void __interrupt newint24h(dword rgs, dword rfs, dword res, dword rds, dword redi, dword resi, dword rebp, dword resp, dword rebx, dword redx, dword recx, dword volatile reax) { NW(redi); NW(redx); NW(recx); NW(rebx); NW(rebp); NW(resi); NW(resp); NW(rds); NW(res); NW(rfs); NW(rgs); if (reax & 0x8000) { cputs("Critical error "); cputs((reax & 0x0100) ? "writing " : "reading "); cputs("drive "); putch('A'+(char)(reax & 0xff)); cputs(":\r\n"); } else { cputs("Critical error accessing device\r\n"); } reax=3; /* FAIL error code */ return; }
/*************************СОРТИРОВКА ПА АЛФАВИТУ*************************/ void alf(void) { FILE *f,*f1; char filename[14],nameoffile[14]; char c; int i,n=0,j,k,fl; instr smass[100],old; window(1,1,80,25); textbackground(0); textcolor(3); clrscr(); cputs("Введите имя файла-источника данных..."); scanf("%s",filename); cputs("Введите имя файла,в который будут записаны данные..."); scanf("%s",nameoffile); f=fopen(filename,"r"); f1=fopen(nameoffile,"aw"); fseek(f,0,SEEK_SET); while(!feof(f)) { fread(&smass[n],sizeof(old),1,f); n++; } n--; for (i=n-1;i>0;i--) { for (j=0;j<i;j++) { fl=TRUE; k=0; while ((k<10)AND(fl==TRUE)) { if (smass[j].name[k]>smass[j+1].name[k]) { old=smass[j]; smass[j]=smass[j+1]; smass[j+1]=old; fl=FALSE; } if (smass[j].name[k]<smass[j+1].name[k]) fl=FALSE; k++; } } } printf("Мнемокод Длина Машинный код\n"); for (i=0;i<n;i++) { fwrite (&smass[i],sizeof(old),1,f1); printf("%s",&smass[i].name); gotoxy(15,wherey()); printf("%s",&smass[i].size); gotoxy(18,wherey()); printf("%s\n",&smass[i].hex); } fcloseall(); cputs("Обработка завершена..."); getch(); }
void draw_menu(struct ctk_menu *m, struct ctk_menu *open) { #if CC_CONF_UNSIGNED_CHAR_BUGS unsigned char x2; unsigned int x, y; #else unsigned char x2; unsigned char x, y; #endif x = cursx; cputs(m->title); cputc(CH_SPACE); if (m == open) { x2 = cursx; if(x + CTK_CONF_MENUWIDTH > SCREEN_WIDTH) { x = SCREEN_WIDTH - CTK_CONF_MENUWIDTH; } for(y = 0; y < m->nitems; y++) { if(y == m->active) { revers(0); } gotoxy(x, y + 1); if(m->items[y].title[0] == '-') { chline(CTK_CONF_MENUWIDTH); } else { cputs(m->items[y].title); } clearTo(x + CTK_CONF_MENUWIDTH); revers(1); } gotoxy(x2, 0); } }
void testcollisions() { int i; clrscr(); textattr(BACKGROUND+MENUITEM); gotoxy((78-24)/2,3); cputs("Test keyboard collisions"); gotoxy((78-61)/2,5); cputs("Here you can test, if the keys you've choosen do not collide."); gotoxy((78-43)/2,6); cputs("(only few keyboards allow all combinations)"); gotoxy((78-18)/2,8); cputs("Press ESC to exit."); for (i=0;i<256;i++) pressed[i]=0; key_init(); do{ showjoy(17,12,0); showjoy(29,12,1); showjoy(41,12,2); showjoy(53,12,3); while (hi==lo); pressed[buffer[lo]&0xff]=buffer[lo]<0x100; lo++; if (lo==100) lo=0; }while(!pressed[1]); /*wait until ESC is depressed*/ do{ while (hi==lo); pressed[buffer[lo]&0xff]=buffer[lo]<0x100; lo++; if (lo==100) lo=0; }while(pressed[1]); key_done(); }
void renderMenu(uint8_t current) { uint8_t idx = 0; textcolor(1); revers(1); gotoxy(0, 0); for (idx = 0; idx < menuSize; idx++) { if (idx == current) { textcolor(3); cputs(menu[idx]); /*****************/ cputsxy(0, 1, "\xf0\xc0\xc0\xc0\xc0\xee"); gotoxy(0, 2); cprintf("\xdd%s\xdd", fileMenu[0]); gotoxy(0, 3); cprintf("\xdd%s\xdd", fileMenu[1]); gotoxy(0, 4); cprintf("\xdd%s\xdd", fileMenu[2]); gotoxy(0, 5); cprintf("\xdd%s\xdd", fileMenu[3]); cputsxy(0, 6, "\xed\xc0\xc0\xc0\xc0\xfd"); /*****************/ } else { cputs(menu[idx]); } textcolor(1); cputs(" "); } for (idx = wherex(); idx < 40; idx++) { cputc(' '); } }
