Beispiel #1
0
///////////////////////运行函数
void initSnake()
{
	int i;
	for (i = 0; i < SNAKE_MIN_LEN; i++)
	{
		mySnake[i].x = 10 - i;
		mySnake[i].y = 3;//////(10,3)坐标可任意摆放
	}
	fixConsoleSize((TOTAL_WIDTH) * 2, TOTAL_HEIGHT);
	setCursorVisible(0);
	setConsoleTitle("Snake");
}
Beispiel #2
0
/*****************************************************************************
int initConsole(void)
    Description :
		Initializes the console window.
    Parameters  : -
    Returns     :
		TRUE, if everything initialized correctly.
		FALSE, if not.
*****************************************************************************/
int initConsole(void) 
{
	if(!setConsoleSize(100, 40))
	{
		// console size could not be set
		return FALSE;
	}

	if(!setConsoleTitle("Game Compilation"))
	{
		// console title could not be set
		return FALSE;
	}

	// everything went well
	return TRUE;
}
Beispiel #3
0
//主函数
int main()
{ clock_t start,finish;
   int isPause = 1;
   int chance=0;
   float RewardTime=0;
   int z;
   
   setCursorVisible(0);
   setConsoleTitle("贪吃蛇--D_Y。 2010.1.11");        //标题
   ch=menu();
   ch2=menuDouble();               
   if(ch2=='1')
    z=0;
   if(ch2=='2')
    z=1;
   initSnake(SNAKE_MIN_LEN,z);
   drawMap();
   drawSnake(z);
   //PlaySound("d:\\泡泡堂轻松欢快音乐音效WAV.wav",NULL, SND_ASYNC|SND_NODEFAULT|SND_LOOP );   
   switch(ch)                 //不同的难度对应不同的奖励食物消失时间
   {
   case '1':
       RewardTime=2500;
   case '2':
    RewardTime=3000;
   case '3':
    RewardTime=3500;
   }
   while (!isOver[0]&&!isOver[1])             //当两条蛇任意一条死亡则游戏结束
   {   
    srand((uint32)time(NULL));
      if (!isPause)                           
      {
         moveSnake(z);
         if (!isFood)
            drawFood();
    while(((point[1]+point[0])%4==0)&&((point[1]+point[0])>3)&&p==1)        
                                                          //规定在得分大于三分时每吃掉四个常规食物产生一个奖励食物
    { 
     if (!isReward)
    drawReward();
       start=clock();                                        //画出食物,记录此刻时间
      break;  
    }

    finish=start+RewardTime ;                                //结束时间为开始时间加规定的奖励食物出现时间
            if((isReward==1)&&(finish<=clock()))
    {
             drawBlock(myReward.x, myReward.y, BS_SPACE); //超出规定时间则将奖励食物用背景方框覆盖
    myReward.x=-1;
    myReward.y=-1;
    isReward=0;                                           
    }
    if(((point[1]+point[0])%3==0)&&((point[1]+point[0])>2)&&q==0)                         
    {
    
      clearBar();
    
                    drawBar();
    }
           
    setTextColor(myColors[4]);                                    //规定出输出分数等信息
    gotoTextPos(MAP_BASE_X*2 -14 , MAP_BASE_Y + 2);
    printf("Player 1");
   gotoTextPos(MAP_BASE_X*2 -14 , MAP_BASE_Y + 4);
   
            printf("Score: %d.", point[0]);
    if(z==1)
    {
   gotoTextPos(MAP_BASE_X*2 + MAP_WIDTH*2+4 , MAP_BASE_Y + 2);
            printf("Player 2");
   gotoTextPos(MAP_BASE_X*2 + MAP_WIDTH*2+4 , MAP_BASE_Y + 4);
            printf("Score: %d.", point[1]);
    }                                                          
   
