diff options
author | Abseil Team <absl-team@google.com> | 2018-06-21T19·55-0700 |
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committer | Shaindel Schwartz <shaindel@google.com> | 2018-06-22T12·55-0400 |
commit | 4491d606df34c44efda47b6d17b605262f17e182 (patch) | |
tree | 5c5a2717289760c229fed502a6310d70ca4ed35a /absl/strings/internal/str_format/float_conversion.cc | |
parent | d89dba27e35462d7457121b978fd79214205e686 (diff) |
Export of internal Abseil changes.
-- 70f43a482d7d4ae4a255f17ca02b0106653dd600 by Shaindel Schwartz <shaindel@google.com>: Internal change PiperOrigin-RevId: 201571193 -- 93e6e9c2e683158be49d9dd1f5cb1a91d0c0f556 by Abseil Team <absl-team@google.com>: Internal change. PiperOrigin-RevId: 201567108 -- fbd8ee94fbe9f2448e5adf5e88706f9c8216048f by Juemin Yang <jueminyang@google.com>: str_format release PiperOrigin-RevId: 201565129 -- 387faa301555a8a888c4429df52734aa806dca46 by Abseil Team <absl-team@google.com>: Adds a defaulted allocator parameter to the size_type constructor of InlinedVector PiperOrigin-RevId: 201558711 -- 39b15ea2c68d7129d70cbde7e71af900032595ec by Matt Calabrese <calabrese@google.com>: Update the variant implementation to eliminate unnecessary checking on alternative access when the index is known or required to be correct. PiperOrigin-RevId: 201529535 -- adab77f1f7bb363aa534297f22aae2b0f08889ea by Abseil Team <absl-team@google.com>: Import of CCTZ from GitHub. PiperOrigin-RevId: 201458388 -- a701dc0ba62e3cadf0de14203415b91df4ee8151 by Greg Falcon <gfalcon@google.com>: Internal cleanup PiperOrigin-RevId: 201394836 -- 8a7191410b8f440fdfa27f722ff05e451502ab61 by Abseil Team <absl-team@google.com>: Import of CCTZ from GitHub. PiperOrigin-RevId: 201369269 GitOrigin-RevId: 70f43a482d7d4ae4a255f17ca02b0106653dd600 Change-Id: I8ab073b30b4e27405a3b6da2c826bb4f3f0b9af6
Diffstat (limited to 'absl/strings/internal/str_format/float_conversion.cc')
-rw-r--r-- | absl/strings/internal/str_format/float_conversion.cc | 476 |
1 files changed, 476 insertions, 0 deletions
diff --git a/absl/strings/internal/str_format/float_conversion.cc b/absl/strings/internal/str_format/float_conversion.cc new file mode 100644 index 000000000000..37952b4699e9 --- /dev/null +++ b/absl/strings/internal/str_format/float_conversion.cc @@ -0,0 +1,476 @@ +#include "absl/strings/internal/str_format/float_conversion.h" + +#include <string.h> +#include <algorithm> +#include <cassert> +#include <cmath> +#include <string> + +namespace absl { +namespace str_format_internal { + +namespace { + +char *CopyStringTo(string_view v, char *out) { + std::memcpy(out, v.data(), v.size()); + return out + v.size(); +} + +template <typename Float> +bool FallbackToSnprintf(const Float v, const ConversionSpec &conv, + FormatSinkImpl *sink) { + int w = conv.width() >= 0 ? conv.width() : 0; + int p = conv.precision() >= 0 ? conv.precision() : -1; + char fmt[32]; + { + char *fp = fmt; + *fp++ = '%'; + fp = CopyStringTo(conv.flags().ToString(), fp); + fp = CopyStringTo("*.*", fp); + if (std::is_same<long double, Float>()) { + *fp++ = 'L'; + } + *fp++ = conv.conv().Char(); + *fp = 0; + assert(fp < fmt + sizeof(fmt)); + } + std::string space(512, '\0'); + string_view result; + while (true) { + int n = snprintf(&space[0], space.size(), fmt, w, p, v); + if (n < 0) return false; + if (static_cast<size_t>(n) < space.size()) { + result = string_view(space.data(), n); + break; + } + space.resize(n + 1); + } + sink->Append(result); + return true; +} + +// 128-bits in decimal: ceil(128*log(2)/log(10)) +// or std::numeric_limits<__uint128_t>::digits10 +constexpr int kMaxFixedPrecision = 39; + +constexpr int kBufferLength = /*sign*/ 1 + + /*integer*/ kMaxFixedPrecision + + /*point*/ 1 + + /*fraction*/ kMaxFixedPrecision + + /*exponent e+123*/ 5; + +struct Buffer { + void push_front(char c) { + assert(begin > data); + *--begin = c; + } + void push_back(char c) { + assert(end < data + sizeof(data)); + *end++ = c; + } + void pop_back() { + assert(begin < end); + --end; + } + + char &back() { + assert(begin < end); + return end[-1]; + } + + char last_digit() const { return end[-1] == '.' ? end[-2] : end[-1]; } + + int size() const { return static_cast<int>(end - begin); } + + char data[kBufferLength]; + char *begin; + char *end; +}; + +enum class FormatStyle { Fixed, Precision }; + +// If the value is Inf or Nan, print it and return true. +// Otherwise, return false. +template <typename Float> +bool ConvertNonNumericFloats(char sign_char, Float v, + const ConversionSpec &conv, FormatSinkImpl *sink) { + char text[4], *ptr = text; + if (sign_char) *ptr++ = sign_char; + if (std::isnan(v)) { + ptr = std::copy_n(conv.conv().upper() ? "NAN" : "nan", 3, ptr); + } else if (std::isinf(v)) { + ptr = std::copy_n(conv.conv().upper() ? "INF" : "inf", 3, ptr); + } else { + return false; + } + + return sink->PutPaddedString(string_view(text, ptr - text), conv.width(), -1, + conv.flags().left); +} + +// Round up the last digit of the value. +// It will carry over and potentially overflow. 'exp' will be adjusted in that +// case. +template <FormatStyle mode> +void RoundUp(Buffer *buffer, int *exp) { + char *p = &buffer->back(); + while (p >= buffer->begin && (*p == '9' || *p == '.')) { + if (*p == '9') *p = '0'; + --p; + } + + if (p < buffer->begin) { + *p = '1'; + buffer->begin = p; + if (mode == FormatStyle::Precision) { + std::swap(p[1], p[2]); // move the . + ++*exp; + buffer->pop_back(); + } + } else { + ++*p; + } +} + +void PrintExponent(int exp, char e, Buffer *out) { + out->push_back(e); + if (exp < 0) { + out->push_back('-'); + exp = -exp; + } else { + out->push_back('+'); + } + // Exponent digits. + if (exp > 99) { + out->push_back(exp / 100 + '0'); + out->push_back(exp / 10 % 10 + '0'); + out->push_back(exp % 10 + '0'); + } else { + out->push_back(exp / 10 + '0'); + out->push_back(exp % 10 + '0'); + } +} + +template <typename Float, typename Int> +constexpr bool CanFitMantissa() { + return std::numeric_limits<Float>::digits <= std::numeric_limits<Int>::digits; +} + +template <typename Float> +struct Decomposed { + Float mantissa; + int exponent; +}; + +// Decompose the double into an integer mantissa and an exponent. +template <typename Float> +Decomposed<Float> Decompose(Float v) { + int exp; + Float m = std::frexp(v, &exp); + m = std::ldexp(m, std::numeric_limits<Float>::digits); + exp -= std::numeric_limits<Float>::digits; + return {m, exp}; +} + +// Print 'digits' as decimal. +// In Fixed mode, we add a '.' at the end. +// In Precision mode, we add a '.' after the first digit. +template <FormatStyle mode, typename Int> +int PrintIntegralDigits(Int digits, Buffer *out) { + int printed = 0; + if (digits) { + for (; digits; digits /= 10) out->push_front(digits % 10 + '0'); + printed = out->size(); + if (mode == FormatStyle::Precision) { + out->push_front(*out->begin); + out->begin[1] = '.'; + } else { + out->push_back('.'); + } + } else if (mode == FormatStyle::Fixed) { + out->push_front('0'); + out->push_back('.'); + printed = 1; + } + return printed; +} + +// Back out 'extra_digits' digits and round up if necessary. +bool RemoveExtraPrecision(int extra_digits, bool has_leftover_value, + Buffer *out, int *exp_out) { + if (extra_digits <= 0) return false; + + // Back out the extra digits + out->end -= extra_digits; + + bool needs_to_round_up = [&] { + // We look at the digit just past the end. + // There must be 'extra_digits' extra valid digits after