void test_a_f64_z_i64_rx( int_fast64_t trueFunction( float64_t, int_fast8_t, bool ), int_fast64_t testFunction( float64_t, int_fast8_t, bool ), int_fast8_t roundingMode, bool exact ) { int count; int_fast64_t trueZ; int_fast8_t trueFlags; int_fast64_t testZ; int_fast8_t testFlags; genCases_f64_a_init(); genCases_writeTestsTotal( testLoops_forever ); verCases_errorCount = 0; verCases_tenThousandsCount = 0; count = 10000; while ( ! genCases_done || testLoops_forever ) { genCases_f64_a_next(); *testLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f64_a, roundingMode, exact ); trueFlags = *testLoops_trueFlagsPtr; testLoops_testFlagsFunction(); testZ = testFunction( genCases_f64_a, roundingMode, exact ); testFlags = testLoops_testFlagsFunction(); --count; if ( ! count ) { verCases_perTenThousand(); count = 10000; } if ( ( trueZ != testZ ) || ( trueFlags != testFlags ) ) { if ( ! verCases_checkNaNs && f64_isSignalingNaN( genCases_f64_a ) ) { trueFlags |= softfloat_flag_invalid; } if ( ( trueZ != INT64_C( 0x7FFFFFFFFFFFFFFF ) ) || ( ( testZ != INT64_C( 0x7FFFFFFFFFFFFFFF ) ) && ( testZ != - INT64_C( 0x7FFFFFFFFFFFFFFF ) - 1 ) ) || ( trueFlags != softfloat_flag_invalid ) || ( testFlags != softfloat_flag_invalid ) ) { ++verCases_errorCount; verCases_writeErrorFound( 10000 - count ); writeCase_a_f64( genCases_f64_a, " " ); writeCase_z_i64( trueZ, trueFlags, testZ, testFlags ); if ( verCases_errorCount == verCases_maxErrorCount ) break; } } } verCases_writeTestsPerformed( 10000 - count ); }
void test_a_f128_z_i64_rx( int_fast64_t trueFunction( const float128_t *, uint_fast8_t, bool ), int_fast64_t subjFunction( const float128_t *, uint_fast8_t, bool ), uint_fast8_t roundingMode, bool exact ) { int count; int_fast64_t trueZ; uint_fast8_t trueFlags; int_fast64_t subjZ; uint_fast8_t subjFlags; genCases_f128_a_init(); genCases_writeTestsTotal( testLoops_forever ); verCases_errorCount = 0; verCases_tenThousandsCount = 0; count = 10000; while ( ! genCases_done || testLoops_forever ) { genCases_f128_a_next(); *testLoops_trueFlagsPtr = 0; trueZ = trueFunction( &genCases_f128_a, roundingMode, exact ); trueFlags = *testLoops_trueFlagsPtr; testLoops_subjFlagsFunction(); subjZ = subjFunction( &genCases_f128_a, roundingMode, exact ); subjFlags = testLoops_subjFlagsFunction(); --count; if ( ! count ) { verCases_perTenThousand(); count = 10000; } if ( (trueZ != subjZ) || (trueFlags != subjFlags) ) { if ( ! verCases_checkNaNs && f128M_isSignalingNaN( &genCases_f128_a ) ) { trueFlags |= softfloat_flag_invalid; } if ( (trueZ != 0x7FFFFFFF) || ((subjZ != 0x7FFFFFFF) && (subjZ != -0x7FFFFFFF - 1)) || (trueFlags != softfloat_flag_invalid) || (subjFlags != softfloat_flag_invalid) ) { ++verCases_errorCount; verCases_writeErrorFound( 10000 - count ); writeCase_a_f128M( &genCases_f128_a, "\n\t" ); writeCase_z_i64( trueZ, trueFlags, subjZ, subjFlags ); if ( verCases_errorCount == verCases_maxErrorCount ) break; } } } verCases_writeTestsPerformed( 10000 - count ); }
void test_a_f32_z_i64_x( int_fast64_t trueFunction( float32_t, bool ), int_fast64_t subjFunction( float32_t, bool ), bool exact ) { int count; int_fast64_t trueZ; uint_fast8_t trueFlags; int_fast64_t subjZ; uint_fast8_t subjFlags; genCases_f32_a_init(); genCases_writeTestsTotal( testLoops_forever ); verCases_errorCount = 0; verCases_tenThousandsCount = 0; count = 10000; while ( ! genCases_done || testLoops_forever ) { genCases_f32_a_next(); *testLoops_trueFlagsPtr = 0; trueZ = trueFunction( genCases_f32_a, exact ); trueFlags = *testLoops_trueFlagsPtr; testLoops_subjFlagsFunction(); subjZ = subjFunction( genCases_f32_a, exact ); subjFlags = testLoops_subjFlagsFunction(); --count; if ( ! count ) { verCases_perTenThousand(); count = 10000; } if ( (trueZ != subjZ) || (trueFlags != subjFlags) ) { if ( verCases_checkInvInts || (trueFlags != softfloat_flag_invalid) || (subjFlags != softfloat_flag_invalid) || ((subjZ != INT64_C( 0x7FFFFFFFFFFFFFFF )) && (subjZ != -INT64_C( 0x7FFFFFFFFFFFFFFF ) - 1) && (! f32_isNaN( genCases_f32_a ) || (subjZ != 0))) ) { ++verCases_errorCount; verCases_writeErrorFound( 10000 - count ); writeCase_a_f32( genCases_f32_a, " " ); writeCase_z_i64( trueZ, trueFlags, subjZ, subjFlags ); if ( verCases_errorCount == verCases_maxErrorCount ) break; } } } verCases_writeTestsPerformed( 10000 - count ); }