forked from GerhardHoffmann/DCLibraries
remove unused file
This commit is contained in:
parent
c89decdeae
commit
7628ec0d5f
@ -1,811 +0,0 @@
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#include <stdint.h>
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#include <QString>
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#include <QDebug>
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#include <QDateTime>
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#include "tslib.h"
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#include "sendWRcmd.h"
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#include "shared_mem_buffer.h"
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void indat_PrnPwr(void);
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void sendWRcmd_INI(void)
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{
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sendWRcmd_clrCmdStack();
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sendWRcmd_clrCmd4Stack();
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sendFDcmd_clrStack();
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}
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// Command Stack for commands without parameters
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//static uint16_t nextAsynchsendCmd0[CMDSTACKDEPTH];
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//static uint8_t nrOfCmdsInQueue;
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/* convention: use simple (not rotating) FIFO Stack:
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Example: nrOfCmdsInQueue=4 then
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nextAsynchsendCmd0[0]=cmd1 // was stored as first
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nextAsynchsendCmd0[1]=cmd2
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nextAsynchsendCmd0[2]=cmd3
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nextAsynchsendCmd0[3]=cmd4 // came in as last
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Send: [0] first, then move buffer 1 down:
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nextAsynchsendCmd0[0]=cmd2
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nextAsynchsendCmd0[1]=cmd3
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nextAsynchsendCmd0[2]=cmd4
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nextAsynchsendCmd0[3]=0;
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nrOfCmdsInQueue=3 now
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*/
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void sendWRcmd_clrCmdStack(void)
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{
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uint8_t nn;
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for (nn=0; nn<CMDSTACKDEPTH; nn++)
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SharedMem::write()->nextAsynchsendCmd0[nn]=0;
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SharedMem::write()->nrOfCmdsInQueue=0;
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}
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bool sendWRcmd_setSendCommand0(uint16_t nextCmd)
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{
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// write Command to memory, wait for transport
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uint8_t ciq=SharedMem::read()->nrOfCmdsInQueue;
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if (ciq>=CMDSTACKDEPTH)
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{
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qDebug() << "cannot save cmd because stack is full";
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return false; // not possible
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}
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SharedMem::write()->nextAsynchsendCmd0[ciq++]=nextCmd;
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SharedMem::write()->nrOfCmdsInQueue=ciq;
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//qDebug() << "PI cmd queued:"<< nextCmd << ", saved, pp=" << nrOfCmdsInQueue;
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return true; // ok, will be sent
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}
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uint16_t sendWRcmd_getSendCommand0(void)
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{
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uint16_t nxtAsynchCmd, data;
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uint8_t nn, ll;
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uint8_t ciq=SharedMem::read()->nrOfCmdsInQueue;
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if (ciq==0 || ciq>CMDSTACKDEPTH)
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return 0; // error
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nxtAsynchCmd=SharedMem::read()->nextAsynchsendCmd0[0];
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// move Puffer down by one element
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if (ciq>0)
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ll=ciq-1;
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else
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ll=0;
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for (nn=0; nn<ll; nn++)
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{
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data=SharedMem::read()->nextAsynchsendCmd0[nn+1];
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SharedMem::write()->nextAsynchsendCmd0[nn]=data;
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}
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SharedMem::write()->nrOfCmdsInQueue=ciq;
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//qDebug() << "PI cmd queued:"<< nxtAsynchCmd << ", restored, pp now =" << nrOfCmdsInQueue;
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return nxtAsynchCmd;
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}
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//---------------------------------------------------------------------------------------------------------------------
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//---------------------------------------------------------------------------------------------------------------------
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// Command Stack for commands with 4 parameters
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/*
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static uint16_t nextAsynchsendCmd4[CMD4STACKDEPTH];
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static uint8_t nextCmd4para1[CMD4STACKDEPTH];
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static uint8_t nextCmd4para2[CMD4STACKDEPTH];
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static uint8_t nextCmd4para3[CMD4STACKDEPTH];
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static uint8_t nextCmd4para4[CMD4STACKDEPTH];
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static uint8_t nrOfCmds4InQueue;
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*/
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void sendWRcmd_clrCmd4Stack(void)
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{
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uint8_t nn;
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for (nn=0; nn<CMD4STACKDEPTH; nn++)
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{
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SharedMem::write()->nextAsynchsendCmd4[nn]=0;
