/* * libcaca Colour ASCII-Art library * Copyright (c) 2002-2010 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://sam.zoy.org/wtfpl/COPYING for more details. */ /* * This file contains various canvas handling functions such as character * and string drawing. */ #include "config.h" #if !defined(__KERNEL__) # include /* BUFSIZ */ # include # include # include # if defined(HAVE_UNISTD_H) # include # endif # if defined(HAVE_SIGNAL_H) # include # endif # if defined(HAVE_SYS_IOCTL_H) # include # endif #endif #include "caca.h" #include "caca_internals.h" /** \brief Set cursor position. * * Put the cursor at the given coordinates. Functions making use of the * cursor will use the new values. Setting the cursor position outside the * canvas is legal but the cursor will not be shown. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X cursor coordinate. * \param y Y cursor coordinate. * \return This function always returns 0. */ int caca_gotoxy(caca_canvas_t *cv, int x, int y) { cv->frames[cv->frame].x = x; cv->frames[cv->frame].y = y; return 0; } /** \brief Get X cursor position. * * Retrieve the X coordinate of the cursor's position. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \return The cursor's X coordinate. */ int caca_wherex(caca_canvas_t const *cv) { return cv->frames[cv->frame].x; } /** \brief Get Y cursor position. * * Retrieve the Y coordinate of the cursor's position. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \return The cursor's Y coordinate. */ int caca_wherey(caca_canvas_t const *cv) { return cv->frames[cv->frame].y; } /** \brief Print an ASCII or Unicode character. * * Print an ASCII or Unicode character at the given coordinates, using * the default foreground and background colour values. * * If the coordinates are outside the canvas boundaries, nothing is printed. * If a fullwidth Unicode character gets overwritten, its remaining visible * parts are replaced with spaces. If the canvas' boundaries would split the * fullwidth character in two, a space is printed instead. * * The behaviour when printing non-printable characters or invalid UTF-32 * characters is undefined. To print a sequence of bytes forming an UTF-8 * character instead of an UTF-32 character, use the caca_put_str() function. * * This function returns the width of the printed character. If it is a * fullwidth character, 2 is returned. Otherwise, 1 is returned. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X coordinate. * \param y Y coordinate. * \param ch The character to print. * \return The width of the printed character: 2 for a fullwidth character, * 1 otherwise. */ int caca_put_char(caca_canvas_t *cv, int x, int y, uint32_t ch) { uint32_t *curchar, *curattr, attr; int fullwidth, xmin, xmax, ret; if(ch == CACA_MAGIC_FULLWIDTH) return 1; fullwidth = caca_utf32_is_fullwidth(ch); ret = fullwidth ? 2 : 1; if(x >= (int)cv->width || y < 0 || y >= (int)cv->height) return ret; if(x == -1 && fullwidth) { x = 0; ch = ' '; fullwidth = 0; } else if(x < 0) return ret; curchar = cv->chars + x + y * cv->width; curattr = cv->attrs + x + y * cv->width; attr = cv->curattr; xmin = xmax = x; /* When overwriting the right part of a fullwidth character, * replace its left part with a space. */ if(x && curchar[0] == CACA_MAGIC_FULLWIDTH) { curchar[-1] = ' '; xmin--; } if(fullwidth) { if(x + 1 == (int)cv->width) ch = ' '; else { xmax++; /* When overwriting the left part of a fullwidth character, * replace its right part with a space. */ if(x + 2 < (int)cv->width && curchar[2] == CACA_MAGIC_FULLWIDTH) { curchar[2] = ' '; xmax++; } curchar[1] = CACA_MAGIC_FULLWIDTH; curattr[1] = attr; } } else { /* When overwriting the left part of a fullwidth character, * replace its right part with a space. */ if(x + 1 != (int)cv->width && curchar[1] == CACA_MAGIC_FULLWIDTH) { curchar[1] = ' '; xmax++; } } /* Only add a dirty rectangle if we are pasting a different character * or attribute at that place. This does not account for inconsistencies * in the canvas, ie. if CACA_MAGIC_FULLWIDTH lies at illegal places, * but it's the caller's responsibility not to corrupt the contents. */ if(!cv->dirty_disabled && (curchar[0] != ch || curattr[0] != attr)) caca_add_dirty_rect(cv, xmin, y, xmax - xmin + 1, 1); curchar[0] = ch; curattr[0] = attr; return ret; } /** \brief Get the Unicode character at the given coordinates. * * Get the ASCII or Unicode value of the character at the given * coordinates. If the value is less or equal to 127 (0x7f), * the character can be printed as ASCII. Otherise, it must be handled * as a UTF-32 value. * * If the coordinates are outside the canvas boundaries, a space (0x20) * is returned. * * A special exception is when CACA_MAGIC_FULLWIDTH is returned. This * value is guaranteed not to be a valid Unicode character, and indicates * that the character at the left of the requested one is a fullwidth * character. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X coordinate. * \param y Y coordinate. * \return The Unicode character at the given coordinates. */ uint32_t caca_get_char(caca_canvas_t const *cv, int x, int y) { if(x < 0 || x >= (int)cv->width || y < 0 || y >= (int)cv->height) return ' '; return cv->chars[x + y * cv->width]; } /** \brief Print a string. * * Print an UTF-8 string at the given coordinates, using the default * foreground and background values. The coordinates may be outside the * canvas boundaries (eg. a negative Y coordinate) and the string will * be cropped accordingly if it is too long. * * See caca_put_char() for more information on how fullwidth characters * are handled when overwriting each other or at the canvas' boundaries. * * This function returns the number of cells printed by the string. It is * not the number of characters printed, because fullwidth characters * account for two cells. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X coordinate. * \param y Y coordinate. * \param s The string to print. * \return The number of cells printed. */ int caca_put_str(caca_canvas_t *cv, int x, int y, char const *s) { size_t rd; int len = 0; if(y < 0 || y >= (int)cv->height || x >= (int)cv->width) { while(*s) { len += caca_utf32_is_fullwidth(caca_utf8_to_utf32(s, &rd)) ? 2 : 1; s += rd; } return len; } while(*s) { uint32_t ch = caca_utf8_to_utf32(s, &rd); if(x + len >= -1 && x + len < (int)cv->width) caca_put_char(cv, x + len, y, ch); len += caca_utf32_is_fullwidth(ch) ? 2 : 1; s += rd; } return len; } /** \brief Print a formated string. * * Format a string at the given coordinates, using the default foreground * and background values. The coordinates may be outside the canvas * boundaries (eg. a negative Y coordinate) and the string will be cropped * accordingly if it is too long. The syntax of the format string is the * same as for the C printf() function. * * This function returns the number of cells printed by the string. It is * not the number of characters printed, because fullwidth characters * account for two cells. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X coordinate. * \param y Y coordinate. * \param format The format string to print. * \param ... Arguments to the format string. * \return The number of cells printed. */ int caca_printf(caca_canvas_t *cv, int x, int y, char const *format, ...) { va_list args; int ret; va_start(args, format); ret = caca_vprintf(cv, x, y, format, args); va_end(args); return ret; } /** \brief Print a formated string (va_list version). * * Format a string at the given coordinates, using the default foreground * and background values. The coordinates may be outside the canvas * boundaries (eg. a negative Y coordinate) and the string will be cropped * accordingly if it is too long. The syntax of the format string is the * same as for the C vprintf() function. * * This function returns the number of cells printed by the string. It is * not the number of characters printed, because fullwidth characters * account for two cells. