Mercurial > MadButterfly
view src/shape_stext.c @ 413:35712e4bad0e
Make shape_stext.c pass test cases.
FcFontMatch should be called before calling query font face.
author | Thinker K.F. Li <thinker@branda.to> |
---|---|
date | Sat, 25 Jul 2009 13:36:23 +0800 |
parents | a456e267279a |
children | bbf036c315be |
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#include <stdio.h> #include <cairo.h> #include <cairo-ft.h> #include <fontconfig/fontconfig.h> #include "mb_shapes.h" #ifndef ASSERT #define ASSERT(x) #endif #define OK 0 #define ERR -1 /*! \page stext Simple Text * * A sh_stext_t is broken into fragments. Each fragment comprises the text * and the styles applied on the fragement. The styles determines font face * used to show the text. The fragment of text with styles is called * styled block. */ /*! \defgroup fontconfig_freetype Fontconfig and FreeType Layer. * * This layer implements a font provider to rest of the system. * It bases on fontconfig and FreeType supporting of Cairo. * If you want to provide stext with technologies other than fontconfig and * FreeType, just replace this layer with the implmenetation that you want. * * @{ */ /*! \brief Stakeholder of scaled font. * * It is actually a cairo_scaled_font_t, now. But, it should not be * noticed by out-siders. Only \ref fontconfig_freetype * should known it. */ typedef struct _mb_scaled_font mb_scaled_font_t; /*! \brief Stakeholder of scaled font. * * Although, mb_text_extents_t is defined as a cairo_scaled_font_t, but * programmers should assume it is opague. * * An extents is the span of showing a fragement of text on the output device. * It includes x and y advance of cursor after showinng the text. * The cursor maybe not really existed. But, the advance is computed as * the cursor existed. It also includes width and height of the text. * The bearing of a styled block is the left-top corner of the bounding box. * The bounding box of a styled block is the minimal rectangle, on the * output device, that can contain the text. The bearing is related to * the base line for an extents. */ typedef cairo_text_extents_t mb_text_extents_t; #define MBE_GET_X_ADV(ext) ((ext)->x_advance) #define MBE_GET_Y_ADV(ext) ((ext)->y_advance) #define MBE_GET_X_BEARING(ext) ((ext)->x_bearing) #define MBE_GET_Y_BEARING(ext) ((ext)->y_bearing) #define MBE_GET_WIDTH(ext) ((ext)->width) #define MBE_GET_HEIGHT(ext) ((ext)->height) #define MBE_SET_X_ADV(ext, v) do { ((ext)->x_advance) = v; } while(0) #define MBE_SET_Y_ADV(ext, v) do { ((ext)->y_advance) = v; } while(0) #define MBE_SET_X_BEARING(ext, v) do { ((ext)->x_bearing) = v; } while(0) #define MBE_SET_Y_BEARING(ext, v) do { ((ext)->y_bearing) = v; } while(0) #define MBE_SET_WIDTH(ext, v) do { ((ext)->width) = v; } while(0) #define MBE_SET_HEIGHT(ext, v) do { ((ext)->height) = v; } while(0) /*! \brief Find out a font pattern. * * This function use fontconfig to decide a font file in pattern. It can * replaced by other mechanism if you think it is not what you want. * * \param slant make font prune if it it non-zero. * \param weight make font normal if it is 100. */ static FcPattern *query_font_pattern(const char *family, int slant, int weight) { FcPattern *ptn, *p, *fn_ptn; FcValue val; FcConfig *cfg; FcBool r; FcResult result; static int slant_map[] = { /* from MB_FONT_SLANT_* to FC_SLANT_* */ FC_SLANT_ROMAN, FC_SLANT_ROMAN, FC_SLANT_ITALIC, FC_SLANT_OBLIQUE}; cfg = FcConfigGetCurrent(); ptn = FcPatternCreate(); p = FcPatternCreate(); if(ptn == NULL || p == NULL) goto err; val.type = FcTypeString; val.u.s = family; FcPatternAdd(ptn, "family", val, FcTrue); val.type = FcTypeInteger; val.u.i = slant_map[slant]; FcPatternAdd(ptn, "slant", val, FcTrue); val.type = FcTypeInteger; val.u.i = weight; FcPatternAdd(ptn, "weight", val, FcTrue); r = FcConfigSubstituteWithPat(cfg, ptn, NULL, FcMatchPattern); if(!r) goto err; r = FcConfigSubstituteWithPat(cfg, p, ptn, FcMatchFont); if(!r) goto err; FcDefaultSubstitute(p); fn_ptn = FcFontMatch(cfg, p, &result); /* It is supposed to return FcResultMatch. But, it is no, now. * I don't know why. Someone should figure out the issue. */ #if 0 if(result != FcResultMatch) { printf("%d %d\n", result, FcResultMatch); goto err; } #endif if(fn_ptn == NULL) goto err; FcPatternDestroy(ptn); FcPatternDestroy(p); return fn_ptn; err: if(ptn) FcPatternDestroy(ptn); if(p) FcPatternDestroy(p); return NULL; } /*! \brief Find out a font face for a pattern specified. * * The pattern, here, is a vector of family, slant, and weight. * This function base on fontconfig and cairo FreeType font supporting. * You can replace this function with other font mechanisms. */ static mb_font_face_t *query_font_face(const char *family, int slant, int weight) { cairo_font_face_t *cface; FcPattern *ptn; ptn = query_font_pattern(family, slant, weight); cface = cairo_ft_font_face_create_for_pattern(ptn); FcPatternDestroy(ptn); return (mb_font_face_t *)cface; } static void free_font_face(mb_font_face_t *face) { ASSERT(face == NULL); cairo_font_face_destroy((cairo_font_face_t *)face); } /*! \brief This is scaled font for specified size and extent. * * Font face only specified which font would be used to draw text * message. But, it also need to scale glyphs to specified size and * rotation. This function return a scaled font specified by a * matrix that transform glyph from design space of the font to * user space of cairo surface. */ static mb_scaled_font_t *make_scaled_font_face_matrix(mb_font_face_t *face, co_aix *matrix) { cairo_scaled_font_t *scaled_font; cairo_matrix_t font_matrix; static cairo_matrix_t id = { 1, 0, 0, 1, 0, 0 }; static cairo_font_options_t *opt = NULL; ASSERT(matrix != NULL); if(opt == NULL) { opt = cairo_font_options_create(); if(opt == NULL) return NULL; } font_matrix.xx = *matrix++; font_matrix.xy = *matrix++; font_matrix.x0 = *matrix++; font_matrix.yx = *matrix++; font_matrix.yy = *matrix++; font_matrix.y0 = *matrix; scaled_font = cairo_scaled_font_create((cairo_font_face_t *)face, &font_matrix, &id, opt); return (mb_scaled_font_t *)scaled_font; } static void scaled_font_free(mb_scaled_font_t *scaled_font) { cairo_scaled_font_destroy((cairo_scaled_font_t *)scaled_font); } static void compute_text_extents(mb_scaled_font_t *scaled_font, const char *txt, mb_text_extents_t *extents) { cairo_scaled_font_text_extents((cairo_scaled_font_t *)scaled_font, txt, (cairo_text_extents_t *)extents); } static mb_text_extents_t *mb_text_extents_new(void) { cairo_text_extents_t *extents; extents = (cairo_text_extents_t *)malloc(sizeof(cairo_text_extents_t)); return extents; } static void mb_text_extents_free(mb_text_extents_t *extents) { free(extents); } /* @} */ /*! \brief Query and return a font face for a specified attribute vector. * * Programmers use mb_font_face_t to specify fonts used to show a * block of text on the output device. They can get mb_font_face_t with * this function. The objects return by mb_font_face_query() should be * freed with mb_font_face_free() when they are not more used. * * \param family is the name of a font family (times). * \param slant is one of \ref MB_FONT_SLANTS. * \param weight decides if a font is thin or heavy. */ mb_font_face_t *mb_font_face_query(redraw_man_t *rdman, const char *family, int slant, int weight) { return query_font_face(family, slant, weight); } void mb_font_face_free(mb_font_face_t *face) { ASSERT(face != NULL); free_font_face(face); } /*! \brief A simple implementation of text shape. * */ typedef struct _sh_stext { shape_t shape; const char *txt; /*!