#include "mupdf/fitz.h" #include "ucdn.h" /* Extract text into an unsorted span soup. */ #define LINE_DIST 0.9f #define SPACE_DIST 0.2f #define SPACE_MAX_DIST 0.8f #define PARAGRAPH_DIST 0.5f #undef DEBUG_SPANS #undef DEBUG_INTERNALS #undef DEBUG_LINE_HEIGHTS #undef DEBUG_MASKS #undef DEBUG_ALIGN #undef DEBUG_INDENTS #include #include FT_FREETYPE_H #include FT_ADVANCES_H typedef struct fz_text_device_s fz_text_device; typedef struct span_soup_s span_soup; struct fz_text_device_s { fz_device super; fz_text_sheet *sheet; fz_text_page *page; span_soup *spans; fz_text_span *cur_span; int lastchar; }; static fz_rect * add_point_to_rect(fz_rect *a, const fz_point *p) { if (p->x < a->x0) a->x0 = p->x; if (p->x > a->x1) a->x1 = p->x; if (p->y < a->y0) a->y0 = p->y; if (p->y > a->y1) a->y1 = p->y; return a; } fz_rect * fz_text_char_bbox(fz_context *ctx, fz_rect *bbox, fz_text_span *span, int i) { fz_point a, d; const fz_point *max; fz_text_char *ch; if (!span || i >= span->len) { *bbox = fz_empty_rect; return bbox; } ch = &span->text[i]; if (i == span->len-1) max = &span->max; else max = &span->text[i+1].p; a.x = 0; a.y = span->ascender_max; fz_transform_vector(&a, &span->transform); d.x = 0; d.y = span->descender_min; fz_transform_vector(&d, &span->transform); bbox->x0 = bbox->x1 = ch->p.x + a.x; bbox->y0 = bbox->y1 = ch->p.y + a.y; a.x += max->x; a.y += max->y; add_point_to_rect(bbox, &a); a.x = ch->p.x + d.x; a.y = ch->p.y + d.y; add_point_to_rect(bbox, &a); a.x = max->x + d.x; a.y = max->y + d.y; add_point_to_rect(bbox, &a); return bbox; } static void add_bbox_to_span(fz_text_span *span) { fz_point a, d; fz_rect *bbox = &span->bbox; if (!span) return; a.x = 0; a.y = span->ascender_max; fz_transform_vector(&a, &span->transform); d.x = 0; d.y = span->descender_min; fz_transform_vector(&d, &span->transform); bbox->x0 = bbox->x1 = span->min.x + a.x; bbox->y0 = bbox->y1 = span->min.y + a.y; a.x += span->max.x; a.y += span->max.y; add_point_to_rect(bbox, &a); a.x = span->min.x + d.x; a.y = span->min.y + d.y; add_point_to_rect(bbox, &a); a.x = span->max.x + d.x; a.y = span->max.y + d.y; add_point_to_rect(bbox, &a); } struct span_soup_s { int len, cap; fz_text_span **spans; }; static span_soup * new_span_soup(fz_context *ctx) { span_soup *soup = fz_malloc_struct(ctx, span_soup); soup->len = 0; soup->cap = 0; soup->spans = NULL; return soup; } static void free_span_soup(fz_context *ctx, span_soup *soup) { int i; if (soup == NULL) return; for (i = 0; i < soup->len; i++) { fz_free(ctx, soup->spans[i]); } fz_free(ctx, soup->spans); fz_free(ctx, soup); } static void add_span_to_soup(fz_context *ctx, span_soup *soup, fz_text_span *span) { if (span == NULL) return; if (soup->len == soup->cap) { int newcap = (soup->cap ? soup->cap * 2 : 16); soup->spans = fz_resize_array(ctx, soup->spans, newcap, sizeof(*soup->spans)); soup->cap = newcap; } add_bbox_to_span(span); soup->spans[soup->len++] = span; } static fz_text_line * push_span(fz_context *ctx, fz_text_device *tdev, fz_text_span *span, int new_line, float distance) { fz_text_line *line; fz_text_block *block; fz_text_page *page = tdev->page; int prev_not_text = 0; if (page->len == 0 || page->blocks[page->len-1].type != FZ_PAGE_BLOCK_TEXT) prev_not_text = 1; if (new_line || prev_not_text) { float size = fz_matrix_expansion(&span->transform); /* So, a new line. Part of the same block or not? */ if (distance == 0 || distance > size * 1.5 || distance < -size * PARAGRAPH_DIST || page->len == 0 || prev_not_text) { /* New block */ if (page->len == page->cap) { int newcap = (page->cap ? page->cap*2 : 4); page->blocks = fz_resize_array(ctx, page->blocks, newcap, sizeof(*page->blocks)); page->cap = newcap; } block = fz_malloc_struct(ctx, fz_text_block); page->blocks[page->len].type = FZ_PAGE_BLOCK_TEXT; page->blocks[page->len].u.text = block; block->cap = 0; block->len = 0; block->lines = 0; block->bbox = fz_empty_rect; page->len++; distance = 0; } /* New line */ block = page->blocks[page->len-1].u.text; if (block->len == block->cap) { int newcap = (block->cap ? block->cap*2 : 4); block->lines = fz_resize_array(ctx, block->lines, newcap, sizeof(*block->lines)); block->cap = newcap; } block->lines[block->len].first_span = NULL; block->lines[block->len].last_span = NULL; block->lines[block->len].distance = distance; block->lines[block->len].bbox = fz_empty_rect; block->len++; } /* Find last line and append to it */ block = page->blocks[page->len-1].u.text; line = &block->lines[block->len-1]; fz_union_rect(&block->lines[block->len-1].bbox, &span->bbox); fz_union_rect(&block->bbox, &span->bbox); span->base_offset = (new_line ? 0 : distance); if (!line->first_span) { line->first_span = line->last_span = span; span->next = NULL; } else { line->last_span->next = span; line->last_span = span; } return line; } #if defined(DEBUG_SPANS) || defined(DEBUG_ALIGN) || defined(DEBUG_INDENTS) static void dump_span(fz_text_span *s) { int i; for (i=0; i < s->len; i++) { printf("%c", s->text[i].c); } } #endif #ifdef DEBUG_ALIGN static void dump_line(fz_text_line *line) { int i; for (i=0; i < line->len; i++) { fz_text_span *s = line->spans[i]; if (s->spacing > 1) printf(" "); dump_span(s); } printf("\n"); } #endif static void strain_soup(fz_context *ctx, fz_text_device *tdev) { span_soup *soup = tdev->spans; fz_text_line *last_line = NULL; fz_text_span *last_span = NULL; int span_num; if (soup == NULL) return; /* Really dumb implementation to match what we had before */ for (span_num=0; span_num < soup->len; span_num++) { fz_text_span *span = soup->spans[span_num]; int new_line = 1; float distance = 0; float spacing = 0; soup->spans[span_num] = NULL; if (last_span) { /* If we have a last_span, we must have a last_line */ /* Do span and last_line share the same baseline? */ fz_point p, q, perp_r; float dot; float size = fz_matrix_expansion(&span->transform); #ifdef DEBUG_SPANS { printf("Comparing: \""); dump_span(last_span); printf("\" and \""); dump_span(span); printf("\"\n"); } #endif p.x = last_line->first_span->max.x - last_line->first_span->min.x; p.y = last_line->first_span->max.y - last_line->first_span->min.y; fz_normalize_vector(&p); q.x = span->max.x - span->min.x; q.y = span->max.y - span->min.y; fz_normalize_vector(&q); #ifdef DEBUG_SPANS printf("last_span=%g %g -> %g %g = %g %g\n", last_span->min.x, last_span->min.y, last_span->max.x, last_span->max.y, p.x, p.y); printf("span =%g %g -> %g %g = %g %g\n", span->min.x, span->min.y, span->max.x, span->max.y, q.x, q.y); #endif perp_r.y = last_line->first_span->min.x - span->min.x; perp_r.x = -(last_line->first_span->min.y - span->min.y); /* Check if p and q are parallel. If so, then this * line is parallel with the last one. */ dot = p.x * q.x + p.y * q.y; if (fabsf(dot) > 0.9995) { /* If we take the dot product of normalised(p) and * perp(r), we get the perpendicular distance from * one line to the next (assuming they are parallel). */ distance = p.x * perp_r.x + p.y * perp_r.y; /* We allow 'small' distances of baseline changes * to cope with super/subscript. FIXME: We should * gather subscript/superscript information here. */ new_line = (fabsf(distance) > size * LINE_DIST); } else { new_line = 1; distance = 0; } if (!new_line) { fz_point delta; delta.x = span->min.x - last_span->max.x; delta.y = span->min.y - last_span->max.y; spacing = (p.x * delta.x + p.y * delta.y); spacing = fabsf(spacing); /* Only allow changes in baseline (subscript/superscript etc) * when the spacing is small. */ if (spacing * fabsf(distance) > size * LINE_DIST && fabsf(distance) > size * 0.1f) { new_line = 1; distance = 0; spacing = 0; } else { spacing /= size * SPACE_DIST; /* Apply the same logic here as when we're adding chars to build spans. */ if (spacing >= 1 && spacing < (SPACE_MAX_DIST/SPACE_DIST)) spacing = 1; } } #ifdef DEBUG_SPANS printf("dot=%g new_line=%d distance=%g size=%g spacing=%g\n", dot, new_line, distance, size, spacing); #endif } span->spacing = spacing; last_line = push_span(ctx, tdev, span, new_line, distance); last_span = span; } } fz_text_sheet * fz_new_text_sheet(fz_context *ctx) { fz_text_sheet *sheet = fz_malloc(ctx, sizeof *sheet); sheet->maxid = 0; sheet->style = NULL; return sheet; } void fz_drop_text_sheet(fz_context *ctx, fz_text_sheet *sheet) { fz_text_style *style; if (sheet == NULL) return; style = sheet->style; while (style) { fz_text_style *next = style->next; fz_drop_font(ctx, style->font); fz_free(ctx, style); style = next; } fz_free(ctx, sheet); } static fz_text_style * fz_lookup_text_style_imp(fz_context *ctx, fz_text_sheet *sheet, float size, fz_font *font, int wmode, int script) { fz_text_style *style; for (style = sheet->style; style; style = style->next) { if (style->font == font && style->size == size && style->wmode == wmode && style->script == script) /* FIXME: others */ { return style; } } /* Better make a new one and add it to our list */ style = fz_malloc(ctx, sizeof *style); style->id = sheet->maxid++; style->font = fz_keep_font(ctx, font); style->size = size; style->wmode = wmode; style->script = script; style->next = sheet->style; sheet->style = style; return style; } static fz_text_style * fz_lookup_text_style(fz_context *ctx, fz_text_sheet *sheet, fz_text *text, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha, fz_stroke_state *stroke) { float size = 1.0f; fz_font *font = text ? text->font : NULL; int wmode = text ? text->wmode : 0; if (ctm && text) { fz_matrix tm = text->trm; fz_matrix trm; tm.e = 0; tm.f = 0; fz_concat(&trm, &tm, ctm); size = fz_matrix_expansion(&trm); } return fz_lookup_text_style_imp(ctx, sheet, size, font, wmode, 0); } fz_text_page * fz_new_text_page(fz_context *ctx) { fz_text_page *page = fz_malloc(ctx, sizeof(*page)); page->mediabox = fz_empty_rect; page->len = 0; page->cap = 0; page->blocks = NULL; page->next = NULL; return page; } static void fz_drop_text_line_contents(fz_context *ctx, fz_text_line *line) { fz_text_span *span, *next; for (span = line->first_span; span; span=next) { next = span->next; fz_free(ctx, span->text); fz_free(ctx, span); } } static void fz_drop_text_block(fz_context *ctx, fz_text_block *block) { fz_text_line *line; if (block == NULL) return; for (line = block->lines; line < block->lines + block->len; line++) fz_drop_text_line_contents(ctx, line); fz_free(ctx, block->lines); fz_free(ctx, block); } static void fz_drop_image_block(fz_context *ctx, fz_image_block *block) { if (block == NULL) return; fz_drop_image(ctx, block->image); fz_drop_colorspace(ctx, block->cspace); fz_free(ctx, block); } void fz_drop_text_page(fz_context *ctx, fz_text_page *page) { fz_page_block *block; if (page == NULL) return; for (block = page->blocks; block < page->blocks + page->len; block++) { switch (block->type) { case FZ_PAGE_BLOCK_TEXT: fz_drop_text_block(ctx, block->u.text); break; case FZ_PAGE_BLOCK_IMAGE: fz_drop_image_block(ctx, block->u.image); break; } } fz_free(ctx, page->blocks); fz_free(ctx, page); } static fz_text_span * fz_new_text_span(fz_context *ctx, const fz_point *p, int wmode, const fz_matrix *trm) { fz_text_span *span = fz_malloc_struct(ctx, fz_text_span); span->ascender_max = 0; span->descender_min = 0; span->cap = 0; span->len = 0; span->min = *p; span->max = *p; span->wmode = wmode; span->transform.a = trm->a; span->transform.b = trm->b; span->transform.c = trm->c; span->transform.d = trm->d; span->transform.e = 0; span->transform.f = 0; span->text = NULL; span->next = NULL; return span; } static void add_char_to_span(fz_context *ctx, fz_text_span *span, int c, fz_point *p, fz_point *max, fz_text_style *style) { if (span->len == span->cap) { int newcap = (span->cap ? span->cap * 2 : 16); span->text = fz_resize_array(ctx, span->text, newcap, sizeof(fz_text_char)); span->cap = newcap; span->bbox = fz_empty_rect; } span->max = *max; if (style->ascender > span->ascender_max) span->ascender_max = style->ascender; if (style->descender < span->descender_min) span->descender_min = style->descender; span->text[span->len].c = c; span->text[span->len].p = *p; span->text[span->len].style = style; span->len++; } static void fz_add_text_char_imp(fz_context *ctx, fz_text_device *dev, fz_text_style *style, int c, fz_matrix *trm, float adv, int wmode) { int can_append = 1; int add_space = 0; fz_point dir, ndir, p, q; float size; fz_point delta; float spacing = 0; float base_offset = 0; if (wmode == 0) { dir.x = 1; dir.y = 0; } else { dir.x = 0; dir.y = 1; } fz_transform_vector(&dir, trm); ndir = dir; fz_normalize_vector(&ndir); /* dir = direction vector for motion. ndir = normalised(dir) */ size = fz_matrix_expansion(trm); if (dev->cur_span == NULL || trm->a != dev->cur_span->transform.a || trm->b != dev->cur_span->transform.b || trm->c != dev->cur_span->transform.c || trm->d != dev->cur_span->transform.d) { /* If the matrix has changed (or if we don't have a span at * all), then we can't append. */ #ifdef DEBUG_SPANS printf("Transform changed\n"); #endif can_append = 0; } else { /* Calculate how far we've moved since the end of the current * span. */ delta.x = trm->e - dev->cur_span->max.x; delta.y = trm->f - dev->cur_span->max.y; /* The transform has not changed, so we know we're in the same * direction. Calculate 2 distances; how far off the previous * baseline we are, together with how far along the baseline * we are from the expected position. */ spacing = ndir.x * delta.x + ndir.y * delta.y; base_offset = -ndir.y * delta.x + ndir.x * delta.y; spacing /= size * SPACE_DIST; spacing = fabsf(spacing); if (fabsf(base_offset) < size * 0.1) { /* Only a small amount off the baseline - we'll take this */ if (spacing < 1.0) { /* Motion is in line, and small. */ } else if (spacing >= 1 && spacing < (SPACE_MAX_DIST/SPACE_DIST)) { /* Motion is in line, but large enough * to warrant us adding a space */ if (dev->lastchar != ' ' && wmode == 0) add_space = 1; } else { /* Motion