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X coordinate. * \param y Y coordinate. * \param format The format string to print. * \param args A va_list containting the arguments to the format string. * \return The number of cells printed. */ int caca_vprintf(caca_canvas_t *cv, int x, int y, char const *format, va_list args) { char tmp[BUFSIZ]; char *buf = tmp; int ret; if(cv->width - x + 1 > BUFSIZ) buf = malloc(cv->width - x + 1); #if defined(HAVE_VSNPRINTF) vsnprintf(buf, cv->width - x + 1, format, args); #else vsprintf(buf, format, args); #endif buf[cv->width - x] = '\0'; ret = caca_put_str(cv, x, y, buf); if(buf != tmp) free(buf); return ret; } /** \brief Clear the canvas. * * Clear the canvas using the current foreground and background colours. * * This function never fails. * * \param cv The canvas to clear. * \return This function always returns 0. */ int caca_clear_canvas(caca_canvas_t *cv) { uint32_t attr = cv->curattr; int n; for(n = cv->width * cv->height; n--; ) { cv->chars[n] = (uint32_t)' '; cv->attrs[n] = attr; } if(!cv->dirty_disabled) caca_add_dirty_rect(cv, 0, 0, cv->width, cv->height); return 0; } /** \brief Set cursor handle. * * Set the canvas' handle. Blitting functions will use the handle value * to put the canvas at the proper coordinates. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \param x X handle coordinate. * \param y Y handle coordinate. * \return This function always returns 0. */ int caca_set_canvas_handle(caca_canvas_t *cv, int x, int y) { cv->frames[cv->frame].handlex = x; cv->frames[cv->frame].handley = y; return 0; } /** \brief Get X handle position. * * Retrieve the X coordinate of the canvas' handle. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \return The canvas' handle's X coordinate. */ int caca_get_canvas_handle_x(caca_canvas_t const *cv) { return cv->frames[cv->frame].handlex; } /** \brief Get Y handle position. * * Retrieve the Y coordinate of the canvas' handle. * * This function never fails. * * \param cv A handle to the libcaca canvas. * \return The canvas' handle's Y coordinate. */ int caca_get_canvas_handle_y(caca_canvas_t const *cv) { return cv->frames[cv->frame].handley; } /** \brief Blit a canvas onto another one. * * Blit a canvas onto another one at the given coordinates. * An optional mask canvas can be used. * * If an error occurs, -1 is returned and \b errno is set accordingly: * - \c EINVAL A mask was specified but the mask size and source canvas * size do not match. * * \param dst The destination canvas. * \param x X coordinate. * \param y Y coordinate. * \param src The source canvas. * \param mask The mask canvas. * \return 0 in case of success, -1 if an error occurred. */ int caca_blit(caca_canvas_t *dst, int x, int y, caca_canvas_t const *src, caca_canvas_t const *mask) { int i, j, starti, startj, endi, endj, stride, bleed_left, bleed_right; if(mask && (src->width != mask->width || src->height != mask->height)) { seterrno(EINVAL); return -1; } x -= src->frames[src->frame].handlex; y -= src->frames[src->frame].handley; starti = x < 0 ? -x : 0; startj = y < 0 ? -y : 0; endi = (x + src->width >= dst->width) ? dst->width - x : src->width; endj = (y + src->height >= dst->height) ? dst->height - y : src->height; stride = endi - starti; if(starti > src->width || startj > src->height || starti >= endi || startj >= endj) return 0; bleed_left = bleed_right = 0; for(j = startj; j < endj; j++) { int dstix = (j + y) * dst->width + starti + x; int srcix = j * src->width + starti; /* FIXME: we are ignoring the mask here */ if((starti + x) && dst->chars[dstix] == CACA_MAGIC_FULLWIDTH) { dst->chars[dstix - 1] = ' '; bleed_left = 1; } if(endi + x < dst->width && dst->chars[dstix + stride] == CACA_MAGIC_FULLWIDTH) { dst->chars[dstix + stride] = ' '; bleed_right = 1; } if(mask) { for(i = 0; i < stride; i++) { if(mask->chars[srcix + i] == (uint32_t)' ') continue; if(dst->chars[dstix + i] != src->chars[srcix + i] || dst->attrs[dstix + i] != src->attrs[srcix + i]) { dst->chars[dstix + i] = src->chars[srcix + i]; dst->attrs[dstix + i] = src->attrs[srcix + i]; if(!dst->dirty_disabled) caca_add_dirty_rect(dst, x + starti + i, y + j, 1, 1); } } } else { if(memcmp(dst->chars + dstix, src->chars + srcix, stride * 4) || memcmp(dst->attrs + dstix, src->attrs + srcix, stride * 4)) { /* FIXME be more precise ? */ memcpy(dst->chars + dstix, src->chars + srcix, stride * 4); memcpy(dst->attrs + dstix, src->attrs + srcix, stride * 4); if(!dst->dirty_disabled) caca_add_dirty_rect(dst, x + starti, y + j, stride, 1); } } /* Fix split fullwidth chars */ if(src->chars[srcix] == CACA_MAGIC_FULLWIDTH) dst->chars[dstix] = ' '; if(endi < src->width && src->chars[endi] == CACA_MAGIC_FULLWIDTH) dst->chars[dstix + stride - 1] = ' '; } return 0; } /** \brief Set a canvas' new boundaries. * * Set new boundaries for a canvas. This function can be used to crop a * canvas, to expand it or for combinations of both actions. All frames * are affected by this function. * * If an error occurs, -1 is returned and \b errno is set accordingly: * - \c EINVAL Specified width or height is invalid. * - \c EBUSY The canvas is in use by a display driver and cannot be resized. * - \c ENOMEM Not enough memory for the requested canvas size. If this * happens, the canvas handle becomes invalid and should not be used. * * \param cv The canvas to crop. * \param x X coordinate of the top-left corner. * \param y Y coordinate of the top-left corner. * \param w The width of the cropped area. * \param h The height of the cropped area. * \return 0 in case of success, -1 if an error occurred. */ int caca_set_canvas_boundaries(caca_canvas_t *cv, int x, int y, int w, int h) { caca_canvas_t *new; int f, saved_f, framecount; if(cv->refcount) { seterrno(EBUSY); return -1; } if(w < 0 || h < 0) { seterrno(EINVAL); return -1; } new = caca_create_canvas(w, h); framecount = caca_get_frame_count(cv); saved_f = cv->frame; for(f = 0; f < framecount; f++) { if(f) caca_create_frame(new, framecount); caca_set_frame(cv, f); caca_set_frame(new, f); caca_blit(new, -x, -y, cv, NULL); free(cv->frames[f].chars); free(cv->frames[f].attrs); } free(cv->frames); cv->frames = new->frames; free(new); caca_set_frame(cv, saved_f); _caca_load_frame_info(cv); /* FIXME: this may be optimised somewhat */ if(!cv->dirty_disabled) caca_add_dirty_rect(cv, 0, 0, cv->width, cv->height); return 0; } /* * XXX: The following functions are aliases. */ int cucul_gotoxy(cucul_canvas_t *, int, int) CACA_ALIAS(caca_gotoxy); int cucul_get_cursor_x(cucul_canvas_t const *) CACA_ALIAS(caca_wherex); int cucul_get_cursor_y(cucul_canvas_t const *) CACA_ALIAS(caca_wherey); int caca_get_cursor_x(caca_canvas_t const *) CACA_ALIAS(caca_wherex); int caca_get_cursor_y(caca_canvas_t const *) CACA_ALIAS(caca_wherey); int cucul_put_char(cucul_canvas_t *, int, int, uint32_t) CACA_ALIAS(caca_put_char); uint32_t cucul_get_char(cucul_canvas_t const *, int, int) CACA_ALIAS(caca_get_char); int cucul_put_str(cucul_canvas_t *, int, int, char const *) CACA_ALIAS(caca_put_str); int cucul_printf(cucul_canvas_t *, int, int, char const *, ...) CACA_ALIAS(caca_printf); int cucul_clear_canvas(cucul_canvas_t *) CACA_ALIAS(caca_clear_canvas); int cucul_set_canvas_handle(cucul_canvas_t *, int, int) CACA_ALIAS(caca_set_canvas_handle); int cucul_get_canvas_handle_x(cucul_canvas_t const *) CACA_ALIAS(caca_get_canvas_handle_x); int cucul_get_canvas_handle_y(cucul_canvas_t const *) CACA_ALIAS(caca_get_canvas_handle_y); int cucul_blit(cucul_canvas_t *, int, int, cucul_canvas_t const *, cucul_canvas_t const *) CACA_ALIAS(caca_blit); int cucul_set_canvas_boundaries(cucul_canvas_t *, int, int, int, int) CACA_ALIAS(caca_set_canvas_boundaries);