// // Copyright 2019 The Abseil 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 // // https://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 "absl/flags/marshalling.h" #include #include "gtest/gtest.h" namespace { TEST(MarshallingTest, TestBoolParsing) { std::string err; bool value; // True values. EXPECT_TRUE(absl::ParseFlag("True", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("true", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("TRUE", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("Yes", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("yes", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("YES", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("t", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("T", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("y", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("Y", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_TRUE(value); // False values. EXPECT_TRUE(absl::ParseFlag("False", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("false", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("FALSE", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("No", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("no", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("NO", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("f", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("F", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("n", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("N", &value, &err)); EXPECT_FALSE(value); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_FALSE(value); // Whitespace handling. EXPECT_TRUE(absl::ParseFlag(" true", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag("true ", &value, &err)); EXPECT_TRUE(value); EXPECT_TRUE(absl::ParseFlag(" true ", &value, &err)); EXPECT_TRUE(value); // Invalid input. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2", &value, &err)); EXPECT_FALSE(absl::ParseFlag("11", &value, &err)); EXPECT_FALSE(absl::ParseFlag("tt", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestInt16Parsing) { std::string err; int16_t value; // Decimal values. EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("-1", &value, &err)); EXPECT_EQ(value, -1); EXPECT_TRUE(absl::ParseFlag("123", &value, &err)); EXPECT_EQ(value, 123); EXPECT_TRUE(absl::ParseFlag("-18765", &value, &err)); EXPECT_EQ(value, -18765); EXPECT_TRUE(absl::ParseFlag("+3", &value, &err)); EXPECT_EQ(value, 3); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("-001", &value, &err)); EXPECT_EQ(value, -1); EXPECT_TRUE(absl::ParseFlag("0000100", &value, &err)); EXPECT_EQ(value, 100); // Hex values. EXPECT_TRUE(absl::ParseFlag("0x10", &value, &err)); EXPECT_EQ(value, 16); EXPECT_TRUE(absl::ParseFlag("0X234", &value, &err)); EXPECT_EQ(value, 564); // TODO(rogeeff): fix below validations EXPECT_FALSE(absl::ParseFlag("-0x7FFD", &value, &err)); EXPECT_NE(value, -3); EXPECT_FALSE(absl::ParseFlag("+0x31", &value, &err)); EXPECT_NE(value, 49); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10 ", &value, &err)); EXPECT_EQ(value, 10); EXPECT_TRUE(absl::ParseFlag(" 11", &value, &err)); EXPECT_EQ(value, 11); EXPECT_TRUE(absl::ParseFlag(" 012 ", &value, &err)); EXPECT_EQ(value, 12); EXPECT_TRUE(absl::ParseFlag(" 0x22 ", &value, &err)); EXPECT_EQ(value, 34); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("40000", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2U", &value, &err)); EXPECT_FALSE(absl::ParseFlag("FFF", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestUint16Parsing) { std::string err; uint16_t value; // Decimal values. EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("123", &value, &err)); EXPECT_EQ(value, 123); EXPECT_TRUE(absl::ParseFlag("+3", &value, &err)); EXPECT_EQ(value, 3); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("001", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0000100", &value, &err)); EXPECT_EQ(value, 100); // Hex values. EXPECT_TRUE(absl::ParseFlag("0x10", &value, &err)); EXPECT_EQ(value, 16); EXPECT_TRUE(absl::ParseFlag("0X234", &value, &err)); EXPECT_EQ(value, 564); // TODO(rogeeff): fix below validations EXPECT_FALSE(absl::ParseFlag("+0x31", &value, &err)); EXPECT_NE(value, 49); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10 ", &value, &err)); EXPECT_EQ(value, 10); EXPECT_TRUE(absl::ParseFlag(" 11", &value, &err)); EXPECT_EQ(value, 11); EXPECT_TRUE(absl::ParseFlag(" 012 ", &value, &err)); EXPECT_EQ(value, 12); EXPECT_TRUE(absl::ParseFlag(" 0x22 ", &value, &err)); EXPECT_EQ(value, 34); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("70000", &value, &err)); EXPECT_FALSE(absl::ParseFlag("-1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2U", &value, &err)); EXPECT_FALSE(absl::ParseFlag("FFF", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestInt32Parsing) { std::string err; int32_t value; // Decimal values. EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("-1", &value, &err)); EXPECT_EQ(value, -1); EXPECT_TRUE(absl::ParseFlag("123", &value, &err)); EXPECT_EQ(value, 123); EXPECT_TRUE(absl::ParseFlag("-98765", &value, &err)); EXPECT_EQ(value, -98765); EXPECT_TRUE(absl::ParseFlag("+3", &value, &err)); EXPECT_EQ(value, 3); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("-001", &value, &err)); EXPECT_EQ(value, -1); EXPECT_TRUE(absl::ParseFlag("0000100", &value, &err)); EXPECT_EQ(value, 100); // Hex values. EXPECT_TRUE(absl::ParseFlag("0x10", &value, &err)); EXPECT_EQ(value, 16); EXPECT_TRUE(absl::ParseFlag("0X234", &value, &err)); EXPECT_EQ(value, 564); // TODO(rogeeff): fix below validations EXPECT_FALSE(absl::ParseFlag("-0x7FFFFFFD", &value, &err)); EXPECT_NE(value, -3); EXPECT_FALSE(absl::ParseFlag("+0x31", &value, &err)); EXPECT_NE(value, 49); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10 ", &value, &err)); EXPECT_EQ(value, 10); EXPECT_TRUE(absl::ParseFlag(" 11", &value, &err)); EXPECT_EQ(value, 11); EXPECT_TRUE(absl::ParseFlag(" 012 ", &value, &err)); EXPECT_EQ(value, 12); EXPECT_TRUE(absl::ParseFlag(" 0x22 ", &value, &err)); EXPECT_EQ(value, 34); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("70000000000", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2U", &value, &err)); EXPECT_FALSE(absl::ParseFlag("FFF", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestUint32Parsing) { std::string err; uint32_t value; // Decimal values. EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("123", &value, &err)); EXPECT_EQ(value, 123); EXPECT_TRUE(absl::ParseFlag("+3", &value, &err)); EXPECT_EQ(value, 3); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0000100", &value, &err)); EXPECT_EQ(value, 