#include "mupdf/pdf.h" #include #include FT_FREETYPE_H #include FT_ADVANCES_H #define ALLOWED_TEXT_POS_ERROR (0.001f) typedef struct pdf_device_s pdf_device; typedef struct gstate_s gstate; struct gstate_s { /* The first few entries aren't really graphics state things, but * they are recorded here as they are fundamentally intertwined with * the push/pulling of the gstates. */ fz_buffer *buf; void (*on_pop)(pdf_device*,void *); void *on_pop_arg; /* The graphics state proper */ fz_colorspace *colorspace[2]; float color[2][4]; fz_matrix ctm; fz_stroke_state *stroke_state; float alpha[2]; int font; float font_size; float char_spacing; float word_spacing; float horizontal_scaling; float leading; int text_rendering_mode; float rise; int knockout; fz_matrix tm; }; typedef struct image_entry_s image_entry; struct image_entry_s { char digest[16]; pdf_obj *ref; }; typedef struct alpha_entry_s alpha_entry; struct alpha_entry_s { float alpha; int stroke; }; typedef struct font_entry_s font_entry; struct font_entry_s { fz_font *font; }; typedef struct group_entry_s group_entry; struct group_entry_s { int blendmode; int alpha; int isolated; int knockout; fz_colorspace *colorspace; pdf_obj *ref; }; struct pdf_device_s { fz_context *ctx; pdf_document *doc; pdf_obj *contents; pdf_obj *resources; int in_text; int num_forms; int num_smasks; int num_gstates; int max_gstates; gstate *gstates; int num_imgs; int max_imgs; image_entry *images; int num_alphas; int max_alphas; alpha_entry *alphas; int num_fonts; int max_fonts; font_entry *fonts; int num_groups; int max_groups; group_entry *groups; }; #define CURRENT_GSTATE(pdev) (&(pdev)->gstates[(pdev)->num_gstates-1]) /* Helper functions */ static int send_image(pdf_device *pdev, fz_image *image, int mask, int smask) { fz_context *ctx = pdev->ctx; fz_pixmap *pixmap = NULL; pdf_obj *imobj = NULL; pdf_obj *imref = NULL; fz_compressed_buffer *cbuffer = NULL; fz_compression_params *cp = NULL; fz_buffer *buffer = NULL; int i, num; fz_md5 state; unsigned char digest[16]; fz_colorspace *colorspace = image->colorspace; pdf_document *doc = pdev->doc; /* If we can maintain compression, do so */ cbuffer = image->buffer; fz_var(pixmap); fz_var(buffer); fz_var(imobj); fz_var(imref); fz_try(ctx) { if (cbuffer != NULL && cbuffer->params.type != FZ_IMAGE_PNG && cbuffer->params.type != FZ_IMAGE_TIFF) { buffer = fz_keep_buffer(ctx, cbuffer->buffer); cp = &cbuffer->params; } else { unsigned int size; int n; /* Currently, set to maintain resolution; should we consider * subsampling here according to desired output res? */ pixmap = image->get_pixmap(ctx, image, image->w, image->h); colorspace = pixmap->colorspace; /* May be different to image->colorspace! */ n = (pixmap->n == 1 ? 