is in line, but too large - split to a new span */ can_append = 0; } } else { can_append = 0; #ifdef DEBUG_SPANS spacing = 0; #endif } } #ifdef DEBUG_SPANS printf("%c%c append=%d space=%d size=%g spacing=%g base_offset=%g\n", dev->lastchar, c, can_append, add_space, size, spacing, base_offset); #endif p.x = trm->e; p.y = trm->f; if (can_append == 0) { /* Start a new span */ add_span_to_soup(ctx, dev->spans, dev->cur_span); dev->cur_span = NULL; dev->cur_span = fz_new_text_span(ctx, &p, wmode, trm); dev->cur_span->spacing = 0; } if (add_space) { q.x = - 0.2f; q.y = 0; fz_transform_point(&q, trm); add_char_to_span(ctx, dev->cur_span, ' ', &p, &q, style); } /* Advance the matrix */ q.x = trm->e += adv * dir.x; q.y = trm->f += adv * dir.y; add_char_to_span(ctx, dev->cur_span, c, &p, &q, style); } static void fz_add_text_char(fz_context *ctx, fz_text_device *dev, fz_text_style *style, int c, fz_matrix *trm, float adv, int wmode) { switch (c) { case -1: /* ignore when one unicode character maps to multiple glyphs */ break; case 0xFB00: /* ff */ fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/2, wmode); fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/2, wmode); break; case 0xFB01: /* fi */ fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/2, wmode); fz_add_text_char_imp(ctx, dev, style, 'i', trm, adv/2, wmode); break; case 0xFB02: /* fl */ fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/2, wmode); fz_add_text_char_imp(ctx, dev, style, 'l', trm, adv/2, wmode); break; case 0xFB03: /* ffi */ fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/3, wmode); fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/3, wmode); fz_add_text_char_imp(ctx, dev, style, 'i', trm, adv/3, wmode); break; case 0xFB04: /* ffl */ fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/3, wmode); fz_add_text_char_imp(ctx, dev, style, 'f', trm, adv/3, wmode); fz_add_text_char_imp(ctx, dev, style, 'l', trm, adv/3, wmode); break; case 0xFB05: /* long st */ case 0xFB06: /* st */ fz_add_text_char_imp(ctx, dev, style, 's', trm, adv/2, wmode); fz_add_text_char_imp(ctx, dev, style, 't', trm, adv/2, wmode); break; default: fz_add_text_char_imp(ctx, dev, style, c, trm, adv, wmode); break; } } static void fz_text_extract(fz_context *ctx, fz_text_device *dev, fz_text *text, const fz_matrix *ctm, fz_text_style *style) { fz_font *font = text->font; FT_Face face = font->ft_face; fz_matrix tm = text->trm; fz_matrix trm; float adv; float ascender = 1; float descender = 0; int multi; int i, j, err; if (text->len == 0) return; if (font->ft_face) { fz_lock(ctx, FZ_LOCK_FREETYPE); err = FT_Set_Char_Size(font->ft_face, 64, 64, 72, 72); if (err) fz_warn(ctx, "freetype set character size: %s", ft_error_string(err)); ascender = (float)face->ascender / face->units_per_EM; descender = (float)face->descender / face->units_per_EM; fz_unlock(ctx, FZ_LOCK_FREETYPE); } else if (font->t3procs && !fz_is_empty_rect(&font->bbox)) { ascender = font->bbox.y1; descender = font->bbox.y0; } style->ascender = ascender; style->descender = descender; tm.e = 0; tm.f = 0; fz_concat(&trm, &tm, ctm); for (i = 0; i < text->len; i++) { /* Calculate new pen location and delta */ tm.e = text->items[i].x; tm.f = text->items[i].y; fz_concat(&trm, &tm, ctm); /* Calculate bounding box and new pen position based on font metrics */ if (font->ft_face) { FT_Fixed ftadv = 0; int mask = FT_LOAD_NO_BITMAP | FT_LOAD_NO_HINTING | FT_LOAD_IGNORE_TRANSFORM; /* TODO: freetype