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leak_test/ADLINK/PCIS-DASK/Samples/9524/AI_ContDbfDmaFileExtD/ai.c

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/*----------------------------------------------------------------------------*/
/* Date: 2007/03/10 */
/* Company: ADLINK Technology Inc. */
/* */
/* This sample setups two system buffer to perform infinitely continuous AI */
/* read. */
/* Step1. Setup two buffers and configure AI */
/* Step2. Start AI */
/* Step3. Wait Buffer 0 Full */
/* Step4. You can process the data of buffer while buffer 0 is full, since */
/* the DMA chip accesses buffer 1 at that time. Note that you should */
/* complete your data process before the next buffer (Buffer 1) is */
/* full(Since Buffer 1 is full, the DMA chip accesses Buffer 0). */
/* Step5. Wait Buffer 1 Full */
/* Step6. You can process the data of buffer while buffer 1 is full, since */
/* the DMA chip accesses buffer 0 at that time. Note that you should */
/* complete your data process before the next buffer (Buffer 0) is */
/* full(Since Buffer 0 is full, the DMA chip accesses Buffer 1). */
/* Step7. repeat Step3 to Step6 */
/*----------------------------------------------------------------------------*/
#include <windows.h>
#include <stdio.h>
#include <stdlib.h>
#include <conio.h>
#include "dask.h"
#define READCOUNT 60
int main(int argc, char **argv)
{
I16 card, err;
U16 card_num;
FILE *fin;
U8 *FileName = "acq";
U32 ReadCount = READCOUNT;
U32 Buffer1[READCOUNT];
U16 BufID1;
U32 Buffer2[READCOUNT];
U16 BufID2;
U16 Group;
U16 XMode = P9524_AI_XFER_DMA;
U16 ADC_Range;
U16 ADC_SampRate;
U16 ConfigCtrl;
U16 TrigCtrl;
U32 dwTrigValue = 0;
U16 Channel;
BOOLEAN Stopped = 0;
BOOLEAN HalfReady = 0;
U32 AccessCnt;
int viewidx = 0;
U16 overrunFlag = 0;
F64 ActualRate;
F64 voltageArray[READCOUNT];
memset(Buffer1, '\0', ReadCount*4);
memset(Buffer2, '\0', ReadCount*4);
memset(voltageArray, '\0', ReadCount*8);
if(!(fin=fopen("acq.dat", "w"))){
printf("fopen error\n");
exit(1);
}
printf("This sample performs infinite AI continuous read with External Digital trigger.\n");
printf("Card Number? ");
scanf(" %hd", &card_num);
card = Register_Card(PCI_9524, card_num);
if(card<0){
printf("Register_Card Error: %d\n", card);
fclose(fin);
exit(1);
}
printf("Load Cell Channel[0] or General Purpose Channel[1]? [0]or[1] ");
scanf(" %hd", &Group);
if(Group>1){
printf("invalid group\n");
Release_Card(card);
fclose(fin);
exit(1);
}
err = AI_AsyncDblBufferMode(card, 1);
if(err<0){
printf("AI_AsyncDblBufferMode Error: %d\n", err);
Release_Card(card);
fclose(fin);
exit(1);
}
/*In Double Buffer Mode, you should setup two buffers*/
err = AI_ContBufferSetup(card, Buffer1, ReadCount, &BufID1);
if(err<0){
printf("AI_ContBufferSetup1 Error: %d\n", err);
Release_Card(card);
fclose(fin);
exit(1);
}
err = AI_ContBufferSetup(card, Buffer2, ReadCount, &BufID2);
if(err<0){
printf("AI_ContBufferSetup2 Error: %d\n", err);
Release_Card(card);
fclose(fin);
exit(1);
}
if(!Group){
/*Load Cell Group*/
/*Set DSP - it is necessary fot Load Cell Group*/
U16 DFStage = 2;
U32 SPKRejThreshold = 16;
Channel = P9524_AI_LC_CH0;
ConfigCtrl = P9524_VEX_Range_10V|P9524_VEX_Sence_Remote|P9524_AI_AZMode|P9524_AI_BufAutoReset;
TrigCtrl = P9524_TRGMOD_POST|P9524_TRGSRC_ExtD;
ADC_Range = 0;
ADC_SampRate = P9524_ADC_60_SPS;
err = AI_9524_SetDSP(card, Channel, P9524_SPIKE_REJ_ENABLE, DFStage, SPKRejThreshold);
if(err<0){
printf("AI_9524_SetDSP Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
err = AI_9524_Config(card, Group, XMode, ConfigCtrl, TrigCtrl, dwTrigValue);
if(err<0){
printf("AI_9524_Config Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(0);
}
printf("\nPress any key to start AI Acquisition\n");
getch();
printf("\nWait External Digital Rising Trigger...\n");
printf("You can press any key to stop...\n");
err = AI_ContReadChannelToFile(card, Channel, ADC_Range, FileName, ReadCount, (F64)ADC_SampRate, ASYNCH_OP);
if(err<0){
printf("AI_ContReadChannelToFile Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
/*Process Double Buffer Mode*/
do{
err = AI_AsyncDblBufferHalfReady(card, &HalfReady, &Stopped);
if(err<0){
printf("AI_AsyncCheck Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
if(HalfReady){
if(!viewidx){
printf("Buffer 1 HalfReady, Process the acquired data of Buffer 1\n");
/*Process buffer 1 data*/
err = AI_AsyncDblBufferToFile(card);