end. + if (*out->end > '5') return true; + if (*out->end < '5') return false; + if (has_leftover_value || std::any_of(out->end + 1, out->end + extra_digits, + [](char c) { return c != '0'; })) + return true; + + // Ends in ...50*, round to even. + return out->last_digit() % 2 == 1; + }(); + + if (needs_to_round_up) { + RoundUp<FormatStyle::Precision>(out, exp_out); + } + return true; +} + +// Print the value into the buffer. +// This will not include the exponent, which will be returned in 'exp_out' for +// Precision mode. +template <typename Int, typename Float, FormatStyle mode> +bool FloatToBufferImpl(Int int_mantissa, int exp, int precision, Buffer *out, + int *exp_out) { + assert((CanFitMantissa<Float, Int>())); + + const int int_bits = std::numeric_limits<Int>::digits; + + // In precision mode, we start printing one char to the right because it will + // also include the '.' + // In fixed mode we put the dot afterwards on the right. + out->begin = out->end = + out->data + 1 + kMaxFixedPrecision + (mode == FormatStyle::Precision); + + if (exp >= 0) { + if (std::numeric_limits<Float>::digits + exp > int_bits) { + // The value will overflow the Int + return false; + } + int digits_printed = PrintIntegralDigits<mode>(int_mantissa << exp, out); + int digits_to_zero_pad = precision; + if (mode == FormatStyle::Precision) { + *exp_out = digits_printed - 1; + digits_to_zero_pad -= digits_printed - 1; + if (RemoveExtraPrecision(-digits_to_zero_pad, false, out, exp_out)) { + return true; + } + } + for (; digits_to_zero_pad-- > 0;) out->push_back('0'); + return true; + } + + exp = -exp; + // We need at least 4 empty bits for the next decimal digit. + // We will multiply by 10. + if (exp > int_bits - 4) return false; + + const Int mask = (Int{1} << exp) - 1; + + // Print the integral part first. + int digits_printed = PrintIntegralDigits<mode>(int_mantissa >> exp, out); + int_mantissa &= mask; + + int fractional_count = precision; + if (mode == FormatStyle::Precision) { + if (digits_printed == 0) { + // Find the first non-zero digit, when in Precision mode. + *exp_out = 0; + if (int_mantissa) { + while (int_mantissa <= mask) { + int_mantissa *= 10; + --*exp_out; + } + } + out->push_front(static_cast<char>(int_mantissa >> exp) + '0'); + out->push_back('.'); + int_mantissa &= mask; + } else { + // We already have a digit, and a '.' + *exp_out = digits_printed - 1; + fractional_count -= *exp_out; + if (RemoveExtraPrecision(-fractional_count, int_mantissa != 0, out, + exp_out)) { + // If we had enough digits, return right away. + // The code below will try to round again otherwise. + return true; + } + } + } + + auto get_next_digit = [&] { + int_mantissa *= 10; + int digit = static_cast<int>(int_mantissa >> exp); + int_mantissa &= mask; + return digit; + }; + + // Print fractional_count more digits, if available. + for (; fractional_count > 0; --fractional_count) { + out->push_back(get_next_digit() + '0'); + } + + int next_digit = get_next_digit(); + if (next_digit > 5 || + (next_digit == 5 && (int_mantissa || out->last_digit() % 2 == 1))) { + RoundUp<mode>(out, exp_out); + } + + return true; +} + +template <FormatStyle mode, typename Float> +bool FloatToBuffer(Decomposed<Float> decomposed, int precision, Buffer *out, + int *exp) { + if (precision > kMaxFixedPrecision) return false; + + // Try with uint64_t. + if (CanFitMantissa<Float, std::uint64_t>() && + FloatToBufferImpl<std::uint64_t, Float, mode>( + static_cast<std::uint64_t>(decomposed.mantissa), + static_cast<std::uint64_t>(decomposed.exponent), precision, out, exp)) + return true; + +#if defined(__SIZEOF_INT128__) + // If that is not enough, try with __uint128_t. + return