//display_all function takes the root pointer as and argument displays all nodes and //returns and int indicating success. int table::display_all(node * & root) { if(!root) return 1; display_all(root->left); root->the_job->display(); display_all(root->right); return 1; }
int display_msg(t_vm *vm) { SDL_Surface *txt; SDL_Rect p; TTF_Font *police; static SDL_Color color; pthread_cancel(vm->thread); display_all(vm, 0); if ((police = TTF_OpenFont("./clips/font/0.ttf", 37)) == NULL) return (EXIT_FAILURE); p.x = 635; p.y = 353; vm->image[GAME][MSG_KENNY].pos.x = 600; vm->image[GAME][MSG_KENNY].pos.y = 330; SDL_BlitSurface(vm->image[GAME][MSG_KENNY].img, NULL, vm->sc, &vm->image[GAME][MSG_KENNY].pos); if (vm->winner != NULL && vm->no_graph != EXIT_FAILURE) txt = TTF_RenderText_Blended(police, my_str_concat(my_str_concat("Le joueur ", \ vm->winner->prog_name), " a gagne"), color); SDL_BlitSurface(txt, NULL, vm->sc, &p); SDL_Flip(vm->sc); display_loop_msg_end(vm); return (0); }
int main(void) { int option; point *start=NULL; do { //Display user menu printf("0 - quit\n"); printf("1 - add\n"); printf("2 - remove\n"); printf("3 - display all\n"); printf("Enter option: "); fflush(stdout); scanf("%2d", &option); //Process option switch (option) { case 1: start = add_point(start); break; case 2: start = remove_point(start); break; case 3: display_all(start); break; } }while (option != 0); return 0; }
void entry_menu() { char ch; int num; cleardevice(); start(); settextstyle(TRIPLEX_FONT,HORIZ_DIR,6); setcolor(LIGHTBLUE); outtextxy(25,40," ENTRY MENU "); setcolor(YELLOW); settextstyle(TRIPLEX_FONT,HORIZ_DIR,4); outtextxy(60,150,"1)CREATE STUDENT RECORD"); outtextxy(60,210,"2)DISPLAY ALL STUDENTS RECORDS"); outtextxy(60,270,"3)SEARCH STUDENT RECORD"); outtextxy(60,330,"4)MODIFY STUDENT RECORD"); outtextxy(60,390,"5)GO BACK TO THE MAIN MENU"); switch(getch()) { case '1': write_student(); break; case '2': display_all(); break; case '3': cout<<"\n\n\tPlease Enter The roll number "; cin>>num; display_sp(num); break; case '4': cout<<"\n\n\tPlease Enter The roll number "; cin>>num; modify_student(num);break; case '5': cout<<"\n\n\tPlease Enter The roll number "; cin>>num; delete_student(num);break; case '6': break; default: cout<<"\a"; entry_menu(); } }
int main() { island* start; start = get_islands(); display_all(start); release_all(start); return 0; }
void simulate_MainWindow::on_btn_next_clicked() { PC=nextPC; coutString=""; display_all(); if((PC/4)>=binList.length()) { coutString="\n\n-----------------------\n\n"; coutString+="The program is end."; coutString+="\n\n-----------------------\n\n"; ui->consoleTextEdit->setText(coutString); return; } simulate(); if(nextPC==PC) nextPC=PC+4; display_all(); }
void simulate_MainWindow::on_btn_reset_clicked() { PC=0; ui->startLineEdit->setText("0"); for(int i=0;i<32;i++) r[i]=0; coutString=""; display_all(); }
int main(void) { int option, i = 0; FILE *fp1; point *start =NULL; // root node do // do while loop { //Display user menu printf("\n\n0 - quit\n"); printf("1 - ADD A Record\n"); printf("2 - Remove A Record\n"); printf("3 - Display All Records\n"); printf("4 - Save\n"); printf("5 - Load Saved Data\n"); printf("Enter Option: "); fflush(stdout); scanf("%2d", &option); getchar(); //Process option switch (option) // switch statement to decide next action { case 1: start = add_point(start); break; case 2: display_all(start); start = remove_point(start); break; case 3: display_all(start); break; case 4: write_to_disk(fp1, start); break; case 5: start = NULL; start = read_from_disk(fp1,start); printf("\nSAVED DATA:\n"); break; } }while (option != 0); return 0; }
