/*============================================================================ This C source file is part of TestFloat, Release 3, a package of programs for testing the correctness of floating-point arithmetic complying with the IEEE Standard for Floating-Point, by John R. Hauser. Copyright 2011, 2012, 2013, 2014 The Regents of the University of California (Regents). All Rights Reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: Redistributions of source code must retain the above copyright notice, this list of conditions, and the following two paragraphs of disclaimer. Redistributions in binary form must reproduce the above copyright notice, this list of conditions, and the following two paragraphs of disclaimer in the documentation and/or other materials provided with the distribution. Neither the name of the Regents nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. IN NO EVENT SHALL REGENTS BE LIABLE TO ANY PARTY FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, INCLUDING LOST PROFITS, ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF REGENTS HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. REGENTS SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE AND ACCOMPANYING DOCUMENTATION, IF ANY, PROVIDED HEREUNDER IS PROVIDED "AS IS". REGENTS HAS NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. =============================================================================*/ #include #include #include #include "platform.h" #include "uint128.h" #include "fail.h" #include "softfloat.h" #include "genCases.h" #include "writeHex.h" #include "genLoops.h" volatile bool genLoops_stop = false; bool genLoops_forever; bool genLoops_givenCount; uint_fast64_t genLoops_count; uint_fast8_t *genLoops_trueFlagsPtr; union ui32_f32 { uint32_t ui; float32_t f; }; union ui64_f64 { uint64_t ui; float64_t f; }; static void checkEnoughCases( void ) { if ( genLoops_givenCount && (genLoops_count < genCases_total) ) { if ( 2000000000 <= genCases_total ) { fail( "Too few cases; minimum is %lu%09lu", (unsigned long) (genCases_total / 1000000000), (unsigned long) (genCases_total % 1000000000) ); } else { fail( "Too few cases; minimum is %lu", (unsigned long) genCases_total ); } } } static void writeGenOutput_flags( uint_fast8_t flags ) { uint_fast8_t commonFlags; commonFlags = 0; if ( flags & softfloat_flag_invalid ) commonFlags |= 0x10; if ( flags & softfloat_flag_infinite ) commonFlags |= 0x08; if ( flags & softfloat_flag_overflow ) commonFlags |= 0x04; if ( flags & softfloat_flag_underflow ) commonFlags |= 0x02; if ( flags & softfloat_flag_inexact ) commonFlags |= 0x01; writeHex_ui8( commonFlags, '\n' ); } static bool writeGenOutputs_bool( bool z, uint_fast8_t flags ) { writeHex_bool( z, ' ' ); writeGenOutput_flags( flags ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) return true; } return false; } static bool writeGenOutputs_ui32( uint_fast32_t z, uint_fast8_t flags ) { writeHex_ui32( z, ' ' ); writeGenOutput_flags( flags ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) return true; } return false; } static bool writeGenOutputs_ui64( uint_fast64_t z, uint_fast8_t flags ) { writeHex_ui64( z, ' ' ); writeGenOutput_flags( flags ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) return true; } return false; } #ifdef EXTFLOAT80 static void writeHex_uiExtF80M( const extFloat80_t *aPtr, char sepChar ) { const struct extFloat80M *aSPtr; aSPtr = (const struct extFloat80M *) aPtr; writeHex_ui16( aSPtr->signExp, 0 ); writeHex_ui64( aSPtr->signif, sepChar ); } static bool writeGenOutputs_extF80M( const extFloat80_t *aPtr, uint_fast8_t flags ) { writeHex_uiExtF80M( aPtr, ' ' ); writeGenOutput_flags( flags ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) return true; } return false; } #endif #ifdef FLOAT128 static void writeHex_uiF128M( const float128_t *aPtr, char sepChar ) { const struct uint128 *uiAPtr; uiAPtr = (const struct uint128 *) aPtr; writeHex_ui64( uiAPtr->v64, 0 ); writeHex_ui64( uiAPtr->v0, sepChar ); } static bool writeGenOutputs_f128M( const float128_t *aPtr, uint_fast8_t flags ) { writeHex_uiF128M( aPtr, ' ' ); writeGenOutput_flags( flags ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) return true; } return false; } #endif void gen_a_ui32( void ) { genCases_ui32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui32_a_next(); writeHex_ui32( genCases_ui32_a, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_a_ui64( void ) { genCases_ui64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui64_a_next(); writeHex_ui64( genCases_ui64_a, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_a_i32( void ) { genCases_i32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i32_a_next(); writeHex_ui32( genCases_i32_a, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_a_i64( void ) { genCases_i64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i64_a_next(); writeHex_ui64( genCases_i64_a, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_a_f32( void ) { union ui32_f32 uA; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_ab_f32( void ) { union ui32_f32 u; genCases_f32_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_ab_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_b; writeHex_ui32( u.ui, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_abc_f32( void ) { union ui32_f32 u; genCases_f32_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_abc_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_b; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_c; writeHex_ui32( u.ui, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_a_f64( void ) { union ui64_f64 