builtin::Builtin::kFrexpResultAbstract, ty, types.AInt());
abstract->SetConcreteTypes(utils::Vector{
build(builtin::Builtin::kFrexpResultF32, types.f32(), types.i32()),
build(builtin::Builtin::kFrexpResultF16, types.f16(), types.i32()),
});
return abstract;
},
[&](const type::Vector* vec) {
auto width = vec->Width();
return Switch(
vec->type(), //
[&](const type::F32*) {
return build(kFrexpVecF32Names[width - 2], ty, types.vec(types.i32(), width));
},
[&](const type::F16*) {
return build(kFrexpVecF16Names[width - 2], ty, types.vec(types.i32(), width));
},
[&](const type::AbstractFloat*) {
auto* vec_f32 = types.vec(types.f32(), width);
auto* vec_f16 = types.vec(types.f16(), width);
auto* vec_i32 = types.vec(types.i32(), width);
auto* vec_ai = types.vec(types.AInt(), width);
auto* abstract = build(kFrexpVecAbstractNames[width - 2], ty, vec_ai);
abstract->SetConcreteTypes(utils::Vector{
build(kFrexpVecF32Names[width - 2], vec_f32, vec_i32),
build(kFrexpVecF16Names[width - 2], vec_f16, vec_i32),
});
return abstract;
},
[&](Default) {
TINT_ASSERT(Resolver, false && "unhandled frexp type");
return nullptr;
});
},
[&](Default) {
TINT_ASSERT(Resolver, false && "unhandled frexp type");
return nullptr;
});
}
type::Struct* CreateAtomicCompareExchangeResult(type::Manager& types,
SymbolTable& symbols,
const type::Type* ty) {
auto build = [&](builtin::Builtin name) {
return types.Struct(symbols.Register(utils::ToString(name)),
{
{symbols.Register("old_value"), ty},
{symbols.Register("exchanged"), types.bool_()},
});
};
return Switch(
ty, //
[&](const type::I32*) { return build(builtin::Builtin::kAtomicCompareExchangeResultI32); },
[&](const type::U32*) { return build(builtin::Builtin::kAtomicCompareExchangeResultU32); },
[&](Default) {
TINT_ASSERT(Resolver, false && "unhandled atomic_compare_exchange type");
return nullptr;
});
}
} // namespace tint::resolver