char *interactively_read_line(const char *prompt) { const char DELETE = '\x7f'; const char BACKSPACE = '\x08'; bool line_is_complete = false; char c; size_t count = 0; cputs(prompt); while (! line_is_complete) { c = interactively_read_char(); if (count > 0 && (c == DELETE || c == BACKSPACE)) { erase_backward(1); count--; } else if (c == '\r') { line[count] = '\0'; line_is_complete = true; } else if (count < LINE_CAPACITY - 1) { cputc(c); line[count++] = c; } else { line[count] = '\0'; line_is_complete = true; } } cputs("\r\n"); return line; }
void mainmenu(int sel) { int i; textattr(0x90); window(1,1,80,25); clrscr(); textattr(BORDER); gotoxy(M_LX,M_UY); cputs("Ú"); for (i = 1; i < (M_WIDTH-1); i++) cputs("Ä"); cputs("¿"); gotoxy(M_LX,M_UY+1); cputs("³ ³"); textattr(BANNER); gotoxy(M_LX+2,M_UY+1); cputs(" Main menu"); textattr(BORDER); gotoxy(M_LX,M_UY+2); cputs("ÃÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ´"); for (i = 3; i < (menu_count + M_HEIGHT-1); i++) { gotoxy(M_LX,M_UY+i); cputs("³ ³"); } gotoxy(M_LX,M_UY+i); cputs("À"); for (i = 1; i < (M_WIDTH-1); i++) cputs("Ä"); cputs("Ù"); draw_items(menu_items,menu_count,M_LX+1,M_UY+3,sel); }
//-------------------------------------------------------------- void clear_line() //clear to end of line { //80 spaces //.....1234567890123456789012345678901234567890 //.....0........1.........2.........3.........4 cputs(" "); cputs(" "); }
void dbg_printmem(void) { static unsigned nearLast = 0; static unsigned long farLast = 0; unsigned nearThis; unsigned long farThis; switch(heapcheck()) { case _HEAPCORRUPT: cputs("HEAP CORRUPTED. Cannot proceed!\r\n"); abort(); case _HEAPEMPTY: cputs("NO HEAP. Cannot proceed!\r\n"); abort(); default: cputs("Unknown heapcheck() error. Cannot proceed!\r\n"); abort(); case _HEAPOK: break; } nearThis = coreleft(); farThis = farcoreleft(); dprintf(("[free memory: near=%6u far=%13lu]\n", nearThis, farThis)); if(nearLast) dprintf(("[changed : near=%6d far=%13ld]\n" , nearThis - nearLast , farThis - farLast)); nearLast = nearThis; farLast = farThis; }
int main(int argc, char **argv) { MotorPair m(Motor::A, Motor::C); for (int i = 0; i < 10 && !shutdown_requested(); ++i) { if (i % 2) { m.forward(); #ifdef CONF_DSOUND Sound::beep(); #endif // CONF_DSOUND cputs ("FWD"); } else { m.reverse(); cputs ("REV"); } m.speed(m.max); sleep(5); } m.off(); cls(); return 0; }
/************************ ВВОД В ФАЙЛ *********************************/ void enter(void) { instr com; FILE *f; int i,numm; char filename[14],k; window(1,1,80,25); textbackground(0); textcolor(3); clrscr(); cputs("Введите название файла, в который будете делать запись..."); gets(filename); cputs("Сколько будем делать записей..."); scanf("%d",&numm); gets(com.name); for (i=0;i<numm;i++) { clrscr(); printf("Запись номер %d\n",i); cputs(" Введите мнемокод команды..."); gets(com.name); cputs(" Введите длину команды..."); gets(com.size); cputs(" Введите шестнадцатиричный код команды..."); gets(com.hex); if(access(filename,06)==-1) f=fopen(filename,"aw"); else f=fopen(filename,"ar"); fseek(f,0,SEEK_END); fwrite(&com,sizeof(com),1,f); fclose(f); } }
