// Copyright Benoit Blanchon 2014-2017 // MIT License // // Arduino JSON library // https://bblanchon.github.io/ArduinoJson/ // If you like this project, please add a star! #include #include using namespace ArduinoJson::Polyfills; struct Polyfills_ParseFloat_Float_Tests : testing::Test { void check(const char* input, float expected) { float actual = parseFloat(input); EXPECT_FLOAT_EQ(expected, actual) << input; } void checkNaN(const char* input) { float result = parseFloat(input); EXPECT_TRUE(result != result) << input; } void checkInf(const char* input, bool negative) { float x = parseFloat(input); if (negative) EXPECT_TRUE(x < 0) << input; else EXPECT_TRUE(x > 0) << input; EXPECT_TRUE(x == x && x * 2 == x) << input; } }; #define TEST_FLOAT(X) TEST_F(Polyfills_ParseFloat_Float_Tests, X) struct Polyfills_ParseFloat_Double_Tests : testing::Test { void check(const char* input, double expected) { double actual = parseFloat(input); EXPECT_DOUBLE_EQ(expected, actual) << input; } void checkNaN(const char* input) { double result = parseFloat(input); EXPECT_TRUE(result != result) << input; } void checkInf(const char* input, bool negative) { double x = parseFloat(input); if (negative) EXPECT_TRUE(x < 0) << input; else EXPECT_TRUE(x > 0) << input; EXPECT_TRUE(x == x && x * 2 == x) << input; } }; #define TEST_DOUBLE(X) TEST_F(Polyfills_ParseFloat_Double_Tests, X) TEST_DOUBLE(Null) { check(NULL, 0); } TEST_FLOAT(Null) { check(NULL, 0); } TEST_DOUBLE(Short_NoExponent) { check("3.14", 3.14); check("-3.14", -3.14); check("+3.14", +3.14); } TEST_FLOAT(Float_Short_NoExponent) { check("3.14", 3.14f); check("-3.14", -3.14f); check("+3.14", +3.14f); } TEST_DOUBLE(Short_NoDot) { check("1E+308", 1E+308); check("-1E+308", -1E+308); check("+1E-308", +1E-308); check("+1e+308", +1e+308); check("-1e-308", -1e-308); } TEST_FLOAT(Short_NoDot) { check("1E+38", 1E+38f); check("-1E+38", -1E+38f); check("+1E-38", +1E-38f); check("+1e+38", +1e+38f); check("-1e-38", -1e-38f); } TEST_FLOAT(Max) { check("340.2823e+36", 3.402823e+38f); check("34.02823e+37", 3.402823e+38f); check("3.402823e+38", 3.402823e+38f); check("0.3402823e+39", 3.402823e+38f); check("00.3402823e+40", 3.402823e+38f); check("000.3402823e+41", 3.402823e+38f); } TEST_DOUBLE(Max) { check(".017976931348623147e+310", 1.7976931348623147e+308); check(".17976931348623147e+309", 1.7976931348623147e+308); check("1.7976931348623147e+308", 1.7976931348623147e+308); check("17.976931348623147e+307", 1.7976931348623147e+308); check("179.76931348623147e+306", 1.7976931348623147e+308); } TEST_DOUBLE(Min) { check(".022250738585072014e-306", 2.2250738585072014e-308); check(".22250738585072014e-307", 2.2250738585072014e-308); check("2.2250738585072014e-308", 2.2250738585072014e-308); check("22.250738585072014e-309", 2.2250738585072014e-308); check("222.50738585072014e-310", 2.2250738585072014e-308); } TEST_DOUBLE(VeryLong) { check("0.00000000000000000000000000000001", 1e-32); check("100000000000000000000000000000000.0", 1e+32); check("100000000000000000000000000000000.00000000000000000000000000000", 1e+32); } TEST_FLOAT(VeryLong) { check("0.00000000000000000000000000000001", 1e-32f); check("100000000000000000000000000000000.0", 1e+32f); check("100000000000000000000000000000000.00000000000000000000000000000", 1e+32f); } TEST_DOUBLE(MantissaTooLongToFit) { check("0.179769313486231571111111111111", 0.17976931348623157); check("17976931348623157.11111111111111", 17976931348623157.0); check("1797693.134862315711111111111111", 1797693.1348623157); check("-0.179769313486231571111111111111", -0.17976931348623157); check("-17976931348623157.11111111111111", -17976931348623157.0); check("-1797693.134862315711111111111111", -1797693.1348623157); } TEST_FLOAT(MantissaTooLongToFit) { check("0.340282346638528861111111111111", 0.34028234663852886f); check("34028234663852886.11111111111111", 34028234663852886.0f); check("34028234.66385288611111111111111", 34028234.663852886f); check("-0.340282346638528861111111111111", -0.34028234663852886f); check("-34028234663852886.11111111111111", -34028234663852886.0f); check("-34028234.66385288611111111111111", -34028234.663852886f); } TEST_DOUBLE(ExponentTooBig) { checkInf("1e309", false); checkInf("-1e309", true); checkInf("1e65535", false); check("1e-65535", 0.0); } TEST_FLOAT(ExponentTooBig) { checkInf("1e39", false); checkInf("-1e39", true); checkInf("1e255", false); check("1e-255", 0.0f); } TEST_DOUBLE(NaN) { checkNaN("NaN"); checkNaN("nan"); } TEST_FLOAT(NaN) { checkNaN("NaN"); checkNaN("nan"); } TEST_FLOAT(Infinity) { checkInf("Infinity", false); checkInf("+Infinity", false); checkInf("-Infinity", true); checkInf("inf", false); checkInf("+inf", false); checkInf("-inf", true); }