// Copyright (c) 2016 Brian Barto // // This program is free software; you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by the Free // Software Foundation; either version 3 of the License, or (at your option) // any later version. See COPYING for more details. #include "nms.h" #include #include #include #include #include #include #include #include #define TAB_SIZE 4 #define TYPE_EFFECT_SPEED 4 // miliseconds per char #define JUMBLE_SECONDS 2 // number of seconds for jumble effect #define JUMBLE_LOOP_SPEED 35 // miliseconds between each jumble #define REVEAL_LOOP_SPEED 100 // miliseconds (must be evenly divisible by 5) #define SPACE 32 #define NEWLINE 10 #define TAB 9 // Window position structure, linked list. Keeps track of every // character's position on the terminal, as well as other attributes. struct winpos { char source; char mask; int row; int col; int s1_time; int s2_time; struct winpos *next; }; // Function prototypes (internal) char getMaskChar(void); /* * void nms_exec(NmsArgs *) * * DESCR: * Coming Soon... * */ char nms_exec(NmsArgs *args) { struct winpos *list_pointer = NULL; struct winpos *start; // Always points to start of list struct winpos *temp; // Used for free()ing the list int termSizeRows, termSizeCols; int c, n, x = 0, y = 0; int r_time, r_time_l, r_time_s; int ms, ls; bool first = true; char ret = 0; // Start and initialize curses mode initscr(); cbreak(); noecho(); scrollok(stdscr, true); if (args->show_cursor == false) curs_set(0); // Setting up and starting colors if terminal supports them if (has_colors()) { start_color(); init_pair(1, COLOR_BLUE, COLOR_BLACK); } // Get terminal window size getmaxyx(stdscr, termSizeRows, termSizeCols); // Seed my random number generator with the current time srand(time(NULL)); // Geting input n = 0; while ((c = args->src[n++]) != '\0') { if (c == NEWLINE) { ++y; x = 0; } else if (c == TAB && x + 4 <= termSizeCols) { x += TAB_SIZE; } else if (isspace(c)) { if (++x > termSizeCols) { ++y; x = 0; } } else { if (first) { list_pointer = malloc(sizeof(struct winpos)); start = list_pointer; first = false; } else { list_pointer->next = malloc(sizeof(struct winpos)); list_pointer = list_pointer->next; } r_time = rand() % 50; r_time_s = r_time * .25; r_time_l = r_time * .75; r_time *= 100; r_time_s *= 100; r_time_l *= 100; list_pointer->source = c; list_pointer->mask = getMaskChar(); list_pointer->row = y; list_pointer->col = x; list_pointer->s1_time = r_time > 1000 ? r_time_l : r_time; list_pointer->s2_time = r_time > 1000 ? r_time_s : 0; list_pointer->next = NULL; if (++x > termSizeCols) { ++y; x = 0; } } } // Initially display the characters in the terminal with a 'type effect'. list_pointer = start; while (list_pointer != NULL && list_pointer->row <= termSizeRows) { mvaddch(list_pointer->row, list_pointer->col, list_pointer->mask); refresh(); list_pointer->mask = getMaskChar(); list_pointer = list_pointer->next; usleep(TYPE_EFFECT_SPEED * 1000); } // Flush any input up to this point flushinp(); // Reopen stdin for interactive input (keyboard), then require user // to press a key to continue. if (!isatty(STDIN_FILENO)) if (!freopen ("/dev/tty", "r", stdin)) sleep(1); else getch(); else getch(); // Jumble loop x = 0; while (x < (JUMBLE_SECONDS * 1000) / JUMBLE_LOOP_SPEED) { list_pointer = start; while (list_pointer != NULL && list_pointer->row <= termSizeRows) { mvaddch(list_pointer->row, list_pointer->col, list_pointer->mask); refresh(); list_pointer->mask = getMaskChar(); list_pointer = list_pointer->next; } usleep(JUMBLE_LOOP_SPEED * 1000); ++x; } // Reveal loop int s1_remask_time = 500; // time, in milliseconds, we change the mask for stage 1 bool loop = true; while (loop) { loop = false; list_pointer = start; while (list_pointer != NULL && list_pointer->row <= termSizeRows) { if (list_pointer->s1_time > 0) { loop = true; list_pointer->s1_time -= REVEAL_LOOP_SPEED; if (list_pointer->s1_time % s1_remask_time == 0) { list_pointer->mask = getMaskChar(); } } else if (list_pointer->s2_time > 0) { loop = true; list_pointer->s2_time -= REVEAL_LOOP_SPEED; list_pointer->mask = getMaskChar(); } else { list_pointer->mask = list_pointer->source; attron(A_BOLD); if (has_colors()) attron(COLOR_PAIR(1)); } mvaddch(list_pointer->row, list_pointer->col, list_pointer->mask); refresh(); list_pointer = list_pointer->next; attroff(A_BOLD); if (has_colors()) attroff(COLOR_PAIR(1)); } usleep(REVEAL_LOOP_SPEED * 1000); } // Printing remaining characters from list if we stopped short due to // a terminal row limitation. i.e. the number of textual rows in the input // stream were greater than the number of rows in the terminal. int prevRow; if (list_pointer != NULL) { attron(A_BOLD); if (has_colors()) attron(COLOR_PAIR(1)); prevRow = list_pointer->row; scroll(stdscr); while (list_pointer != NULL) { while (list_pointer->row > prevRow) { scroll(stdscr); ++prevRow; } mvaddch(termSizeRows -1, list_pointer->col, list_pointer->source); refresh(); //mvaddch(0, 0, list_pointer->source); list_pointer = list_pointer->next; } attroff(A_BOLD); if (has_colors()) attroff(COLOR_PAIR(1)); } // Flush any input up to this point flushinp(); // Position cursor if (args->input_cursor_y >= 0 && args->input_cursor_x >= 0) { move(args->input_cursor_y, args->input_cursor_x); curs_set(1); } // If stdin is set to the keyboard, user must press a key to continue if (isatty(STDIN_FILENO)) { ret = getch(); if (args->return_opts != NULL && strlen(args->return_opts) > 0) while (index(args->return_opts, ret) == NULL) { beep(); ret = getch(); } } else sleep(2); // End curses mode endwin(); // Freeing the list. list_pointer = start; while (list_pointer != NULL) { temp = list_pointer; list_pointer = list_pointer->next; free(temp); } return ret; } /* * void getMaskChar(void) * * DESCR: * Returns a random character from the maskChars string. * */ char getMaskChar(void) { char *maskChars = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz" "1234567890" "!@#$%^&*()-_=+{}[]:;|\\\"'<>,.?/"; return maskChars[rand() % strlen(maskChars)]; }