tests/fortran.cpp - external/github.com/fastfloat/fast_float - Git at Google

 /*
  * Exercise the Fortran conversion option.
  */
 #include <cstdlib>
 #include <iostream>
 #include <vector>

 #define FASTFLOAT_ALLOWS_LEADING_PLUS

 #include "fast_float/fast_float.h"


 int main_readme() {
     const std::string input =  "1d+4";
     double result;
     fast_float::parse_options options{ fast_float::chars_format::fortran };
     auto answer = fast_float::from_chars_advanced(input.data(), input.data()+input.size(), result, options);
     if((answer.ec != std::errc()) || ((result != 10000))) { std::cerr << "parsing failure\n" << result <<"\n"; return EXIT_FAILURE; }
     std::cout << "parsed the number " << result << std::endl;
     return EXIT_SUCCESS;
 }

 int main ()
 {
   const std::vector<double> expected{ 10000, 1000, 100,  10, 1,    .1, .01, .001, .0001 };
   const std::vector<std::string> fmt1{ "1+4", "1+3", "1+2", "1+1", "1+0", "1-1", "1-2",
     "1-3", "1-4" };
   const std::vector<std::string> fmt2{ "1d+4", "1d+3", "1d+2", "1d+1", "1d+0", "1d-1",
     "1d-2", "1d-3", "1d-4" };
   const std::vector<std::string> fmt3{ "+1+4", "+1+3", "+1+2", "+1+1", "+1+0", "+1-1",
     "+1-2", "+1-3", "+1-4" };
   const fast_float::parse_options options{ fast_float::chars_format::fortran };

   for ( auto const& f : fmt1 ) {
     auto d{ std::distance( &fmt1[0], &f ) };
     double result;
     auto answer{ fast_float::from_chars_advanced( f.data(), f.data()+f.size(), result,
                                                   options ) };
     if ( answer.ec != std::errc() || result != expected[std::size_t(d)] ) {
       std::cerr << "parsing failure on " << f << std::endl;
       return EXIT_FAILURE;
     }
   }

   for ( auto const& f : fmt2 ) {
     auto d{ std::distance( &fmt2[0], &f ) };
     double result;
     auto answer{ fast_float::from_chars_advanced( f.data(), f.data()+f.size(), result,
                                                   options ) };
     if ( answer.ec != std::errc() || result != expected[std::size_t(d)] ) {
       std::cerr << "parsing failure on " << f << std::endl;
       return EXIT_FAILURE;
     }
   }

   for ( auto const& f : fmt3 ) {
     auto d{ std::distance( &fmt3[0], &f ) };
     double result;
     auto answer{ fast_float::from_chars_advanced( f.data(), f.data()+f.size(), result,
                                                   options ) };
     if ( answer.ec != std::errc() || result != expected[std::size_t(d)] ) {
       std::cerr << "parsing failure on " << f << std::endl;
       return EXIT_FAILURE;
     }
   }
   if(main_readme() != EXIT_SUCCESS) { return EXIT_FAILURE; }

   return EXIT_SUCCESS;
 }
	/*
	* Exercise the Fortran conversion option.
	*/
	#include <cstdlib>
	#include <iostream>
	#include <vector>

	#define FASTFLOAT_ALLOWS_LEADING_PLUS

	#include "fast_float/fast_float.h"


	int main_readme() {
	const std::string input = "1d+4";
	double result;
	fast_float::parse_options options{ fast_float::chars_format::fortran };
	auto answer = fast_float::from_chars_advanced(input.data(), input.data()+input.size(), result, options);
	if((answer.ec != std::errc()) \|\| ((result != 10000))) { std::cerr << "parsing failure\n" << result <<"\n"; return EXIT_FAILURE; }
	std::cout << "parsed the number " << result << std::endl;
	return EXIT_SUCCESS;
	}

	int main ()
	{
	const std::vector<double> expected{ 10000, 1000, 100, 10, 1, .1, .01, .001, .0001 };
	const std::vector<std::string> fmt1{ "1+4", "1+3", "1+2", "1+1", "1+0", "1-1", "1-2",
	"1-3", "1-4" };
	const std::vector<std::string> fmt2{ "1d+4", "1d+3", "1d+2", "1d+1", "1d+0", "1d-1",
	"1d-2", "1d-3", "1d-4" };
	const std::vector<std::string> fmt3{ "+1+4", "+1+3", "+1+2", "+1+1", "+1+0", "+1-1",
	"+1-2", "+1-3", "+1-4" };
	const fast_float::parse_options options{ fast_float::chars_format::fortran };

	for ( auto const& f : fmt1 ) {
	auto d{ std::distance( &fmt1[0], &f ) };
	double result;
	auto answer{ fast_float::from_chars_advanced( f.data(), f.data()+f.size(), result,
	options ) };
	if ( answer.ec != std::errc() \|\| result != expected[std::size_t(d)] ) {
	std::cerr << "parsing failure on " << f << std::endl;
	return EXIT_FAILURE;
	}
	}

	for ( auto const& f : fmt2 ) {
	auto d{ std::distance( &fmt2[0], &f ) };
	double result;
	auto answer{ fast_float::from_chars_advanced( f.data(), f.data()+f.size(), result,
	options ) };
	if ( answer.ec != std::errc() \|\| result != expected[std::size_t(d)] ) {
	std::cerr << "parsing failure on " << f << std::endl;
	return EXIT_FAILURE;
	}
	}

	for ( auto const& f : fmt3 ) {
	auto d{ std::distance( &fmt3[0], &f ) };
	double result;
	auto answer{ fast_float::from_chars_advanced( f.data(), f.data()+f.size(), result,
	options ) };
	if ( answer.ec != std::errc() \|\| result != expected[std::size_t(d)] ) {
	std::cerr << "parsing failure on " << f << std::endl;
	return EXIT_FAILURE;
	}
	}
	if(main_readme() != EXIT_SUCCESS) { return EXIT_FAILURE; }

	return EXIT_SUCCESS;
	}