int display_lines(char *lines) { char *spaces; int nb; if ((spaces = my_malloc(4)) == 'NULL') return (0); spaces[0] = 3; spaces[1] = 2; spaces[2] = 1; spaces[3] = 0; display_all(spaces, lines); }
int main(void){ pos* table = init_table(); build_positions(table, 10); move_onto(table, 9,1); move_over(table, 8,1); move_over(table, 7,1); move_over(table, 6,1); pile_over(table, 8,6); pile_over(table, 8,5); move_over(table, 2,1); move_over(table, 4,9); display_all(table); return 0; }
int main(int argc, char **argv) { std::cout << "Welcome to the libmxl example enter filename of db to load: "; std::string filename; getline(std::cin, filename); mxlParser p; p.parseMXL_file(filename); char c = 'y'; while(c == 'y') { std::cout << "Options are :\n1 dispaly all numbers\n2 search\n3 enter number\n4 exit saving changes\n5 exit discarding changes\n"; int op; std::cout << "enter option: "; std::string op_s; getline(std::cin, op_s); op = atoi(op_s.c_str()); switch(op) { case 1: display_all(p); break; case 2: display_find(p); break; case 3: print_options(p); break; case 4: exit_save(p); exit(EXIT_SUCCESS); break; case 5: exit(EXIT_SUCCESS); break; } } return EXIT_SUCCESS; }
static void the_following(char ***av, char *option, int mode) { if (mode == 1) skip_option(av); ascii_sort((*av)); check_error((*av)); if (mode == 1) { if (IS_T && !(IS_F)) mod_time_sort((*av) + arg((*av), 0)); else if (!(IS_F) && !(IS_T)) ascii_sort((*av)); (IS_R_2 && !(IS_F)) ? rev_sort((*av) + arg((*av), 0)) : 0; } display_all(*av, option); }
static void display_settings(enum output_type output_type, struct termios *mode, int fd, const char *device_name) { switch (output_type) { case changed: display_changed(mode); break; case all: display_all(mode, fd, device_name); break; case recoverable: display_recoverable(mode); break; } }
void main_loop(t_dlist *list, t_all *all) { int skip; Uint32 ticks; SDL_Event event; printf("Go : \n"); skip = FALSE; all->pos.x = 0; all->pos.y = 0; while (skip == FALSE) { skip = fps_system(all, list); while (SDL_PollEvent(&event)) skip = key_hook(event); display_all(all, list); SDL_Flip(all->win); } }
void display_cartman_leave(t_vm *vm) { FMOD_CHANNEL *ch; FMOD_Channel_Stop(vm->sound[AMB][1].ch); FMOD_System_PlaySound(vm->sound[EVENT][CARTMAN_LEAVE].sys, FMOD_CHANNEL_FREE, vm->sound[EVENT][CARTMAN_LEAVE].sound, 0, &ch); vm->image[GAME][CARTMAN_FRONT].pos.x = 535; vm->image[GAME][CARTMAN_FRONT].pos.y = 750; vm->nb_champ = 0; while (vm->image[GAME][CARTMAN_FRONT].pos.x < 1250) { display_all(vm, 0); SDL_BlitSurface(vm->image[GAME][CARTMAN_FRONT].img, NULL, vm->sc, &vm->image[GAME][CARTMAN_FRONT].pos); vm->image[GAME][CARTMAN_FRONT].pos.x = vm->image[GAME][CARTMAN_FRONT].pos.x + 4; SDL_Flip(vm->sc); } }
void display_kenny_angel(t_vm *vm) { FMOD_CHANNEL *ch; FMOD_Channel_Stop(vm->sound[AMB][1].ch); FMOD_System_PlaySound(vm->sound[EVENT][KILL_KENNY].sys, FMOD_CHANNEL_FREE, vm->sound[EVENT][KILL_KENNY].sound, 0, &ch); vm->image[GAME][KENNY_ANGEL].pos.x = 570; vm->image[GAME][KENNY_ANGEL].pos.y = 400; vm->nb_champ = 0; while (vm->image[GAME][KENNY_ANGEL].pos.y > 220) { display_all(vm, 0); SDL_BlitSurface(vm->image[GAME][KENNY_ANGEL].img, NULL, vm->sc, &vm->image[GAME][KENNY_ANGEL].pos); vm->image[GAME][KENNY_ANGEL].pos.y = vm->image[GAME][KENNY_ANGEL].pos.y - 2; SDL_Flip(vm->sc); } }