if(err<0){
printf("AI_AsyncDblBufferToFile1 Error: %d\n", err);
}
viewidx = 1;
/*Tell the driver you complete the buffer 1 process*/
err = AI_AsyncDblBufferHandled(card);
if(err<0){
printf("AI_AsyncDblBufferHandled1 Error: %d\n", err);
}
}
else{
printf("Buffer 2 HalfReady, Process the acquired data of Buffer 2\n");
/*Process buffer 2 data*/
err = AI_AsyncDblBufferToFile(card);
if(err<0){
printf("AI_AsyncDblBufferToFile2 Error: %d\n", err);
}
viewidx = 0;
/*Tell the driver you complete the buffer 2 process*/
err = AI_AsyncDblBufferHandled(card);
if(err<0){
printf("AI_AsyncDblBufferHandled2 Error: %d\n", err);
}
}
// This function can check if the overrun occurs. If the
// function is called, AI_AsyncDblBufferHandled() should
// be called to let driver to know user buffer is processed
// completely
err = AI_AsyncDblBufferOverrun(card, 0, &overrunFlag);
if(err<0){
printf("AI_AsyncDblBufferOverrun Error: %d\n", err);
}
if(overrunFlag){
printf("OVERRUN: %d, Lose Some data\n", overrunFlag);
AI_AsyncDblBufferOverrun(card, 1, &overrunFlag);
}
}
}while((!Stopped)&&(!kbhit())); getch();
GetActualRate_9524(card, Group, (F64)ADC_SampRate, &ActualRate);
printf("\n\nLoad Cell Channel 0 Acquisition Done in %f Actual Rate...\n", ActualRate);
printf("The acquired data stored in %s.dat\n", FileName);
/*Clear AI setting while existing*/
err = AI_AsyncClear(card, &AccessCnt);
if(err<0){
printf("AI_AsyncClear Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
}
else{ //General Purpose Group
/*General Purpose Group*/
Channel = P9524_AI_GP_CH0;
ConfigCtrl = P9524_AI_BufAutoReset;
TrigCtrl = P9524_TRGMOD_POST|P9524_TRGSRC_ExtD|P9524_AI_TrgNegative;
ADC_Range = AD_B_10_V;
ADC_SampRate = P9524_ADC_60_SPS;
err = AI_9524_Config(card, Group, XMode, ConfigCtrl, TrigCtrl, dwTrigValue);
if(err<0){
printf("AI_9524_Config Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(0);
}
printf("\nPress any key to start AI Acquisition\n");
getch();
printf("\nWait External Digital falling Trigger...\n");
printf("You can press any key to stop...\n");
err = AI_ContReadChannelToFile(card, Channel, ADC_Range, FileName, ReadCount, (F64)ADC_SampRate, ASYNCH_OP);
if(err<0){
printf("AI_ContReadChannelToFile Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
/*Process Double Buffer Mode*/
do{
err = AI_AsyncDblBufferHalfReady(card, &HalfReady, &Stopped);
if(err<0){
printf("AI_AsyncCheck Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
if(HalfReady){
if(!viewidx){
printf("Buffer 1 HalfReady, Process the acquired data of Buffer 1\n");
/*Process buffer 1 data*/
err = AI_AsyncDblBufferToFile(card);
if(err<0){
printf("AI_AsyncDblBufferToFile1 Error: %d\n", err);
}
viewidx = 1;
/*Tell the driver you complete the buffer 1 process*/
err = AI_AsyncDblBufferHandled(card);
if(err<0){
printf("AI_AsyncDblBufferHandled1 Error: %d\n", err);
}
}
else{
printf("Buffer 2 HalfReady, Process the acquired data of Buffer 2\n");
/*Process buffer 2 data*/
err = AI_AsyncDblBufferToFile(card);
if(err<0){
printf("AI_AsyncDblBufferToFile2 Error: %d\n", err);
}
viewidx = 0;
/*Tell the driver you complete the buffer 2 process*/
err = AI_AsyncDblBufferHandled(card);
if(err<0){
printf("AI_AsyncDblBufferHandled2 Error: %d\n", err);
}
}
// This function can check if the overrun occurs. If the
// function is called, AI_AsyncDblBufferHandled() should
// be called to let driver to know user buffer is processed
// completely
err = AI_AsyncDblBufferOverrun(card, 0, &overrunFlag);
if(err<0){
printf("AI_AsyncDblBufferOverrun Error: %d\n", err);
}
if(overrunFlag){
printf("OVERRUN: %d, Lose Some data\n", overrunFlag);
AI_AsyncDblBufferOverrun(card, 1, &overrunFlag);
}
}
}while((!Stopped)&&(!kbhit())); getch();
GetActualRate_9524(card, Group, (F64)ADC_SampRate, &ActualRate);
printf("\n\nGeneral Purpose Channel 0 Acquisition Done in %f Actual Rate...\n", ActualRate);
printf("The acquired data stored in %s.dat\n", FileName);
/*Clear AI setting while existing*/
err = AI_AsyncClear(card, &AccessCnt);
if(err<0){
printf("AI_AsyncClear Error: %d\n", err);
AI_ContBufferReset(card);
Release_Card(card);
fclose(fin);
exit(1);
}
}
if(!(ConfigCtrl&P9524_AI_BufAutoReset)){
err = AI_ContBufferReset(card);
if(err<0){
printf("AI_ContBufferReset Error: %d\n", err);
Release_Card(card);
fclose(fin);
exit(1);
}
}
printf("\npress any key to exit...\n");
getch();
Release_Card(card);
fclose(fin);
return 0;
}