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SharedMem::write()->nextCmd4para1[nn]=0;
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SharedMem::write()->nextCmd4para2[nn]=0;
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SharedMem::write()->nextCmd4para3[nn]=0;
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SharedMem::write()->nextCmd4para4[nn]=0;
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}
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SharedMem::write()->nrOfCmds4InQueue=0;
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}
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bool sendWRcmd_setSendCommand4(uint16_t nextCmd, uint8_t dat1, uint8_t dat2, uint8_t dat3, uint8_t dat4)
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{
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// write Command to memory, wait for transport
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uint8_t ciq;
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ciq=SharedMem::read()->nrOfCmds4InQueue;
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if (ciq>=CMD4STACKDEPTH)
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{
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qDebug() << "cannot save cmd because stack is full";
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return false; // not possible
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}
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SharedMem::write()->nextAsynchsendCmd4[ciq]=nextCmd;
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SharedMem::write()->nextCmd4para1[ciq]=dat1;
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SharedMem::write()->nextCmd4para2[ciq]=dat2;
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SharedMem::write()->nextCmd4para3[ciq]=dat3;
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SharedMem::write()->nextCmd4para4[ciq]=dat4;
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ciq++;
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SharedMem::write()->nrOfCmds4InQueue=ciq;
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//qDebug() << QDateTime::currentDateTime().time()
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// << "sendWRcmd 4 byte saved, pp=" << nextCmd
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// << " para: " << SharedMem::getDataConst()->nextCmd4para1[pp];
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return true; // ok, will be sent
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}
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/*
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uint16_t sendWRcmd_getSendCommand4(uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4)
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{
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uint16_t nxtAsynchCmd;
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uint8_t nn, ll;
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if (nrOfCmds4InQueue==0 || nrOfCmds4InQueue>CMD4STACKDEPTH)
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return 0; // error
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nxtAsynchCmd=nextAsynchsendCmd4[0];
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*dat1=nextCmd4para1[0];
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*dat2=nextCmd4para2[0];
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*dat3=nextCmd4para3[0];
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*dat4=nextCmd4para4[0];
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//qDebug() << "cmd4 restored to send from [0]; pp=" << nrOfCmds4InQueue;
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//qDebug() << " data1: " << nextCmd4para1[0] << " data2: " << nextCmd4para2[0] <<
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// " data3: " << nextCmd4para3[0] << " data4: " << nextCmd4para4[0];
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// move Puffer down by one element
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if (CMD4STACKDEPTH>0)
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ll=CMD4STACKDEPTH-1;
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else
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ll=0;
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for (nn=0; nn<ll; nn++)
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{
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nextAsynchsendCmd4[nn]=nextAsynchsendCmd4[nn+1];
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nextCmd4para1[nn]=nextCmd4para1[nn+1];
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nextCmd4para2[nn]=nextCmd4para2[nn+1];
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nextCmd4para3[nn]=nextCmd4para3[nn+1];
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nextCmd4para4[nn]=nextCmd4para4[nn+1];
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}
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if (nrOfCmds4InQueue>0)
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nrOfCmds4InQueue--;
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//qDebug() << "cmd4 after push down: pp=" << nrOfCmds4InQueue;
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return nxtAsynchCmd;
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}
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*/
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uint16_t sendWRcmd_getSendCommand4(uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4)
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{
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uint16_t nxtAsynchCmd, data;
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uint8_t nn;
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uint8_t ciq=SharedMem::read()->nrOfCmds4InQueue;
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if (ciq==0 || ciq > CMD4STACKDEPTH)
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return 0; // error
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nxtAsynchCmd=SharedMem::read()->nextAsynchsendCmd4[0];
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*dat1=SharedMem::read()->nextCmd4para1[0];
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*dat2=SharedMem::read()->nextCmd4para2[0];
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*dat3=SharedMem::read()->nextCmd4para3[0];
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*dat4=SharedMem::read()->nextCmd4para4[0];
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//qDebug() << "cmd4 restored to send from [0]; pp=" << nrOfCmds4InQueue;
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//qDebug() << " data1: " << nextCmd4para1[0] << " data2: " << nextCmd4para2[0] <<
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// " data3: " << nextCmd4para3[0] << " data4: " << nextCmd4para4[0];
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// move Puffer down by one element
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if (ciq>0) ciq--;
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for (nn=0; nn<ciq; nn++)
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{
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data=SharedMem::read()->nextAsynchsendCmd4[nn+1];
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SharedMem::write()->nextAsynchsendCmd4[nn]=data;
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data=SharedMem::read()->nextCmd4para1[nn+1];
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SharedMem::write()->nextCmd4para1[nn]=data;
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data=SharedMem::read()->nextCmd4para2[nn+1];
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SharedMem::write()->nextCmd4para2[nn]=data;
