📄 test_bbands.c
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{ if( (int)tableTest[i].expectedNbElement > (int)history->nbBars ) { printf( "%s Failed Bad Parameter for Test #%d (%d,%d)\n", __FILE__, i, tableTest[i].expectedNbElement, history->nbBars ); return TA_TESTUTIL_TFRR_BAD_PARAM; } retValue = do_test( history, &tableTest[i] ); if( retValue != 0 ) { printf( "%s Failed Test #%d (Code=%d)\n", __FILE__, i, retValue ); return retValue; } } /* All test succeed. */ return TA_TEST_PASS; }/**** Local functions definitions. ****/static TA_RetCode rangeTestFunction( TA_Integer startIdx, TA_Integer endIdx, TA_Real *outputBuffer, TA_Integer *outputBufferInt, TA_Integer *outBegIdx, TA_Integer *outNbElement, TA_Integer *lookback, void *opaqueData, unsigned int outputNb, unsigned int *isOutputInteger ){ TA_RetCode retCode; TA_RangeTestParam *testParam; TA_Real *dummyBuffer1, *dummyBuffer2; TA_Real *out1, *out2, *out3; (void)outputBufferInt; *isOutputInteger = 0; testParam = (TA_RangeTestParam *)opaqueData; dummyBuffer1 = TA_Malloc( ((endIdx-startIdx)+1)*sizeof(TA_Real)); if( !dummyBuffer1 ) return TA_ALLOC_ERR; dummyBuffer2 = TA_Malloc( ((endIdx-startIdx)+1)*sizeof(TA_Real)); if( !dummyBuffer2 ) { TA_Free( dummyBuffer1 ); return TA_ALLOC_ERR; } switch( outputNb ) { case 0: out1 = outputBuffer; out2 = dummyBuffer1; out3 = dummyBuffer2; break; case 1: out2 = outputBuffer; out1 = dummyBuffer1; out3 = dummyBuffer2; break; case 2: out3 = outputBuffer; out2 = dummyBuffer1; out1 = dummyBuffer2; break; default: TA_Free( dummyBuffer1 ); TA_Free( dummyBuffer2 ); return TA_BAD_PARAM; } retCode = TA_BBANDS( startIdx, endIdx, testParam->close, testParam->test->optInTimePeriod, testParam->test->optInNbDevUp, testParam->test->optInNbDevDn, (TA_MAType)testParam->test->optInMethod_3, outBegIdx, outNbElement, out1, out2, out3 ); *lookback = TA_BBANDS_Lookback( testParam->test->optInTimePeriod, testParam->test->optInNbDevUp, testParam->test->optInNbDevDn, (TA_MAType)testParam->test->optInMethod_3 ); TA_Free( dummyBuffer1 ); TA_Free( dummyBuffer2 ); return retCode;}static ErrorNumber do_test( const TA_History *history, const TA_Test *test ){ TA_RetCode retCode; ErrorNumber errNb; TA_Integer outBegIdx; TA_Integer outNbElement; TA_RangeTestParam testParam; retCode = TA_SetUnstablePeriod( TA_FUNC_UNST_EMA, 0 ); if( retCode != TA_SUCCESS ) return TA_TEST_TFRR_SETUNSTABLE_PERIOD_FAIL; /* Set to NAN all the elements of the gBuffers. */ clearAllBuffers(); /* Build the input. */ setInputBuffer( 0, history->close, history->nbBars ); setInputBuffer( 1, history->close, history->nbBars ); setInputBuffer( 2, history->close, history->nbBars ); setInputBuffer( 3, history->close, history->nbBars ); TA_SetCompatibility( (TA_Compatibility)test->compatibility ); /* Make a simple first call. */ retCode = TA_BBANDS( test->startIdx, test->endIdx, gBuffer[0].in, test->optInTimePeriod, test->optInNbDevUp, test->optInNbDevDn, (TA_MAType)test->optInMethod_3, &outBegIdx, &outNbElement, gBuffer[0].out0, gBuffer[0].out1, gBuffer[0].out2 ); errNb = checkDataSame( gBuffer[0].in, history->close, history->nbBars ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[0].out0, 0 ); CHECK_EXPECTED_VALUE( gBuffer[0].out1, 1 ); CHECK_EXPECTED_VALUE( gBuffer[0].out2, 2 ); outBegIdx = outNbElement = 0; /* Make another call where the input and the output are the * same buffer. */ retCode = TA_BBANDS( test->startIdx, test->endIdx, gBuffer[1].in, test->optInTimePeriod, test->optInNbDevUp, test->optInNbDevDn, (TA_MAType)test->optInMethod_3, &outBegIdx, &outNbElement, gBuffer[1].in, gBuffer[1].out1, gBuffer[1].out2 ); /* 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[1].in ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[1].in, 0 ); CHECK_EXPECTED_VALUE( gBuffer[1].out1, 1 ); CHECK_EXPECTED_VALUE( gBuffer[1].out2, 2 ); outBegIdx = outNbElement = 0; /* Make another call where the input and the output are the * same buffer. */ retCode = TA_BBANDS( test->startIdx, test->endIdx, gBuffer[2].in, test->optInTimePeriod, test->optInNbDevUp, test->optInNbDevDn, (TA_MAType)test->optInMethod_3, &outBegIdx, &outNbElement, gBuffer[2].out1, gBuffer[2].in, gBuffer[2].out2 ); /* 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[1].out1, gBuffer[2].in ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[2].out1, 0 ); CHECK_EXPECTED_VALUE( gBuffer[2].in, 1 ); CHECK_EXPECTED_VALUE( gBuffer[2].out2, 2 ); outBegIdx = outNbElement = 0; /* Make another call where the input and the output are the * same buffer. */ retCode = TA_BBANDS( test->startIdx, test->endIdx, gBuffer[3].in, test->optInTimePeriod, test->optInNbDevUp, test->optInNbDevDn, (TA_MAType)test->optInMethod_3, &outBegIdx, &outNbElement, gBuffer[3].out0, gBuffer[3].out1, gBuffer[3].in ); /* 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[2].out2, gBuffer[3].in ); if( errNb != TA_TEST_PASS ) return errNb; CHECK_EXPECTED_VALUE( gBuffer[3].out0, 0 ); CHECK_EXPECTED_VALUE( gBuffer[3].out1, 1 ); CHECK_EXPECTED_VALUE( gBuffer[3].in, 2 ); /* Do a systematic test of most of the * possible startIdx/endIdx range. */ testParam.test = test; testParam.close = history->close; if( test->doRangeTestFlag ) { if( test->optInMethod_3 == TA_MAType_EMA ) { errNb = doRangeTest( rangeTestFunction, TA_FUNC_UNST_EMA, (void *)&testParam, 3, 0 ); } else { errNb = doRangeTest( rangeTestFunction, TA_FUNC_UNST_NONE, (void *)&testParam, 3, 0 ); } if( errNb != TA_TEST_PASS ) return errNb; } return TA_TEST_PASS;}⌨️ 快捷键说明
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