uA; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_ab_f64( void ) { union ui64_f64 u; genCases_f64_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_ab_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_b; writeHex_ui64( u.ui, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_abc_f64( void ) { union ui64_f64 u; genCases_f64_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_abc_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_b; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_c; writeHex_ui64( u.ui, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } #ifdef EXTFLOAT80 void gen_a_extF80( void ) { genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_ab_extF80( void ) { genCases_extF80_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_ab_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); writeHex_uiExtF80M( &genCases_extF80_b, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_abc_extF80( void ) { genCases_extF80_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_abc_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); writeHex_uiExtF80M( &genCases_extF80_b, ' ' ); writeHex_uiExtF80M( &genCases_extF80_c, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } #endif #ifdef FLOAT128 void gen_a_f128( void ) { genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_ab_f128( void ) { genCases_f128_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_ab_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); writeHex_uiF128M( &genCases_f128_b, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } void gen_abc_f128( void ) { genCases_f128_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_abc_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); writeHex_uiF128M( &genCases_f128_b, ' ' ); writeHex_uiF128M( &genCases_f128_c, '\n' ); if ( genLoops_givenCount ) { --genLoops_count; if ( ! genLoops_count ) break; } } } #endif void gen_a_ui32_z_f32( float32_t trueFunction( uint32_t ) ) { union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_ui32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui32_a_next(); writeHex_ui32( genCases_ui32_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_ui32_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } void gen_a_ui32_z_f64( float64_t trueFunction( uint32_t ) ) { union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_ui32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui32_a_next(); writeHex_ui32( genCases_ui32_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_ui32_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_ui32_z_extF80( void trueFunction( uint32_t, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_ui32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui32_a_next(); writeHex_ui32( genCases_ui32_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_ui32_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_ui32_z_f128( void trueFunction( uint32_t, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_ui32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui32_a_next(); writeHex_ui32( genCases_ui32_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_ui32_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_a_ui64_z_f32( float32_t trueFunction( uint64_t ) ) { union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_ui64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui64_a_next(); writeHex_ui64( genCases_ui64_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_ui64_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } void gen_a_ui64_z_f64( float64_t trueFunction( uint64_t ) ) { union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_ui64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui64_a_next(); writeHex_ui64( genCases_ui64_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_ui64_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_ui64_z_extF80( void trueFunction( uint64_t, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_ui64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui64_a_next(); writeHex_ui64( genCases_ui64_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_ui64_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_ui64_z_f128( void trueFunction( uint64_t, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_ui64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_ui64_a_next(); writeHex_ui64( genCases_ui64_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_ui64_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_a_i32_z_f32( float32_t trueFunction( int32_t ) ) { union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_i32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i32_a_next(); writeHex_ui32( genCases_i32_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_i32_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } void gen_a_i32_z_f64( float64_t trueFunction( int32_t ) ) { union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_i32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i32_a_next(); writeHex_ui32( genCases_i32_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_i32_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_i32_z_extF80( void trueFunction( int32_t, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_i32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i32_a_next(); writeHex_ui32( genCases_i32_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_i32_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_i32_z_f128( void trueFunction( int32_t, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_i32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i32_a_next(); writeHex_ui32( genCases_i32_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_i32_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_a_i64_z_f32( float32_t