Knowledge Base Nr: 00130 sendkeys.cpp - http://www.swe-kaiser.de

Downloads:

linux: relaykarte abfragen und auf eingänge mit programmaufrufen reagieren
z.b. tastendrücke an X schicken oder programme/scripte starten

  
//tastendrücke an X mit 'xte': xautomation (http://hoopajoo.net/projects/xautomation.html )

#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include "CDIO.h"

#include <X11/Xlib.h>
#include <X11/extensions/XTest.h>
#include <X11/keysym.h>

#include <signal.h>

//sample call:
//    .sendkeys 100 500 "./xte 100 500 'key A'" "./xte 'key B'" "./xte 'key X'" "./xte 'key Return'"

Display* ourXDisplay = 0;

Display* getXDisplay(const char* appName)
{
  int ourEvent, ourError, ourMajor, ourMinor;

  Display* ourDisplay = XOpenDisplay(0);

  if (! ourDisplay) {
    printf("\n ERROR: This program is made to be run in X Windows.\n\n");
    exit(1);
  }
  if (! XTestQueryExtension(ourDisplay, &ourEvent, &ourError, &ourMajor, &ourMinor) ) {
    printf("%s: ", appName);
    printf("XServer %s doesn't support the Xtest extensions we need...\n", DisplayString(ourDisplay));
    XCloseDisplay(ourDisplay);
    exit(1);
  }
  printf("\nServer %s supports XTest (version %d.%d). Good.\n\n", DisplayString(ourDisplay), ourMajor, ourMinor);

  XSync( ourDisplay, True);

  return ourDisplay;
}

void doXKey(Display* ourDisplay, const int keyToSend)
{
  printf("Taste '%d' senden\n", keyToSend);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, True, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, False, CurrentTime);
}


void doShiftXKey(Display* ourDisplay, const int keyToSend)
{
  printf("Taste Shift+'%d' senden\n", keyToSend);

  KeySym ks = XStringToKeysym("Shift_L");
  if( ks == NoSymbol )
  {
    printf("Unable to resolve keysym for 'Shift_L'\n");
    return;
  }

  KeyCode kc = XKeysymToKeycode(ourXDisplay, ks );
  printf("'Shift_L' maps to keysym '%d' / keycode '%d'\n", ks, kc);

  XTestFakeKeyEvent(ourDisplay, (unsigned int)kc, True, CurrentTime);  //Shift_L
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, True, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, False, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)kc, False, CurrentTime); //Shift_L
}


void doAltXKey(Display* ourDisplay, const int keyToSend)
{
  printf("Taste Alt+'%d' senden\n", keyToSend);

  KeySym ks = XStringToKeysym("Alt_L");
  if( ks == NoSymbol )
  {
    printf("Unable to resolve keysym for 'Alt_L'\n");
    return;
  }

  KeyCode kc = XKeysymToKeycode(ourXDisplay, ks );
  printf("'Alt_L' maps to keysym '%d' / keycode '%d'\n", ks, kc);

  XTestFakeKeyEvent(ourDisplay, (unsigned int)kc, True, CurrentTime);  //Alt_L
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, True, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, False, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)kc, False, CurrentTime); //Alt_L
}


void doCtrlXKey(Display* ourDisplay, const int keyToSend)
{
  printf("Taste Control+'%d' senden\n", keyToSend);

  KeySym ks = XStringToKeysym("Control_L");
  if( ks == NoSymbol )
  {
    printf("Unable to resolve keysym for 'Control_L'\n");
    return;
  }

  KeyCode kc = XKeysymToKeycode(ourXDisplay, ks );
  printf("'Control_L' maps to keysym '%d' / keycode '%d'\n", ks, kc);

  XTestFakeKeyEvent(ourDisplay, (unsigned int)kc, True, CurrentTime);  //Control_L
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, True, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)keyToSend, False, CurrentTime);
  XTestFakeKeyEvent(ourDisplay, (unsigned int)kc, False, CurrentTime); //Control_L
}


void cleanup(const int signal)
{
  XCloseDisplay(ourXDisplay);
  printf("\nExiting on signal.\n");
  exit(0);
}


void sendKeyToX(char* szKeyCmd)
{
  char szKeysym[50];
  bool bAltKey = false;
  bool bShiftKey = false;
  bool bControlKey = false;

  if (strstr(szKeyCmd, "Alt+") != 0)
  {
    strcpy(szKeysym, szKeyCmd+4);
    bAltKey = true;
  }
  else if (strstr(szKeyCmd, "Shift+") != 0)
  {
    strcpy(szKeysym, szKeyCmd+6);
    bShiftKey = true;
  }
  else if (strstr(szKeyCmd, "Control+") != 0)
  {
    strcpy(szKeysym, szKeyCmd+8);
    bControlKey = true;
  }
  else
  {
    strcpy(szKeysym, szKeyCmd);
  }