returns broken vertical metrics */ /* if (text->wmode) mask |= FT_LOAD_VERTICAL_LAYOUT; */ fz_lock(ctx, FZ_LOCK_FREETYPE); err = FT_Set_Char_Size(font->ft_face, 64, 64, 72, 72); if (err) fz_warn(ctx, "freetype set character size: %s", ft_error_string(err)); FT_Get_Advance(font->ft_face, text->items[i].gid, mask, &ftadv); adv = ftadv / 65536.0f; fz_unlock(ctx, FZ_LOCK_FREETYPE); } else { adv = font->t3widths[text->items[i].gid]; } /* Check for one glyph to many char mapping */ for (j = i + 1; j < text->len; j++) if (text->items[j].gid >= 0) break; multi = j - i; if (multi == 1) { fz_add_text_char(ctx, dev, style, text->items[i].ucs, &trm, adv, text->wmode); } else { for (j = 0; j < multi; j++) { fz_add_text_char(ctx, dev, style, text->items[i + j].ucs, &trm, adv/multi, text->wmode); } i += j - 1; } dev->lastchar = text->items[i].ucs; } } static void fz_text_fill_text(fz_context *ctx, fz_device *dev, fz_text *text, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { fz_text_device *tdev = (fz_text_device*)dev; fz_text_style *style; style = fz_lookup_text_style(ctx, tdev->sheet, text, ctm, colorspace, color, alpha, NULL); fz_text_extract(ctx, tdev, text, ctm, style); } static void fz_text_stroke_text(fz_context *ctx, fz_device *dev, fz_text *text, fz_stroke_state *stroke, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { fz_text_device *tdev = (fz_text_device*)dev; fz_text_style *style; style = fz_lookup_text_style(ctx, tdev->sheet, text, ctm, colorspace, color, alpha, stroke); fz_text_extract(ctx, tdev, text, ctm, style); } static void fz_text_clip_text(fz_context *ctx, fz_device *dev, fz_text *text, const fz_matrix *ctm, int accumulate) { fz_text_device *tdev = (fz_text_device*)dev; fz_text_style *style; style = fz_lookup_text_style(ctx, tdev->sheet, text, ctm, NULL, NULL, 0, NULL); fz_text_extract(ctx, tdev, text, ctm, style); } static void fz_text_clip_stroke_text(fz_context *ctx, fz_device *dev, fz_text *text, fz_stroke_state *stroke, const fz_matrix *ctm) { fz_text_device *tdev = (fz_text_device*)dev; fz_text_style *style; style = fz_lookup_text_style(ctx, tdev->sheet, text, ctm, NULL, NULL, 0, stroke); fz_text_extract(ctx, tdev, text, ctm, style); } static void fz_text_ignore_text(fz_context *ctx, fz_device *dev, fz_text *text, const fz_matrix *ctm) { fz_text_device *tdev = (fz_text_device*)dev; fz_text_style *style; style = fz_lookup_text_style(ctx, tdev->sheet, text, ctm, NULL, NULL, 0, NULL); fz_text_extract(ctx, tdev, text, ctm, style); } static void fz_text_fill_image_mask(fz_context *ctx, fz_device *dev, fz_image *img, const fz_matrix *ctm, fz_colorspace *cspace, float *color, float alpha) { fz_text_device *tdev = (fz_text_device*)dev; fz_text_page *page = tdev->page; fz_image_block *block; /* If the alpha is less than 50% then it's probably a watermark or * effect or something. Skip it */ if (alpha < 0.5) return; /* New block */ if (page->len == page->cap) { int newcap = (page->cap ? page->cap*2 : 4); page->blocks = fz_resize_array(ctx, page->blocks, newcap, sizeof(*page->blocks)); page->cap = newcap; } block = fz_malloc_struct(ctx, fz_image_block); page->blocks[page->len].type = FZ_PAGE_BLOCK_IMAGE; page->blocks[page->len].u.image = block; block->image = fz_keep_image(ctx, img); block->cspace = fz_keep_colorspace(ctx, cspace); if (cspace) memcpy(block->colors, color, sizeof(block->colors[0])*cspace->n); page->len++; } static void fz_text_fill_image(fz_context *ctx, fz_device *dev, fz_image *img, const fz_matrix *ctm, float alpha) { fz_text_fill_image_mask(ctx, dev, img, ctm, NULL, NULL, alpha); } static int fz_bidi_direction(int bidiclass, int curdir) { switch (bidiclass) { /* strong */ case UCDN_BIDI_CLASS_L: return 1; case UCDN_BIDI_CLASS_R: return -1; case UCDN_BIDI_CLASS_AL: return -1; /* weak */ case UCDN_BIDI_CLASS_EN: case UCDN_BIDI_CLASS_ES: case UCDN_BIDI_CLASS_ET: case UCDN_BIDI_CLASS_AN: case UCDN_BIDI_CLASS_CS: case UCDN_BIDI_CLASS_NSM: case UCDN_BIDI_CLASS_BN: return curdir; /* neutral */ case UCDN_BIDI_CLASS_B: case UCDN_BIDI_CLASS_S: case UCDN_BIDI_CLASS_WS: case UCDN_BIDI_CLASS_ON: return curdir; /* embedding, override, pop ... we don't support them */ default: return 0; } } static void fz_bidi_reorder_run(fz_text_span *span, int a, int b, int dir) { if (a < b && dir == -1) { fz_text_char c; int m = a + (b - a) / 2; while (a < m) { b--; c = span->text[a]; span->text[a] = span->text[b]; span->text[b] = c; a++; } } } static void fz_bidi_reorder_span(fz_text_span *span) { int a, b, dir, curdir; a = 0; curdir = 1; for (b = 0; b < span->len; b++) { dir = fz_bidi_direction(ucdn_get_bidi_class(span->text[b].c), curdir); if (dir != curdir) { fz_bidi_reorder_run(span, a, b, curdir); curdir = dir; a = b; } } fz_bidi_reorder_run(span, a, b, curdir); } static void fz_bidi_reorder_text_page(fz_context *ctx, fz_text_page *page) { fz_page_block *pageblock; fz_text_block *block; fz_text_line *line; fz_text_span *span; for (pageblock = page->blocks; pageblock < page->blocks + page->len; pageblock++) if (pageblock->type == FZ_PAGE_BLOCK_TEXT) for (block = pageblock->u.text, line = block->lines; line < block->lines + block->len; line++) for (span = line->first_span; span; span = span->next) fz_bidi_reorder_span(span); } static void fz_text_begin_page(fz_context *ctx, fz_device *dev, const fz_rect *mediabox, const fz_matrix *ctm) { fz_text_device *tdev = (fz_text_device*)dev; if (tdev->page->len) { tdev->page->next = fz_new_text_page(ctx); tdev->page = tdev->page->next; } tdev->page->mediabox = *mediabox; fz_transform_rect(&tdev->page->mediabox, ctm); tdev->spans = new_span_soup(ctx); } static void fz_text_end_page(fz_context *ctx, fz_device *dev) { fz_text_device *tdev = (fz_text_device*)dev; add_span_to_soup(ctx, tdev->spans, tdev->cur_span); tdev->cur_span = NULL; strain_soup(ctx, tdev); free_span_soup(ctx, tdev->spans); tdev->spans = NULL; /* TODO: smart sorting of blocks in reading order */ /* TODO: unicode NFC normalization */ fz_bidi_reorder_text_page(ctx, tdev->page); } static void fz_text_drop_imp(fz_context *ctx, fz_device *dev) { fz_text_device *tdev = (fz_text_device*)dev; free_span_soup(ctx, tdev->spans); } fz_device * fz_new_text_device(fz_context *ctx, fz_text_sheet *sheet, fz_text_page *page) { fz_text_device *dev = fz_new_device(ctx, sizeof *dev); dev->super.hints = FZ_IGNORE_IMAGE | FZ_IGNORE_SHADE; dev->super.drop_imp = fz_text_drop_imp; dev->super.begin_page = fz_text_begin_page; dev->super.end_page = fz_text_end_page; dev->super.fill_text = fz_text_fill_text; dev->super.stroke_text = fz_text_stroke_text; dev->super.clip_text = fz_text_clip_text; dev->super.clip_stroke_text = fz_text_clip_stroke_text; dev->super.ignore_text = fz_text_ignore_text; dev->super.fill_image = fz_text_fill_image; dev->super.fill_image_mask = fz_text_fill_image_mask; dev->sheet = sheet; dev->page = page; dev->spans = NULL; dev->cur_span = NULL; dev->lastchar = ' '; return (fz_device*)dev; }