// Copyright (C) 2008-2012 Colin MacDonald // No rights reserved: this software is in the public domain. #include "testUtils.h" using namespace irr; using namespace core; //! This was an older Irrlicht implementation, tested against for reference. static inline u32 old_strtol10(const char* in, const char** out=0) { u32 value = 0; while ( ( *in >= '0') && ( *in <= '9' )) { value = ( value * 10 ) + ( *in - '0' ); ++in; } if (out) *out = in; return value; } //! This was an older Irrlicht implementation, tested against for reference. static inline const char* old_fast_atof_move( const char* c, float& out) { bool inv = false; const char *t; float f; if (*c=='-') { ++c; inv = true; } //f = (float)strtol(c, &t, 10); f = (float) old_strtol10 ( c, &c ); if (*c == '.') { ++c; //float pl = (float)strtol(c, &t, 10); float pl = (float) old_strtol10 ( c, &t ); pl *= fast_atof_table[t-c]; f += pl; c = t; if (*c == 'e') { ++c; //float exp = (float)strtol(c, &t, 10); bool einv = (*c=='-'); if (einv) ++c; float exp = (float)old_strtol10(c, &c); if (einv) exp *= -1.0f; f *= (float)pow(10.0f, exp); } } if (inv) f *= -1.0f; out = f; return c; } //! This was an older Irrlicht implementation, tested against for reference. static inline float old_fast_atof(const char* c) { float ret; old_fast_atof_move(c, ret); return ret; } static bool testCalculation_atof(const char * valueString) { const f32 newFastValue = fast_atof(valueString); const f32 oldFastValue = old_fast_atof(valueString); const f32 atofValue = (f32)atof(valueString); logTestString("\n String '%s'\n New fast %.40f\n Old fast %.40f\n atof %.40f\n", valueString, newFastValue, oldFastValue, atofValue); const f32 diffNew = fabs(newFastValue - atofValue) ; const f32 diffOld = fabs(newFastValue - atofValue) ; bool accurate = diffNew <= diffOld || equalsByUlp(diffNew, diffOld, 1); if(!accurate) logTestString("*** ERROR - less accurate than old method ***\n\n"); return accurate; } static bool testCalculation_strtol(const char * valueString) { const s32 newFastValue = strtol10(valueString); const s32 oldFastValue = old_strtol10(valueString); const s32 strtolValue = (s32)clamp(strtol(valueString, 0, 10), (long int)INT_MIN, (long int)INT_MAX); logTestString("\n String '%s'\n New fast %d\n Old fast %d\n strtol %d\n", valueString, newFastValue, oldFastValue, strtolValue); bool accurate = (newFastValue == strtolValue) || (oldFastValue != strtolValue); if (!accurate) logTestString("*** ERROR - wrong calculation in new method ***\n\n"); return accurate; } //! Test both the accuracy and speed of Irrlicht's fast_atof() implementation. bool test_fast_atof(void) { bool accurate = true; accurate &= testCalculation_atof("340282346638528859811704183484516925440.000000"); accurate &= testCalculation_atof("3.402823466e+38F"); accurate &= testCalculation_atof("3402823466e+29F"); accurate &= testCalculation_atof("-340282346638528859811704183484516925440.000000"); accurate &= testCalculation_atof("-3.402823466e+38F"); accurate &= testCalculation_atof("-3402823466e+29F"); accurate &= testCalculation_atof("34028234663852885981170418348451692544.000000"); accurate &= testCalculation_atof("3.402823466e+37F"); accurate &= testCalculation_atof("3402823466e+28F"); accurate &= testCalculation_atof("-34028234663852885981170418348451692544.000000"); accurate &= testCalculation_atof("-3.402823466e+37F"); accurate &= testCalculation_atof("-3402823466e+28F"); accurate &= testCalculation_atof(".00234567"); accurate &= testCalculation_atof("-.00234567"); accurate &= testCalculation_atof("0.00234567"); accurate &= testCalculation_atof("-0.00234567"); accurate &= testCalculation_atof("1.175494351e-38F"); accurate &= testCalculation_atof("1175494351e-47F"); accurate &= testCalculation_atof("1.175494351e-37F"); accurate &= testCalculation_atof("1.175494351e-36F"); accurate &= testCalculation_atof("-1.175494351e-36F"); accurate &= testCalculation_atof("123456.789"); accurate &= testCalculation_atof("-123456.789"); accurate &= testCalculation_atof("0000123456.789"); accurate &= testCalculation_atof("-0000123456.789"); accurate &= testCalculation_atof("-0.0690462109446526"); if (!accurate) { logTestString("Calculation is not accurate, so the speed is irrelevant\n"); return false; } #ifndef _DEBUG // it's only faster in release IrrlichtDevice* device = createDevice(video::EDT_NULL); if (!device) return false; ITimer* timer = device->getTimer(); const int ITERATIONS = 100000; int i; f32 value; u32 then = timer->getRealTime(); for(i = 0; i < ITERATIONS; ++i) value = (f32)atof("-340282346638528859811704183484516925440.000000"); const u32 atofTime = timer->getRealTime() - then; then += atofTime; for(i = 0; i < ITERATIONS; ++i) value = fast_atof("-340282346638528859811704183484516925440.000000"); const u32 fastAtofTime = timer->getRealTime() - then; then += fastAtofTime; for(i = 0; i < ITERATIONS; ++i) value = old_fast_atof("-340282346638528859811704183484516925440.000000"); const u32 oldFastAtofTime = timer->getRealTime() - then; logTestString("Speed test\n atof time = %d\n fast_atof Time = %d\nold fast_atof time = %d\n", atofTime, fastAtofTime, oldFastAtofTime); device->closeDevice(); device->run(); device->drop(); if(fastAtofTime > (1.2f*atofTime)) { logTestString("The fast method is slower than atof()\n"); return false; } #endif // #ifndef _DEBUG return true; } //! Test both the accuracy and speed of Irrlicht's strtol10() implementation. bool test_strtol(void) { bool accurate = true; accurate &= testCalculation_strtol("340282346638528859811704183484516925440"); accurate &= testCalculation_strtol("3402823466"); accurate &= testCalculation_strtol("3402823466e+29F"); accurate &= testCalculation_strtol("-340282346638528859811704183484516925440"); accurate &= testCalculation_strtol("-3402823466"); accurate &= testCalculation_strtol("-3402823466e+29F"); accurate &= testCalculation_strtol("402823466385288598117"); accurate &= testCalculation_strtol("402823466"); accurate &= testCalculation_strtol("402823466e+28F"); accurate &= testCalculation_strtol("402823466385288598117"); accurate &= testCalculation_strtol("-402823466"); accurate &= testCalculation_strtol("-402823466e+28F"); accurate &= testCalculation_strtol(".00234567"); accurate &= testCalculation_strtol("-234567"); accurate &= testCalculation_strtol("234567"); accurate &= testCalculation_strtol("-234567"); accurate &= testCalculation_strtol("1175494351"); accurate &= testCalculation_strtol("11754943512"); accurate &= testCalculation_strtol("11754943513"); accurate &= testCalculation_strtol("11754943514"); accurate &= testCalculation_strtol("-1175494351"); accurate &= testCalculation_strtol("123456789"); accurate &= testCalculation_strtol("-123456789"); accurate &= testCalculation_strtol("123456.789"); accurate &= testCalculation_strtol("-123456.789"); accurate &= testCalculation_strtol("-109446526"); if(!accurate) { logTestString("Calculation is not accurate, so the speed is irrelevant\n"); return false; } #ifndef _DEBUG // it's only faster in release IrrlichtDevice* device = createDevice(video::EDT_NULL); if (!device) return false; ITimer* timer = device->getTimer(); const int ITERATIONS = 1000000; int i; s32 value; u32 then = timer->getRealTime(); for(i = 0; i < ITERATIONS; ++i) value = strtol("-3402823466", 0, 10); const u32 strtolTime = timer->getRealTime() - then; then += strtolTime; for(i = 0; i < ITERATIONS; ++i) value = strtol10("-3402823466"); const u32 strtol10Time = timer->getRealTime() - then; then += strtol10Time; for(i = 0; i < ITERATIONS; ++i) value = old_strtol10("-3402823466"); const u32 oldstrtol10Time = timer->getRealTime() - then; logTestString("Speed test\n strtol time = %d\n strtol10 time = %d\nold strtol10 time = %d\n", strtolTime, strtol10Time, oldstrtol10Time); device->closeDevice(); device->run(); device->drop(); if (strtol10Time > (1.2f*strtolTime)) { logTestString("The fast method is slower than strtol()\n"); return false; } #endif // #ifndef _DEBUG return true; } bool fast_atof(void) { bool ok = true; ok &= test_fast_atof() ; ok &= test_strtol(); return ok; }