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data=SharedMem::read()->nextCmd4para3[nn+1];
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SharedMem::write()->nextCmd4para3[nn]=data;
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data=SharedMem::read()->nextCmd4para4[nn+1];
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SharedMem::write()->nextCmd4para4[nn]=data;
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}
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SharedMem::write()->nrOfCmds4InQueue=ciq;
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return nxtAsynchCmd;
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}
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void sendWRcmd_clrCmd8Stack(void)
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{
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uint8_t nn;
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for (nn=0; nn<CMD8STACKDEPTH; nn++)
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{
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SharedMem::write()->nextAsynchsendCmd8[nn]=0;
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SharedMem::write()->nextCmd8para1[nn]=0;
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SharedMem::write()->nextCmd8para2[nn]=0;
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SharedMem::write()->nextCmd8para3[nn]=0;
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SharedMem::write()->nextCmd8para4[nn]=0;
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}
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SharedMem::write()->nrOfCmds8InQueue=0;
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}
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bool sendWRcmd_setSendCommand8(uint16_t nextCmd, uint8_t dat1, uint8_t dat2, uint16_t dat3, uint32_t dat4)
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{
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// write Command to memory, wait for transport
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uint8_t ciq;
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ciq=SharedMem::read()->nrOfCmds8InQueue;
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if (ciq>=CMD8STACKDEPTH)
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{
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qDebug() << "cannot save cmd because stack is full";
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return false; // not possible
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}
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SharedMem::write()->nextAsynchsendCmd8[ciq]=nextCmd;
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SharedMem::write()->nextCmd8para1[ciq]=dat1;
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SharedMem::write()->nextCmd8para2[ciq]=dat2;
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SharedMem::write()->nextCmd8para3[ciq]=dat3;
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SharedMem::write()->nextCmd8para4[ciq]=dat4;
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ciq++;
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SharedMem::write()->nrOfCmds8InQueue=ciq;
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return true; // ok, will be sent
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}
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uint16_t sendWRcmd_getSendCommand8(uint8_t *dat1, uint8_t *dat2, uint16_t *dat3, uint32_t *dat4)
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{
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uint16_t nxtAsynchCmd, data;
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uint8_t nn;
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uint8_t ciq=SharedMem::read()->nrOfCmds8InQueue;
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if (ciq==0 || ciq > CMD8STACKDEPTH)
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return 0; // error
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nxtAsynchCmd=SharedMem::read()->nextAsynchsendCmd8[0];
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*dat1=SharedMem::read()->nextCmd8para1[0];
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*dat2=SharedMem::read()->nextCmd8para2[0];
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*dat3=SharedMem::read()->nextCmd8para3[0];
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*dat4=SharedMem::read()->nextCmd8para4[0];
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// move buffer down by one element
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if (ciq>0) ciq--;
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for (nn=0; nn<ciq; nn++)
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{
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data=SharedMem::read()->nextAsynchsendCmd8[nn+1];
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SharedMem::write()->nextAsynchsendCmd8[nn]=data;
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data=SharedMem::read()->nextCmd8para1[nn+1];
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SharedMem::write()->nextCmd8para1[nn]=data;
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data=SharedMem::read()->nextCmd8para2[nn+1];
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SharedMem::write()->nextCmd8para2[nn]=data;
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data=SharedMem::read()->nextCmd8para3[nn+1];
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SharedMem::write()->nextCmd8para3[nn]=data;
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data=SharedMem::read()->nextCmd8para4[nn+1];
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SharedMem::write()->nextCmd8para4[nn]=data;
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}
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SharedMem::write()->nrOfCmds8InQueue=ciq;
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return nxtAsynchCmd;
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}
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//static uint8_t sendAsynchDataBuf[160]; // no stack, only ONE buffer
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//static uint8_t sendAsyDatLen;
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bool sendWRcmd_setSendBlock160(uint8_t leng, uint8_t *buf)
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{
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if (leng>SENDASYDAT_BUFFSIZE) leng=SENDASYDAT_BUFFSIZE;
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SharedMem::write()->sendAsyDatLen=leng;
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tslib_strclr(SharedMem::write()->sendAsynchDataBuf, 0, SENDASYDAT_BUFFSIZE);
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for (uint8_t nn=0; nn<leng; nn++)
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SharedMem::write()->sendAsynchDataBuf[nn]=buf[nn];
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return true; // ok, will be sent
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}
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uint8_t sendWRcmd_getSendBlock160(uint8_t *leng, uint8_t *buf)
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{
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uint8_t dl=SharedMem::read()->sendAsyDatLen;
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*leng=dl;
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for (uint8_t nn=0; nn<dl; nn++)
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buf[nn]=SharedMem::read()->sendAsynchDataBuf[nn];
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SharedMem::write()->sendAsyDatLen=0;
