/*- * Copyright (c) 2016 Nathanial Sloss * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include int main() { int i, col, colour, line, x_limit, y_limit, colourOK, spacing; int xpos, ypos, spacing_residual, spacing_start, spacing_end; int grid_x, grid_y; float grid_unit; char title[] = "NetBSD"; int numcolours = 6; int colour_list[6] = { COLOR_YELLOW, COLOR_CYAN, COLOR_GREEN, COLOR_MAGENTA, COLOR_RED, COLOR_BLUE, }; float coord_x, circle_int, circle_posx1, circle_posx2; float a_axis, b_axis; if (!(initscr())) { printf("\nUnknown terminal type."); printf("\n"); return EXIT_FAILURE; } colourOK = has_colors(); if (COLS < 13 || LINES < 13) { endwin(); printf("\nTerminal size must be at least 72x25."); printf("\n"); return EXIT_FAILURE; } if (colourOK) { start_color(); init_pair( 0, COLOR_WHITE, COLOR_BLACK ); init_pair( 1, COLOR_WHITE, COLOR_RED ); init_pair( 2, COLOR_WHITE, COLOR_GREEN ); init_pair( 3, COLOR_WHITE, COLOR_YELLOW ); init_pair( 4, COLOR_WHITE, COLOR_BLUE ); init_pair( 5, COLOR_WHITE, COLOR_MAGENTA ); init_pair( 6, COLOR_WHITE, COLOR_CYAN ); init_pair( 7, COLOR_BLACK, COLOR_WHITE ); attrset(COLOR_PAIR(0)); } x_limit = (COLS - 1) / 2; x_limit = x_limit * 2; y_limit = (LINES - 2) / 2; y_limit = y_limit * 2; spacing = 2 * y_limit / numcolours; spacing_residual = ((2 * y_limit) % numcolours) / 2; a_axis = y_limit / 2; b_axis = y_limit; grid_unit = b_axis / 13; grid_y = grid_unit; grid_x = grid_unit * 2; int circle_pos[y_limit][2]; memset(circle_pos, -1, sizeof(circle_pos)); for (i = 0; i < y_limit; i++) { /* Draw an elipse (looks more circular.) */ circle_int = (i - a_axis) / a_axis; circle_int = 1 - powf(circle_int, 2); circle_int = circle_int * powf(b_axis, 2); #if 0 /* Draw a circle, commented out as elipse looks better.*/ circle_int = powf(a_axis, 2) - powf(i - a_axis, 2); #endif coord_x = sqrtf(circle_int); circle_pos[i][0] = (-coord_x + ((float)x_limit / 2)); circle_pos[i][1] = (coord_x + ((float)x_limit / 2)); } clear(); attron(A_ALTCHARSET); move(0, 0); /* Draw a grid. */ for (line = 1; line < y_limit; line += grid_y) { for (col = 1; col < x_limit; col = col + grid_x) { xpos = col; while ((xpos < col + grid_x - 1) && (xpos < x_limit)) { mvaddch(line + grid_y - 1, xpos, 113 | A_ALTCHARSET); xpos++; } if (xpos < x_limit) mvaddch(line + grid_y - 1, xpos, 110 | A_ALTCHARSET); } ypos = line; while (ypos < line + grid_y - 1) { for (col = grid_x - 1; col < x_limit; col += grid_x) { mvaddch(ypos, col + 1, 120 | A_ALTCHARSET); } ypos++; } } for (line = 1; line < y_limit; line += grid_y) { mvaddch(line + grid_y - 1, 0, 116 | A_ALTCHARSET); mvaddch(line + grid_y - 1, x_limit, 117 | A_ALTCHARSET); ypos = line; while (ypos < line + grid_y - 1) { mvaddch(ypos, 0, 120 | A_ALTCHARSET); mvaddch(ypos, x_limit, 120 | A_ALTCHARSET); ypos++; } } for (col = 1; col < x_limit; col += grid_x) { mvaddch(0, col + grid_x - 1, 119 | A_ALTCHARSET); mvaddch(y_limit, col + grid_x - 1, 118 | A_ALTCHARSET); xpos = col; while ((xpos < col + grid_x - 1) && (xpos < x_limit)) { mvaddch(0, xpos, 113 | A_ALTCHARSET); mvaddch(y_limit, xpos, 113 | A_ALTCHARSET); xpos++; } } mvaddch(0, 0, 108 | A_ALTCHARSET); mvaddch(0, x_limit, 107 | A_ALTCHARSET); mvaddch(y_limit, 0, 109 | A_ALTCHARSET); mvaddch(y_limit, x_limit, 106 | A_ALTCHARSET); /* Draw a white circle. */ for (i = 1; i < y_limit; i++) { for (col = circle_pos[i][0]; col <= circle_pos[i][1]; col++) { mvaddch(i, col, 32 | A_REVERSE); } } /* Add title segment. */ for (i = roundf(1 * grid_unit); i < roundf(2 * grid_unit); i++) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (col = roundf((4 * grid_unit * 2) + circle_pos[y_limit /2][0]); col <= roundf((9 * grid_unit * 2) + circle_pos[y_limit /2][0]); col++) mvaddch(i, col, ' '); } i = roundf(1.4 * grid_unit); col = y_limit - (sizeof(title) / 2) + circle_pos[y_limit / 2][0]; mvprintw(i, col, "%s", title); /* Add black segments at top. */ for (line = roundf(2 * grid_unit); line < 4 * grid_unit; line++) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (col = 0; col <= roundf((3.5 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos <= circle_pos[line][1]) mvaddch(line, xpos, ' '); } for (col = roundf((9.5 * grid_unit * 2)); col < roundf((13 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos <= circle_pos[line][1]) mvaddch(line, xpos, ' '); } } /* Add black and white squares close to top. */ int gap = (circle_pos[(int)(5 * grid_unit)][1] - circle_pos[(int)(5 * grid_unit)][0]) / 13; for (i = roundf(3 * grid_unit); i < roundf(4 * grid_unit); i++) { for (xpos = 0; xpos <= x_limit; xpos += 2 * gap) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (col = xpos; col < xpos + gap; col++) { if (col >= circle_pos[i][0] && col <= circle_pos[i][1]) mvaddch(i, col, ' '); } if (colourOK) attrset(COLOR_PAIR(COLOR_WHITE)); for (col = xpos + gap ; col < xpos + (2 * gap); col++) { if (col >= circle_pos[i][0] && col <= circle_pos[i][1]) mvaddch(i, col, ' '); } } } /* Add colour bars. */ for (i = 0; i < numcolours; i++) { colour = colour_list[i]; if (colourOK) attrset(COLOR_PAIR(colour)); if (i == 0) spacing_start = 0; else spacing_start = (spacing * i) + spacing_residual; if (i == numcolours - 1) spacing_end = circle_pos[y_limit / 2][1]; else spacing_end = (spacing * (i + 1)) + spacing_residual; for (line = roundf(4 * grid_unit); line < (y_limit / 2); line++) { for (col = spacing_start; col < spacing_end; col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos <= circle_pos[line][1]) mvprintw(line, xpos, " "); } } } /* Add black segment under centre line. */ for (line = y_limit / 2; line < (9.5 * grid_unit); line++) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (col = circle_pos[line][0]; col <= circle_pos[line][1]; col++) mvaddch(line, col, ' '); for (col = roundf((1.5 * grid_unit * 2)); col < roundf((4.3 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, 120 | A_ALTCHARSET); } for (col = roundf((4.3 * grid_unit * 2)); col < roundf((7.6 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, '|'); } for (col = roundf((7.6 * grid_unit * 2)); col < roundf((11.5 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, 97 | A_ALTCHARSET); } } /* Add black segment close to bottom. */ for (line = roundf(9.5 * grid_unit); line <= (10.5 * grid_unit); line++) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (col = roundf((0 * grid_unit * 2)); col < roundf((4 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, ' '); } for (col = roundf((4 * grid_unit * 2)); col < roundf((6.5 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, 97 | A_ALTCHARSET); } if (colourOK) attrset(COLOR_PAIR(COLOR_WHITE)); for (col = roundf((6.5 * grid_unit * 2)); col < roundf((9 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, 97 | A_ALTCHARSET); } for (col = roundf((9 * grid_unit * 2)); col < roundf((13 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, ' '); } } /* Add name segment close to bottom. */ for (line = roundf(10.5 * grid_unit); line < (12 * grid_unit); line++) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (col = roundf(3.5 * grid_unit * 2); col <= roundf(9.5 * grid_unit * 2); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, ' '); } if (colourOK) attrset(COLOR_PAIR(COLOR_WHITE)); for (col = roundf(0 * grid_unit * 2); col <= roundf(3.5 * grid_unit * 2); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, ' '); } for (col = roundf(9.5 * grid_unit * 2); col <= roundf(13 * grid_unit * 2); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, ' '); } } /* Add yellow segment at bottom. */ for (line = 12 * grid_unit; line < y_limit; line++) { if (colourOK) attrset(COLOR_PAIR(COLOR_YELLOW)); for (col = circle_pos[line][0]; col <= circle_pos[line][1]; col++) mvaddch(line, col, ' '); if (colourOK) attrset(COLOR_PAIR(COLOR_RED)); for (col = roundf((6 * grid_unit * 2)); col < roundf((7 * grid_unit * 2)); col++) { xpos = col + circle_pos[y_limit / 2][0]; if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, ' '); } } if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); for (line = 6 * grid_unit; line <= (7 * grid_unit) + 1; line++) { if (colourOK) attrset(COLOR_PAIR(COLOR_BLACK)); col = x_limit / 2; if (line != a_axis) { mvaddch(line, col - 1, ' '); mvaddch(line, col, 120 | A_ALTCHARSET); mvaddch(line, col + 1, ' '); } } line = y_limit / 2; for (col = 1; col < x_limit; col = col + grid_x) { xpos = col; while (xpos < col + grid_x - 1) { if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, 113 | A_ALTCHARSET); xpos++; } if (xpos >= circle_pos[line][0] && xpos < circle_pos[line][1]) mvaddch(line, xpos, 110 | A_ALTCHARSET); } line = y_limit / 2; col = x_limit / 2; mvaddch(line, col, 110 | A_ALTCHARSET); mvaddch(line, col - 1, 113 | A_ALTCHARSET); mvaddch(line, col + 1, 113 | A_ALTCHARSET); refresh(); getch(); endwin(); return EXIT_SUCCESS; }