CanFitMantissa<Float, __uint128_t>() && + FloatToBufferImpl<__uint128_t, Float, mode>( + static_cast<__uint128_t>(decomposed.mantissa), + static_cast<__uint128_t>(decomposed.exponent), precision, out, + exp); +#endif + return false; +} + +void WriteBufferToSink(char sign_char, string_view str, + const ConversionSpec &conv, FormatSinkImpl *sink) { + int left_spaces = 0, zeros = 0, right_spaces = 0; + int missing_chars = + conv.width() >= 0 ? std::max(conv.width() - static_cast<int>(str.size()) - + static_cast<int>(sign_char != 0), + 0) + : 0; + if (conv.flags().left) { + right_spaces = missing_chars; + } else if (conv.flags().zero) { + zeros = missing_chars; + } else { + left_spaces = missing_chars; + } + + sink->Append(left_spaces, ' '); + if (sign_char) sink->Append(1, sign_char); + sink->Append(zeros, '0'); + sink->Append(str); + sink->Append(right_spaces, ' '); +} + +template <typename Float> +bool FloatToSink(const Float v, const ConversionSpec &conv, + FormatSinkImpl *sink) { + // Print the sign or the sign column. + Float abs_v = v; + char sign_char = 0; + if (std::signbit(abs_v)) { + sign_char = '-'; + abs_v = -abs_v; + } else if (conv.flags().show_pos) { + sign_char = '+'; + } else if (conv.flags().sign_col) { + sign_char = ' '; + } + + // Print nan/inf. + if (ConvertNonNumericFloats(sign_char, abs_v, conv, sink)) { + return true; + } + + int precision = conv.precision() < 0 ? 6 : conv.precision(); + + int exp = 0; + + auto decomposed = Decompose(abs_v); + + Buffer buffer; + + switch (conv.conv().id()) { + case ConversionChar::f: + case ConversionChar::F: + if (!FloatToBuffer<FormatStyle::Fixed>(decomposed, precision, &buffer, + nullptr)) { + return FallbackToSnprintf(v, conv, sink); + } + if (!conv.flags().alt && buffer.back() == '.') buffer.pop_back(); + break; + + case ConversionChar::e: + case ConversionChar::E: + if (!FloatToBuffer<FormatStyle::Precision>(decomposed, precision, &buffer, + &exp)) { + return FallbackToSnprintf(v, conv, sink); + } + if (!conv.flags().alt && buffer.back() == '.') buffer.pop_back(); + PrintExponent(exp, conv.conv().upper() ? 'E' : 'e', &buffer); + break; + + case ConversionChar::g: + case ConversionChar::G: + precision = std::max(0, precision - 1); + if (!FloatToBuffer<FormatStyle::Precision>(decomposed, precision, &buffer, + &exp)) { + return FallbackToSnprintf(v, conv, sink); + } + if (precision + 1 > exp && exp >= -4) { + if (exp < 0) { + // Have 1.23456, needs 0.00123456 + // Move the first digit + buffer.begin[1] = *buffer.begin; + // Add some zeros + for (; exp < -1; ++exp) *buffer.begin-- = '0'; + *buffer.begin-- = '.'; + *buffer.begin = '0'; + } else if (exp > 0) { + // Have 1.23456, needs 1234.56 + // Move the '.' exp positions to the right. + std::rotate(buffer.begin + 1, buffer.begin + 2, + buffer.begin + exp + 2); + } + exp = 0; + } + if (!conv.flags().alt) { + while (buffer.back() == '0') buffer.pop_back(); + if (buffer.back() == '.') buffer.pop_back(); + } + if (exp) PrintExponent(exp, conv.conv().upper() ? 'E' : 'e', &buffer); + break; + + case ConversionChar::a: + case ConversionChar::A: + return FallbackToSnprintf(v, conv, sink); + + default: + return false; + } + + WriteBufferToSink(sign_char, + string_view(buffer.begin, buffer.end - buffer.begin), conv, + sink); + + return true; +} + +} // namespace + +bool ConvertFloatImpl(long double v, const ConversionSpec &conv, + FormatSinkImpl *sink) { + return FloatToSink(v, conv, sink); +} + +bool ConvertFloatImpl(float v, const ConversionSpec &conv, + FormatSinkImpl *sink) { + return FloatToSink(v, conv, sink); +} + +bool ConvertFloatImpl(double v, const ConversionSpec &conv, + FormatSinkImpl *sink) { + return FloatToSink(v, conv, sink); +} + +} // namespace str_format_internal +} // namespace absl |