tint/reader/wgsl: Lex abstract floats
And remove lexer errors about float magnitudes been too small. Also add tests for non-hex float literal overflow. Bug: tint:1504 Bug: tint:1564 Change-Id: Ia26817d4f2a99af694e9935692b98ef91f97d2b3 Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/91428 Reviewed-by: David Neto <dneto@google.com> Kokoro: Kokoro <noreply+kokoro@google.com> Commit-Queue: Ben Clayton <bclayton@chromium.org>
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@ -358,31 +358,22 @@ Token Lexer::try_float() {
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advance(end - start);
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end_source(source);
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double value = strtod(&at(start), nullptr);
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double value = std::strtod(&at(start), nullptr);
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if (has_f_suffix) {
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if (auto f = CheckedConvert<f32>(AFloat(value))) {
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return {Token::Type::kFloatLiteral_F, source, value};
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return {Token::Type::kFloatLiteral_F, source, static_cast<double>(f.Get())};
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} else if (f.Failure() == ConversionFailure::kTooSmall) {
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return {Token::Type::kFloatLiteral_F, source, 0.0};
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} else {
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if (f.Failure() == ConversionFailure::kTooSmall) {
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return {Token::Type::kError, source,
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"value magnitude too small to be represented as 'f32'"};
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}
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return {Token::Type::kError, source, "value cannot be represented as 'f32'"};
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}
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}
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// TODO(crbug.com/tint/1504): Properly support abstract float:
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// Change `AbstractFloatType` to `double`, update errors to say 'abstract int'.
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using AbstractFloatType = f32;
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if (auto f = CheckedConvert<AbstractFloatType>(AFloat(value))) {
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return {Token::Type::kFloatLiteral, source, value};
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if (value == HUGE_VAL || -value == HUGE_VAL) {
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return {Token::Type::kError, source, "value cannot be represented as 'abstract-float'"};
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} else {
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if (f.Failure() == ConversionFailure::kTooSmall) {
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return {Token::Type::kError, source,
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"value magnitude too small to be represented as 'f32'"};
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}
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return {Token::Type::kError, source, "value cannot be represented as 'f32'"};
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return {Token::Type::kFloatLiteral, source, value};
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}
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}
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@ -362,12 +362,12 @@ INSTANTIATE_TEST_SUITE_P(LexerTest,
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FloatData{"-5.", -5.},
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FloatData{"-.7", -.7},
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// Non-zero with decimal and 'f' suffix
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FloatData{"5.7f", 5.7},
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FloatData{"5.f", 5.},
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FloatData{".7f", .7},
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FloatData{"-5.7f", -5.7},
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FloatData{"-5.f", -5.},
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FloatData{"-.7f", -.7},
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FloatData{"5.7f", static_cast<double>(5.7f)},
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FloatData{"5.f", static_cast<double>(5.f)},
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FloatData{".7f", static_cast<double>(.7f)},
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FloatData{"-5.7f", static_cast<double>(-5.7f)},
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FloatData{"-5.f", static_cast<double>(-5.f)},
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FloatData{"-.7f", static_cast<double>(-.7f)},
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// No decimal, with exponent
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FloatData{"1e5", 1e5},
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@ -375,10 +375,10 @@ INSTANTIATE_TEST_SUITE_P(LexerTest,
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FloatData{"1e-5", 1e-5},
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FloatData{"1E-5", 1e-5},
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// No decimal, with exponent and 'f' suffix
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FloatData{"1e5f", 1e5},
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FloatData{"1E5f", 1e5},
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FloatData{"1e-5f", 1e-5},
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FloatData{"1E-5f", 1e-5},
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FloatData{"1e5f", static_cast<double>(1e5f)},
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FloatData{"1E5f", static_cast<double>(1e5f)},
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FloatData{"1e-5f", static_cast<double>(1e-5f)},
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FloatData{"1E-5f", static_cast<double>(1e-5f)},
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// With decimal and exponents
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FloatData{"0.2e+12", 0.2e12},
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FloatData{"1.2e-5", 1.2e-5},
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@ -386,11 +386,15 @@ INSTANTIATE_TEST_SUITE_P(LexerTest,
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FloatData{"2.5e+0", 2.5},
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FloatData{"2.5e-0", 2.5},
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// With decimal and exponents and 'f' suffix
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FloatData{"0.2e+12f", 0.2e12},
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FloatData{"1.2e-5f", 1.2e-5},
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FloatData{"2.57e23f", 2.57e23},
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FloatData{"2.5e+0f", 2.5},
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FloatData{"2.5e-0f", 2.5}));
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FloatData{"0.2e+12f", static_cast<double>(0.2e12f)},
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FloatData{"1.2e-5f", static_cast<double>(1.2e-5f)},
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FloatData{"2.57e23f", static_cast<double>(2.57e23f)},
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FloatData{"2.5e+0f", static_cast<double>(2.5f)},
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FloatData{"2.5e-0f", static_cast<double>(2.5f)},
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// Quantization
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FloatData{"3.141592653589793", 3.141592653589793}, // no quantization
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FloatData{"3.141592653589793f", 3.1415927410125732} // f32 quantized
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));
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using FloatTest_Invalid = testing::TestWithParam<const char*>;
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TEST_P(FloatTest_Invalid, Handles) {
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@ -415,11 +419,11 @@ INSTANTIATE_TEST_SUITE_P(LexerTest,
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".e+",
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".e-",
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// Overflow
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"2.5e+256",
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"-2.5e+127",
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"2.5e+256f",
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"-2.5e+127f",
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// Magnitude smaller than smallest positive f32.