100); // Hex values. EXPECT_TRUE(absl::ParseFlag("0x10", &value, &err)); EXPECT_EQ(value, 16); EXPECT_TRUE(absl::ParseFlag("0X234", &value, &err)); EXPECT_EQ(value, 564); EXPECT_TRUE(absl::ParseFlag("0xFFFFFFFD", &value, &err)); EXPECT_EQ(value, 4294967293); // TODO(rogeeff): fix below validations EXPECT_FALSE(absl::ParseFlag("+0x31", &value, &err)); EXPECT_NE(value, 49); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10 ", &value, &err)); EXPECT_EQ(value, 10); EXPECT_TRUE(absl::ParseFlag(" 11", &value, &err)); EXPECT_EQ(value, 11); EXPECT_TRUE(absl::ParseFlag(" 012 ", &value, &err)); EXPECT_EQ(value, 12); EXPECT_TRUE(absl::ParseFlag(" 0x22 ", &value, &err)); EXPECT_EQ(value, 34); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("140000000000", &value, &err)); EXPECT_FALSE(absl::ParseFlag("-1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2U", &value, &err)); EXPECT_FALSE(absl::ParseFlag("FFF", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestInt64Parsing) { std::string err; int64_t value; // Decimal values. EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("-1", &value, &err)); EXPECT_EQ(value, -1); EXPECT_TRUE(absl::ParseFlag("123", &value, &err)); EXPECT_EQ(value, 123); EXPECT_TRUE(absl::ParseFlag("-98765", &value, &err)); EXPECT_EQ(value, -98765); EXPECT_TRUE(absl::ParseFlag("+3", &value, &err)); EXPECT_EQ(value, 3); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("001", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0000100", &value, &err)); EXPECT_EQ(value, 100); // Hex values. EXPECT_TRUE(absl::ParseFlag("0x10", &value, &err)); EXPECT_EQ(value, 16); EXPECT_TRUE(absl::ParseFlag("0XFFFAAABBBCCCDDD", &value, &err)); EXPECT_EQ(value, 1152827684197027293); // TODO(rogeeff): fix below validation EXPECT_FALSE(absl::ParseFlag("-0x7FFFFFFFFFFFFFFE", &value, &err)); EXPECT_NE(value, -2); EXPECT_FALSE(absl::ParseFlag("+0x31", &value, &err)); EXPECT_NE(value, 49); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10 ", &value, &err)); EXPECT_EQ(value, 10); EXPECT_TRUE(absl::ParseFlag(" 11", &value, &err)); EXPECT_EQ(value, 11); EXPECT_TRUE(absl::ParseFlag(" 012 ", &value, &err)); EXPECT_EQ(value, 12); EXPECT_TRUE(absl::ParseFlag(" 0x7F ", &value, &err)); EXPECT_EQ(value, 127); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("0xFFFFFFFFFFFFFFFFFF", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2U", &value, &err)); EXPECT_FALSE(absl::ParseFlag("FFF", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestUInt64Parsing) { std::string err; uint64_t value; // Decimal values. EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0", &value, &err)); EXPECT_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("123", &value, &err)); EXPECT_EQ(value, 123); EXPECT_TRUE(absl::ParseFlag("+13", &value, &err)); EXPECT_EQ(value, 13); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("001", &value, &err)); EXPECT_EQ(value, 1); EXPECT_TRUE(absl::ParseFlag("0000300", &value, &err)); EXPECT_EQ(value, 300); // Hex values. EXPECT_TRUE(absl::ParseFlag("0x10", &value, &err)); EXPECT_EQ(value, 16); EXPECT_TRUE(absl::ParseFlag("0XFFFF", &value, &err)); EXPECT_EQ(value, 65535); // TODO(rogeeff): fix below validation EXPECT_FALSE(absl::ParseFlag("+0x31", &value, &err)); EXPECT_NE(value, 49); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10 ", &value, &err)); EXPECT_EQ(value, 10); EXPECT_TRUE(absl::ParseFlag(" 11", &value, &err)); EXPECT_EQ(value, 11); EXPECT_TRUE(absl::ParseFlag(" 012 ", &value, &err)); EXPECT_EQ(value, 12); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("0xFFFFFFFFFFFFFFFFFF", &value, &err)); EXPECT_FALSE(absl::ParseFlag("-1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2U", &value, &err)); EXPECT_FALSE(absl::ParseFlag("FFF", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestFloatParsing) { std::string err; float value; // Ordinary values. EXPECT_TRUE(absl::ParseFlag("1.3", &value, &err)); EXPECT_FLOAT_EQ(value, 1.3f); EXPECT_TRUE(absl::ParseFlag("-0.1", &value, &err)); EXPECT_DOUBLE_EQ(value, -0.1f); EXPECT_TRUE(absl::ParseFlag("+0.01", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.01f); // Scientific values. EXPECT_TRUE(absl::ParseFlag("1.2e3", &value, &err)); EXPECT_DOUBLE_EQ(value, 1.2e3f); EXPECT_TRUE(absl::ParseFlag("9.8765402e-37", &value, &err)); EXPECT_DOUBLE_EQ(value, 9.8765402e-37f); EXPECT_TRUE(absl::ParseFlag("0.11e+3", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.11e+3f); EXPECT_TRUE(absl::ParseFlag("1.e-2300", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.f); EXPECT_TRUE(absl::ParseFlag("1.e+2300", &value, &err)); EXPECT_TRUE(std::isinf(value)); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01.6", &value, &err)); EXPECT_DOUBLE_EQ(value, 1.6f); EXPECT_TRUE(absl::ParseFlag("000.0001", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.0001f); // Trailing zero values. EXPECT_TRUE(absl::ParseFlag("-5.1000", &value, &err)); EXPECT_DOUBLE_EQ(value, -5.1f); // Exceptional values. EXPECT_TRUE(absl::ParseFlag("NaN", &value, &err)); EXPECT_TRUE(std::isnan(value)); EXPECT_TRUE(absl::ParseFlag("Inf", &value, &err)); EXPECT_TRUE(std::isinf(value)); // Hex values EXPECT_TRUE(absl::ParseFlag("0x10.23p12", &value, &err)); EXPECT_DOUBLE_EQ(value, 66096.f); EXPECT_TRUE(absl::ParseFlag("-0xF1.A3p-2", &value, &err)); EXPECT_NEAR(value, -60.4092f, 5e-5f); EXPECT_TRUE(absl::ParseFlag("+0x0.0AAp-12", &value, &err)); EXPECT_NEAR(value, 1.01328e-05f, 5e-11f); EXPECT_TRUE(absl::ParseFlag("0x.01p1", &value, &err)); EXPECT_NEAR(value, 0.0078125f, 5e-8f); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10.1 ", &value, &err)); EXPECT_DOUBLE_EQ(value, 10.1f); EXPECT_TRUE(absl::ParseFlag(" 2.34", &value, &err)); EXPECT_DOUBLE_EQ(value, 2.34f); EXPECT_TRUE(absl::ParseFlag(" 5.7 ", &value, &err)); EXPECT_DOUBLE_EQ(value, 5.7f); EXPECT_TRUE(absl::ParseFlag(" -0xE0.F3p01 ", &value, &err)); EXPECT_NEAR(value, -449.8984375f, 5e-8f); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2.3xxx", &value, &err)); EXPECT_FALSE(absl::ParseFlag("0x0.1pAA", &value, &err)); // TODO(rogeeff): below assertion should fail EXPECT_TRUE(absl::ParseFlag("0x0.1", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestDoubleParsing) { std::string err; double value; // Ordinary values. EXPECT_TRUE(absl::ParseFlag("1.3", &value, &err)); EXPECT_DOUBLE_EQ(value, 1.3); EXPECT_TRUE(absl::ParseFlag("-0.1", &value, &err)); EXPECT_DOUBLE_EQ(value, -0.1); EXPECT_TRUE(absl::ParseFlag("+0.01", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.01); // Scientific values. EXPECT_TRUE(absl::ParseFlag("1.2e3", &value, &err)); EXPECT_DOUBLE_EQ(value, 