trueFunction( int64_t ) ) { union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_i64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i64_a_next(); writeHex_ui64( genCases_i64_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_i64_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } void gen_a_i64_z_f64( float64_t trueFunction( int64_t ) ) { union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_i64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i64_a_next(); writeHex_ui64( genCases_i64_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_i64_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_i64_z_extF80( void trueFunction( int64_t, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_i64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i64_a_next(); writeHex_ui64( genCases_i64_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_i64_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_i64_z_f128( void trueFunction( int64_t, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_i64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_i64_a_next(); writeHex_ui64( genCases_i64_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_i64_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_a_f32_z_ui32_rx( uint_fast32_t trueFunction( float32_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui32_f32 uA; uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_ui64_rx( uint_fast64_t trueFunction( float32_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui32_f32 uA; uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_i32_rx( int_fast32_t trueFunction( float32_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui32_f32 uA; int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_i64_rx( int_fast64_t trueFunction( float32_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui32_f32 uA; int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_ui32_x( uint_fast32_t trueFunction( float32_t, bool ), bool exact ) { union ui32_f32 uA; uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_ui64_x( uint_fast64_t trueFunction( float32_t, bool ), bool exact ) { union ui32_f32 uA; uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_i32_x( int_fast32_t trueFunction( float32_t, bool ), bool exact ) { union ui32_f32 uA; int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_i64_x( int_fast64_t trueFunction( float32_t, bool ), bool exact ) { union ui32_f32 uA; int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f32_z_f64( float64_t trueFunction( float32_t ) ) { union ui32_f32 uA; union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_f32_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_f32_z_extF80( void trueFunction( float32_t, extFloat80_t * ) ) { union ui32_f32 uA; extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_f32_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_f32_z_f128( void trueFunction( float32_t, float128_t * ) ) { union ui32_f32 uA; float128_t trueZ; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); uA.f = genCases_f32_a; writeHex_ui32( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_f32_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_az_f32( float32_t trueFunction( float32_t ) ) { union ui32_f32 u; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f32_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( u.ui, trueFlags ) ) break; } } void gen_az_f32_rx( float32_t trueFunction( float32_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui32_f32 u; uint_fast8_t trueFlags; genCases_f32_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_a_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f32_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( u.ui, trueFlags ) ) break; } } void gen_abz_f32( float32_t trueFunction( float32_t, float32_t ) ) { union ui32_f32 u; uint_fast8_t trueFlags; genCases_f32_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_ab_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_b; writeHex_ui32( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f32_a, genCases_f32_b ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( u.ui, trueFlags ) ) break; } } void gen_abcz_f32( float32_t trueFunction( float32_t, float32_t, float32_t ) ) { union ui32_f32 u; uint_fast8_t trueFlags; genCases_f32_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_abc_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_b; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_c; writeHex_ui32( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f32_a, genCases_f32_b, genCases_f32_c ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( u.ui, trueFlags ) ) break; } } void gen_ab_f32_z_bool( bool trueFunction( float32_t, float32_t ) ) { union ui32_f32 u; bool trueZ; uint_fast8_t trueFlags; genCases_f32_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f32_ab_next(); u.f = genCases_f32_a; writeHex_ui32( u.ui, ' ' ); u.f = genCases_f32_b; writeHex_ui32( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, genCases_f32_b ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_bool( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_ui32_rx( uint_fast32_t trueFunction( float64_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui64_f64 uA; uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_ui64_rx( uint_fast64_t trueFunction( float64_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui64_f64 uA; uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_i32_rx( int_fast32_t