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When printing floating-point numbers, print full precision by default.
To make debug output readable, we still use the faster 6-digit precision sometimes, but only if it will round-trip. This way, when a test fails due to a very small difference in floating-point numbers, users will have enough digits to see the difference. PiperOrigin-RevId: 488958311 Change-Id: Ibcac43f48a97006d89217530c69386cc4fa2735c
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@ -484,6 +484,81 @@ GTEST_API_ void PrintTo(__uint128_t v, ::std::ostream* os);
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GTEST_API_ void PrintTo(__int128_t v, ::std::ostream* os);
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#endif // __SIZEOF_INT128__
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// The default resolution used to print floating-point values uses only
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// 6 digits, which can be confusing if a test compares two values whose
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// difference lies in the 7th digit. So we'd like to print out numbers
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// in full precision.
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// However if the value is something simple like 1.1, full will print a
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// long string like 1.100000001 due to floating-point numbers not using
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// a base of 10. This routiune returns an appropriate resolution for a
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// given floating-point number, that is, 6 if it will be accurate, or a
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// max_digits10 value (full precision) if it won't, for values between
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// 0.0001 and one million.
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// It does this by computing what those digits would be (by multiplying
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// by an appropriate power of 10), then dividing by that power again to
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// see if gets the original value back.
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// A similar algorithm applies for values larger than one million; note
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// that for those values, we must divide to get a six-digit number, and
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// then multiply to possibly get the original value again.
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template <typename FloatType>
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int AppropriateResolution(FloatType val) {
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int full = std::numeric_limits<FloatType>::max_digits10;
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if (val < 0) val = -val;
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if (val < 1000000) {
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FloatType mulfor6 = 1e10;
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if (val >= 100000.0) { // 100,000 to 999,999
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mulfor6 = 1.0;
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} else if (val >= 10000.0) {
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mulfor6 = 1e1;
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} else if (val >= 1000.0) {
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mulfor6 = 1e2;
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} else if (val >= 100.0) {
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mulfor6 = 1e3;
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} else if (val >= 10.0) {
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mulfor6 = 1e4;
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} else if (val >= 1.0) {
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mulfor6 = 1e5;
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} else if (val >= 0.1) {
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mulfor6 = 1e6;
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} else if (val >= 0.01) {
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mulfor6 = 1e7;
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} else if (val >= 0.001) {
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mulfor6 = 1e8;
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} else if (val >= 0.0001) {
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mulfor6 = 1e9;
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}
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if (static_cast<int32_t>(val * mulfor6 + 0.5) / mulfor6 == val) return 6;
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} else if (val < 1e10) {
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FloatType divfor6 = 1.0;
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if (val >= 1e9) { // 1,000,000,000 to 9,999,999,999
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divfor6 = 10000;
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} else if (val >= 1e8) { // 100,000,000 to 999,999,999
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divfor6 = 1000;
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} else if (val >= 1e7) { // 10,000,000 to 99,999,999
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divfor6 = 100;
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} else if (val >= 1e6) { // 1,000,000 to 9,999,999
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divfor6 = 10;
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}
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if (static_cast<int32_t>(val / divfor6 + 0.5) * divfor6 == val) return 6;
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}
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return full;
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}
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inline void PrintTo(float f, ::std::ostream* os) {
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auto old_precision = os->precision();
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os->precision(AppropriateResolution(f));
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*os << f;
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os->precision(old_precision);
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}
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inline void PrintTo(double d, ::std::ostream* os) {
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auto old_precision = os->precision();
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os->precision(AppropriateResolution(d));
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*os << d;
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os->precision(old_precision);
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}
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// Overloads for C strings.
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GTEST_API_ void PrintTo(const char* s, ::std::ostream* os);
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inline void PrintTo(char* s, ::std::ostream* os) {
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@ -458,7 +458,15 @@ TEST(PrintBuiltInTypeTest, Int128) {
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// Floating-points.
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TEST(PrintBuiltInTypeTest, FloatingPoints) {
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EXPECT_EQ("1.5", Print(1.5f)); // float
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// float (32-bit precision)
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EXPECT_EQ("1.5", Print(1.5f));
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EXPECT_EQ("1.0999999", Print(1.09999990f));
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EXPECT_EQ("1.1", Print(1.10000002f));
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EXPECT_EQ("1.10000014", Print(1.10000014f));
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EXPECT_EQ("9e+09", Print(9e9f));
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// double
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EXPECT_EQ("-2.5", Print(-2.5)); // double
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}
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