    
      }
      DELAY(ch); //赋予游戏速度
   delayMS(80- snakeLength[0]*2); //游戏速度随着蛇身增长而增加
      if (jkHasKey()) //键盘控制
      {
         switch (jkGetKey())
         {
      
            case JK_UP:
               if (snakeDir[0] != DIR_DOWN)
                  snakeDir[0] = DIR_UP;
      break;
    case 'w': 
               if (snakeDir[1] != DIR_DOWN)
                  snakeDir[1] = DIR_UP;
               
               break;
  
            case JK_DOWN:
               if (snakeDir[0] != DIR_UP)
                  snakeDir[0] = DIR_DOWN;
      break;
      case 's': 
      if (snakeDir[1] != DIR_UP)
                  snakeDir[1] = DIR_DOWN;
               break;
  
            case JK_LEFT:
               if (snakeDir[0] != DIR_RIGHT)
                  snakeDir[0] = DIR_LEFT;
      break;
      case 'a': 
       if (snakeDir[1] != DIR_RIGHT)
                  snakeDir[1] = DIR_LEFT;
               break;
  
            case JK_RIGHT:
               if (snakeDir[0] != DIR_LEFT)
                  snakeDir[0] = DIR_RIGHT;
      case 'd': 
        if (snakeDir[1] != DIR_LEFT)
                  snakeDir[1] = DIR_RIGHT;
               break;
            case JK_ENTER:
            case JK_SPACE:
               isPause = !isPause;
               break;
      case JK_ESC:
       isOver[0]=1;
       break;
            default:
               break;
         }

      }
   }
   PlaySound("d:\\超级马里奥兄弟 死掉音.wav",NULL, SND_ASYNC|SND_NODEFAULT );
   gotoTextPos(MAP_BASE_X + MAP_WIDTH - 7, MAP_BASE_Y + MAP_HEIGHT + 1);
   if(isOver[0]==1&&z==0)
printf("Game Over!!");
   if(isOver[0]==1&&z==1)
printf("Player 2 win!!");   
   if(isOver[1]==1)
   printf("Player 1 win!!");//游戏结束,在规定处显示分数
   getch();
   return 0;
}
Beispiel #4
0
/**
   \fn int main(int argc, char *argv[])
   
   \brief main routine
   
   \param argc      number of commandline arguments + 1
   \param argv      string array containing commandline arguments (argv[0] contains name of executable)
   
   \return dummy return code (not used)
   
   Main routine for import, programming, and check routines
*/
int main(int argc, char ** argv) {
 
  char      *appname;             // name of application without path
  char      portname[STRLEN];     // name of communication port
  int       baudrate;             // communication baudrate [Baud]
  uint8_t   resetSTM8;            // 0=no reset; 1=HW reset via DTR (RS232/USB) or GPIO18 (Raspi); 2=SW reset by sending 0x55+0xAA
  uint8_t   enableBSL;            // don't enable ROM bootloader after upload (caution!)
  uint8_t   jumpFlash;            // jump to flash after upload
  uint8_t   pauseOnLaunch;        // prompt for <return> prior to upload
  int       flashsize;            // size of flash (kB) for w/e routines
  uint8_t   versBSL;              // BSL version for w/e routines
  char      hexfile[STRLEN];      // name of file to flash
  HANDLE    ptrPort;              // handle to communication port
  char      buf[BUFSIZE];         // buffer for hexfiles
  char      image[BUFSIZE];       // memory image buffer
  uint32_t  imageStart;           // starting address of image
  uint32_t  numBytes;             // number of bytes in image
  char      *ptr=NULL;            // pointer to memory
  int       i, j;                 // generic variables  
  //char      Tx[100], Rx[100];     // debug: buffer for tests
  

  // initialize global variables
  g_pauseOnExit = 1;            // wait for <return> before terminating
  g_UARTmode    = 0;            // 2-wire interface with UART duplex mode
  verbose       = false;        // verbose output when requested only
  