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//tslib_strclr(SharedMem::write()->sendAsynchDataBuf, 0, SENDASYDAT_BUFFSIZE);
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return *leng;
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}
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// ------------------------------------------------------------------------------------
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// MDB Sendind Data are store here for next transport to DC (Device Controller)
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// Transport to Slave runs every 100ms, answer from mdb-slave (e.g. coin changer) comes rigth
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// with next slave answer
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// start with: SENDDIRCMD_EXCHGMDB,
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// send crude data from here to DC, DC to mdb slaves, mdb answer, return here within 50ms
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//static uint8_t Sdata_mdbSendBuffer[MDBSEND_BUFFSIZE];
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//static uint8_t Sdata_mdbSendLen;
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uint8_t epi_store64ByteSendData(uint8_t length, uint8_t *buf)
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{
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if (length>MDBSEND_BUFFSIZE) length=MDBSEND_BUFFSIZE;
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// HWapi writes data to be forwarded to DC and further to mdb-device
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for (uint8_t nn=0; nn<length; nn++)
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SharedMem::write()->Sdata_mdbSendBuffer[nn]=buf[nn];
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SharedMem::write()->Sdata_mdbSendLen=length;
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return 0;
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}
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uint8_t gpi_restore64ByteSendData(uint8_t *length, uint8_t *buf)
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{
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// datif reads data to forward to dc
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uint8_t dl=SharedMem::read()->Sdata_mdbSendLen;
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for (uint8_t nn=0; nn<dl; nn++)
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buf[nn]=SharedMem::read()->Sdata_mdbSendBuffer[nn];
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*length=dl;
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SharedMem::write()->Sdata_mdbSendLen=0;
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return 0;
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}
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//------------------------------------------------------------------------------------
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//------------------------------------------------------------------------------------
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//---------------------------------------- Printer Text Fifo -------------------------
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//static uint8_t prnDataParameters[];
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//static uint8_t prnDataBufferUser;
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void epi_storeUserOfSendingTextBuffer(uint8_t user, uint8_t para1, uint8_t para2, uint8_t para3, uint8_t para4 )
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{
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// user=1: Text-Print is using this buffer
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// 2: QR-code-Printer is using this buffer
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SharedMem::write()->prnDataBufferUser=user;
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SharedMem::write()->prnDataParameters[0]=para1;
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SharedMem::write()->prnDataParameters[1]=para2;
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SharedMem::write()->prnDataParameters[2]=para3;
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SharedMem::write()->prnDataParameters[3]=para4;
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// qDebug() << "new user stored: " << user;
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}
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uint8_t gpi_getUserOfSendingTextBuffer(uint8_t *para1, uint8_t *para2, uint8_t *para3, uint8_t *para4)
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{
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// user=1: Text-Print is using this buffer
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// 2: QR-code-Printer is using this buffer
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//qDebug() << "returning user "<< prnDataBufferUser;
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*para1=SharedMem::read()->prnDataParameters[0];
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*para2=SharedMem::read()->prnDataParameters[1];
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*para3=SharedMem::read()->prnDataParameters[2];
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*para4=SharedMem::read()->prnDataParameters[3];
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return SharedMem::read()->prnDataBufferUser;
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}
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// Sending Text Fifo
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// ONE printer doc consists of 20 x 64 byte
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// #define MAXNROF_PRNBYTES 64
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// #define MAXNROF_PRNBLOCKS 20
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//static char Sdata_PRN_TEXT[MAXNROF_PRNBLOCKS][MAXNROF_PRNBYTES];
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//static uint8_t pPrnDataBuff; // points to next PRINTER_BLOCK
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//static uint8_t pPrnDataBuff; // points to next waiting printer text
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// defined above, needed if more then one text is stored (before sent)
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// every block will be sent after 100ms, if 8 blocks are stored within this 100ms
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// then pointer goes up to 8. Important: FIFO!!!!!!!!
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void epi_resetPrinterStack(void)
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{
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SharedMem::write()->pPrnDataBuff=0;
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}
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uint8_t epi_storePrnText(char *buf, uint8_t leng)
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{
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// store text from Gui in next higher free memory 0....9
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uint16_t len;
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uint8_t pp, nn;
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pp=SharedMem::read()->pPrnDataBuff; // next free memory block with 64byte each
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if (pp>=MAXNROF_PRNBLOCKS)
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return 1; // not possible, no free mem
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//len=tslib_strlen(buf); // kennt keine Binärzeichen!!!!!!