int main() { struct student s; struct student s1[10]; int n,d,ch2,ch1; printf("enter the number of records to be entered"); scanf("%d",&n); printf("choose the way to operate:\n 1.with pointer\n 2. without pointer"); scanf("%d",&ch1); switch(ch1) { case 1: { input_p(&s,n); do { printf("choose the operation to perform:\n 1.display all\n 2.display particular\n 3.delete\n 4.insert\n 5.bubble sort\n 6.selection sort\n 7.binary seach"); scanf("%d",&ch2); switch(ch2) { case 1: display_all_p(&s,n); break; case 2: printf("enter the record to be displayed"); scanf("%d",&d); display_part_p(&s,d); break; case 3: printf("\n enter the record to be deleted"); scanf("%d",&d); del_p(&s,d,n); break; case 4: printf("\n enter the position at which record is to be inserted"); scanf("%d",&d); ins_p(&s,d,n); break; case 5: printf("you chose to sort the records by their roll no using bubble sort"); bubblesort(&s,n); break; case 6: printf("you chose to sort the records by their roll no using selection sort"); selection_sort(&s,n); break; case 7: printf("you chose to search a record using binary search by their roll no"); bin_search(&s,n); break; default: break; } }while(ch2!=8); } break; case 2: { input(s1,n); do { printf("choose the operation to perform:\n 1.display all\n 2.display particular\n 3.delete\n 4.insert\n 5. exit"); scanf("%d",&ch2); switch(ch2) { case 1: display_all(s1,n); break; case 2: printf("enter the record to be displayed"); scanf("%d",&d); display_part(s1,d); break; case 3: printf("\n enter the record to be deleted"); scanf("%d",&d); del(s1,d,n); break; case 4: printf("\n enter the position at which record is to be inserted"); scanf("%d",&d); ins(s1,d,n); break; default: printf("please enter a valid input"); break; } }while(ch2!=5); } break; default: break; } getchar(); return 0; }
void simulate_MainWindow::simulate() { currInstr=instrList[PC/4]; currBin=binList[PC/4]; vector<string> result; string temp=currInstr.toStdString(); string_split(temp,result); coutString=""; RD=RS=RT=immediate=address=0; v0=v1=v2=v3="None"; v0=result[0]; v1=result[1]; printf("v0=%s\nv1=%s\n",v0.c_str(),v1.c_str()); if(v0=="jr"||v0=="j"||v0=="jal") // 2 parametes { if(v0=="jr") { jr(); } else if(v0=="j") j(); else if(v0=="jal") jal(); } else if(v0=="lui") // 3 parameters { v2=result[2]; lui(); } else // 4 parameters { v2=result[2]; v3=result[3]; if(v0=="add") add(); else if(v0=="addu") addu(); else if(v0=="sub") sub(); else if(v0=="subu") subu(); else if(v0=="and") and_funct(); else if(v0=="or") or_funct(); else if(v0=="xor") xor_funct(); else if(v0=="nor") nor(); else if(v0=="slt") slt(); else if(v0=="sltu") sltu(); else if(v0=="sll") sll(); else if(v0=="srl") srl(); else if(v0=="sllv") sllv(); else if(v0=="srlv") srlv(); else if(v0=="srav") srav(); else if(v0=="addi") addi(); else if(v0=="addiu") addiu(); else if(v0=="andi") andi(); else if(v0=="ori") ori(); else if(v0=="xori") xori(); else if(v0=="sw") sw(); else if(v0=="lw") lw(); else if(v0=="beq") beq(); else if(v0=="bne") bne(); else if(v0=="slti") slti(); else if(v0=="sltiu") sltiu(); } display_all(); }
//display_all wrapper, takes no arguments, calls the display all function passing it the //root pointer and returns and int indiscting success int table::display_all_wrap(void) { return display_all(root); }
int main(int argc, char *argv[]) { // Init Display/SDM int continuer = 1; /* la variable coninuer sera égale à 0 si on veux quitter le programme */ display *disp; SDL_Event event; int repeat; /* Uint8 *keystate;*/ disp = initialize_display_module(); initialize_SDL(); repeat = SDL_EnableKeyRepeat(SDL_DEFAULT_REPEAT_DELAY, 3); //Init du main_char character* main_char; main_char = init_mainChar(); coordinate* speed; state cState; int* jumpSpeed; //Init Plateforme plateform* floor; floor = init_plateform(); set_pHitbox(floor, 640, 200); set_pPosition(floor, 0, 640-200); set_dCharacter_sprite(disp, "sprite/main_character.bmp"); set_dPlatform_sprite(disp, "sprite/floor.bmp"); set_dPlatform_position(disp, get_pPosition(floor)); SDL_BlitSurface(disp->platform->image, NULL, disp->screen, disp->platform->position); speed = get_cSpeed(main_char); cState = get_cState(main_char); while(continuer) { SDL_PollEvent(&event); switch(event.type) { case SDL_QUIT: continuer = 0; break; case SDL_KEYDOWN: switch(event.key.keysym.sym) { case SDLK_ESCAPE: continuer = 0; break; case SDLK_LEFT: if(cState == jump) set_cSpeed(main_char, speed->x-1, speed->y); else set_cSpeed(main_char, -1, speed->y); break; case SDLK_RIGHT: if(cState == jump) set_cSpeed(main_char, speed->x+1, speed->y); else set_cSpeed(main_char, 1, speed->y); break; case SDLK_SPACE: if(cState != jump) { set_cState(main_char, jump); *jumpSpeed = 10; } break; } } if(get_cState(main_char) == jump) cJump(main_char, jumpSpeed); move_char(main_char); set_dCharacter_position(disp, get_cPosition(main_char)); display_all(disp); } free_display_module(disp); free_SDL(); free_mainChar(main_char); free_plateform(floor); return 0; }
int main(){ FILE *fp; char source[20],destination[20],filename[20],filename2[20],deleted[20]; int a[12]={31,28,31,30,31,30,31,31,30,31,30,31}; int n,t_date,t_month,t_year,date,month,year,t,bus_no,seat_no; do{ start=readbus(start); printf("*---------------------------------------------------------------------*\n"); printf("* 1.Information about all buses *\n"); printf("* 2.Available buses between one station to another station *\n"); //following operations can be done printf("* 3.Reserve ticket for a particular bus *\n"); //by using this program printf("* 4.Cancel ticket *\n"); printf("* 5.exit *\n"); printf("*---------------------------------------------------------------------*\n"); printf("Enter your choice\t-->"); fflush(stdin); scanf("%d",&n); n=checkinteger(n); t=n; if(n==3) n=2; switch(n){ //operations have done by using switch case case 1: display_all(start); break; case 2: fflush(stdin); fp=fopen("todaydate.txt","r"); //read the today date by using file "todaydate.txt" if(fp==NULL) printf("can't open file\n"); else while(fscanf(fp,"%d%d%d",&t_date,&t_month,&t_year)!=EOF); //scan date,month,year by user to check availability printf("Enter your source station\t-->"); scanf("%s",source); printf("Enter your destination\t-->"); //scan source,desetination stations by user scanf("%s",destination); int i=1; while(i){ fflush(stdin); printf("Enter your date of journey\t-->"); scanf("%d",&date); date=checkinteger(date); printf("Enter your month of journey\t-->"); fflush(stdin); scanf("%d",&month); month=checkinteger(month); printf("Enter your year of journey\t-->"); fflush(stdin); scanf("%d",&year); year=checkinteger(year); if(year%4==0) a[1]=29; if(month<=12&&month>0&&date<=a[month-1]){ if(year==t_year){ if(month==t_month){ if(date>=t_date) i=0; else i=1; } else if(month>t_month) //check the date if it is right or wrong i=0; else i=1; } else if(year>t_year) i=0; else i=1; } } assign(date,month,year); checkbus(start,source,destination); if(t==2) break; case 3: fflush(stdin); printf("Enter busno to reserve\t-->"); fflush(stdin); scanf("%d",&bus_no); bus_no=checkinteger(bus_no); t=reserve(bus_no); if(t!=0){ fp=fopen("filename.txt","w"); fprintf(fp,"%d%d%d%d",date,month,year,bus_no); //file created by "datemonthyearbusno.txt" fclose(fp); fp=fopen("filename.txt","r"); fscanf(fp,"%s",filename2); fclose(fp); strcat(filename2,".txt"); fp=fopen(filename2,"a"); if(fp==NULL) printf("can't open file\n"); fclose(fp); seatsallocation(bus_no,filename2); } break; case 4: printf("Enter your date of journey\t-->"); fflush(stdin); scanf("%d",&date); date=checkinteger(date); printf("Enter your month of journey\t-->"); fflush(stdin); scanf("%d",&month); month=checkinteger(month); printf("Enter your year of journey\t-->"); fflush(stdin); scanf("%d",&year); year=checkinteger(year); printf("enter bus no\t-->"); fflush(stdin); scanf("%d",&bus_no); printf("enter seat_no\t-->"); scanf("%d",&seat_no); seat_no=checkinteger(seat_no); fp=fopen("filename.txt","w"); fprintf(fp,"%d%d%d%d",date,month,year,bus_no); //ticket is cancell on "datemonthyearbusno.txt" fclose(fp); fp=fopen("filename.txt","r"); fscanf(fp,"%s",deleted); fclose(fp);; strcat(deleted,".txt"); cancelticket(deleted,seat_no); printf("\n:::Ticket cancelled on your date:::\n\n"); break; } ptr=start; while(ptr!