1.2e3); EXPECT_TRUE(absl::ParseFlag("9.00000002e-123", &value, &err)); EXPECT_DOUBLE_EQ(value, 9.00000002e-123); EXPECT_TRUE(absl::ParseFlag("0.11e+3", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.11e+3); EXPECT_TRUE(absl::ParseFlag("1.e-2300", &value, &err)); EXPECT_DOUBLE_EQ(value, 0); EXPECT_TRUE(absl::ParseFlag("1.e+2300", &value, &err)); EXPECT_TRUE(std::isinf(value)); // Leading zero values. EXPECT_TRUE(absl::ParseFlag("01.6", &value, &err)); EXPECT_DOUBLE_EQ(value, 1.6); EXPECT_TRUE(absl::ParseFlag("000.0001", &value, &err)); EXPECT_DOUBLE_EQ(value, 0.0001); // Trailing zero values. EXPECT_TRUE(absl::ParseFlag("-5.1000", &value, &err)); EXPECT_DOUBLE_EQ(value, -5.1); // Exceptional values. EXPECT_TRUE(absl::ParseFlag("NaN", &value, &err)); EXPECT_TRUE(std::isnan(value)); EXPECT_TRUE(absl::ParseFlag("nan", &value, &err)); EXPECT_TRUE(std::isnan(value)); EXPECT_TRUE(absl::ParseFlag("Inf", &value, &err)); EXPECT_TRUE(std::isinf(value)); EXPECT_TRUE(absl::ParseFlag("inf", &value, &err)); EXPECT_TRUE(std::isinf(value)); // Hex values EXPECT_TRUE(absl::ParseFlag("0x10.23p12", &value, &err)); EXPECT_DOUBLE_EQ(value, 66096); EXPECT_TRUE(absl::ParseFlag("-0xF1.A3p-2", &value, &err)); EXPECT_NEAR(value, -60.4092, 5e-5); EXPECT_TRUE(absl::ParseFlag("+0x0.0AAp-12", &value, &err)); EXPECT_NEAR(value, 1.01328e-05, 5e-11); EXPECT_TRUE(absl::ParseFlag("0x.01p1", &value, &err)); EXPECT_NEAR(value, 0.0078125, 5e-8); // Whitespace handling EXPECT_TRUE(absl::ParseFlag("10.1 ", &value, &err)); EXPECT_DOUBLE_EQ(value, 10.1); EXPECT_TRUE(absl::ParseFlag(" 2.34", &value, &err)); EXPECT_DOUBLE_EQ(value, 2.34); EXPECT_TRUE(absl::ParseFlag(" 5.7 ", &value, &err)); EXPECT_DOUBLE_EQ(value, 5.7); EXPECT_TRUE(absl::ParseFlag(" -0xE0.F3p01 ", &value, &err)); EXPECT_NEAR(value, -449.8984375, 5e-8); // Invalid values. EXPECT_FALSE(absl::ParseFlag("", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag(" ", &value, &err)); EXPECT_FALSE(absl::ParseFlag("--1", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\n", &value, &err)); EXPECT_FALSE(absl::ParseFlag("\t", &value, &err)); EXPECT_FALSE(absl::ParseFlag("2.3xxx", &value, &err)); EXPECT_FALSE(absl::ParseFlag("0x0.1pAA", &value, &err)); // TODO(rogeeff): below assertion should fail EXPECT_TRUE(absl::ParseFlag("0x0.1", &value, &err)); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestStringParsing) { std::string err; std::string value; EXPECT_TRUE(absl::ParseFlag("", &value, &err)); EXPECT_EQ(value, ""); EXPECT_TRUE(absl::ParseFlag(" ", &value, &err)); EXPECT_EQ(value, " "); EXPECT_TRUE(absl::ParseFlag(" ", &value, &err)); EXPECT_EQ(value, " "); EXPECT_TRUE(absl::ParseFlag("\n", &value, &err)); EXPECT_EQ(value, "\n"); EXPECT_TRUE(absl::ParseFlag("\t", &value, &err)); EXPECT_EQ(value, "\t"); EXPECT_TRUE(absl::ParseFlag("asdfg", &value, &err)); EXPECT_EQ(value, "asdfg"); EXPECT_TRUE(absl::ParseFlag("asdf ghjk", &value, &err)); EXPECT_EQ(value, "asdf ghjk"); EXPECT_TRUE(absl::ParseFlag("a\nb\nc", &value, &err)); EXPECT_EQ(value, "a\nb\nc"); EXPECT_TRUE(absl::ParseFlag("asd\0fgh", &value, &err)); EXPECT_EQ(value, "asd"); EXPECT_TRUE(absl::ParseFlag("\\\\", &value, &err)); EXPECT_EQ(value, "\\\\"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestVectorOfStringParsing) { std::string err; std::vector