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||||
len=leng;
|
||||
if (len>MAXNROF_PRNBYTES)
|
||||
len=MAXNROF_PRNBYTES;
|
||||
|
||||
tslib_strclr(SharedMem::write()->Sdata_PRN_TEXT[pp], 0, MAXNROF_PRNBYTES);
|
||||
|
||||
for (nn=0; nn<len; nn++)
|
||||
SharedMem::write()->Sdata_PRN_TEXT[pp][nn]=buf[nn]; // copy new text into buffer
|
||||
|
||||
if (SharedMem::read()->pPrnDataBuff<MAXNROF_PRNBLOCKS)
|
||||
SharedMem::write()->pPrnDataBuff++; // inc pointer if end not yet reached
|
||||
return 0; // OK
|
||||
}
|
||||
|
||||
|
||||
|
||||
uint8_t gpi_restorePrnText(uint8_t *retbuf)
|
||||
{
|
||||
// read printer text and send to slave, size of retbuf == 64
|
||||
|
||||
// always read from [0] because this is the oldest (Fifo)
|
||||
// then move all text lines down by one and dec pointer
|
||||
|
||||
uint8_t nn, mm, pp=SharedMem::read()->pPrnDataBuff;
|
||||
char buf[MAXNROF_PRNBYTES];
|
||||
|
||||
if (pp==0) // next free memory block with 64byte each
|
||||
return 1; // no text in buffer
|
||||
|
||||
// example: pp=5: then buffers [0...4] are occupied
|
||||
|
||||
for (nn=0; nn<MAXNROF_PRNBYTES; nn++)
|
||||
retbuf[nn] = uint8_t (SharedMem::read()->Sdata_PRN_TEXT[0][nn]); // restore oldest text
|
||||
|
||||
// now copy textline [1] to [0], then
|
||||
// copy textline [2] to [1], then
|
||||
// copy textline [3] to [2] .... upto [pp-1] to [pp-2]
|
||||
// hint: copying from 9....0 would delete all strings!!!!!!
|
||||
for (nn=0; nn<(pp-1); nn++)
|
||||
{
|
||||
for (mm=0; mm<MAXNROF_PRNBYTES; mm++)
|
||||
buf[mm]=SharedMem::read()->Sdata_PRN_TEXT[nn+1][mm];
|
||||
for (mm=0; mm<MAXNROF_PRNBYTES; mm++)
|
||||
SharedMem::write()->Sdata_PRN_TEXT[nn][mm]=buf[mm];
|
||||
}
|
||||
if (pp>0) pp--;
|
||||
SharedMem::write()->pPrnDataBuff=pp;
|
||||
|
||||
// example: pp=4: then buffers [0...3] are still occupied, pp=0: all buffers empty
|
||||
|
||||
// now clear highest copyed line (which became free now)
|
||||
tslib_strclr(SharedMem::write()->Sdata_PRN_TEXT[pp], 0, MAXNROF_PRNBYTES);
|
||||
|
||||
// optionally: clear all remaining higher lines:
|
||||
for (nn=(pp+1); nn<MAXNROF_PRNBLOCKS; nn++)
|
||||
tslib_strclr(SharedMem::write()->Sdata_PRN_TEXT[nn], 0, MAXNROF_PRNBYTES);
|
||||
|
||||
return 0;
|
||||
}
|
||||
|
||||
uint8_t gpi_chk4remainingText(void)
|
||||
{
|
||||
// retval: 0: no more textline left (to send) >0: nr of 64byte-blocks
|
||||
return (SharedMem::read()->pPrnDataBuff);
|
||||
}
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
|
||||
// ---------------------------------------------------------------------------------
|
||||
// 11.4.23 neu, Kommando direkt an "FastDevice"-protokoll senden, nicht mehr umsetzen
|
||||
// ---------------------------------------------------------------------------------
|
||||
/*
|
||||
// header
|
||||
static uint8_t nextFDwrCmd[FDCMD_STACKDEPTH];
|
||||
static uint8_t nextFDrdCmd[FDCMD_STACKDEPTH];
|
||||
static uint8_t nextFDblkNr[FDCMD_STACKDEPTH];
|
||||
static uint8_t nextFDshort[FDCMD_STACKDEPTH];
|
||||
|
||||
// short data
|
||||
static uint8_t nextFDpara1[FDCMD_STACKDEPTH];
|
||||
static uint8_t nextFDpara2[FDCMD_STACKDEPTH];
|
||||
static uint8_t nextFDpara3[FDCMD_STACKDEPTH];
|
||||
static uint8_t nextFDpara4[FDCMD_STACKDEPTH];
|
||||
// long data:
|
||||
static uint8_t longFDlength[FDCMD_STACKDEPTH];
|
||||
static uint8_t longFDpara[FDCMD_STACKDEPTH][64];
|
||||
|
||||
static uint8_t p_nextFDcmdsInQueue;
|
||||
*/
|
||||
|
||||
/* convention: use simple (not rotating) FIFO Stack:
|
||||
Example: nrOfCmdsInQueue=4 then
|
||||