< \brief Text to be showed */ const mb_style_blk_t *style_blks; /*!< \brief Style of text */ int nblks; /*!< \brief Number of style blocks */ int max_nblks; co_aix x, y; mb_scaled_font_t **scaled_fonts; mb_text_extents_t extents; } sh_stext_t; shape_t *rdman_shape_stext_new(redraw_man_t *rdman, co_aix x, co_aix y, const char *txt) { sh_stext_t *txt_o; ASSERT(txt != NULL); txt_o = (sh_stext_t *)malloc(sizeof(sh_stext_t)); if(txt_o == NULL) return NULL; memset(&txt_o->shape, 0, sizeof(shape_t)); mb_obj_init(txt_o, MBO_STEXT); txt_o->txt = strdup(txt); txt_o->style_blks = NULL; txt_o->nblks = 0; txt_o->max_nblks = 0; txt_o->x = x; txt_o->y = y; txt_o->scaled_fonts = NULL; if(txt_o->txt == NULL) { free(txt_o); txt_o = NULL; } return (shape_t *)txt_o; } static int compute_utf8_chars_sz(const char *txt, int n_chars) { int i; const char *p = txt; for(i = 0; i < n_chars && *p; i++) { if(*p++ & 0x80) continue; /* single byte */ /* multi-bytes */ while(*p && ((*p & 0xc0) == 0x80)) p++; } if(i < n_chars) return ERR; return p - txt; } static mb_scaled_font_t *make_scaled_font_face(sh_stext_t *txt_o, mb_font_face_t *face, co_aix shift_x, co_aix shift_y, co_aix font_sz) { co_aix matrix[6], scaled_matrix[6]; co_aix *aggr; mb_scaled_font_t *scaled; aggr = sh_get_aggr_matrix((shape_t *)txt_o); matrix[0] = font_sz; matrix[1] = 0; matrix[2] = shift_x; matrix[3] = 0; matrix[4] = font_sz; matrix[5] += shift_y; matrix_mul(aggr, matrix, scaled_matrix); scaled = make_scaled_font_face_matrix(face, scaled_matrix); return scaled; } /*! \brief Extend an extents from another sub-extents. * * A styled text is styled by several styled blocks, so extents of * blocks should be computed separated, collected, and aggreagated * into a full extents. */ static void extent_extents(mb_text_extents_t *full, mb_text_extents_t *sub) { co_aix f_rbx, f_rby; /* rb stands for right button */ co_aix s_rbx, s_rby; f_rbx = MBE_GET_X_BEARING(full) + MBE_GET_WIDTH(full); f_rby = MBE_GET_Y_BEARING(full) + MBE_GET_HEIGHT(full); s_rbx = MBE_GET_X_BEARING(sub) + MBE_GET_WIDTH(sub); s_rby = MBE_GET_Y_BEARING(sub) + MBE_GET_HEIGHT(sub); /* set bearing */ if(MBE_GET_X_BEARING(full) > MBE_GET_X_BEARING(sub)) MBE_SET_X_BEARING(full, MBE_GET_X_BEARING(sub)); if(MBE_GET_Y_BEARING(full) > MBE_GET_Y_BEARING(sub)) MBE_SET_Y_BEARING(full, MBE_GET_Y_BEARING(sub)); /* set width/height */ if(f_rbx < s_rbx) MBE_SET_WIDTH(full, s_rbx - MBE_GET_X_BEARING(full)); if(f_rby < s_rby) MBE_SET_HEIGHT(full, s_rby - MBE_GET_Y_BEARING(full)); } /*! \brief Compute extents of a stext object according style blocks. * * It create scaled fonts for style blocks, compute their extents, * and compute where they should be draw acoording advance of style * blocks before a style block. */ static void compute_styled_extents_n_scaled_font(sh_stext_t *txt_o) { mb_text_extents_t sub_extents; const mb_style_blk_t *blk; int blk_txt_len; mb_scaled_font_t **scaled_font; char *txt, saved; co_aix shift_x, shift_y; int i; memset(&txt_o->extents, sizeof(mb_text_extents_t), 0); blk = txt_o->style_blks; scaled_font = txt_o->scaled_fonts; txt = (char *)txt_o->txt; for(i = 0; i < txt_o->nblks; i++) { shift_x = txt_o->x + MBE_GET_X_ADV(&txt_o->extents); shift_y = txt_o->y + MBE_GET_Y_ADV(&txt_o->extents); *scaled_font = make_scaled_font_face(txt_o, blk->face, shift_x, shift_y, blk->font_sz); ASSERT(*scaled_font != NULL); blk_txt_len = compute_utf8_chars_sz(txt, blk->n_chars); ASSERT(blk_txt_len != ERR); saved = txt[blk_txt_len]; txt[blk_txt_len] = 0; compute_text_extents(*scaled_font, txt, &sub_extents); txt[blk_txt_len] = saved; extent_extents(&txt_o->extents, &sub_extents); scaled_font++; blk++; txt += blk_txt_len; } } /* * What we have to do in sh_stext_transform() is * - computing bounding box for the text, * - computing offset x,y for the text of style blocks, * - free old scaled fonts, and * - making scaled fonts for style blocks. */ void sh_stext_transform(shape_t *shape) { sh_stext_t *txt_o = (sh_stext_t *)shape; ASSERT(txt_o != NULL); compute_styled_extents_n_scaled_font(txt_o); } void sh_stext_draw(shape_t *shape, cairo_t *cr) { sh_stext_t *txt_o = (sh_stext_t *)shape; ASSERT(txt_o != NULL); } int sh_stext_set_text(shape_t *shape, const char *txt) { sh_stext_t *txt_o = (sh_stext_t *)shape; char *new_txt; int sz; ASSERT(txt_o != NULL); ASSERT(txt != NULL); sz = strlen(txt) + 1; new_txt = (char *)realloc((void *)txt_o->txt, sz); if(new_txt == NULL) return ERR; memcpy(new_txt, txt, sz); txt_o->txt = new_txt; return OK; } int sh_stext_set_style(shape_t *shape, const mb_style_blk_t *blks, int nblks) { sh_stext_t *txt_o = (sh_stext_t *)shape; mb_style_blk_t *new_blks; int sz; ASSERT(txt_o != NULL); ASSERT(nblks >= 0); if(nblks > txt_o->max_nblks) { sz = nblks * sizeof(mb_style_blk_t); new_blks = (mb_style_blk_t *)realloc((void *)txt_o->style_blks, sz); if(new_blks == NULL) return ERR; txt_o->style_blks = new_blks; txt_o->max_nblks = nblks; } memcpy(txt_o->style_blks, blks, nblks * sizeof(mb_style_blk_t)); txt_o->nblks = nblks; return OK; } #ifdef UNITTEST #include <CUnit/Basic.h> static void test_query_font_face(void) { mb_font_face_t *face; cairo_status_t status; face = query_font_face("serif", MB_FONT_SLANT_ROMAN, 100); CU_ASSERT(face != NULL); status = cairo_font_face_status(face); CU_ASSERT(status == CAIRO_STATUS_SUCCESS); free_font_face(face); } static void test_make_scaled_font_face_matrix(void) { co_aix matrix[6] = {5, 0, 0, 0, 5, 0}; mb_font_face_t *face; mb_scaled_font_t *scaled; cairo_status_t status; face = query_font_face("serif", MB_FONT_SLANT_ROMAN, 100); CU_ASSERT(face != NULL); status = cairo_font_face_status(face); CU_ASSERT(status == CAIRO_STATUS_SUCCESS); scaled = make_scaled_font_face_matrix(face, matrix); CU_ASSERT(scaled != NULL); status = cairo_scaled_font_status(scaled); CU_ASSERT(status == CAIRO_STATUS_SUCCESS); scaled_font_free(scaled); free_font_face(face); } static void test_compute_text_extents(void) { co_aix matrix[6] = {10, 0, 0, 0, 10, 0}; mb_font_face_t *face; mb_scaled_font_t *scaled; mb_text_extents_t ext; face = query_font_face("serif", MB_FONT_SLANT_ROMAN, 100); CU_ASSERT(face != NULL) scaled = make_scaled_font_face_matrix(face, matrix); CU_ASSERT(scaled != NULL); compute_text_extents(scaled, "test", &ext); CU_ASSERT(ext.height >= 5 && ext.height <= 12); CU_ASSERT(ext.width >= 16 && ext.width <= 48); scaled_font_free(scaled); free_font_face(face); } #include <CUnit/Basic.h> CU_pSuite get_stext_suite(void) { CU_pSuite suite; suite = CU_add_suite("Suite_stext", NULL, NULL); CU_ADD_TEST(suite, test_query_font_face); CU_ADD_TEST(suite, test_make_scaled_font_face_matrix); CU_ADD_TEST(suite, test_compute_text_extents); CU_ADD_TEST(suite, test_compute_text_extents); return suite; } #endif /* UNITTEST */