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"2.5e-300",
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"-2.5e-300",
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"2.5e-300f",
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"-2.5e-300f",
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// Decimal exponent must immediately
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// follow the 'e'.
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"2.5e 12",
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@ -117,34 +117,6 @@ TEST_F(ParserImplTest, ConstLiteral_Uint_Negative) {
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ASSERT_EQ(c.value, nullptr);
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}
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TEST_F(ParserImplTest, ConstLiteral_Float) {
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auto p = parser("234.e12");
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auto c = p->const_literal();
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EXPECT_TRUE(c.matched);
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EXPECT_FALSE(c.errored);
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EXPECT_FALSE(p->has_error()) << p->error();
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ASSERT_NE(c.value, nullptr);
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ASSERT_TRUE(c->Is<ast::FloatLiteralExpression>());
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EXPECT_DOUBLE_EQ(c->As<ast::FloatLiteralExpression>()->value, 234e12);
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EXPECT_EQ(c->As<ast::FloatLiteralExpression>()->suffix,
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ast::FloatLiteralExpression::Suffix::kNone);
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EXPECT_EQ(c->source.range, (Source::Range{{1u, 1u}, {1u, 8u}}));
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}
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TEST_F(ParserImplTest, ConstLiteral_FloatF) {
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auto p = parser("234.e12f");
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auto c = p->const_literal();
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EXPECT_TRUE(c.matched);
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EXPECT_FALSE(c.errored);
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EXPECT_FALSE(p->has_error()) << p->error();
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ASSERT_NE(c.value, nullptr);
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ASSERT_TRUE(c->Is<ast::FloatLiteralExpression>());
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EXPECT_DOUBLE_EQ(c->As<ast::FloatLiteralExpression>()->value, 234e12);
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EXPECT_EQ(c->As<ast::FloatLiteralExpression>()->suffix,
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ast::FloatLiteralExpression::Suffix::kF);
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EXPECT_EQ(c->source.range, (Source::Range{{1u, 1u}, {1u, 9u}}));
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}
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TEST_F(ParserImplTest, ConstLiteral_InvalidFloat_IncompleteExponent) {
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auto p = parser("1.0e+");
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auto c = p->const_literal();
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@ -154,33 +126,6 @@ TEST_F(ParserImplTest, ConstLiteral_InvalidFloat_IncompleteExponent) {
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ASSERT_EQ(c.value, nullptr);
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}
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TEST_F(ParserImplTest, ConstLiteral_InvalidFloat_TooSmallMagnitude) {
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auto p = parser("1e-256");
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auto c = p->const_literal();
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EXPECT_FALSE(c.matched);
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EXPECT_TRUE(c.errored);
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EXPECT_EQ(p->error(), "1:1: value magnitude too small to be represented as 'f32'");
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ASSERT_EQ(c.value, nullptr);
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}
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TEST_F(ParserImplTest, ConstLiteral_InvalidFloat_TooLargeNegative) {
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auto p = parser("-1.2e+256");
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auto c = p->const_literal();
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EXPECT_FALSE(c.matched);
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EXPECT_TRUE(c.errored);
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EXPECT_EQ(p->error(), "1:1: value cannot be represented as 'f32'");
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ASSERT_EQ(c.value, nullptr);
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}
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TEST_F(ParserImplTest, ConstLiteral_InvalidFloat_TooLargePositive) {
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auto p = parser("1.2e+256");
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auto c = p->const_literal();
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EXPECT_FALSE(c.matched);
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EXPECT_TRUE(c.errored);
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EXPECT_EQ(p->error(), "1:1: value cannot be represented as 'f32'");
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ASSERT_EQ(c.value, nullptr);
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}
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struct FloatLiteralTestCase {
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std::string input;
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double expected;
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@ -217,11 +162,13 @@ TEST_P(ParserImplFloatLiteralTest, Parse) {
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EXPECT_EQ(c->As<ast::FloatLiteralExpression>()->suffix,
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ast::FloatLiteralExpression::Suffix::kNone);
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}
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EXPECT_EQ(c->source.range, (Source::Range{{1u, 1u}, {1u, 1u + params.input.size()}}));
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}
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using FloatLiteralTestCaseList = std::vector<FloatLiteralTestCase>;
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FloatLiteralTestCaseList DecimalFloatCases() {
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return FloatLiteralTestCaseList{
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INSTANTIATE_TEST_SUITE_P(ParserImplFloatLiteralTest_Float,
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ParserImplFloatLiteralTest,
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testing::ValuesIn(FloatLiteralTestCaseList{
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{"0.0", 0.0}, // Zero
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{"1.0", 1.0}, // One
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{"-1.0", -1.0}, // MinusOne
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{"-0.0", MakeDouble(1, 0, 0)}, // NegativeZero
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{"1.0", MakeDouble(0, 1023, 0)}, // One
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{"-1.0", MakeDouble(1, 1023, 0)}, // NegativeOne
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};
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}
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INSTANTIATE_TEST_SUITE_P(ParserImplFloatLiteralTest_Float,
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ParserImplFloatLiteralTest,
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testing::ValuesIn(DecimalFloatCases()));
