/* * ***** BEGIN GPL LICENSE BLOCK ***** * * 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 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2009 Blender Foundation. * All rights reserved. * * * Contributor(s): Blender Foundation * * ***** END GPL LICENSE BLOCK ***** */ /** \file blender/blenfont/intern/blf_font.c * \ingroup blf * * Deals with drawing text to OpenGL or bitmap buffers. * * Also low level functions for managing \a FontBLF. */ #include #include #include #include #include #include FT_FREETYPE_H #include FT_GLYPH_H #include "MEM_guardedalloc.h" #include "DNA_vec_types.h" #include "BLI_listbase.h" #include "BLI_math.h" #include "BLI_rect.h" #include "BLI_string.h" #include "BLI_string_utf8.h" #include "BLI_threads.h" #include "BLI_alloca.h" #include "BIF_gl.h" #include "BLF_api.h" #include "blf_internal_types.h" #include "blf_internal.h" #include "BLI_strict_flags.h" #ifdef WIN32 # define FT_New_Face FT_New_Face__win32_compat #endif /* freetype2 handle ONLY for this file!. */ static FT_Library ft_lib; static SpinLock ft_lib_mutex; int blf_font_init(void) { BLI_spin_init(&ft_lib_mutex); return FT_Init_FreeType(&ft_lib); } void blf_font_exit(void) { FT_Done_FreeType(ft_lib); BLI_spin_end(&ft_lib_mutex); } void blf_font_size(FontBLF *font, unsigned int size, unsigned int dpi) { GlyphCacheBLF *gc; FT_Error err; err = FT_Set_Char_Size(font->face, 0, (FT_F26Dot6)(size * 64), dpi, dpi); if (err) { /* FIXME: here we can go through the fixed size and choice a close one */ printf("The current font don't support the size, %u and dpi, %u\n", size, dpi); return; } font->size = size; font->dpi = dpi; gc = blf_glyph_cache_find(font, size, dpi); if (gc) font->glyph_cache = gc; else { gc = blf_glyph_cache_new(font); if (gc) font->glyph_cache = gc; else font->glyph_cache = NULL; } } static void blf_font_ensure_ascii_table(FontBLF *font) { GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; /* build ascii on demand */ if (glyph_ascii_table['0'] == NULL) { GlyphBLF *g; unsigned int i; for (i = 0; i < 256; i++) { g = blf_glyph_search(font->glyph_cache, i); if (!g) { FT_UInt glyph_index = FT_Get_Char_Index(font->face, i); g = blf_glyph_add(font, glyph_index, i); } glyph_ascii_table[i] = g; } } } /* Fast path for runs of ASCII characters. Given that common UTF-8 * input will consist of an overwhelming majority of ASCII * characters. */ /* Note, * blf_font_ensure_ascii_table(font); must be called before this macro */ #define BLF_UTF8_NEXT_FAST(_font, _g, _str, _i, _c, _glyph_ascii_table) \ if (((_c) = (_str)[_i]) < 0x80) { \ _g = (_glyph_ascii_table)[_c]; \ _i++; \ } \ else if ((_c = BLI_str_utf8_as_unicode_step(_str, &(_i))) != BLI_UTF8_ERR) { \ if ((_g = blf_glyph_search((_font)->glyph_cache, _c)) == NULL) { \ _g = blf_glyph_add(_font, \ FT_Get_Char_Index((_font)->face, _c), _c); \ } \ } (void)0 #define BLF_KERNING_VARS(_font, _has_kerning, _kern_mode) \ const bool _has_kerning = FT_HAS_KERNING((_font)->face) != 0; \ const FT_UInt _kern_mode = (_has_kerning == 0) ? 0 : \ (((_font)->flags & BLF_KERNING_DEFAULT) ? \ ft_kerning_default : (FT_UInt)FT_KERNING_UNFITTED) \ #define BLF_KERNING_STEP(_font, _kern_mode, _g_prev, _g, _delta, _pen_x) \ { \ if (_g_prev) { \ _delta.x = _delta.y = 0; \ if (FT_Get_Kerning((_font)->face, \ (_g_prev)->idx, \ (_g)->idx, \ _kern_mode, \ &(_delta)) == 0) \ { \ _pen_x += (int)_delta.x >> 6; \ } \ } \ } (void)0 static void blf_font_draw_ex( FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info, int pen_y) { unsigned int c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = 0; size_t i = 0; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; BLF_KERNING_VARS(font, has_kerning, kern_mode); blf_font_ensure_ascii_table(font); while ((i < len) && str[i]) { BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); /* do not return this loop if clipped, we want every character tested */ blf_glyph_render(font, g, (float)pen_x, (float)pen_y); pen_x += g->advance_i; g_prev = g; } if (r_info) { r_info->lines = 1; r_info->width = pen_x; } } void blf_font_draw(FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { blf_font_draw_ex(font, str, len, r_info, 0); } /* faster version of blf_font_draw, ascii only for view dimensions */ static void blf_font_draw_ascii_ex( FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info, int pen_y) { unsigned char c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = 0; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; BLF_KERNING_VARS(font, has_kerning, kern_mode); blf_font_ensure_ascii_table(font); while ((c = *(str++)) && len--) { BLI_assert(c < 128); if ((g = glyph_ascii_table[c]) == NULL) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); /* do not return this loop if clipped, we want every character tested */ blf_glyph_render(font, g, (float)pen_x, (float)pen_y); pen_x += g->advance_i; g_prev = g; } if (r_info) { r_info->lines = 1; r_info->width = pen_x; } } void blf_font_draw_ascii(FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { blf_font_draw_ascii_ex(font, str, len, r_info, 0); } /* use fixed column width, but an utf8 character may occupy multiple columns */ int blf_font_draw_mono(FontBLF *font, const char *str, size_t len, int cwidth) { unsigned int c; GlyphBLF *g; int col, columns = 0; int pen_x = 0, pen_y = 0; size_t i = 0; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; blf_font_ensure_ascii_table(font); while ((i < len) && str[i]) { BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; /* do not return this loop if clipped, we want every character tested */ blf_glyph_render(font, g, (float)pen_x, (float)pen_y); col = BLI_wcwidth((wchar_t)c); if (col < 0) col = 1; columns += col; pen_x += cwidth * col; } return columns; } /* Sanity checks are done by BLF_draw_buffer() */ static void blf_font_draw_buffer_ex( FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info, int pen_y) { unsigned int c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = (int)font->pos[0]; int pen_y_basis = (int)font->pos[1] + pen_y; size_t i = 0; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; /* buffer specific vars */ FontBufInfoBLF *buf_info = &font->buf_info; const float *b_col_float = buf_info->col_float; const unsigned char *b_col_char = buf_info->col_char; int chx, chy; int y, x; BLF_KERNING_VARS(font, has_kerning, kern_mode); blf_font_ensure_ascii_table(font); /* another buffer specific call for color conversion */ while ((i < len) && str[i]) { BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); chx = pen_x + ((int)g->pos_x); chy = pen_y_basis + g->height; if (g->pitch < 0) { pen_y = pen_y_basis + (g->height - (int)g->pos_y); } else { pen_y = pen_y_basis - (g->height - (int)g->pos_y); } if ((chx + g->width) >= 0 && chx < buf_info->w && (pen_y + g->height) >= 0 && pen_y < buf_info->h) { /* don't draw beyond the buffer bounds */ int width_clip = g->width; int height_clip = g->height; int yb_start = g->pitch < 0 ? 