nextAsynchsendCmd0[0]=cmd1 // was stored as first
|
||||
nextAsynchsendCmd0[1]=cmd2
|
||||
nextAsynchsendCmd0[2]=cmd3
|
||||
nextAsynchsendCmd0[3]=cmd4 // came in as last
|
||||
|
||||
Send: [0] first, then move buffer 1 down:
|
||||
nextAsynchsendCmd0[0]=cmd2
|
||||
nextAsynchsendCmd0[1]=cmd3
|
||||
nextAsynchsendCmd0[2]=cmd4
|
||||
nextAsynchsendCmd0[3]=0;
|
||||
nrOfCmdsInQueue=3 now
|
||||
*/
|
||||
|
||||
|
||||
void sendFDcmd_clrStack(void)
|
||||
{
|
||||
uint8_t nn;
|
||||
for (nn=0; nn<FDCMD_STACKDEPTH; nn++)
|
||||
{
|
||||
SharedMem::write()->nextFDwrCmd[nn]=0;
|
||||
SharedMem::write()->nextFDrdCmd[nn]=0;
|
||||
SharedMem::write()->nextFDblkNr[nn]=0;
|
||||
SharedMem::write()->nextFDshort[nn]=0;
|
||||
SharedMem::write()->nextFDpara1[nn]=0;
|
||||
SharedMem::write()->nextFDpara2[nn]=0;
|
||||
SharedMem::write()->nextFDpara3[nn]=0;
|
||||
SharedMem::write()->nextFDpara4[nn]=0;
|
||||
SharedMem::write()->longFDlength[nn]=0;
|
||||
memset(&SharedMem::write()->longFDpara[nn][0],0,64);
|
||||
}
|
||||
|
||||
SharedMem::write()->p_nextFDcmdsInQueue=0;
|
||||
}
|
||||
|
||||
bool sendFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8_t dat1, uint8_t dat2, uint8_t dat3, uint8_t dat4)
|
||||
{
|
||||
|
||||
// write Command to memory, wait for transport
|
||||
uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
|
||||
if (pFDcmd >=FDCMD_STACKDEPTH)
|
||||
{
|
||||
qDebug() << "cannot save cmd because stack is full";
|
||||
return false; // not possible
|
||||
}
|
||||
SharedMem::write()->nextFDwrCmd[pFDcmd]=nextWrCmd;
|
||||
SharedMem::write()->nextFDrdCmd[pFDcmd]=nextRdCmd;
|
||||
SharedMem::write()->nextFDblkNr[pFDcmd]=blockNum;
|
||||
SharedMem::write()->nextFDpara1[pFDcmd]=dat1;
|
||||
SharedMem::write()->nextFDpara2[pFDcmd]=dat2;
|
||||
SharedMem::write()->nextFDpara3[pFDcmd]=dat3;
|
||||
SharedMem::write()->nextFDpara4[pFDcmd]=dat4;
|
||||
//qDebug() << "data with 4 data byte saved, pp=" << pFDcmd;
|
||||
//qDebug() << " dat1=" << nextCmd4para1[pFDcmd] << " dat2=" << nextCmd4para2[pFDcmd]
|
||||
// << " dat3=" << nextCmd4para3[pFDcmd] << " dat4=" << nextCmd4para4[pFDcmd];
|
||||
SharedMem::write()->nextFDshort[pFDcmd]=1; // 1=short
|
||||
pFDcmd++;
|
||||
SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
|
||||
|
||||
return true; // ok, will be sent
|
||||
}
|
||||
|
||||
|
||||
bool longFDcmd_set(uint8_t nextWrCmd, uint8_t nextRdCmd, uint8_t blockNum, uint8_t length, uint8_t *data)
|
||||
{
|
||||
// write Command to memory, wait for transport
|
||||
// data buffer size always 64! data[64], padded with 0
|
||||
uint8_t nn;
|
||||
uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
|
||||
if (pFDcmd>=FDCMD_STACKDEPTH)
|
||||
{
|
||||
qDebug() << "cannot save cmd because stack is full";
|
||||
return false; // not possible
|
||||
}
|
||||
SharedMem::write()->nextFDwrCmd[pFDcmd]=nextWrCmd;
|
||||
SharedMem::write()->nextFDrdCmd[pFDcmd]=nextRdCmd;
|
||||
SharedMem::write()->nextFDblkNr[pFDcmd]=blockNum;
|
||||
|
||||
SharedMem::write()->longFDlength[pFDcmd]=length;
|
||||
|
||||
for (nn=0; nn<64; nn++)
|
||||
SharedMem::write()->longFDpara[pFDcmd][nn]=data[nn];
|
||||
|
||||
SharedMem::write()->nextFDshort[pFDcmd]=2;
|
||||
pFDcmd++;
|
||||
SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
|
||||
return true; // ok, will be sent
|
||||
}
|
||||
|
||||
|
||||
bool sendFDcmd_get(uint8_t *nextWrCmd, uint8_t *nextRdCmd, uint8_t *blockNum, uint8_t *dat1, uint8_t *dat2, uint8_t *dat3, uint8_t *dat4)
|
||||
{
|
||||
uint8_t nn, mm, data; // ll
|
||||
uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
|
||||