  // initialize default arguments
  portname[0] = '\0';           // no default port name
  baudrate   = 230400;          // default baudrate
  resetSTM8  = 0;               // don't automatically reset STM8
  jumpFlash  = 1;               // jump to flash after uploade
  pauseOnLaunch = 1;            // prompt for return prior to upload
  enableBSL  = 1;               // enable bootloader after upload
  hexfile[0] = '\0';            // no default hexfile
  
  // for debugging only
  //sprintf(portname, "/dev/tty.usbserial-A4009I0O");

  // required for strncpy()
  portname[STRLEN-1]  = '\0';
  hexfile[STRLEN-1]   = '\0';
    
    
  // reset console color (needs to be called once for Win32)      
  setConsoleColor(PRM_COLOR_DEFAULT);


  ////////
  // parse commandline arguments
  ////////
  for (i=1; i<argc; i++) {
    
    // debug: print argument
    //printf("arg %d: '%s'\n", (int) i, argv[i]);
    
    // name of communication port
    if (!strcmp(argv[i], "-p"))
      strncpy(portname, argv[++i], STRLEN-1);

    // communication baudrate
    else if (!strcmp(argv[i], "-b"))
      sscanf(argv[++i],"%d",&baudrate);

    // UART mode: 0=duplex, 1=1-wire reply, 2=2-wire reply (default: duplex)\n");
    else if (!strcmp(argv[i], "-u")) {
      sscanf(argv[++i], "%d", &j);
      g_UARTmode = j;
    }

    // name of hexfile
    else if (!strcmp(argv[i], "-f"))
      strncpy(hexfile, argv[++i], STRLEN-1);

    // HW reset STM8 via DTR line (RS232/USB) or GPIO18 (Raspi only)
    else if (!strcmp(argv[i], "-r")) {
      sscanf(argv[++i], "%d", &j);
      resetSTM8 = j;
    }
    
    // don't enable ROM bootloader after upload (caution!)
    else if (!strcmp(argv[i], "-x"))
      enableBSL = 0;

    // don't jump to address after upload
    else if (!strcmp(argv[i], "-j"))
      jumpFlash = 0;

    // don't prompt for <return> prior to upload
    else if (!strcmp(argv[i], "-Q"))
      pauseOnLaunch = 0;

    // don't prompt for <return> prior to exit
    else if (!strcmp(argv[i], "-q"))
      g_pauseOnExit = 0;

    // verbose output
    else if (!strcmp(argv[i], "-v"))
      verbose = true;

    // else print list of commandline arguments and language commands
    else {
      if (strrchr(argv[0],'\\'))
        appname = strrchr(argv[0],'\\')+1;         // windows
      else if (strrchr(argv[0],'/'))
        appname = strrchr(argv[0],'/')+1;          // Posix
      else
        appname = argv[0];
      printf("\n");
      printf("usage: %s [-h] [-p port] [-b rate] [-u mode] [-f file] [-r ch] [-x] [-j] [-Q] [-q] [-v]\n\n", appname);
      printf("  -h        print this help\n");
      printf("  -p port   name of communication port (default: list all ports and query)\n");
      printf("  -b rate   communication baudrate in Baud (default: 230400)\n");
      printf("  -u mode   UART mode: 0=duplex, 1=1-wire reply, 2=2-wire reply (default: duplex)\n");
      printf("  -f file   name of s19 or intel-hex file to flash (default: none)\n");
      #ifdef __ARMEL__
        printf("  -r ch     reset STM8: 1=DTR line (RS232), 2=send 'Re5eT!' @ 115.2kBaud, 3=GPIO18 pin (Raspi) (default: no reset)\n");
      #else
        printf("  -r ch     reset STM8: 1=DTR line (RS232), 2=send 'Re5eT!' @ 115.2kBaud (default: no reset)\n");
      #endif
      printf("  -x        don't enable ROM bootloader after upload (default: enable)\n");
      printf("  -j        don't jump to flash after upload (default: jump to flash)\n");
      printf("  -Q        don't prompt for <return> prior to upload (default: prompt)\n");
      printf("  -q        don't prompt for <return> prior to exit (default: prompt)\n");
      printf("  -v        verbose output\n");
      printf("\n");
      Exit(0, 0);
    }