0 : g->height - 1; if (width_clip + chx > buf_info->w) width_clip -= chx + width_clip - buf_info->w; if (height_clip + pen_y > buf_info->h) height_clip -= pen_y + height_clip - buf_info->h; /* drawing below the image? */ if (pen_y < 0) { yb_start += (g->pitch < 0) ? -pen_y : pen_y; height_clip += pen_y; pen_y = 0; } if (buf_info->fbuf) { int yb = yb_start; for (y = ((chy >= 0) ? 0 : -chy); y < height_clip; y++) { for (x = ((chx >= 0) ? 0 : -chx); x < width_clip; x++) { const char a_byte = *(g->bitmap + x + (yb * g->pitch)); if (a_byte) { const float a = (a_byte / 255.0f) * b_col_float[3]; const size_t buf_ofs = ( ((size_t)(chx + x) + ((size_t)(pen_y + y) * (size_t)buf_info->w)) * (size_t)buf_info->ch); float *fbuf = buf_info->fbuf + buf_ofs; if (a >= 1.0f) { fbuf[0] = b_col_float[0]; fbuf[1] = b_col_float[1]; fbuf[2] = b_col_float[2]; fbuf[3] = 1.0f; } else { float alphatest; fbuf[0] = (b_col_float[0] * a) + (fbuf[0] * (1.0f - a)); fbuf[1] = (b_col_float[1] * a) + (fbuf[1] * (1.0f - a)); fbuf[2] = (b_col_float[2] * a) + (fbuf[2] * (1.0f - a)); fbuf[3] = (alphatest = (fbuf[3] + a)) < 1.0f ? alphatest : 1.0f; } } } if (g->pitch < 0) yb++; else yb--; } } if (buf_info->cbuf) { int yb = yb_start; for (y = ((chy >= 0) ? 0 : -chy); y < height_clip; y++) { for (x = ((chx >= 0) ? 0 : -chx); x < width_clip; x++) { const char a_byte = *(g->bitmap + x + (yb * g->pitch)); if (a_byte) { const float a = (a_byte / 255.0f) * b_col_float[3]; const size_t buf_ofs = ( ((size_t)(chx + x) + ((size_t)(pen_y + y) * (size_t)buf_info->w)) * (size_t)buf_info->ch); unsigned char *cbuf = buf_info->cbuf + buf_ofs; if (a >= 1.0f) { cbuf[0] = b_col_char[0]; cbuf[1] = b_col_char[1]; cbuf[2] = b_col_char[2]; cbuf[3] = 255; } else { int alphatest; cbuf[0] = (unsigned char)((b_col_char[0] * a) + (cbuf[0] * (1.0f - a))); cbuf[1] = (unsigned char)((b_col_char[1] * a) + (cbuf[1] * (1.0f - a))); cbuf[2] = (unsigned char)((b_col_char[2] * a) + (cbuf[2] * (1.0f - a))); cbuf[3] = (unsigned char)(((alphatest = ((int)cbuf[3] + (int)(a * 255))) < 255) ? alphatest : 255); } } } if (g->pitch < 0) yb++; else yb--; } } } pen_x += g->advance_i; g_prev = g; } if (r_info) { r_info->lines = 1; r_info->width = pen_x; } } void blf_font_draw_buffer( FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { blf_font_draw_buffer_ex(font, str, len, r_info, 0); } size_t blf_font_width_to_strlen(FontBLF *font, const char *str, size_t len, float width, float *r_width) { unsigned int c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = 0; size_t i = 0, i_prev; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; const int width_i = (int)width + 1; int width_new; BLF_KERNING_VARS(font, has_kerning, kern_mode); blf_font_ensure_ascii_table(font); while ((void)(i_prev = i), (void)(width_new = pen_x), ((i < len) && str[i])) { BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); pen_x += g->advance_i; if (width_i < pen_x) { break; } g_prev = g; } if (r_width) { *r_width = (float)width_new; } return i_prev; } size_t blf_font_width_to_rstrlen(FontBLF *font, const char *str, size_t len, float width, float *r_width) { unsigned int c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = 0; size_t i = 0, i_prev; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; const int width_i = (int)width + 1; int width_new; bool is_malloc; int (*width_accum)[2]; int width_accum_ofs = 0; BLF_KERNING_VARS(font, has_kerning, kern_mode); /* skip allocs in simple cases */ len = BLI_strnlen(str, len); if (width_i <= 1 || len == 0) { if (r_width) { *r_width = 0.0f; } return len; } if (len < 2048) { width_accum = BLI_array_alloca(width_accum, len); is_malloc = false; } else { width_accum = MEM_mallocN(sizeof(*width_accum) * len, __func__); is_malloc = true; } blf_font_ensure_ascii_table(font); while ((i < len) && str[i]) { BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); pen_x += g->advance_i; width_accum[width_accum_ofs][0] = (int)i; width_accum[width_accum_ofs][1] = pen_x; width_accum_ofs++; g_prev = g; } if (pen_x > width_i && width_accum_ofs != 0) { const int min_x = pen_x - width_i; /* search backwards */ width_new = pen_x; while (width_accum_ofs-- > 0) { if (min_x > width_accum[width_accum_ofs][1]) { break; } } width_accum_ofs++; width_new = pen_x - width_accum[width_accum_ofs][1]; i_prev = (size_t)width_accum[width_accum_ofs][0]; } else { width_new = pen_x; i_prev = 0; } if (is_malloc) { MEM_freeN(width_accum); } if (r_width) { *r_width = (float)width_new; } return i_prev; } static void blf_font_boundbox_ex( FontBLF *font, const char *str, size_t len, rctf *box, struct ResultBLF *r_info, int pen_y) { unsigned int c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = 0; size_t i = 0; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; rctf gbox; BLF_KERNING_VARS(font, has_kerning, kern_mode); box->xmin = 32000.0f; box->xmax = -32000.0f; box->ymin = 32000.0f; box->ymax = -32000.0f; blf_font_ensure_ascii_table(font); while ((i < len) && str[i]) { BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); gbox.xmin = (float)pen_x; gbox.xmax = (float)pen_x + g->advance; gbox.ymin = g->box.ymin + (float)pen_y; gbox.ymax = g->box.ymax + (float)pen_y; if (gbox.xmin < box->xmin) box->xmin = gbox.xmin; if (gbox.ymin < box->ymin) box->ymin = gbox.ymin; if (gbox.xmax > box->xmax) box->xmax = gbox.xmax; if (gbox.ymax > box->ymax) box->ymax = gbox.ymax; pen_x += g->advance_i; g_prev = g; } if (box->xmin > box->xmax) { box->xmin = 0.0f; box->ymin = 0.0f; box->xmax = 0.0f; box->ymax = 0.0f; } if (r_info) { r_info->lines = 1; r_info->width = pen_x; } } void blf_font_boundbox(FontBLF *font, const char *str, size_t len, rctf *r_box, struct ResultBLF *r_info) { blf_font_boundbox_ex(font, str, len, r_box, r_info, 0); } /* -------------------------------------------------------------------- */ /** \name Word-Wrap Support * \{ */ /** * Generic function to add word-wrap support for other existing functions. * * Wraps on spaces and respects newlines. * Intentionally ignores non-unix newlines, tabs and more advanced text formatting. * * \note If we want rich text - we better have a higher level API to handle that * (color, bold, switching fonts... etc). */ static void blf_font_wrap_apply( FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info, void (*callback)(FontBLF *font, const char *str, size_t len, int pen_y, void *userdata), void *userdata) { unsigned int c; GlyphBLF *g, *g_prev = NULL; FT_Vector delta; int pen_x = 0, pen_y = 0; size_t i = 0; GlyphBLF **glyph_ascii_table = font->glyph_cache->glyph_ascii_table; int lines = 0; int pen_x_next = 0; BLF_KERNING_VARS(font, has_kerning, kern_mode); struct WordWrapVars { int wrap_width; size_t start, last[2]; } wrap = {font->wrap_width != -1 ? font->wrap_width : INT_MAX, 0, {0, 0}}; blf_font_ensure_ascii_table(font); // printf("%s wrapping (%d, %d) `%s`:\n", __func__, len, strlen(str), str); while ((i < len) && str[i]) { /* wrap vars */ size_t i_curr = i; bool do_draw = false; BLF_UTF8_NEXT_FAST(font, g, str, i, c, glyph_ascii_table); if (UNLIKELY(c == BLI_UTF8_ERR)) break; if (UNLIKELY(g == NULL)) continue; if (has_kerning) BLF_KERNING_STEP(font, kern_mode, g_prev, g, delta, pen_x); /** * Implementation Detail (utf8). * * Take care with single byte offsets here, * since this is utf8 we can't be sure a single byte is a single character. * * This is _only_ done when we know for sure the character is ascii (newline or a space). */ pen_x_next = pen_x + g->advance_i; if (UNLIKELY((pen_x_next >= wrap.wrap_width) && (wrap.start != wrap.last[0]))) { do_draw = true; } else if (UNLIKELY(((i < len) && str[i]) == 0)) { /* need check here for trailing newline, else we draw it */ wrap.last[0] = i + ((g->c != '\n') ? 