value; EXPECT_TRUE(absl::ParseFlag("", &value, &err)); EXPECT_EQ(value, std::vector{}); EXPECT_TRUE(absl::ParseFlag("1", &value, &err)); EXPECT_EQ(value, std::vector({"1"})); EXPECT_TRUE(absl::ParseFlag("a,b", &value, &err)); EXPECT_EQ(value, std::vector({"a", "b"})); EXPECT_TRUE(absl::ParseFlag("a,b,c,", &value, &err)); EXPECT_EQ(value, std::vector({"a", "b", "c", ""})); EXPECT_TRUE(absl::ParseFlag("a,,", &value, &err)); EXPECT_EQ(value, std::vector({"a", "", ""})); EXPECT_TRUE(absl::ParseFlag(",", &value, &err)); EXPECT_EQ(value, std::vector({"", ""})); EXPECT_TRUE(absl::ParseFlag("a, b,c ", &value, &err)); EXPECT_EQ(value, std::vector({"a", " b", "c "})); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestBoolUnparsing) { EXPECT_EQ(absl::UnparseFlag(true), "true"); EXPECT_EQ(absl::UnparseFlag(false), "false"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestInt16Unparsing) { int16_t value; value = 1; EXPECT_EQ(absl::UnparseFlag(value), "1"); value = 0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = -1; EXPECT_EQ(absl::UnparseFlag(value), "-1"); value = 9876; EXPECT_EQ(absl::UnparseFlag(value), "9876"); value = -987; EXPECT_EQ(absl::UnparseFlag(value), "-987"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestUint16Unparsing) { uint16_t value; value = 1; EXPECT_EQ(absl::UnparseFlag(value), "1"); value = 0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = 19876; EXPECT_EQ(absl::UnparseFlag(value), "19876"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestInt32Unparsing) { int32_t value; value = 1; EXPECT_EQ(absl::UnparseFlag(value), "1"); value = 0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = -1; EXPECT_EQ(absl::UnparseFlag(value), "-1"); value = 12345; EXPECT_EQ(absl::UnparseFlag(value), "12345"); value = -987; EXPECT_EQ(absl::UnparseFlag(value), "-987"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestUint32Unparsing) { uint32_t value; value = 1; EXPECT_EQ(absl::UnparseFlag(value), "1"); value = 0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = 1234500; EXPECT_EQ(absl::UnparseFlag(value), "1234500"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestInt64Unparsing) { int64_t value; value = 1; EXPECT_EQ(absl::UnparseFlag(value), "1"); value = 0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = -1; EXPECT_EQ(absl::UnparseFlag(value), "-1"); value = 123456789L; EXPECT_EQ(absl::UnparseFlag(value), "123456789"); value = -987654321L; EXPECT_EQ(absl::UnparseFlag(value), "-987654321"); value = 0x7FFFFFFFFFFFFFFF; EXPECT_EQ(absl::UnparseFlag(value), "9223372036854775807"); value = 0xFFFFFFFFFFFFFFFF; EXPECT_EQ(absl::UnparseFlag(value), "-1"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestUint64Unparsing) { uint64_t value; value = 1; EXPECT_EQ(absl::UnparseFlag(value), "1"); value = 0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = 123456789L; EXPECT_EQ(absl::UnparseFlag(value), "123456789"); value = 0xFFFFFFFFFFFFFFFF; EXPECT_EQ(absl::UnparseFlag(value), "18446744073709551615"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestFloatUnparsing) { float value; value = 1.1f; EXPECT_EQ(absl::UnparseFlag(value), "1.1"); value = 0.01f; EXPECT_EQ(absl::UnparseFlag(value), "0.01"); value = 1.23e-2f; EXPECT_EQ(absl::UnparseFlag(value), "0.0123"); value = -0.71f; EXPECT_EQ(absl::UnparseFlag(value), "-0.71"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestDoubleUnparsing) { double