trueFunction( float64_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui64_f64 uA; int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_i64_rx( int_fast64_t trueFunction( float64_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui64_f64 uA; int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_ui32_x( uint_fast32_t trueFunction( float64_t, bool ), bool exact ) { union ui64_f64 uA; uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_ui64_x( uint_fast64_t trueFunction( float64_t, bool ), bool exact ) { union ui64_f64 uA; uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_i32_x( int_fast32_t trueFunction( float64_t, bool ), bool exact ) { union ui64_f64 uA; int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_i64_x( int_fast64_t trueFunction( float64_t, bool ), bool exact ) { union ui64_f64 uA; int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f64_z_f32( float32_t trueFunction( float64_t ) ) { union ui64_f64 uA; union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( genCases_f64_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_f64_z_extF80( void trueFunction( float64_t, extFloat80_t * ) ) { union ui64_f64 uA; extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_f64_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_f64_z_f128( void trueFunction( float64_t, float128_t * ) ) { union ui64_f64 uA; float128_t trueZ; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); uA.f = genCases_f64_a; writeHex_ui64( uA.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( genCases_f64_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_az_f64( float64_t trueFunction( float64_t ) ) { union ui64_f64 u; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f64_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( u.ui, trueFlags ) ) break; } } void gen_az_f64_rx( float64_t trueFunction( float64_t, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { union ui64_f64 u; uint_fast8_t trueFlags; genCases_f64_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_a_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f64_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( u.ui, trueFlags ) ) break; } } void gen_abz_f64( float64_t trueFunction( float64_t, float64_t ) ) { union ui64_f64 u; uint_fast8_t trueFlags; genCases_f64_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_ab_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_b; writeHex_ui64( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f64_a, genCases_f64_b ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( u.ui, trueFlags ) ) break; } } void gen_abcz_f64( float64_t trueFunction( float64_t, float64_t, float64_t ) ) { union ui64_f64 u; uint_fast8_t trueFlags; genCases_f64_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_abc_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_b; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_c; writeHex_ui64( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; u.f = trueFunction( genCases_f64_a, genCases_f64_b, genCases_f64_c ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( u.ui, trueFlags ) ) break; } } void gen_ab_f64_z_bool( bool trueFunction( float64_t, float64_t ) ) { union ui64_f64 u; bool trueZ; uint_fast8_t trueFlags; genCases_f64_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f64_ab_next(); u.f = genCases_f64_a; writeHex_ui64( u.ui, ' ' ); u.f = genCases_f64_b; writeHex_ui64( u.ui, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, genCases_f64_b ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_bool( trueZ, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_extF80_z_ui32_rx( uint_fast32_t trueFunction( const extFloat80_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_ui64_rx( uint_fast64_t trueFunction( const extFloat80_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_i32_rx( int_fast32_t trueFunction( const extFloat80_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_i64_rx( int_fast64_t trueFunction( const extFloat80_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_ui32_x( uint_fast32_t trueFunction( const extFloat80_t *, bool ), bool exact ) { uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_ui64_x( uint_fast64_t trueFunction( const extFloat80_t *, bool ), bool exact ) { uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_i32_x( int_fast32_t trueFunction( const extFloat80_t *, bool ), bool exact ) { int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_i64_x( int_fast64_t trueFunction( const extFloat80_t *, bool ), bool exact ) { int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_extF80_z_f32( float32_t trueFunction( const extFloat80_t * ) ) { union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( &genCases_extF80_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } void gen_a_extF80_z_f64( float64_t trueFunction( const extFloat80_t * ) ) { union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( &genCases_extF80_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef FLOAT128 void gen_a_extF80_z_f128( void trueFunction( const extFloat80_t *, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_extF80_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } #endif void gen_az_extF80( void trueFunction( const extFloat80_t *, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_extF80_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } void gen_az_extF80_rx( void trueFunction( const extFloat80_t *, uint_fast8_t, bool, extFloat80_t * ), uint_fast8_t roundingMode, bool exact ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_extF80_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_a_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_extF80_a, roundingMode, exact, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } void