📄 test_per_hlcv.c
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gBuffer[1].in, gBuffer[2].in, history->volume, 5, 2, &outBegIdx, &outNbElement, gBuffer[0].out0 ); break; default: retCode = TA_INTERNAL_ERROR(133); } /* Check that the input were preserved. */ errNb = checkDataSame( gBuffer[0].in, history->high,history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; errNb = checkDataSame( gBuffer[1].in, history->low, history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; errNb = checkDataSame( gBuffer[2].in, history->close,history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[0].out0, 0 ); outBegIdx = outNbElement = 0; /* Make another call where the input and the output are the * same buffer. */ switch( test->theFunction ) { case TA_MFI_TEST: retCode = TA_MFI( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, test->optInTimePeriod, &outBegIdx, &outNbElement, gBuffer[0].in ); break; case TA_AD_TEST: retCode = TA_AD( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, &outBegIdx, &outNbElement, gBuffer[0].in ); break; case TA_ADOSC_3_10_TEST: retCode = TA_ADOSC( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, 3, 10, &outBegIdx, &outNbElement, gBuffer[0].in ); break; case TA_ADOSC_5_2_TEST: retCode = TA_ADOSC( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, 5, 2, &outBegIdx, &outNbElement, gBuffer[0].in ); break; default: retCode = TA_INTERNAL_ERROR(134); } /* Check that the input were preserved. */ errNb = checkDataSame( gBuffer[1].in, history->low, history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; errNb = checkDataSame( gBuffer[2].in, history->close,history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; /* The previous call should have the same output as this call. * * checkSameContent verify that all value different than NAN in * the first parameter is identical in the second parameter. */ errNb = checkSameContent( gBuffer[0].out0, gBuffer[0].in ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[0].in, 0 ); setInputBuffer( 0, history->high, history->nbBars ); /* Make another call where the input and the output are the * same buffer. */ switch( test->theFunction ) { case TA_MFI_TEST: retCode = TA_MFI( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, test->optInTimePeriod, &outBegIdx, &outNbElement, gBuffer[1].in ); break; case TA_AD_TEST: retCode = TA_AD( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, &outBegIdx, &outNbElement, gBuffer[1].in ); break; case TA_ADOSC_3_10_TEST: retCode = TA_ADOSC( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, 3, 10, &outBegIdx, &outNbElement, gBuffer[1].in ); break; case TA_ADOSC_5_2_TEST: retCode = TA_ADOSC( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, 5, 2, &outBegIdx, &outNbElement, gBuffer[1].in ); break; default: retCode = TA_INTERNAL_ERROR(135); } /* Check that the input were preserved. */ errNb = checkDataSame( gBuffer[0].in, history->high,history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; errNb = checkDataSame( gBuffer[2].in, history->close,history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; /* The previous call to TA_MA should have the same output * as this call. * * checkSameContent verify that all value different than NAN in * the first parameter is identical in the second parameter. */ errNb = checkSameContent( gBuffer[0].out0, gBuffer[1].in ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[1].in, 0 ); setInputBuffer( 1, history->low, history->nbBars ); /* Make another call where the input and the output are the * same buffer. */ switch( test->theFunction ) { case TA_MFI_TEST: retCode = TA_MFI( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, test->optInTimePeriod, &outBegIdx, &outNbElement, gBuffer[2].in ); break; case TA_AD_TEST: retCode = TA_AD( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, &outBegIdx, &outNbElement, gBuffer[2].in ); break; case TA_ADOSC_3_10_TEST: retCode = TA_ADOSC( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, 3, 10, &outBegIdx, &outNbElement, gBuffer[2].in ); break; case TA_ADOSC_5_2_TEST: retCode = TA_ADOSC( test->startIdx, test->endIdx, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, 5, 2, &outBegIdx, &outNbElement, gBuffer[2].in ); break; default: retCode = TA_INTERNAL_ERROR(136); } /* Check that the input were preserved. */ errNb = checkDataSame( gBuffer[0].in, history->high,history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; errNb = checkDataSame( gBuffer[1].in, history->low, history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; /* The previous call should have the same output as this call. * * checkSameContent verify that all value different than NAN in * the first parameter is identical in the second parameter. */ errNb = checkSameContent( gBuffer[0].out0, gBuffer[2].in ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[2].in, 0 ); setInputBuffer( 2, history->close, history->nbBars ); if( test->doRangeTestFlag ) { /* Do a systematic test of most of the * possible startIdx/endIdx range. */ testParam.test = test; testParam.high = history->high; testParam.low = history->low; testParam.close = history->close; testParam.volume = history->volume; switch( test->theFunction ) { case TA_MFI_TEST: errNb = doRangeTest( rangeTestFunction, TA_FUNC_UNST_MFI, (void *)&testParam, 1, 0 ); if( errNb != TA_TEST_PASS ) return errNb; break; case TA_AD_TEST: errNb = doRangeTest( rangeTestFunction, TA_FUNC_UNST_NONE, (void *)&testParam, 1, TA_DO_NOT_COMPARE ); if( errNb != TA_TEST_PASS ) return errNb; break; case TA_ADOSC_3_10_TEST: case TA_ADOSC_5_2_TEST: errNb = doRangeTest( rangeTestFunction, TA_FUNC_UNST_EMA, (void *)&testParam, 1, TA_DO_NOT_COMPARE ); if( errNb != TA_TEST_PASS ) return errNb; break; default: break; } } /* Check for fix #1359452 - AD RAnge not working as expected. */ if( test->theFunction == TA_AD_TEST ) { gBuffer[0].out0[0] = -1.0; gBuffer[0].out0[1] = -1.0; retCode = TA_AD( 0, 0, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, &outBegIdx, &outNbElement, &gBuffer[0].out0[0] ); if( retCode != TA_SUCCESS ) { printf( "Failed AD call for fix #1359452 [%d]\n", retCode ); return TA_TEST_FAIL_BUG1359452_1; } if( gBuffer[0].out0[0] == -1.0 ) { printf( "Failed AD call for fix #1359452 out0[0] == -1\n" ); return TA_TEST_FAIL_BUG1359452_2; } retCode = TA_AD( 1, 1, gBuffer[0].in, gBuffer[1].in, gBuffer[2].in, history->volume, &outBegIdx, &outNbElement, &gBuffer[0].out0[1] ); if( retCode != TA_SUCCESS ) { printf( "Failed AD call for fix #1359452 [%d]\n", retCode ); return TA_TEST_FAIL_BUG1359452_3; } if( gBuffer[0].out0[1] == -1.0 ) { printf( "Failed AD call for fix #1359452 out0[1] == -1\n" ); return TA_TEST_FAIL_BUG1359452_4; } /* The two values are to be different. */ if( gBuffer[0].out0[1] == gBuffer[0].out0[0] ) { printf( "Failed AD logic for fix #1359452\n" ); return TA_TEST_FAIL_BUG1359452_5; } } return TA_TEST_PASS;}⌨️ 快捷键说明
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