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// Copyright 2023 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,
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "src/tint/lang/glsl/writer/raise/binary_polyfill.h"
#include "gtest/gtest.h"
#include "src/tint/lang/core/fluent_types.h"
#include "src/tint/lang/core/ir/transform/helper_test.h"
#include "src/tint/lang/core/number.h"
using namespace tint::core::fluent_types; // NOLINT
using namespace tint::core::number_suffixes; // NOLINT
namespace tint::glsl::writer::raise {
namespace {
using GlslWriter_BinaryPolyfillTest = core::ir::transform::TransformTest;
TEST_F(GlslWriter_BinaryPolyfillTest, BitwiseBoolAnd) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
b.Let("x", b.And(ty.bool_(), true, false));
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%2:bool = and true, false
%x:bool = let %2
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%2:u32 = convert true
%3:u32 = convert false
%4:u32 = and %2, %3
%5:bool = convert %4
%x:bool = let %5
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, BitwiseBoolAnd_Vec) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* lhs = b.Splat(ty.vec2<bool>(), true);
auto* rhs = b.Splat(ty.vec2<bool>(), false);
b.Let("x", b.And(ty.vec2<bool>(), lhs, rhs));
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%2:vec2<bool> = and vec2<bool>(true), vec2<bool>(false)
%x:vec2<bool> = let %2
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%2:vec2<u32> = convert vec2<bool>(true)
%3:vec2<u32> = convert vec2<bool>(false)
%4:vec2<u32> = and %2, %3
%5:vec2<bool> = convert %4
%x:vec2<bool> = let %5
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, BitwiseBoolOr) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
b.Let("x", b.Or(ty.bool_(), true, false));
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%2:bool = or true, false
%x:bool = let %2
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%2:u32 = convert true
%3:u32 = convert false
%4:u32 = or %2, %3
%5:bool = convert %4
%x:bool = let %5
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, BitwiseBoolOr_Vec) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* lhs = b.Splat(ty.vec2<bool>(), true);
auto* rhs = b.Splat(ty.vec2<bool>(), false);
b.Let("x", b.Or(ty.vec2<bool>(), lhs, rhs));
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%2:vec2<bool> = or vec2<bool>(true), vec2<bool>(false)
%x:vec2<bool> = let %2
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%2:vec2<u32> = convert vec2<bool>(true)
%3:vec2<u32> = convert vec2<bool>(false)
%4:vec2<u32> = or %2, %3
%5:vec2<bool> = convert %4
%x:vec2<bool> = let %5
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalEqualF16) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<f16>(), 1_h));
auto* r = b.Let("right", b.Splat(ty.vec2<f16>(), 2_h));
auto* bin = b.Equal(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f16> = let vec2<f16>(1.0h)
%right:vec2<f16> = let vec2<f16>(2.0h)
%4:vec2<bool> = eq %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f16> = let vec2<f16>(1.0h)
%right:vec2<f16> = let vec2<f16>(2.0h)
%4:vec2<bool> = glsl.equal %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalEqualBool) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<bool>(), true));
auto* r = b.Let("right", b.Splat(ty.vec2<bool>(), false));
auto* bin = b.Equal(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<bool> = let vec2<bool>(true)
%right:vec2<bool> = let vec2<bool>(false)
%4:vec2<bool> = eq %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<bool> = let vec2<bool>(true)
%right:vec2<bool> = let vec2<bool>(false)
%4:vec2<bool> = glsl.equal %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalNotEqualI32) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<i32>(), 1_i));
auto* r = b.Let("right", b.Splat(ty.vec2<i32>(), 2_i));
auto* bin = b.NotEqual(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<i32> = let vec2<i32>(1i)
%right:vec2<i32> = let vec2<i32>(2i)
%4:vec2<bool> = neq %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<i32> = let vec2<i32>(1i)
%right:vec2<i32> = let vec2<i32>(2i)
%4:vec2<bool> = glsl.notEqual %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalLessThanF32) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<f32>(), 1_f));
auto* r = b.Let("right", b.Splat(ty.vec2<f32>(), 2_f));
auto* bin = b.LessThan(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f32> = let vec2<f32>(1.0f)
%right:vec2<f32> = let vec2<f32>(2.0f)
%4:vec2<bool> = lt %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f32> = let vec2<f32>(1.0f)
%right:vec2<f32> = let vec2<f32>(2.0f)
%4:vec2<bool> = glsl.lessThan %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalLessThanEqualU32) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<u32>(), 1_u));
auto* r = b.Let("right", b.Splat(ty.vec2<u32>(), 2_u));
auto* bin = b.LessThanEqual(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<u32> = let vec2<u32>(1u)
%right:vec2<u32> = let vec2<u32>(2u)
%4:vec2<bool> = lte %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<u32> = let vec2<u32>(1u)
%right:vec2<u32> = let vec2<u32>(2u)
%4:vec2<bool> = glsl.lessThanEqual %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalGreaterThanF32) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<f32>(), 1_f));
auto* r = b.Let("right", b.Splat(ty.vec2<f32>(), 2_f));
auto* bin = b.GreaterThan(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f32> = let vec2<f32>(1.0f)
%right:vec2<f32> = let vec2<f32>(2.0f)
%4:vec2<bool> = gt %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f32> = let vec2<f32>(1.0f)
%right:vec2<f32> = let vec2<f32>(2.0f)
%4:vec2<bool> = glsl.greaterThan %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
TEST_F(GlslWriter_BinaryPolyfillTest, RelationalGreaterThanEqualF32) {
auto* func = b.Function("foo", ty.void_(), core::ir::Function::PipelineStage::kFragment);
b.Append(func->Block(), [&] {
auto* l = b.Let("left", b.Splat(ty.vec2<f32>(), 1_f));
auto* r = b.Let("right", b.Splat(ty.vec2<f32>(), 2_f));
auto* bin = b.GreaterThanEqual(ty.vec2<bool>(), l, r);
b.Let("val", bin);
b.Return(func);
});
auto* src = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f32> = let vec2<f32>(1.0f)
%right:vec2<f32> = let vec2<f32>(2.0f)
%4:vec2<bool> = gte %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
EXPECT_EQ(src, str());
auto* expect = R"(
%foo = @fragment func():void {
$B1: {
%left:vec2<f32> = let vec2<f32>(1.0f)
%right:vec2<f32> = let vec2<f32>(2.0f)
%4:vec2<bool> = glsl.greaterThanEqual %left, %right
%val:vec2<bool> = let %4
ret
}
}
)";
Run(BinaryPolyfill);
EXPECT_EQ(expect, str());
}
} // namespace
} // namespace tint::glsl::writer::raise