  KeyCode kc;
  KeySym ks;

  ks = XStringToKeysym(szKeysym);
  if( ks == NoSymbol )
  {
    printf("Unable to resolve keysym for '%s'\n", szKeysym);
    return;
  }

  kc = XKeysymToKeycode(ourXDisplay, ks );
  printf("String '%s' maps to keysym '%d' / keycode '%d'\n", szKeysym, ks, kc);

  if (bAltKey)
    doAltXKey(ourXDisplay, kc);
  else if (bShiftKey)
    doShiftXKey(ourXDisplay, kc);
  else if (bControlKey)
    doCtrlXKey(ourXDisplay, kc);
  else
    doXKey(ourXDisplay, kc);
}


int main(int argc, char **argv)
{
  signal(SIGINT, cleanup);
  signal(SIGTERM, cleanup);

  if (argc < 3)
  {
    printf("usage: sendkeys entprellzeitinms tastaturwiederholrateinms \"cmd1 param1\" \"cmd2 param2\" ...\n"
           "tastaturwiederholrateinms <= 0: keine wiederholfunktion\n\n");
    return 0;
  }

  unsigned long nEntprellzeit = atoi(argv[1]);
  unsigned long nWiederholzeit = atoi(argv[2]);

  bool bKeyRepeat = (nWiederholzeit>0) ? true : false;

  CDIO dio;
  char szCmd[20][100] = { 0 };

  printf("Entprellzeit: %d ms Wiederholzeit: %d ms\n", nEntprellzeit, nWiederholzeit);

  nEntprellzeit *= 1000ul;
  nWiederholzeit *= 1000ul;

  int n;
  for (n=3; n<=18; n++)
  {
    if (n<argc)
      strcpy(szCmd[n-2], argv[n]);
    else
      strcpy(szCmd[n-2], "action_not_defined");

    printf("szCmd[%d] = %s\n", n-2, szCmd[n-2]);
  }

  strcpy(szCmd[0], "input not mapped!");

  int nRet = dio.InitCard();
  if (nRet < 0)
  {
    printf("dio.InitCard() failed!");
  }

  ourXDisplay = getXDisplay(argv[0]);

  while (1)
  {
    int nValue = dio.GetPort();

    usleep(nEntprellzeit); //us

    if (nValue>0)
    {
      int nValue2 = dio.GetPort();
      usleep(nEntprellzeit); //usleep(nEntprellzeit); //us
      int nValue3 = dio.GetPort();
      usleep(nEntprellzeit); //usleep(nEntprellzeit); //us

//printf("values: %d %d %d\n", nValue, nValue2, nValue3);

      if ((nValue == nValue2) && (nValue2 == nValue3))
      {
        printf("input: %d\n", nValue);

        int nCmd = 0;

        switch (nValue)
        {
        case 1: nCmd = 1; break;
        case 2: nCmd = 2; break;
        case 4: nCmd = 3; break;
        case 8: nCmd = 4; break;
        case 16: nCmd = 5; break;
        case 32: nCmd = 6; break;
        case 64: nCmd = 7; break;
        case 128: nCmd = 8; break;
        case 256: nCmd = 9; break;
        case 512: nCmd = 10; break;
        case 1024: nCmd = 11; break;
        case 2048: nCmd = 12; break;
        case 4096: nCmd = 13; break;
        case 8192: nCmd = 14; break;
        case 16384: nCmd = 15; break;
        case 32768: nCmd = 16; break;
        default: nCmd = 0;
        }

        if (nCmd>0)
        {
          if (strstr(szCmd[nCmd], "cmd=") != 0)
          {
            printf("command: <%s>\n", &szCmd[nCmd][4]);
            system(&szCmd[nCmd][4]);
          }
          else if (strstr(szCmd[nCmd], "key=") != 0)
          {
            printf("key schicken: <%s>\n", &szCmd[nCmd][4]);
            sendKeyToX(&szCmd[nCmd][4]);

            XFlush(ourXDisplay);
          }
          else
          {
            printf("illegal command (key=/cmd=): <%s>\n", szCmd[nCmd]);
          }
        }

        if (bKeyRepeat)
        {
          usleep(nWiederholzeit); //us
        }
        else  //warten bis losgelassen
        {
          while (nValue == nValue2)
          {
            nValue = dio.GetPort();
            usleep(100*1000); //us
          }
        }
      }
    }
  }

  XCloseDisplay(ourXDisplay);

  return 0;
}
Knowledge Base Nr: 00130 sendkeys.cpp - http://www.swe-kaiser.de

Downloads:

linux: relaykarte abfragen und auf eingänge mit programmaufrufen reagierenz.b. tastendrücke an X schicken oder programme/scripte starten

linux: relaykarte abfragen und auf eingänge mit programmaufrufen reagieren
z.b. tastendrücke an X schicken oder programme/scripte starten