void funccall::colbox() { int i; for(i=1;i<6;++i) { _setcursortype(_NOCURSOR); textbackground(BLACK); textcolor(i); clrscr(); box(77,23,2,2); delay(500); box(73,19,4,4); delay(500); box(69,15,6,6); delay(500); box(65,11,8,8); delay(500); textcolor(WHITE); gotoxy(10,10); cputs("CREEPER"); gotoxy(64,10); cputs("CREEPER"); gotoxy(10,16); cputs("CREEPER"); gotoxy(64,16); cputs("CREEPER"); gotoxy(36,13); cputs("CREEPER"); delay(1000); } }
void test_cheap(void) { cputs("C heap tests:\r\n"); test_cheap_push(); test_cheap_pop(); test_cheap_sort(); //test_cheap_benchmark(); cputs("\r\n"); }
void suppl_log_exit(suppl_log_csptr_t loginfo) { if(loginfo) { cputs("\r\n"); cputs(loginfo); cputs("\r\n"); } exit(DBG_EXIT_CODE); }
void main() { int x,x2=1,y; for(int j=0,k=0; j<46;j++) { if(j%6==0) k++; y=0;x=x2++; for(int i=0;i<40;i++) { if(i<8) y++; else if(i<16) y--; else if(i<24) y++; else if(i<32) y--; else if(i<40) y++; /* else if(i<48) y--; else if(i<56) y++; else if(i<64) y--; else if(i<72) y++; else if(i<80) y--; else if(i<88) y++; else if(i<96) y--; else if(i<104) y++; else if(i<112) y--; */ Sleep(3); x=x+3; if(j%2==0) { gotoxy(x,y+15); cputs("* * *"); } else { gotoxy(x,y+15); cputs(" "); } } } getch(); }
// funkcia oznaci danu funkciu void sel_item(int sel, int old_sel) { gotoxy(M_LX+1, M_UY+3+old_sel); textattr(NOR_ITEM); cputs(menu_items[old_sel]); gotoxy(M_LX+1, M_UY+3+sel); textattr(SEL_ITEM); cputs(menu_items[sel]); }
void con_puts( const char *s ) { #ifdef _TARGET_GO32_ VString str = s; str_replace( str, "\n", "\r\n" ); cputs( str ); #else cputs( s ); #endif }
void myexit() { system("del *.dbf"); clrscr(); textcolor(BLUE); cputs("Abhay Rana");NL cputs("XII-Sc");NL cputs("Templeton College"); textcolor(WHITE); NL NL cputs("Thanks to all those who helped me complete the project in time. Your names do appear in the program"); NL cputs("S‚ Onr Sv‚rdar Sitja Hvass"); GC }
void main() { clrscr(); cputs(get_machine_hardware_name()); cputc(' '); cputs(get_cpu_name()); cputs("\r\n"); getchar(); }
/*------------------------------------------------------------------------* * Simulator main. * *------------------------------------------------------------------------*/ int main(void) { EventListener sd1fel, sd2fel, tel; /* * System initializations. * - HAL initialization, this also initializes the configured device drivers * and performs the board-specific initializations. * - Kernel initialization, the main() function becomes a thread and the * RTOS is active. */ halInit(); chSysInit(); /* * Serial ports (simulated) initialization. */ sdStart(&SD1, NULL); sdStart(&SD2, NULL); /* * Shell manager initialization. */ shellInit(); chEvtRegister(&shell_terminated, &tel, 0); /* * Console thread started. */ cdtp = chThdCreateFromHeap(NULL, CONSOLE_WA_SIZE, NORMALPRIO + 1, console_thread, NULL); /* * Initializing connection/disconnection events. */ cputs("Shell service started on SD1, SD2"); cputs(" - Listening for connections on SD1"); (void) chIOGetAndClearFlags(&SD1); chEvtRegister(chIOGetEventSource(&SD1), &sd1fel, 1); cputs(" - Listening for connections on SD2"); (void) chIOGetAndClearFlags(&SD2); chEvtRegister(chIOGetEventSource(&SD2), &sd2fel, 2); /* * Events servicing loop. */ while (!chThdShouldTerminate()) chEvtDispatch(fhandlers, chEvtWaitOne(ALL_EVENTS)); /* * Clean simulator exit. */ chEvtUnregister(chIOGetEventSource(&SD1), &sd1fel); chEvtUnregister(chIOGetEventSource(&SD2), &sd2fel); return 0; }
