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#include "string_util.h"
#include <array>
#ifdef BENCHMARK_STL_ANDROID_GNUSTL
#include <cerrno>
#endif
#include <cmath>
#include <cstdarg>
#include <cstdio>
#include <memory>
#include <sstream>
#include "arraysize.h"
namespace benchmark {
namespace {
// kilo, Mega, Giga, Tera, Peta, Exa, Zetta, Yotta.
const char kBigSIUnits[] = "kMGTPEZY";
// Kibi, Mebi, Gibi, Tebi, Pebi, Exbi, Zebi, Yobi.
const char kBigIECUnits[] = "KMGTPEZY";
// milli, micro, nano, pico, femto, atto, zepto, yocto.
const char kSmallSIUnits[] = "munpfazy";
// We require that all three arrays have the same size.
static_assert(arraysize(kBigSIUnits) == arraysize(kBigIECUnits),
"SI and IEC unit arrays must be the same size");
static_assert(arraysize(kSmallSIUnits) == arraysize(kBigSIUnits),
"Small SI and Big SI unit arrays must be the same size");
static const int64_t kUnitsSize = arraysize(kBigSIUnits);
void ToExponentAndMantissa(double val, double thresh, int precision,
double one_k, std::string* mantissa,
int64_t* exponent) {
std::stringstream mantissa_stream;
if (val < 0) {
mantissa_stream << "-";
val = -val;
}
// Adjust threshold so that it never excludes things which can't be rendered
// in 'precision' digits.
const double adjusted_threshold =
std::max(thresh, 1.0 / std::pow(10.0, precision));
const double big_threshold = adjusted_threshold * one_k;
const double small_threshold = adjusted_threshold;
// Values in ]simple_threshold,small_threshold[ will be printed as-is
const double simple_threshold = 0.01;
if (val > big_threshold) {
// Positive powers
double scaled = val;
for (size_t i = 0; i < arraysize(kBigSIUnits); ++i) {
scaled /= one_k;
if (scaled <= big_threshold) {
mantissa_stream << scaled;
*exponent = i + 1;
*mantissa = mantissa_stream.str();
return;
}
}
mantissa_stream << val;
*exponent = 0;
} else if (val < small_threshold) {
// Negative powers
if (val < simple_threshold) {
double scaled = val;
for (size_t i = 0; i < arraysize(kSmallSIUnits); ++i) {
scaled *= one_k;
if (scaled >= small_threshold) {
mantissa_stream << scaled;
*exponent = -static_cast<int64_t>(i + 1);
*mantissa = mantissa_stream.str();
return;
}
}
}
mantissa_stream << val;
*exponent = 0;
} else {
mantissa_stream << val;
*exponent = 0;
}
*mantissa = mantissa_stream.str();
}
std::string ExponentToPrefix(int64_t exponent, bool iec) {
if (exponent == 0) return "";
const int64_t index = (exponent > 0 ? exponent - 1 : -exponent - 1);
if (index >= kUnitsSize) return "";
const char* array =
(exponent > 0 ? (iec ? kBigIECUnits : kBigSIUnits) : kSmallSIUnits);
if (iec)
return array[index] + std::string("i");
else
return std::string(1, array[index]);
}
std::string ToBinaryStringFullySpecified(double value, double threshold,
int precision, double one_k = 1024.0) {
std::string mantissa;
int64_t exponent;
ToExponentAndMantissa(value, threshold, precision, one_k, &mantissa,
&exponent);
return mantissa + ExponentToPrefix(exponent, false);
}
} // end namespace
void AppendHumanReadable(int n, std::string* str) {
std::stringstream ss;
// Round down to the nearest SI prefix.
ss << ToBinaryStringFullySpecified(n, 1.0, 0);
*str += ss.str();
}
std::string HumanReadableNumber(double n, double one_k) {
// 1.1 means that figures up to 1.1k should be shown with the next unit down;
// this softens edge effects.
