// Copyright (C) 2002-2011 Nikolaus Gebhardt // This file is part of the "Irrlicht Engine" and the "irrXML" project. // For conditions of distribution and use, see copyright notice in irrlicht.h and irrXML.h #ifndef __FAST_A_TO_F_H_INCLUDED__ #define __FAST_A_TO_F_H_INCLUDED__ #include "irrMath.h" namespace irr { namespace core { // we write [17] here instead of [] to work around a swig bug const float fast_atof_table[17] = { 0.f, 0.1f, 0.01f, 0.001f, 0.0001f, 0.00001f, 0.000001f, 0.0000001f, 0.00000001f, 0.000000001f, 0.0000000001f, 0.00000000001f, 0.000000000001f, 0.0000000000001f, 0.00000000000001f, 0.000000000000001f, 0.0000000000000001f }; //! Convert a simple string of base 10 digits into a signed 32 bit integer. //! \param[in] in: The string of digits to convert. Only a leading - or + followed //! by digits 0 to 9 will be considered. Parsing stops at the //! first non-digit. //! \param[out] out: (optional) If provided, it will be set to point at the first //! character not used in the calculation. //! \return The signed integer value of the digits. If the string specifies too many //! digits to encode in an s32 then +INT_MAX or -INT_MAX will be returned. inline s32 strtol10(const char* in, const char** out=0) { if(!in) return 0; bool negative = false; if('-' == *in) { negative = true; ++in; } else if('+' == *in) ++in; u32 unsignedValue = 0; while ( ( *in >= '0') && ( *in <= '9' )) { unsignedValue = ( unsignedValue * 10 ) + ( *in - '0' ); ++in; if(unsignedValue > (u32)INT_MAX) { unsignedValue = (u32)INT_MAX; break; } } if (out) *out = in; if(negative) return -((s32)unsignedValue); else return (s32)unsignedValue; } //! Converts a sequence of digits into a whole positive floating point value. //! Only digits 0 to 9 are parsed. Parsing stops at any other character, //! including sign characters or a decimal point. //! \param in: the sequence of digits to convert. //! \param out: (optional) will be set to point at the first non-converted character. //! \return The whole positive floating point representation of the digit sequence. inline f32 strtof10(const char* in, const char * * out = 0) { if(out) *out = in; if(!in) return 0.f; static const u32 MAX_SAFE_U32_VALUE = UINT_MAX / 10 - 10; f32 floatValue = 0.f; u32 intValue = 0; // Use integer arithmetic for as long as possible, for speed // and precision. while ( ( *in >= '0') && ( *in <= '9' ) ) { // If it looks like we're going to overflow, bail out // now and start using floating point. if(intValue >= MAX_SAFE_U32_VALUE) break; intValue = ( intValue * 10) + ( *in - '0' ); ++in; } floatValue = (f32)intValue; // If there are any digits left to parse, then we need to use // floating point arithmetic from here. while ( ( *in >= '0') && ( *in <= '9' ) ) { floatValue = ( floatValue * 10.f ) + (f32)( *in - '0' ); ++in; if(floatValue > FLT_MAX) // Just give up. break; } if(out) *out = in; return floatValue; } //! Provides a fast function for converting a string into a float. //! This is not guaranteed to be as accurate as atof(), but is //! approximately 6 to 8 times as fast. //! \param[in] in: The string to convert. //! \param[out] out: The resultant float will be written here. //! \return A pointer to the first character in the string that wasn't //! use to create the float value. inline const char* fast_atof_move( const char * in, f32 & out) { // Please run this regression test when making any modifications to this function: // https://sourceforge.net/tracker/download.php?group_id=74339&atid=540676&file_id=298968&aid=1865300 out = 0.f; if(!in) return 0; bool negative = false; if(*in == '-') { negative = true; ++in; } f32 value = strtof10 ( in, &in ); if (*in == '.') { ++in; const char * afterDecimal = in; f32 decimal = strtof10 ( in, &afterDecimal ); decimal *= fast_atof_table[afterDecimal - in]; value += decimal; in = afterDecimal; } if ('e' == *in || 'E' == *in) { ++in; // Assume that the exponent is a whole number. // strtol10() will deal with both + and - signs, // but cast to (f32) to prevent overflow at FLT_MAX value *= (f32)pow(10.0f, (f32)strtol10(in, &in)); } if(negative) out = -value; else out = value; return in; } //! Convert a string to a floating point number //! \param floatAsString: The string to convert. inline float fast_atof(const char* floatAsString) { float ret; fast_atof_move(floatAsString, ret); return ret; } } // end namespace core } // end namespace irr #endif