/* * libcaca Colour ASCII-Art library * Copyright © 2002—2018 Sam Hocevar * All Rights Reserved * * This library is free software. It comes without any warranty, to * the extent permitted by applicable law. You can redistribute it * and/or modify it under the terms of the Do What the Fuck You Want * to Public License, Version 2, as published by Sam Hocevar. See * http://www.wtfpl.net/ for more details. */ /* * This file contains ellipse and circle drawing functions, both filled * and outline. */ #include "config.h" #if !defined(__KERNEL__) # include #endif #include "caca.h" #include "caca_internals.h" static void ellipsepoints(caca_canvas_t *, int, int, int, int, uint32_t, int); /** \brief Draw a circle on the canvas using the given character. * * This function never fails. * * \param cv The handle to the libcaca canvas. * \param x Center X coordinate. * \param y Center Y coordinate. * \param r Circle radius. * \param ch UTF-32 character to be used to draw the circle outline. * \return This function always returns 0. */ int caca_draw_circle(caca_canvas_t *cv, int x, int y, int r, uint32_t ch) { int test, dx, dy; /* Optimized Bresenham. Kick ass. */ for(test = 0, dx = 0, dy = r ; dx <= dy ; dx++) { ellipsepoints(cv, x, y, dx, dy, ch, 1); ellipsepoints(cv, x, y, dy, dx, ch, 1); test += test > 0 ? dx - dy-- : dx; } return 0; } /** \brief Fill an ellipse on the canvas using the given character. * * This function never fails. * * \param cv The handle to the libcaca canvas. * \param xo Center X coordinate. * \param yo Center Y coordinate. * \param a Ellipse X radius. * \param b Ellipse Y radius. * \param ch UTF-32 character to be used to fill the ellipse. * \return This function always returns 0. */ int caca_fill_ellipse(caca_canvas_t *cv, int xo, int yo, int a, int b, uint32_t ch) { int d2; int x = 0; int y = b; int d1 = b*b - (a*a*b) + (a*a/4); while(a*a*y - a*a/2 > b*b*(x+1)) { if(d1 < 0) { d1 += b*b*(2*x+1); /* XXX: "Computer Graphics" has + 3 here. */ } else { d1 += b*b*(2*x*1) + a*a*(-2*y+2); caca_draw_line(cv, xo - x, yo - y, xo + x, yo - y, ch); caca_draw_line(cv, xo - x, yo + y, xo + x, yo + y, ch); y--; } x++; } caca_draw_line(cv, xo - x, yo - y, xo + x, yo - y, ch); caca_draw_line(cv, xo - x, yo + y, xo + x, yo + y, ch); d2 = b*b*(x+0.5)*(x+0.5) + a*a*(y-1)*(y-1) - a*a*b*b; while(y > 0) { if(d2 < 0) { d2 += b*b*(2*x+2) + a*a*(-2*y+3); x++; } else { d2 += a*a*(-2*y+3); } y--; caca_draw_line(cv, xo - x, yo - y, xo + x, yo - y, ch); caca_draw_line(cv, xo - x, yo + y, xo + x, yo + y, ch); } return 0; } /** \brief Draw an ellipse on the canvas using the given character. * * This function never fails. * * \param cv The handle to the libcaca canvas. * \param xo Center X coordinate. * \param yo Center Y coordinate. * \param a Ellipse X radius. * \param b Ellipse Y radius. * \param ch UTF-32 character to be used to draw the ellipse outline. * \return This function always returns 0. */ int caca_draw_ellipse(caca_canvas_t *cv, int xo, int yo, int a, int b, uint32_t ch) { int d2; int x = 0; int y = b; int d1 = b*b - (a*a*b) + (a*a/4); ellipsepoints(cv, xo, yo, x, y, ch, 0); while(a*a*y - a*a/2 > b*b*(x+1)) { if(d1 < 0) { d1 += b*b*(2*x+1); /* XXX: "Computer Graphics" has + 3 here. */ } else { d1 += b*b*(2*x*1) + a*a*(-2*y+2); y--; } x++; ellipsepoints(cv, xo, yo, x, y, ch, 0); } d2 = b*b*(x+0.5)*(x+0.5) + a*a*(y-1)*(y-1) - a*a*b*b; while(y > 0) { if(d2 < 0) { d2 += b*b*(2*x+2) + a*a*(-2*y+3); x++; } else { d2 += a*a*(-2*y+3); } y--; ellipsepoints(cv, xo, yo, x, y, ch, 0); } return 0; } /** \brief Draw a thin ellipse on the canvas. * * This function never fails. * * \param cv The handle to the libcaca canvas. * \param xo Center X coordinate. * \param yo Center Y coordinate. * \param a Ellipse X radius. * \param b Ellipse Y radius. * \return This function always returns 0. */ int caca_draw_thin_ellipse(caca_canvas_t *cv, int xo, int yo, int a, int b) { /* FIXME: this is not correct */ int d2; int x = 0; int y = b; int d1 = b*b - (a*a*b) + (a*a/4); ellipsepoints(cv, xo, yo, x, y, '-', 1); while(a*a*y - a*a/2 > b*b*(x+1)) { if(d1 < 0) { d1 += b*b*(2*x+1); /* XXX: "Computer Graphics" has + 3 here. */ ellipsepoints(cv, xo, yo, x + 1, y, '0', 1); } else { d1 += b*b*(2*x*1) + a*a*(-2*y+2); y--; ellipsepoints(cv, xo, yo, x + 1, y, '1', 1); } x++; } d2 = b*b*(x+0.5)*(x+0.5) + a*a*(y-1)*(y-1) - a*a*b*b; while(y > 0) { if(d2 < 0) { d2 += b*b*(2*x+2) + a*a*(-2*y+3); x++; ellipsepoints(cv, xo, yo, x , y - 1, '2', 1); } else { d2 += a*a*(-2*y+3); ellipsepoints(cv, xo, yo, x , y - 1, '3', 1); } y--; } return 0; } static void ellipsepoints(caca_canvas_t *cv, int xo, int yo, int x, int y, uint32_t ch, int thin) { uint8_t b = 0; if(xo + x >= 0 && xo + x < (int)cv->width) b |= 0x1; if(xo - x >= 0 && xo - x < (int)cv->width) b |= 0x2; if(yo + y >= 0 && yo + y < (int)cv->height) b |= 0x4; if(yo - y >= 0 && yo - y < (int)cv->height) b |= 0x8; if((b & (0x1|0x4)) == (0x1|0x4)) { uint32_t c = ch; if(thin) { switch(c) { case '0': c = '-'; break; case '1': c = ','; break; case '2': c = '/'; break; case '3': c = '|'; break; } } caca_put_char(cv, xo + x, yo + y, c); } if((b & (0x2|0x4)) == (0x2|0x4)) { uint32_t c = ch; if(thin) { switch(c) { case '0': c = '-'; break; case '1': c = '.'; break; case '2': c = '\\'; break; case '3': c = '|'; break; } } caca_put_char(cv, xo - x, yo + y, c); } if((b & (0x1|0x8)) == (0x1|0x8)) { uint32_t c = ch; if(thin) { switch(c) { case '0': c = '-'; break; case '1': c = '`'; break; case '2': c = '\\'; break; case '3': c = '|'; break; } } caca_put_char(cv, xo + x, yo - y, c); } if((b & (0x2|0x8)) == (0x2|0x8)) { uint32_t c = ch; if(thin) { switch(c) { case '0': c = '-'; break; case '1': c = '\''; break; case '2': c = '/'; break; case '3': c = '|'; break; } } caca_put_char(cv, xo - x, yo - y, c); } }