1 : 0); wrap.last[1] = i; do_draw = true; } else if (UNLIKELY(g->c == '\n')) { wrap.last[0] = i_curr + 1; wrap.last[1] = i; do_draw = true; } else if (UNLIKELY(g->c != ' ' && (g_prev ? g_prev->c == ' ' : false))) { wrap.last[0] = i_curr; wrap.last[1] = i_curr; } if (UNLIKELY(do_draw)) { // printf("(%03d..%03d) `%.*s`\n", // wrap.start, wrap.last[0], (wrap.last[0] - wrap.start) - 1, &str[wrap.start]); callback(font, &str[wrap.start], (wrap.last[0] - wrap.start) - 1, pen_y, userdata); wrap.start = wrap.last[0]; i = wrap.last[1]; pen_x = 0; pen_y -= font->glyph_cache->max_glyph_height; g_prev = NULL; lines += 1; continue; } pen_x = pen_x_next; g_prev = g; } // printf("done! lines: %d, width, %d\n", lines, pen_x_next); if (r_info) { r_info->lines = lines; /* width of last line only (with wrapped lines) */ r_info->width = pen_x_next; } } /* blf_font_draw__wrap */ static void blf_font_draw__wrap_cb(FontBLF *font, const char *str, size_t len, int pen_y, void *UNUSED(userdata)) { blf_font_draw_ex(font, str, len, NULL, pen_y); } void blf_font_draw__wrap(FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { blf_font_wrap_apply(font, str, len, r_info, blf_font_draw__wrap_cb, NULL); } /* blf_font_boundbox__wrap */ static void blf_font_boundbox_wrap_cb(FontBLF *font, const char *str, size_t len, int pen_y, void *userdata) { rctf *box = userdata; rctf box_single; blf_font_boundbox_ex(font, str, len, &box_single, NULL, pen_y); BLI_rctf_union(box, &box_single); } void blf_font_boundbox__wrap(FontBLF *font, const char *str, size_t len, rctf *box, struct ResultBLF *r_info) { box->xmin = 32000.0f; box->xmax = -32000.0f; box->ymin = 32000.0f; box->ymax = -32000.0f; blf_font_wrap_apply(font, str, len, r_info, blf_font_boundbox_wrap_cb, box); } /* blf_font_draw_buffer__wrap */ static void blf_font_draw_buffer__wrap_cb(FontBLF *font, const char *str, size_t len, int pen_y, void *UNUSED(userdata)) { blf_font_draw_buffer_ex(font, str, len, NULL, pen_y); } void blf_font_draw_buffer__wrap(FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { blf_font_wrap_apply(font, str, len, r_info, blf_font_draw_buffer__wrap_cb, NULL); } /** \} */ void blf_font_width_and_height( FontBLF *font, const char *str, size_t len, float *r_width, float *r_height, struct ResultBLF *r_info) { float xa, ya; rctf box; if (font->flags & BLF_ASPECT) { xa = font->aspect[0]; ya = font->aspect[1]; } else { xa = 1.0f; ya = 1.0f; } if (font->flags & BLF_WORD_WRAP) { blf_font_boundbox__wrap(font, str, len, &box, r_info); } else { blf_font_boundbox(font, str, len, &box, r_info); } *r_width = (BLI_rctf_size_x(&box) * xa); *r_height = (BLI_rctf_size_y(&box) * ya); } float blf_font_width(FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { float xa; rctf box; if (font->flags & BLF_ASPECT) xa = font->aspect[0]; else xa = 1.0f; if (font->flags & BLF_WORD_WRAP) { blf_font_boundbox__wrap(font, str, len, &box, r_info); } else { blf_font_boundbox(font, str, len, &box, r_info); } return BLI_rctf_size_x(&box) * xa; } float blf_font_height(FontBLF *font, const char *str, size_t len, struct ResultBLF *r_info) { float ya; rctf box; if (font->flags & BLF_ASPECT) ya = font->aspect[1]; else ya = 1.0f; if (font->flags & BLF_WORD_WRAP) { blf_font_boundbox__wrap(font, str, len, &box, r_info); } else { blf_font_boundbox(font, str, len, &box, r_info); } return BLI_rctf_size_y(&box) * ya; } float blf_font_fixed_width(FontBLF *font) { const unsigned int c = ' '; GlyphBLF *g = blf_glyph_search(font->glyph_cache, c); if (!g) { g = blf_glyph_add(font, FT_Get_Char_Index(font->face, c), c); /* if we don't find the glyph. */ if (!g) { return 0.0f; } } return g->advance; } int blf_font_count_missing_chars(FontBLF *font, const char *str, const size_t len, int *r_tot_chars) { int missing = 0; size_t i = 0; *r_tot_chars = 0; while (i < len) { unsigned int c; if ((c = str[i]) < 0x80) { i++; } else if ((c = BLI_str_utf8_as_unicode_step(str, &i)) != BLI_UTF8_ERR) { if (FT_Get_Char_Index((font)->face, c) == 0) { missing++; } } (*r_tot_chars)++; } return missing; } void blf_font_free(FontBLF *font) { GlyphCacheBLF *gc; font->glyph_cache = NULL; while ((gc = BLI_pophead(&font->cache))) { blf_glyph_cache_free(gc); } FT_Done_Face(font->face); if (font->filename) MEM_freeN(font->filename); if (font->name) MEM_freeN(font->name); MEM_freeN(font); } static void blf_font_fill(FontBLF *font) { unsigned int i; font->aspect[0] = 1.0f; font->aspect[1] = 1.0f; font->aspect[2] = 1.0f; font->pos[0] = 0.0f; font->pos[1] = 0.0f; font->angle = 0.0f; for (i = 0; i < 16; i++) font->m[i] = 0; font->clip_rec.xmin = 0.0f; font->clip_rec.xmax = 0.0f; font->clip_rec.ymin = 0.0f; font->clip_rec.ymax = 0.0f; font->flags = 0; font->dpi = 0; font->size = 0; BLI_listbase_clear(&font->cache); font->glyph_cache = NULL; font->blur = 0; font->max_tex_size = -1; font->buf_info.fbuf = NULL; font->buf_info.cbuf = NULL; font->buf_info.w = 0; font->buf_info.h = 0; font->buf_info.ch = 0; font->buf_info.col_init[0] = 0; font->buf_info.col_init[1] = 0; font->buf_info.col_init[2] = 0; font->buf_info.col_init[3] = 0; font->ft_lib = ft_lib; font->ft_lib_mutex = &ft_lib_mutex; } FontBLF *blf_font_new(const char *name, const char *filename) { FontBLF *font; FT_Error err; char *mfile; font = (FontBLF *)MEM_callocN(sizeof(FontBLF), "blf_font_new"); err = FT_New_Face(ft_lib, filename, 0, &font->face); if (err) { MEM_freeN(font); return NULL; } err = FT_Select_Charmap(font->face, ft_encoding_unicode); if (err) { printf("Can't set the unicode character map!\n"); FT_Done_Face(font->face); MEM_freeN(font); return NULL; } mfile = blf_dir_metrics_search(filename); if (mfile) { err = FT_Attach_File(font->face, mfile); if (err) { fprintf(stderr, "FT_Attach_File failed to load '%s' with error %d\n", filename, (int)err); } MEM_freeN(mfile); } font->name = BLI_strdup(name); font->filename = BLI_strdup(filename); blf_font_fill(font); return font; } void blf_font_attach_from_mem(FontBLF *font, const unsigned char *mem, int mem_size) { FT_Open_Args open; open.flags = FT_OPEN_MEMORY; open.memory_base = (const FT_Byte *)mem; open.memory_size = mem_size; FT_Attach_Stream(font->face, &open); } FontBLF *blf_font_new_from_mem(const char *name, const unsigned char *mem, int mem_size) { FontBLF *font; FT_Error err; font = (FontBLF *)MEM_callocN(sizeof(FontBLF), "blf_font_new_from_mem"); err = FT_New_Memory_Face(ft_lib, mem, mem_size, 0, &font->face); if (err) { MEM_freeN(font); return NULL; } err = FT_Select_Charmap(font->face, ft_encoding_unicode); if (err) { printf("Can't set the unicode character map!\n"); FT_Done_Face(font->face); MEM_freeN(font); return NULL; } font->name = BLI_strdup(name); font->filename = NULL; blf_font_fill(font); return font; }