if (pFDcmd==0 || pFDcmd>FDCMD_STACKDEPTH)
|
||||
return false; // not possible
|
||||
|
||||
*nextWrCmd=SharedMem::read()->nextFDwrCmd[0];
|
||||
*nextRdCmd=SharedMem::read()->nextFDrdCmd[0];
|
||||
*blockNum=SharedMem::read()->nextFDblkNr[0];
|
||||
*dat1=SharedMem::read()->nextFDpara1[0];
|
||||
*dat2=SharedMem::read()->nextFDpara2[0];
|
||||
*dat3=SharedMem::read()->nextFDpara3[0];
|
||||
*dat4=SharedMem::read()->nextFDpara4[0];
|
||||
//qDebug() << "sendFDcmd_get [0]; pp=" << SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
//qDebug() << " data1: " << SharedMem::read()->nextCmd4para1[0] << " data2: " << SharedMem::read()->nextCmd4para2[0] <<
|
||||
// " data3: " << SharedMem::read()->nextCmd4para3[0] << " data4: " << SharedMem::read()->nextCmd4para4[0];
|
||||
|
||||
// move Puffer down by one element
|
||||
//if (FDCMD_STACKDEPTH>0)
|
||||
// ll=FDCMD_STACKDEPTH-1;
|
||||
//else
|
||||
// ll=0;
|
||||
|
||||
if (pFDcmd>0) pFDcmd--; else pFDcmd=0;
|
||||
|
||||
//for (nn=0; nn<ll; nn++)
|
||||
for (nn=0; nn<pFDcmd; nn++)
|
||||
{
|
||||
data=SharedMem::read()->nextFDwrCmd[nn+1];
|
||||
SharedMem::write()->nextFDwrCmd[nn]=data;
|
||||
data=SharedMem::read()->nextFDrdCmd[nn+1];
|
||||
SharedMem::write()->nextFDrdCmd[nn]=data;
|
||||
data=SharedMem::read()->nextFDblkNr[nn+1];
|
||||
SharedMem::write()->nextFDblkNr[nn]=data;
|
||||
data=SharedMem::read()->nextFDpara1[nn+1];
|
||||
SharedMem::write()->nextFDpara1[nn]=data;
|
||||
data=SharedMem::read()->nextFDpara2[nn+1];
|
||||
SharedMem::write()->nextFDpara2[nn]=data;
|
||||
data=SharedMem::read()->nextFDpara3[nn+1];
|
||||
SharedMem::write()->nextFDpara3[nn]=data;
|
||||
data=SharedMem::read()->nextFDpara4[nn+1];
|
||||
SharedMem::write()->nextFDpara4[nn]=data;
|
||||
|
||||
data=SharedMem::read()->nextFDshort[nn+1];
|
||||
SharedMem::write()->nextFDshort[nn] = data;
|
||||
|
||||
data=SharedMem::read()->longFDlength[nn+1];
|
||||
SharedMem::write()->longFDlength[nn] = data;
|
||||
|
||||
for (mm=0; mm<64; mm++)
|
||||
{
|
||||
SharedMem::write()->longFDpara[nn][mm] = SharedMem::read()->longFDpara[nn+1][mm];
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
|
||||
//qDebug() << "cmd4 after push down: pp=" << nrOfCmds4InQueue;
|
||||
|
||||
// clear released buffer:
|
||||
//for (nn=p_nextFDcmdsInQueue; nn<FDCMD_STACKDEPTH; nn++)
|
||||
//{
|
||||
SharedMem::write()->nextFDwrCmd[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDrdCmd[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDblkNr[pFDcmd]=0;
|
||||
|
||||
SharedMem::write()->nextFDpara1[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDpara2[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDpara3[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDpara4[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDshort[pFDcmd]=0;
|
||||
SharedMem::write()->longFDlength[pFDcmd]=0;
|
||||
for (mm=0; mm<64; mm++)
|
||||
SharedMem::write()->longFDpara[pFDcmd][mm] = 0;
|
||||
//}
|
||||
|
||||
/*
|
||||
qDebug() << "sendFDcmd_set, stack now: " << p_nextFDcmdsInQueue;
|
||||
for (nn=0; nn<16; nn++)
|
||||
{
|
||||
qDebug() << "header: " << nextFDwrCmd[nn] << " / " << nextFDrdCmd[nn] << " / "<< nextFDblkNr[nn] << " / " << nextFDshort[nn];
|
||||
|
||||
qDebug() << " short data: " << nextFDpara1[nn] << " / "<< nextFDpara2[nn] << " / "<< nextFDpara3[nn]<< " / "<< nextFDpara4[nn];
|
||||
|
||||
qDebug() << " long data: " << longFDlength[nn] << " / "<< longFDpara[nn][0] << " / "<< longFDpara[nn][1]
|
||||
<< " / "<< longFDpara[nn][2] << " / "<< longFDpara[nn][3] << " / "<< longFDpara[nn][4];
|
||||