// 1 means that we should show one decimal place of precision.
return ToBinaryStringFullySpecified(n, 1.1, 1, one_k);
}
std::string StrFormatImp(const char* msg, va_list args) {
// we might need a second shot at this, so pre-emptivly make a copy
va_list args_cp;
va_copy(args_cp, args);
// TODO(ericwf): use std::array for first attempt to avoid one memory
// allocation guess what the size might be
std::array<char, 256> local_buff;
std::size_t size = local_buff.size();
// 2015-10-08: vsnprintf is used instead of snd::vsnprintf due to a limitation
// in the android-ndk
auto ret = vsnprintf(local_buff.data(), size, msg, args_cp);
va_end(args_cp);
// handle empty expansion
if (ret == 0) return std::string{};
if (static_cast<std::size_t>(ret) < size)
return std::string(local_buff.data());
// we did not provide a long enough buffer on our first attempt.
// add 1 to size to account for null-byte in size cast to prevent overflow
size = static_cast<std::size_t>(ret) + 1;
auto buff_ptr = std::unique_ptr<char[]>(new char[size]);
// 2015-10-08: vsnprintf is used instead of snd::vsnprintf due to a limitation
// in the android-ndk
vsnprintf(buff_ptr.get(), size, msg, args);
return std::string(buff_ptr.get());
}
std::string StrFormat(const char* format, ...) {
va_list args;
va_start(args, format);
std::string tmp = StrFormatImp(format, args);
va_end(args);
return tmp;
}
std::vector<std::string> StrSplit(const std::string& str, char delim) {
if (str.empty()) return {};
std::vector<std::string> ret;
size_t first = 0;
size_t next = str.find(delim);
for (; next != std::string::npos;
first = next + 1, next = str.find(delim, first)) {
ret.push_back(str.substr(first, next - first));
}
ret.push_back(str.substr(first));
return ret;
}
#ifdef BENCHMARK_STL_ANDROID_GNUSTL
/*
* GNU STL in Android NDK lacks support for some C++11 functions, including
* stoul, stoi, stod. We reimplement them here using C functions strtoul,
* strtol, strtod. Note that reimplemented functions are in benchmark::
* namespace, not std:: namespace.
*/
unsigned long stoul(const std::string& str, size_t* pos, int base) {
/* Record previous errno */
const int oldErrno = errno;
errno = 0;
const char* strStart = str.c_str();
char* strEnd = const_cast<char*>(strStart);
const unsigned long result = strtoul(strStart, &strEnd, base);
const int strtoulErrno = errno;
/* Restore previous errno */
errno = oldErrno;
/* Check for errors and return */
if (strtoulErrno == ERANGE) {
throw std::out_of_range("stoul failed: " + str +
" is outside of range of unsigned long");
} else if (strEnd == strStart || strtoulErrno != 0) {
throw std::invalid_argument("stoul failed: " + str + " is not an integer");
}
if (pos != nullptr) {
*pos = static_cast<size_t>(strEnd - strStart);
}
return result;
}
int stoi(const std::string& str, size_t* pos, int base) {
/* Record previous errno */
const int oldErrno = errno;
errno = 0;
const char* strStart = str.c_str();
char* strEnd = const_cast<char*>(strStart);
const long result = strtol(strStart, &strEnd, base);
const int strtolErrno = errno;
/* Restore previous errno */
errno = oldErrno;
/* Check for errors and return */
if (strtolErrno == ERANGE || long(int(result)) != result) {
throw std::out_of_range("stoul failed: " + str +
" is outside of range of int");
} else if (strEnd == strStart || strtolErrno != 0) {
throw std::invalid_argument("stoul failed: " + str + " is not an integer");
}
if (pos != nullptr) {
*pos = static_cast<size_t>(strEnd - strStart);
}
return int(result);
}
double stod(const std::string& str, size_t* pos) {
/* Record previous errno */
const int oldErrno = errno;
errno = 0;
const char* strStart = str.c_str();
char* strEnd = const_cast<char*>(strStart);
const double result = strtod(strStart, &strEnd);
/* Restore previous errno */
const int strtodErrno = errno;
errno = oldErrno;
/* Check for errors and return */
if (strtodErrno == ERANGE) {
throw std::out_of_range("stoul failed: " + str +
" is outside of range of int");
} else if (strEnd == strStart || strtodErrno != 0) {
throw std::invalid_argument("stoul failed: " + str + " is not an integer");
}
if (pos != nullptr) {
*pos = static_cast<size_t>(strEnd - strStart);
}
return result;
}
#endif
} // end namespace benchmark
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