/*------------------------------------------------------------------------* * Simulator main. * *------------------------------------------------------------------------*/ int main(void) { EventListener sd1fel, sd2fel, tel; /* * HAL initialization. */ halInit(); /* * ChibiOS/RT initialization. */ chSysInit(); /* * Serial ports (simulated) initialization. */ sdStart(&SD1, NULL); sdStart(&SD2, NULL); /* * Shell manager initialization. */ shellInit(); chEvtRegister(&shell_terminated, &tel, 0); /* * Console thread started. */ cdtp = chThdCreateFromHeap(NULL, CONSOLE_WA_SIZE, NORMALPRIO + 1, console_thread, NULL); /* * Initializing connection/disconnection events. */ cputs("Shell service started on SD1, SD2"); cputs(" - Listening for connections on SD1"); (void) sdGetAndClearFlags(&SD1); chEvtRegister(&SD1.sevent, &sd1fel, 1); cputs(" - Listening for connections on SD2"); (void) sdGetAndClearFlags(&SD2); chEvtRegister(&SD2.sevent, &sd2fel, 2); /* * Events servicing loop. */ while (!chThdShouldTerminate()) chEvtDispatch(fhandlers, chEvtWaitOne(ALL_EVENTS)); /* * Clean simulator exit. */ chEvtUnregister(&SD1.sevent, &sd1fel); chEvtUnregister(&SD2.sevent, &sd2fel); return 0; }
void office::of_beg() { int i, v; do{ textbackground(BLUE); textcolor(CYAN); _setcursortype(_NORMALCURSOR); clrscr(); for(i=0;i<10;++i) { box(1+7*i,1+2*i,4,4); delay(80); box(1+7*i,1+2*i,4,4,int(' ')); } box(74,22,4,4); gotoxy(25,2); textcolor(GREEN); cputs("WELCOME TO CREEPER OFFICE..."); gotoxy(6,6); textcolor(CYAN); cout<<"1. CALCULATOR"; gotoxy(6,12); cout<<"0. MAIN MENU"; gotoxy(6,8); cout<<"2. CREEPER FILE EXPERT "; gotoxy(6,10); cout<<"3. CALENDAR "; gotoxy(25,22); cout<<"ENTER THE CHOICE NUMBER : "; v=int(getche()-48); delay(100); if(v) { switch(v) { case 1: calc(); break; case 2: class File a; break; case 3: calendar(); break; default: gotoxy(55,22); cputs("INVALID ENTRY"); delay(1000); break; } } }while(v!=0); }
/*------------------------------------------------------------------------* * Simulator main. * *------------------------------------------------------------------------*/ int main(void) { initTestStream(&testStream); /* * System initializations. * - HAL initialization, this also initializes the configured device drivers * and performs the board-specific initializations. * - Kernel initialization, the main() function becomes a thread and the * RTOS is active. */ halInit(); chSysInit(); /* * Serial ports (simulated) initialization. */ sdStart(&SD1, NULL); sdStart(&SD2, NULL); /* * Console thread started. */ cdtp = chThdCreateFromHeap(NULL, CONSOLE_WA_SIZE, NORMALPRIO + 1, console_thread, NULL); /* * Initializing connection/disconnection events. */ cputs("Shell service started on SD1, SD2"); cputs(" - Listening for connections on SD1"); chEvtRegister(chnGetEventSource(&SD1), &sd1fel, 1); cputs(" - Listening for connections on SD2"); chEvtRegister(chnGetEventSource(&SD2), &sd2fel, 2); rusEfiFunctionalTest(); /* * Events servicing loop. */ while (!chThdShouldTerminate()) { chEvtDispatch(fhandlers, chEvtWaitOne(ALL_EVENTS)); printPendingMessages(); chThdSleepMilliseconds(100); } /* * Clean simulator exit. */ chEvtUnregister(chnGetEventSource(&SD1), &sd1fel); chEvtUnregister(chnGetEventSource(&SD2), &sd2fel); return 0; }