value; value = 1.1; EXPECT_EQ(absl::UnparseFlag(value), "1.1"); value = 0.01; EXPECT_EQ(absl::UnparseFlag(value), "0.01"); value = 1.23e-2; EXPECT_EQ(absl::UnparseFlag(value), "0.0123"); value = -0.71; EXPECT_EQ(absl::UnparseFlag(value), "-0.71"); value = -0; EXPECT_EQ(absl::UnparseFlag(value), "0"); value = std::nan(""); EXPECT_EQ(absl::UnparseFlag(value), "nan"); value = std::numeric_limits::infinity(); EXPECT_EQ(absl::UnparseFlag(value), "inf"); } // -------------------------------------------------------------------- TEST(MarshallingTest, TestStringUnparsing) { EXPECT_EQ(absl::UnparseFlag(""), ""); EXPECT_EQ(absl::UnparseFlag(" "), " "); EXPECT_EQ(absl::UnparseFlag("qwerty"), "qwerty"); EXPECT_EQ(absl::UnparseFlag("ASDFGH"), "ASDFGH"); EXPECT_EQ(absl::UnparseFlag("\n\t "), "\n\t "); } // -------------------------------------------------------------------- template void TestRoundtrip(T v) { T new_v; std::string err; EXPECT_TRUE(absl::ParseFlag(absl::UnparseFlag(v), &new_v, &err)); EXPECT_EQ(new_v, v); } TEST(MarshallingTest, TestFloatRoundTrip) { TestRoundtrip(0.1f); TestRoundtrip(0.12f); TestRoundtrip(0.123f); TestRoundtrip(0.1234f); TestRoundtrip(0.12345f); TestRoundtrip(0.123456f); TestRoundtrip(0.1234567f); TestRoundtrip(0.12345678f); TestRoundtrip(0.1e20f); TestRoundtrip(0.12e20f); TestRoundtrip(0.123e20f); TestRoundtrip(0.1234e20f); TestRoundtrip(0.12345e20f); TestRoundtrip(0.123456e20f); TestRoundtrip(0.1234567e20f); TestRoundtrip(0.12345678e20f); TestRoundtrip(0.1e-20f); TestRoundtrip(0.12e-20f); TestRoundtrip(0.123e-20f); TestRoundtrip(0.1234e-20f); TestRoundtrip(0.12345e-20f); TestRoundtrip(0.123456e-20f); TestRoundtrip(0.1234567e-20f); TestRoundtrip(0.12345678e-20f); } TEST(MarshallingTest, TestDoubleRoundTrip) { TestRoundtrip(0.1); TestRoundtrip(0.12); TestRoundtrip(0.123); TestRoundtrip(0.1234); TestRoundtrip(0.12345); TestRoundtrip(0.123456); TestRoundtrip(0.1234567); TestRoundtrip(0.12345678); TestRoundtrip(0.123456789); TestRoundtrip(0.1234567891); TestRoundtrip(0.12345678912); TestRoundtrip(0.123456789123); TestRoundtrip(0.1234567891234); TestRoundtrip(0.12345678912345); TestRoundtrip(0.123456789123456); TestRoundtrip(0.1234567891234567); TestRoundtrip(0.12345678912345678); TestRoundtrip(0.1e50); TestRoundtrip(0.12e50); TestRoundtrip(0.123e50); TestRoundtrip(0.1234e50); TestRoundtrip(0.12345e50); TestRoundtrip(0.123456e50); TestRoundtrip(0.1234567e50); TestRoundtrip(0.12345678e50); TestRoundtrip(0.123456789e50); TestRoundtrip(0.1234567891e50); TestRoundtrip(0.12345678912e50); TestRoundtrip(0.123456789123e50); TestRoundtrip(0.1234567891234e50); TestRoundtrip(0.12345678912345e50); TestRoundtrip(0.123456789123456e50); TestRoundtrip(0.1234567891234567e50); TestRoundtrip(0.12345678912345678e50); TestRoundtrip(0.1e-50); TestRoundtrip(0.12e-50); TestRoundtrip(0.123e-50); TestRoundtrip(0.1234e-50); TestRoundtrip(0.12345e-50); TestRoundtrip(0.123456e-50); TestRoundtrip(0.1234567e-50); TestRoundtrip(0.12345678e-50); TestRoundtrip(0.123456789e-50); TestRoundtrip(0.1234567891e-50); TestRoundtrip(0.12345678912e-50); TestRoundtrip(0.123456789123e-50); TestRoundtrip(0.1234567891234e-50); TestRoundtrip(0.12345678912345e-50); TestRoundtrip(0.123456789123456e-50); TestRoundtrip(0.1234567891234567e-50); TestRoundtrip(0.12345678912345678e-50); } } // namespace