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{"234.e12", 234.e12},
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{"234.e12f", static_cast<double>(234.e12f)},
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// Tiny cases
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{"1e-5000", 0.0},
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{"-1e-5000", 0.0},
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{"1e-5000f", 0.0},
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{"-1e-5000f", 0.0},
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{"1e-50f", 0.0},
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{"-1e-50f", 0.0},
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// Nearly overflow
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{"1.e308", 1.e308},
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{"-1.e308", -1.e308},
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{"1.8e307", 1.8e307},
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{"-1.8e307", -1.8e307},
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{"1.798e307", 1.798e307},
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{"-1.798e307", -1.798e307},
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{"1.7977e307", 1.7977e307},
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{"-1.7977e307", -1.7977e307},
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// Nearly overflow
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{"1e38f", static_cast<double>(1e38f)},
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{"-1e38f", static_cast<double>(-1e38f)},
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{"4.0e37f", static_cast<double>(4.0e37f)},
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{"-4.0e37f", static_cast<double>(-4.0e37f)},
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{"3.5e37f", static_cast<double>(3.5e37f)},
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{"-3.5e37f", static_cast<double>(-3.5e37f)},
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{"3.403e37f", static_cast<double>(3.403e37f)},
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{"-3.403e37f", static_cast<double>(-3.403e37f)},
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}));
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const double NegInf = MakeDouble(1, 0x7FF, 0);
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const double PosInf = MakeDouble(0, 0x7FF, 0);
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})));
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INSTANTIATE_TEST_SUITE_P(
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NaNAFloat,
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HexNaNAFloat,
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ParserImplInvalidLiteralTest,
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testing::Combine(testing::Values("1:1: value cannot be represented as 'abstract-float'"),
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testing::ValuesIn(std::vector<const char*>{
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@ -552,7 +525,7 @@ INSTANTIATE_TEST_SUITE_P(
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})));
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INSTANTIATE_TEST_SUITE_P(
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NaNF32,
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HexNaNF32,
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ParserImplInvalidLiteralTest,
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testing::Combine(testing::Values("1:1: value cannot be represented as 'f32'"),
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testing::ValuesIn(std::vector<const char*>{
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@ -569,7 +542,7 @@ INSTANTIATE_TEST_SUITE_P(
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})));
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INSTANTIATE_TEST_SUITE_P(
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OverflowAFloat,
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HexOverflowAFloat,
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ParserImplInvalidLiteralTest,
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testing::Combine(testing::Values("1:1: value cannot be represented as 'abstract-float'"),
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testing::ValuesIn(std::vector<const char*>{
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@ -588,7 +561,7 @@ INSTANTIATE_TEST_SUITE_P(
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})));
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INSTANTIATE_TEST_SUITE_P(
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OverflowF32,
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HexOverflowF32,
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ParserImplInvalidLiteralTest,
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testing::Combine(testing::Values("1:1: value cannot be represented as 'f32'"),
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testing::ValuesIn(std::vector<const char*>{
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@ -604,6 +577,40 @@ INSTANTIATE_TEST_SUITE_P(
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"-0x32p+500f",
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})));
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INSTANTIATE_TEST_SUITE_P(
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DecOverflowAFloat,
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ParserImplInvalidLiteralTest,
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testing::Combine(testing::Values("1:1: value cannot be represented as 'abstract-float'"),
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testing::ValuesIn(std::vector<const char*>{
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"1.e309",
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"-1.e309",
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"1.8e308",
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"-1.8e308",
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"1.798e308",
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"-1.798e308",
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"1.7977e308",
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"-1.7977e308",
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"1.2e+5000",
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"-1.2e+5000",
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})));
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INSTANTIATE_TEST_SUITE_P(
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DecOverflowF32,
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ParserImplInvalidLiteralTest,
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testing::Combine(testing::Values("1:1: value cannot be represented as 'f32'"),
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testing::ValuesIn(std::vector<const char*>{
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"1e39f",
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"-1e39f",
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"4.0e38f",
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"-4.0e38f",
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"3.5e38f",
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"-3.5e38f",
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"3.403e38f",
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"-3.403e38f",
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"1.2e+256f",
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"-1.2e+256f",
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})));
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TEST_F(ParserImplTest, ConstLiteral_FloatHighest) {
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const auto highest = std::numeric_limits<float>::max();
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const auto expected_highest = 340282346638528859811704183484516925440.0f;
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