/*赢棋处理*/ void DoWin(int Order) { textcolor(RED+BLINK); gotoxy(8,10); if(Order==CHESS_1) cputs("PLAYER1 WIN!"); else cputs("PLAYER2 WIN!"); gotoxy(8,11); cputs(" \\<^+^>/ "); gotoxy(gCursor.x+MAPX_O,gCursor.y+MAPY_O); getch(); }
/* Display the high score table */ void print_highscores(HIGHSCORE *high_scores) { UINT8 i; for (i=0; i<NUM_HIGH_SCORES; i++) { gotoxy(HIGHSC_X, HIGHSC_Y+2+(i<<1)); print_uint16_5(high_scores[i].score); gotoxy(HIGHSC_X+5, HIGHSC_Y+2+(i<<1)); cputs("0 "); cputs(high_scores[i].name); } }
void print_game_over(void) { /* I had trouble defining PET graphics chars with \x?? within C strings, hence the binary array above. */ gotoxy(GAMEOVER_X, GAMEOVER_Y); cputs(&gameover[0][0]); gotoxy(GAMEOVER_X, GAMEOVER_Y+1); cputs(&gameover[1][0]); gotoxy(GAMEOVER_X, GAMEOVER_Y+2); cputs(&gameover[2][0]); gotoxy(GAMEOVER_X, GAMEOVER_Y+3); cputs(&gameover[3][0]); }
/**********************СОРТИРОВКА ПО ДЛИНЕ***************************/ void length(void) { FILE *f,*f1; char filename[14],nameoffile[14]; char c; int i,n=0,k; instr com; window(1,1,80,25); textbackground(0); textcolor(2); clrscr(); cputs("Введите имя файла-источника данных..."); scanf("%s",filename); cputs("Введите имя файла,в который будут записаны данные..."); scanf("%s",nameoffile); f=fopen(filename,"r"); f1=fopen(nameoffile,"aw"); fseek(f,0,SEEK_SET); while(!feof(f)) { fread(&com,sizeof(com),1,f); n++; } printf("Мнемокод Длина Машинный код\n"); n--; for(k=49;k<=57;k++) { fseek(f,0,SEEK_SET); for(i=0;i<n;i++) { c=toascii(k); fread(&com.name,sizeof(com.name),1,f); fread(&com.size,sizeof(com.size),1,f); fread(&com.hex,sizeof(com.hex),1,f); if(com.size[0]==c) { fwrite(&com,sizeof(com),1,f1); printf("%s",&com.name); gotoxy(15,wherey()); printf("%s",&com.size); gotoxy(18,wherey()); printf("%s\n",com.hex); } } } fcloseall(); cputs("Обработка завершена..."); getch(); }
void createwin(void) { cputs("╔════════════════════════════╗"); cputs("║ ║"); cputs("║ ║"); cputs("║ ║"); cputs("║ ║"); cputs("║ ║"); cputs("║ ║"); cputs("║ ║"); cputs("║ ║"); cputs("╚════════════════════════════╝"); }
/** * Refresh the elapsed time value. */ void refreshElapsedTime(void) { uint16_t t; t = timerGet(); gotoxy(17, 13); leadingZero(t >> 8); utilAppendDecimal(t >> 8); cputs(utilStr); cputc(':'); leadingZero(t & 0xff); utilAppendDecimal(t & 0xff); cputs(utilStr); }
int main(unsigned argl, const char far* args) { STACK_DECL char arg[128]; uint16 cmd; int_init(); tsr_loaded = tsr_is_installed(); /* Duplicate the command line locally */ memcpy(arg, args, argl); arg[argl] = 0; /* Call the main TSR function */ if (tsr_loaded) cmd = tsr(mem_remote, arg); else cmd = tsr(0, arg); if (cmd == TSR_LOAD) { if (tsr_loaded) return EXIT_FAILURE; if (!load()) return EXIT_FAILURE; /* device driver hasn't the environment */ if (!tsr_sys) freeenv(); return EXIT_TSR; } if (cmd == TSR_UNLOAD) { if (!tsr_loaded) return EXIT_FAILURE; if (!mem_unload()) { cputs("Can't unload\n\r"); return EXIT_FAILURE; } if (freemem(tsr_loaded->psp) != 0) { cputs("Can't release the memory\n\r"); return EXIT_FAILURE; } return EXIT_SUCCESS; } if (cmd == TSR_SUCCESS) return EXIT_SUCCESS; else return EXIT_FAILURE; }