}
|
||||
*/
|
||||
return true; // ok, will be sent
|
||||
}
|
||||
|
||||
uint8_t checkNextFDcmd(void)
|
||||
{
|
||||
// return 0: no command waiting
|
||||
// 1: short cmd
|
||||
// 2: long cmd
|
||||
//qDebug() << "chk nxt fd cmd: "<<p_nextFDcmdsInQueue<<" "<<nextFDshort[0]<<" "<<nextFDshort[1]<<" "<<nextFDshort[2]<<" "<<nextFDshort[3];
|
||||
if (SharedMem::read()->p_nextFDcmdsInQueue==0)
|
||||
return 0;
|
||||
if (SharedMem::read()->nextFDshort[0]==1)
|
||||
return 1;
|
||||
return 2;
|
||||
}
|
||||
|
||||
uint8_t check4FDshortCmd(void)
|
||||
{
|
||||
// returns number of waiting command, max FDCMD_STACKDEPTH
|
||||
return SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
}
|
||||
|
||||
|
||||
uint8_t check4freeFDshortCmd(void)
|
||||
{
|
||||
// returns number of free places in short-command stack
|
||||
return FDCMD_STACKDEPTH - SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
}
|
||||
|
||||
bool longFDcmd_get(uint8_t *nextWrCmd, uint8_t *nextRdCmd, uint8_t *blockNum, uint8_t *length, uint8_t *data)
|
||||
{
|
||||
uint8_t nn, mm, uctmp;
|
||||
uint8_t pFDcmd=SharedMem::read()->p_nextFDcmdsInQueue;
|
||||
|
||||
if (pFDcmd==0 || pFDcmd>FDCMD_STACKDEPTH)
|
||||
return false; // not possible
|
||||
|
||||
*nextWrCmd=SharedMem::read()->nextFDwrCmd[0];
|
||||
*nextRdCmd=SharedMem::read()->nextFDrdCmd[0];
|
||||
*blockNum=SharedMem::read()->nextFDblkNr[0];
|
||||
*length = SharedMem::read()->longFDlength[0];
|
||||
for (mm=0; mm<64; mm++)
|
||||
data[mm] = SharedMem::read()->longFDpara[0][mm];
|
||||
|
||||
if (pFDcmd>0) pFDcmd--; else pFDcmd=0;
|
||||
|
||||
//for (nn=0; nn<ll; nn++)
|
||||
for (nn=0; nn<pFDcmd; nn++)
|
||||
{
|
||||
uctmp=SharedMem::read()->nextFDwrCmd[nn+1];
|
||||
SharedMem::write()->nextFDwrCmd[nn]=uctmp;
|
||||
uctmp=SharedMem::read()->nextFDrdCmd[nn+1];
|
||||
SharedMem::write()->nextFDrdCmd[nn]=uctmp;
|
||||
uctmp=SharedMem::read()->nextFDblkNr[nn+1];
|
||||
SharedMem::write()->nextFDblkNr[nn]=uctmp;
|
||||
|
||||
uctmp=SharedMem::read()->nextFDpara1[nn+1];
|
||||
SharedMem::write()->nextFDpara1[nn]=uctmp;
|
||||
uctmp=SharedMem::read()->nextFDpara2[nn+1];
|
||||
SharedMem::write()->nextFDpara2[nn]=uctmp;
|
||||
uctmp=SharedMem::read()->nextFDpara3[nn+1];
|
||||
SharedMem::write()->nextFDpara3[nn]=uctmp;
|
||||
uctmp=SharedMem::read()->nextFDpara4[nn+1];
|
||||
SharedMem::write()->nextFDpara4[nn]=uctmp;
|
||||
|
||||
uctmp=SharedMem::read()->nextFDshort[nn+1];
|
||||
SharedMem::write()->nextFDshort[nn]=uctmp;
|
||||
uctmp=SharedMem::read()->longFDlength[nn+1];
|
||||
SharedMem::write()->longFDlength[nn]=uctmp;
|
||||
|
||||
for (mm=0; mm<64; mm++)
|
||||
{
|
||||
SharedMem::write()->longFDpara[nn][mm] = SharedMem::read()->longFDpara[nn+1][mm];
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
SharedMem::write()->p_nextFDcmdsInQueue=pFDcmd;
|
||||
// clear released buffer:
|
||||
SharedMem::write()->nextFDwrCmd[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDrdCmd[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDblkNr[pFDcmd]=0;
|
||||
|
||||
SharedMem::write()->nextFDpara1[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDpara2[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDpara3[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDpara4[pFDcmd]=0;
|
||||
SharedMem::write()->nextFDshort[pFDcmd]=0;
|
||||
SharedMem::write()->longFDlength[pFDcmd]=0;
|
||||
for (mm=0; mm<64; mm++)
|
||||
SharedMem::write()->longFDpara[pFDcmd][mm] = 0;
|
||||
|
||||
return true; // ok, will be sent
|
||||
}
|
||||
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user