  } // process commandline arguments
  
  

  ////////
  // print app name & version, and change console title
  ////////
  get_app_name(argv[0], VERSION, buf);
  printf("\n%s\n", buf);
  setConsoleTitle(buf);  
  
  
  ////////
  // if no port name is given, list all available ports and query
  ////////
  if (strlen(portname) == 0) {
    printf("  enter comm port name ( ");
    list_ports();
    printf(" ): ");
    scanf("%s", portname);
    getchar();
  } // if no comm port name

  // If specified import hexfile - do it early here to be able to report file read errors before others
  if (strlen(hexfile)>0) {
    const char *shortname = strrchr(hexfile, '/');
    if (!shortname)
      shortname = hexfile;

    // convert to memory image, depending on file type
    const char *dot = strrchr (hexfile, '.');
    if (dot && !strcmp(dot, ".s19")) {
      if (verbose)
        printf("  Loading Motorola S-record file %s …\n", shortname);
      load_hexfile(hexfile, buf, BUFSIZE);
      convert_s19(buf, &imageStart, &numBytes, image);
      }
    else if (dot && (!strcmp(dot, ".hex") || !strcmp(dot, ".ihx"))) {
      if (verbose)
        printf("  Loading Intel hex file %s …\n", shortname);
      load_hexfile(hexfile, buf, BUFSIZE);
      convert_hex(buf, &imageStart, &numBytes, image);
    }
    else {
      if (verbose)
        printf("  Loading binary file %s …\n", shortname);
      load_binfile(hexfile, image, &imageStart, &numBytes, BUFSIZE);
    }
  }

  ////////
  // put STM8 into bootloader mode
  ////////
  if (pauseOnLaunch) {
    printf("  activate STM8 bootloader and press <return>");
    fflush(stdout);
    fflush(stdin);
    getchar();
  }

  ////////
  // open port with given properties
  ////////
  printf("  open port '%s' with %gkBaud ... ", portname, (float) baudrate / 1000.0);
  fflush(stdout);
  if (g_UARTmode == 0)
    ptrPort = init_port(portname, baudrate, 1000, 8, 2, 1, 0, 0);   // use even parity
  else
    ptrPort = init_port(portname, baudrate, 1000, 8, 0, 1, 0, 0);   // use no parity
  printf("ok\n");
  fflush(stdout);
  
 
  // debug: communication test (echo+1 test-SW on STM8)
  /*
  printf("open: %d\n", ptrPort);
  for (i=0; i<254; i++) {
    Tx[0] = i;
    send_port(ptrPort, 1, Tx);
    receive_port(ptrPort, 1, Rx);
	printf("%d  %d\n", (int) Tx[0], (int) Rx[0]);
  }
  printf("done\n");
  Exit(1,0);
  */
  

  ////////
  // communicate with STM8 bootloader
  ////////

  // HW reset STM8 using DTR line (USB/RS232)
  if (resetSTM8 == 1) {
    printf("  reset via DTR ... ");
    pulse_DTR(ptrPort, 10);
    printf("done\n");
    SLEEP(5);                       // allow BSL to initialize
  }
  
  // SW reset STM8 via command 'Re5eT!' at 115.2kBaud (requires respective STM8 SW)
  else if (resetSTM8 == 2) {
    set_baudrate(ptrPort, 115200);    // expect STM8 SW to receive at 115.2kBaud
    printf("  reset via UART command ... ");
    sprintf(buf, "Re5eT!");           // reset command (same as in STM8 SW!)
    for (i=0; i<6; i++) {
      send_port(ptrPort, 1, buf+i);   // send reset command bytewise to account for slow handling
      SLEEP(10);
    }
    printf("done\n");
    set_baudrate(ptrPort, baudrate);  // restore specified baudrate
  }
  