gen_abz_extF80( void trueFunction( const extFloat80_t *, const extFloat80_t *, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_extF80_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_ab_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); writeHex_uiExtF80M( &genCases_extF80_b, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_extF80_a, &genCases_extF80_b, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } void gen_abcz_extF80( void trueFunction( const extFloat80_t *, const extFloat80_t *, const extFloat80_t *, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_extF80_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_abc_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); writeHex_uiExtF80M( &genCases_extF80_b, ' ' ); writeHex_uiExtF80M( &genCases_extF80_c, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_extF80_a, &genCases_extF80_b, &genCases_extF80_c, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } void gen_ab_extF80_z_bool( bool trueFunction( const extFloat80_t *, const extFloat80_t * ) ) { bool trueZ; uint_fast8_t trueFlags; genCases_extF80_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_extF80_ab_next(); writeHex_uiExtF80M( &genCases_extF80_a, ' ' ); writeHex_uiExtF80M( &genCases_extF80_b, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_extF80_a, &genCases_extF80_b ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_bool( trueZ, trueFlags ) ) break; } } #endif #ifdef FLOAT128 void gen_a_f128_z_ui32_rx( uint_fast32_t trueFunction( const float128_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_ui64_rx( uint_fast64_t trueFunction( const float128_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_i32_rx( int_fast32_t trueFunction( const float128_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_i64_rx( int_fast64_t trueFunction( const float128_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, roundingMode, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_ui32_x( uint_fast32_t trueFunction( const float128_t *, bool ), bool exact ) { uint_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_ui64_x( uint_fast64_t trueFunction( const float128_t *, bool ), bool exact ) { uint_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_i32_x( int_fast32_t trueFunction( const float128_t *, bool ), bool exact ) { int_fast32_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_i64_x( int_fast64_t trueFunction( const float128_t *, bool ), bool exact ) { int_fast64_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, exact ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( trueZ, trueFlags ) ) break; } } void gen_a_f128_z_f32( float32_t trueFunction( const float128_t * ) ) { union ui32_f32 uTrueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( &genCases_f128_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui32( uTrueZ.ui, trueFlags ) ) break; } } void gen_a_f128_z_f64( float64_t trueFunction( const float128_t * ) ) { union ui64_f64 uTrueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; uTrueZ.f = trueFunction( &genCases_f128_a ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_ui64( uTrueZ.ui, trueFlags ) ) break; } } #ifdef EXTFLOAT80 void gen_a_f128_z_extF80( void trueFunction( const float128_t *, extFloat80_t * ) ) { extFloat80_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_f128_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_extF80M( &trueZ, trueFlags ) ) break; } } #endif void gen_az_f128( void trueFunction( const float128_t *, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_f128_a, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } void gen_az_f128_rx( void trueFunction( const float128_t *, uint_fast8_t, bool, float128_t * ), uint_fast8_t roundingMode, bool exact ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_f128_a_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_a_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_f128_a, roundingMode, exact, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } void gen_abz_f128( void trueFunction( const float128_t *, const float128_t *, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_f128_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_ab_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); writeHex_uiF128M( &genCases_f128_b, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_f128_a, &genCases_f128_b, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } void gen_abcz_f128( void trueFunction( const float128_t *, const float128_t *, const float128_t *, float128_t * ) ) { float128_t trueZ; uint_fast8_t trueFlags; genCases_f128_abc_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_abc_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); writeHex_uiF128M( &genCases_f128_b, ' ' ); writeHex_uiF128M( &genCases_f128_c, ' ' ); *genLoops_trueFlagsPtr = 0; trueFunction( &genCases_f128_a, &genCases_f128_b, &genCases_f128_c, &trueZ ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_f128M( &trueZ, trueFlags ) ) break; } } void gen_ab_f128_z_bool( bool trueFunction( const float128_t *, const float128_t * ) ) { bool trueZ; uint_fast8_t trueFlags; genCases_f128_ab_init(); checkEnoughCases(); while ( ! genLoops_stop && (! genCases_done || genLoops_forever) ) { genCases_f128_ab_next(); writeHex_uiF128M( &genCases_f128_a, ' ' ); writeHex_uiF128M( &genCases_f128_b, ' ' ); *genLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, &genCases_f128_b ); trueFlags = *genLoops_trueFlagsPtr; if ( writeGenOutputs_bool( trueZ, trueFlags ) ) break; } } #endif