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// Copyright 2020 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 <cstring>
#include "src/tint/lang/core/fluent_types.h"
#include "src/tint/lang/wgsl/writer/ast_printer/helper_test.h"
#include "src/tint/utils/text/string_stream.h"
#include "gmock/gmock.h"
using namespace tint::core::number_suffixes; // NOLINT
using namespace tint::core::fluent_types; // NOLINT
namespace tint::wgsl::writer {
namespace {
// Makes an IEEE 754 binary32 floating point number with
// - 0 sign if sign is 0, 1 otherwise
// - 'exponent_bits' is placed in the exponent space.
// So, the exponent bias must already be included.
f32 MakeF32(uint32_t sign, uint32_t biased_exponent, uint32_t mantissa) {
const uint32_t sign_bit = sign ? 0x80000000u : 0u;
// The binary32 exponent is 8 bits, just below the sign.
const uint32_t exponent_bits = (biased_exponent & 0xffu) << 23;
// The mantissa is the bottom 23 bits.
const uint32_t mantissa_bits = (mantissa & 0x7fffffu);
uint32_t bits = sign_bit | exponent_bits | mantissa_bits;
float result = 0.0f;
static_assert(sizeof(result) == sizeof(bits),
"expected float and uint32_t to be the same size");
std::memcpy(&result, &bits, sizeof(bits));
return f32(result);
}
// Get the representation of an IEEE 754 binary16 floating point number with
// - 0 sign if sign is 0, 1 otherwise
// - 'exponent_bits' is placed in the exponent space.
// - the exponent bias (15) already be included.
f16 MakeF16(uint32_t sign, uint32_t f16_biased_exponent, uint16_t f16_mantissa) {
assert((f16_biased_exponent & 0xffffffe0u) == 0);
assert((f16_mantissa & 0xfc00u) == 0);
const uint32_t sign_bit = sign ? 0x80000000u : 0u;
// F16 has a exponent bias of 15, and f32 bias 127. Adding 127-15=112 to the f16-biased exponent
// to get f32-biased exponent.
uint32_t f32_biased_exponent = (f16_biased_exponent & 0x1fu) + 112;
assert((f32_biased_exponent & 0xffffff00u) == 0);
if (f16_biased_exponent == 0) {
// +/- zero, or subnormal
if (f16_mantissa == 0) {
// +/- zero
return sign ? f16(-0.0f) : f16(0.0f);
}
// Subnormal f16, calc the corresponding exponent and mantissa of normal f32.
f32_biased_exponent += 1;
// There must be at least one of the 10 mantissa bits being 1, left-shift the mantissa bits
// until the most significant 1 bit is left-shifted to 10th bit (count from zero), which
// will be omitted in the resulting f32 mantissa part.
assert(f16_mantissa & 0x03ffu);
while ((f16_mantissa & 0x0400u) == 0) {
f16_mantissa = static_cast<uint16_t>(f16_mantissa << 1);
f32_biased_exponent--;
}
}
// The binary32 exponent is 8 bits, just below the sign.
const uint32_t f32_exponent_bits = (f32_biased_exponent & 0xffu) << 23;
// The mantissa is the bottom 23 bits.