=NULL){ ptr=start; start=start->next; //free all node in the linkedlist which stores details of "busdetails.txt" free(ptr); ptr=ptr->next; } }while(n!=5); return 0; }
void animation(Animation id, Coords pos, Coords dir) { if (!run_animations) return; static Coords targets[32]; i64 target_count = 0; display_all(); switch (id) { case EXPLOSION: for (Coords d: square_shape) targets[target_count++] = pos + d; break; case FIREBALL: for (Coords p = pos + dir; !BLOCKS_LOS(p); p += dir) targets[target_count++] = p; break; case CONE_OF_COLD: for (Coords d: cone_shape) targets[target_count++] = pos + d * dir.x; break; case SPORES: for (Coords d: square_shape) if (L1(d)) targets[target_count++] = pos + d; break; case ELECTRICITY: for (Monster *m = &player; m->type; ++m) { targets[target_count] = m->pos; target_count += m->electrified; m->electrified = false; } break; case BOUNCE_TRAP: break; } for (const char **step = animation_steps[(i64) id]; **step; ++step) { for (i64 i = 0; i < target_count; ++i) if (TILE(pos).revealed && TILE(targets[i]).revealed) print_at(targets[i], *step); fflush(stdout); struct timeval timeout = { .tv_usec = 42000 }; fd_set in_fds; FD_SET(0, &in_fds); select(1, &in_fds, NULL, NULL, &timeout); } } // `play` entry point: an interactive interface to the simulation. int main(i32 argc, char **argv) { g.seed = (u32) time(NULL); xml_parse(argc, argv); run_animations = true; system("stty -echo -icanon eol \1"); printf("\033[?25l\033[?1003;1049h"); atexit([]() { printf("\033[?25h\033[?1003;1049l"); }); GameState timeline[32] = {[0 ... 31] = g}; for (;;) { timeline[g.current_beat & 31] = g; display_all(); i32 c = getchar(); if (c == 't') execv(*argv, argv); else if (c == 'u') g = timeline[(g.current_beat - 1) & 31]; else if (c == '\033' && scanf("[M%*c%c%c", &cursor.x, &cursor.y)) cursor += {-33, -33}; else if (c == EOF || c == 4 || c == 'q') break; else if (!g.game_over) g.game_over = do_beat((char) c); } }
int main(void) { List *addr_list = NULL; DLL_Return ExitCode; if(DLL_CreateList(&addr_list) == NULL) { fputs("Fatal memory error\n", stderr); exit(EXIT_FAILURE); } if((ExitCode = DLL_InitializeList(addr_list, sizeof(NameAddr))) != DLL_NORMAL) { (void)(ExitCode == DLL_ZERO_INFO && fputs("Size of address record is zero.\n\n", stderr)); (void)(ExitCode == DLL_NULL_LIST && fputs("addr_list points to a NULL.\n\n", stderr)); exit(EXIT_FAILURE); } printf("%s\n", DLL_Version()); for(;;) { switch(main_menu()) { case 1: enter(addr_list); break; case 2: insert(addr_list); break; case 3: update(addr_list); break; case 4: search(addr_list); break; case 5: display_all(addr_list); break; case 6: get_current_record(addr_list); break; case 7: delete_current_record(addr_list); break; case 8: get_prior_record(addr_list); break; case 9: get_next_record(addr_list); break; case 10: get_first_record(addr_list); break; case 11: get_last_record(addr_list); break; case 12: swap_record(addr_list); break; case 13: save(addr_list); break; case 14: load(addr_list); break; case 15: number_of_records(addr_list); break; case 16: DLL_DestroyList(&addr_list); #if DEBUG if(addr_list != NULL) { fputs("Error: List was not destroyed.\n", stderr); exit(EXIT_FAILURE); } #endif exit(EXIT_SUCCESS); } } return 0; }