  // HW reset STM8 using GPIO18 pin (only Raspberry Pi!)
  #ifdef __ARMEL__
    else if (resetSTM8 == 3) {
      printf("  reset via GPIO18 ... ");
      pulse_GPIO(18, 10);
      printf("done\n");
      SLEEP(5);                       // allow BSL to initialize
    }
  #endif // __ARMEL__
  
  // synchronize baudrate
  bsl_sync(ptrPort);
  
  // get bootloader info for selecting flash w/e routines
  bsl_getInfo(ptrPort, &flashsize, &versBSL);

  // select device dependent flash routines for upload
  if ((flashsize==32) && (versBSL==0x10)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_32K_ver_1_0_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_32K_ver_1_0_s19_len]=0;
  }
  else if ((flashsize==32) && (versBSL==0x12)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_32K_ver_1_2_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_32K_ver_1_2_s19_len]=0;
  }
  else if ((flashsize==32) && (versBSL==0x13)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_32K_ver_1_3_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_32K_ver_1_3_s19_len]=0;
  }
  else if ((flashsize==32) && (versBSL==0x14)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_32K_ver_1_4_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_32K_ver_1_4_s19_len]=0;
  }
  else if ((flashsize==128) && (versBSL==0x20)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_128K_ver_2_0_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_128K_ver_2_0_s19_len]=0;
  }
  else if ((flashsize==128) && (versBSL==0x21)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_128K_ver_2_1_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_128K_ver_2_1_s19_len]=0;
  }
  else if ((flashsize==128) && (versBSL==0x22)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_128K_ver_2_2_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_128K_ver_2_2_s19_len]=0;
  }
  else if ((flashsize==128) && (versBSL==0x24)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_128K_ver_2_4_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_128K_ver_2_4_s19_len]=0;
  }
  else if ((flashsize==256) && (versBSL==0x10)) {
    ptr = (char*) STM8_Routines_E_W_ROUTINEs_256K_ver_1_0_s19;
    ptr[STM8_Routines_E_W_ROUTINEs_256K_ver_1_0_s19_len]=0;
  }
  else {
    setConsoleColor(PRM_COLOR_RED);
    fprintf(stderr, "\n\nerror: unsupported device, exit!\n\n");
    Exit(1, g_pauseOnExit);
  }

  {
    char      ramImage[8192];
    uint32_t  ramImageStart;
    uint32_t  numRamBytes;

    convert_s19(ptr, &ramImageStart, &numRamBytes, ramImage);

    if (verbose)
      printf("Uploading RAM routines\n");
    bsl_memWrite(ptrPort, ramImageStart, numRamBytes, ramImage, 0);
  }

  // if specified upload hexfile
  if (strlen(hexfile)>0)
    bsl_memWrite(ptrPort, imageStart, numBytes, image, 1);
  
  // memory read
  //imageStart = 0x8000;  numBytes = 128*1024;   // complete 128kB flash
  //imageStart = 0x00A0;  numBytes = 352;        // RAM
  //bsl_memRead(ptrPort, imageStart, numBytes, image);
  
  
  // enable ROM bootloader after upload (option bytes always on same address)
  if (enableBSL==1) {
    printf("  activate bootloader ... ");
    bsl_memWrite(ptrPort, 0x487E, 2, (char*)"\x55\xAA", 0);
    printf("done\n");
  }
  
  // jump to flash start address after upload (reset vector always on same address)
  if (jumpFlash)
    bsl_jumpTo(ptrPort, 0x8000);
  
  
  ////////
  // clean up and exit
  ////////
  close_port(&ptrPort);
  if (verbose)
    printf("done with program\n");
  Exit(0, g_pauseOnExit);
  
  // avoid compiler warnings
  return(0);
  
} // main