const uint32_t f32_mantissa_bits = (f16_mantissa & 0x03ffu) << 13;
uint32_t bits = sign_bit | f32_exponent_bits | f32_mantissa_bits;
float result = 0.0f;
static_assert(sizeof(result) == sizeof(bits),
"expected float and uint32_t to be the same size");
std::memcpy(&result, &bits, sizeof(bits));
return f16(result);
}
struct F32Data {
f32 value;
std::string expected;
};
struct F16Data {
f16 value;
std::string expected;
};
inline std::ostream& operator<<(std::ostream& out, F32Data data) {
out << "{" << data.value << "," << data.expected << "}";
return out;
}
inline std::ostream& operator<<(std::ostream& out, F16Data data) {
out << "{" << data.value << "," << data.expected << "}";
return out;
}
using WgslGenerator_F32LiteralTest = TestParamHelper<F32Data>;
TEST_P(WgslGenerator_F32LiteralTest, Emit) {
auto* v = Expr(GetParam().value);
ASTPrinter& gen = Build(/* resolve */ false);
StringStream out;
gen.EmitLiteral(out, v);
EXPECT_THAT(gen.Diagnostics(), testing::IsEmpty());
EXPECT_EQ(out.str(), GetParam().expected);
}
INSTANTIATE_TEST_SUITE_P(Zero,
WgslGenerator_F32LiteralTest,
::testing::ValuesIn(std::vector<F32Data>{{0_f, "0.0f"},
{MakeF32(0, 0, 0), "0.0f"},
{MakeF32(1, 0, 0), "-0.0f"}}));
INSTANTIATE_TEST_SUITE_P(Normal,
WgslGenerator_F32LiteralTest,
::testing::ValuesIn(std::vector<F32Data>{{1_f, "1.0f"},
{-1_f, "-1.0f"},
{101.375_f, "101.375f"}}));
INSTANTIATE_TEST_SUITE_P(Subnormal,
WgslGenerator_F32LiteralTest,
::testing::ValuesIn(std::vector<F32Data>{
{MakeF32(0, 0, 1), "0x1p-149f"}, // Smallest
{MakeF32(1, 0, 1), "-0x1p-149f"},
{MakeF32(0, 0, 2), "0x1p-148f"},
{MakeF32(1, 0, 2), "-0x1p-148f"},
{MakeF32(0, 0, 0x7fffff), "0x1.fffffcp-127f"}, // Largest
{MakeF32(1, 0, 0x7fffff), "-0x1.fffffcp-127f"}, // Largest
{MakeF32(0, 0, 0xcafebe), "0x1.2bfaf8p-127f"}, // Scattered bits
{MakeF32(1, 0, 0xcafebe), "-0x1.2bfaf8p-127f"}, // Scattered bits
{MakeF32(0, 0, 0xaaaaa), "0x1.55554p-130f"}, // Scattered bits
{MakeF32(1, 0, 0xaaaaa), "-0x1.55554p-130f"}, // Scattered bits
}));
INSTANTIATE_TEST_SUITE_P(Infinity,
WgslGenerator_F32LiteralTest,
::testing::ValuesIn(std::vector<F32Data>{
{MakeF32(0, 255, 0), "0x1p+128f"},
{MakeF32(1, 255, 0), "-0x1p+128f"}}));
using WgslGenerator_F16LiteralTest = TestParamHelper<F16Data>;
TEST_P(WgslGenerator_F16LiteralTest, Emit) {
Enable(wgsl::Extension::kF16);
auto* v = Expr(GetParam().value);
ASTPrinter& gen = Build(/* resolve */ false);
StringStream out;
gen.EmitLiteral(out, v);
EXPECT_THAT(gen.Diagnostics(), testing::IsEmpty());
EXPECT_EQ(out.str(), GetParam().expected);
}
INSTANTIATE_TEST_SUITE_P(Zero,
WgslGenerator_F16LiteralTest,
::testing::ValuesIn(std::vector<F16Data>{{0_h, "0.0h"},
{MakeF16(0, 0, 0), "0.0h"},
{MakeF16(1, 0, 0), "-0.0h"}}));
INSTANTIATE_TEST_SUITE_P(Normal,
WgslGenerator_F16LiteralTest,
::testing::ValuesIn(std::vector<F16Data>{{1_h, "1.0h"},
{-1_h, "-1.0h"},
{101.375_h, "101.375h"}}));
INSTANTIATE_TEST_SUITE_P(Subnormal,
WgslGenerator_F16LiteralTest,
::testing::ValuesIn(std::vector<F16Data>{
{MakeF16(0, 0, 1), "0.00000005960464477539h"}, // Smallest
{MakeF16(1, 0, 1), "-0.00000005960464477539h"},
{MakeF16(0, 0, 2), "0.00000011920928955078h"},
{MakeF16(1, 0, 2), "-0.00000011920928955078h"},
{MakeF16(0, 0, 0x3ffu), "0.00006097555160522461h"}, // Largest
{MakeF16(1, 0, 0x3ffu), "-0.00006097555160522461h"}, // Largest
{MakeF16(0, 0, 0x3afu), "0.00005620718002319336h"}, // Scattered bits
{MakeF16(1, 0, 0x3afu), "-0.00005620718002319336h"}, // Scattered bits
{MakeF16(0, 0, 0x2c7u), "0.00004237890243530273h"}, // Scattered bits
{MakeF16(1, 0, 0x2c7u), "-0.00004237890243530273h"}, // Scattered bits
}));
} // namespace
} // namespace tint::wgsl::writer