1 : pixmap->n-1); size = image->w * image->h * n; buffer = fz_new_buffer(ctx, size); buffer->len = size; if (pixmap->n == 1) { memcpy(buffer->data, pixmap->samples, size); } else { /* Need to remove the alpha plane */ unsigned char *d = buffer->data; unsigned char *s = pixmap->samples; int mod = n; while (size--) { *d++ = *s++; mod--; if (mod == 0) s++, mod = n; } } } fz_md5_init(&state); fz_md5_update(&state, buffer->data, buffer->len); fz_md5_final(&state, digest); for(i=0; i < pdev->num_imgs; i++) { if (!memcmp(&digest, pdev->images[i].digest, sizeof(16))) { num = i; break; } } if (i < pdev->num_imgs) break; if (pdev->num_imgs == pdev->max_imgs) { int newmax = pdev->max_imgs * 2; if (newmax == 0) newmax = 4; pdev->images = fz_resize_array(ctx, pdev->images, newmax, sizeof(*pdev->images)); pdev->max_imgs = newmax; } num = pdev->num_imgs++; memcpy(pdev->images[num].digest,digest,16); pdev->images[num].ref = NULL; /* Will be filled in later */ imobj = pdf_new_dict(doc, 3); pdf_dict_puts_drop(imobj, "Type", pdf_new_name(doc, "XObject")); pdf_dict_puts_drop(imobj, "Subtype", pdf_new_name(doc, "Image")); pdf_dict_puts_drop(imobj, "Width", pdf_new_int(doc, image->w)); pdf_dict_puts_drop(imobj, "Height", pdf_new_int(doc, image->h)); if (mask) {} else if (!colorspace || colorspace->n == 1) pdf_dict_puts_drop(imobj, "ColorSpace", pdf_new_name(doc, "DeviceGray")); else if (colorspace->n == 3) pdf_dict_puts_drop(imobj, "ColorSpace", pdf_new_name(doc, "DeviceRGB")); else if (colorspace->n == 4) pdf_dict_puts_drop(imobj, "ColorSpace", pdf_new_name(doc, "DeviceCMYK")); if (!mask) pdf_dict_puts_drop(imobj, "BitsPerComponent", pdf_new_int(doc, image->bpc)); switch (cp ? cp->type : FZ_IMAGE_UNKNOWN) { case FZ_IMAGE_UNKNOWN: /* Unknown also means raw */ default: break; case FZ_IMAGE_JPEG: if (cp->u.jpeg.color_transform != -1) pdf_dict_puts_drop(imobj, "ColorTransform", pdf_new_int(doc, cp->u.jpeg.color_transform)); pdf_dict_puts_drop(imobj, "Filter", pdf_new_name(doc, "DCTDecode")); break; case FZ_IMAGE_JPX: if (cp->u.jpx.smask_in_data) pdf_dict_puts_drop(imobj, "SMaskInData", pdf_new_int(doc, cp->u.jpx.smask_in_data)); pdf_dict_puts_drop(imobj, "Filter", pdf_new_name(doc, "JPXDecode")); break; case FZ_IMAGE_FAX: if (cp->u.fax.columns) pdf_dict_puts(imobj, "Columns", pdf_new_int(doc, cp->u.fax.columns)); if (cp->u.fax.rows) pdf_dict_puts(imobj, "Rows", pdf_new_int(doc, cp->u.fax.rows)); if (cp->u.fax.k) pdf_dict_puts(imobj, "K", pdf_new_int(doc, cp->u.fax.k)); if (cp->u.fax.end_of_line) pdf_dict_puts(imobj, "EndOfLine", pdf_new_int(doc, cp->u.fax.end_of_line)); if (cp->u.fax.encoded_byte_align) pdf_dict_puts(imobj, "EncodedByteAlign", pdf_new_int(doc, cp->u.fax.encoded_byte_align)); if (cp->u.fax.end_of_block) pdf_dict_puts(imobj, "EndOfBlock", pdf_new_int(doc, cp->u.fax.end_of_block)); if (cp->u.fax.black_is_1) pdf_dict_puts(imobj, "BlackIs1", pdf_new_int(doc, cp->u.fax.black_is_1)); if (cp->u.fax.damaged_rows_before_error) pdf_dict_puts(imobj, "DamagedRowsBeforeError", pdf_new_int(doc, cp->u.fax.damaged_rows_before_error)); pdf_dict_puts(imobj, "Filter", pdf_new_name(doc, "CCITTFaxDecode")); break; case FZ_IMAGE_JBIG2: /* FIXME - jbig2globals */ cp->type = FZ_IMAGE_UNKNOWN; break; case FZ_IMAGE_FLATE: if (cp->u.flate.columns) pdf_dict_puts(imobj, "Columns", pdf_new_int(doc, cp->u.flate.columns)); if (cp->u.flate.colors) pdf_dict_puts(imobj, "Colors", pdf_new_int(doc, cp->u.flate.colors)); if (cp->u.flate.predictor) pdf_dict_puts(imobj, "Predictor", pdf_new_int(doc, cp->u.flate.predictor)); pdf_dict_puts(imobj, "Filter", pdf_new_name(doc, "FlateDecode")); pdf_dict_puts_drop(imobj, "BitsPerComponent", pdf_new_int(doc, image->bpc)); break; case FZ_IMAGE_LZW: if (cp->u.lzw.columns) pdf_dict_puts(imobj, "Columns", pdf_new_int(doc, cp->u.lzw.columns)); if (cp->u.lzw.colors) pdf_dict_puts(imobj, "Colors", pdf_new_int(doc, cp->u.lzw.colors)); if (cp->u.lzw.predictor) pdf_dict_puts(imobj, "Predictor", pdf_new_int(doc, cp->u.lzw.predictor)); if (cp->u.lzw.early_change) pdf_dict_puts(imobj, "EarlyChange", pdf_new_int(doc, cp->u.lzw.early_change)); pdf_dict_puts(imobj, "Filter", pdf_new_name(doc, "LZWDecode")); break; case FZ_IMAGE_RLD: pdf_dict_puts(imobj, "Filter", pdf_new_name(doc, "RunLengthDecode")); break; } if (mask) { pdf_dict_puts_drop(imobj, "ImageMask", pdf_new_bool(doc, 1)); } if (image->mask) { int smasknum = send_image(pdev, image->mask, 0, 1); pdf_dict_puts(imobj, "SMask", pdev->images[smasknum].ref); } imref = pdf_new_ref(doc, imobj); pdf_update_stream(doc, pdf_to_num(imref), buffer); pdf_dict_puts_drop(imobj, "Length", pdf_new_int(doc, buffer->len)); { char text[32]; snprintf(text, sizeof(text), "XObject/Img%d", num); pdf_dict_putp(pdev->resources, text, imref); } pdev->images[num].ref = imref; } fz_always(ctx) { fz_drop_buffer(ctx, buffer); pdf_drop_obj(imobj); fz_drop_pixmap(ctx, pixmap); } fz_catch(ctx) { pdf_drop_obj(imref); fz_rethrow(ctx); } return num; } static void pdf_dev_stroke_state(pdf_device *pdev, fz_stroke_state *stroke_state) { fz_context *ctx = pdev->ctx; gstate *gs = CURRENT_GSTATE(pdev); if (stroke_state == gs->stroke_state) return; if (gs->stroke_state && !memcmp(stroke_state, gs->stroke_state, sizeof(*stroke_state))) return; if (!gs->stroke_state || gs->stroke_state->linewidth != stroke_state->linewidth) { fz_buffer_printf(ctx, gs->buf, "%f w\n", stroke_state->linewidth); } if (!gs->stroke_state || gs->stroke_state->start_cap != stroke_state->start_cap) { int cap = stroke_state->start_cap; /* FIXME: Triangle caps aren't supported in pdf */ if (cap == FZ_LINECAP_TRIANGLE) cap = FZ_LINECAP_BUTT; fz_buffer_printf(ctx, gs->buf, "%d J\n", cap); } if (!gs->stroke_state || gs->stroke_state->linejoin != stroke_state->linejoin) { int join = stroke_state->linejoin; if (join == FZ_LINEJOIN_MITER_XPS) join = FZ_LINEJOIN_MITER; fz_buffer_printf(ctx, gs->buf, "%d j\n", join); } if (!gs->stroke_state || gs->stroke_state->miterlimit != stroke_state->miterlimit) { fz_buffer_printf(ctx, gs->buf, "%f M\n", stroke_state->miterlimit); } if (gs->stroke_state == NULL && stroke_state->dash_len == 0) {} else if (!gs->stroke_state || gs->stroke_state->dash_phase != stroke_state->dash_phase || gs->stroke_state->dash_len != stroke_state->dash_len || memcmp(gs->stroke_state->dash_list, stroke_state->dash_list, sizeof(float)*stroke_state->dash_len)) { int i; if (stroke_state->dash_len == 0) fz_buffer_printf(ctx, gs->buf, "["); for (i = 0; i < stroke_state->dash_len; i++) fz_buffer_printf(ctx, gs->buf, "%c%f", (i == 0 ? '[' : ' '), stroke_state->dash_list[i]); fz_buffer_printf(ctx, gs->buf, "]%f d\n", stroke_state->dash_phase); } fz_drop_stroke_state(ctx, gs->stroke_state); gs->stroke_state = fz_keep_stroke_state(ctx, stroke_state); } static void pdf_dev_path(pdf_device *pdev, fz_path *path) { fz_context *ctx = pdev->ctx; gstate *gs = CURRENT_GSTATE(pdev); float x, y; int i = 0, k = 0; while (i < path->cmd_len) { switch (path->cmds[i++]) { case FZ_MOVETO: x = path->coords[k++]; y = path->coords[k++]; fz_buffer_printf(ctx, gs->buf, "%f %f m\n", x, y); break; case FZ_LINETO: x = path->coords[k++]; y = path->coords[k++]; fz_buffer_printf(ctx, gs->buf, "%f %f l\n", x, y); break; case FZ_CURVETO: x = path->coords[k++]; y = path->coords[k++]; fz_buffer_printf(ctx, gs->buf, "%f %f ", x, y); x = path->coords[k++]; y = path->coords[k++]; fz_buffer_printf(ctx, gs->buf, "%f %f ", x, y); x = path->coords[k++]; y = path->coords[k++]; fz_buffer_printf(ctx, gs->buf, "%f %f c\n", x, y); break; case FZ_CLOSE_PATH: fz_buffer_printf(ctx, gs->buf, "h\n"); break; } } } static void pdf_dev_ctm(pdf_device *pdev, const fz_matrix *ctm) { fz_matrix inverse; gstate *gs = CURRENT_GSTATE(pdev); if (memcmp(&gs->ctm, ctm, sizeof(*ctm)) == 0) return; fz_invert_matrix(&inverse, &gs->ctm); fz_concat(&inverse, ctm, &inverse); memcpy(&gs->ctm, ctm, sizeof(*ctm)); fz_buffer_printf(pdev->ctx, gs->buf, "%f %f %f %f %f %f cm\n", inverse.a, inverse.b, inverse.c, inverse.d, inverse.e, inverse.f); } static void pdf_dev_color(pdf_device *pdev, fz_colorspace *colorspace, float *color, int stroke) { int diff = 0; int i; int cspace = 0; fz_context *ctx = pdev->ctx; float rgb[FZ_MAX_COLORS]; gstate *gs = CURRENT_GSTATE(pdev); if (colorspace == fz_device_gray(ctx)) cspace = 1; else if (colorspace == fz_device_rgb(ctx)) cspace = 3; else if (colorspace == fz_device_cmyk(ctx)) cspace = 4; if (cspace == 0) { /* If it's an unknown colorspace, fallback to rgb */ colorspace->to_rgb(ctx, colorspace, color, rgb); color = rgb; colorspace = fz_device_rgb(ctx); } if (gs->colorspace[stroke] != colorspace) { gs->colorspace[stroke] = colorspace; diff = 1; } for (i=0; i < colorspace->n; i++) if (gs->color[stroke][i] != color[i]) { gs->color[stroke][i] = color[i]; diff = 1; } if (diff == 0) return; switch (cspace + stroke*8) { case 1: fz_buffer_printf(ctx, gs->buf, "%f g\n", color[0]); break; case 3: fz_buffer_printf(ctx, gs->buf, "%f %f %f rg\n", color[0], color[1], color[2]); break; case 4: fz_buffer_printf(ctx, gs->buf, "%f %f %f %f k\n", color[0], color[1], color[2], color[3]); break; case 1+8: fz_buffer_printf(ctx, gs->buf, "%f G\n", color[0]); break; case 3+8: fz_buffer_printf(ctx, gs->buf, "%f %f %f RG\n", color[0], color[1], color[2]); break; case 4+8: fz_buffer_printf(ctx, gs->buf, "%f %f %f %f K\n", color[0], color[1], color[2], color[3]); break; } } static void pdf_dev_alpha(pdf_device *pdev, float alpha, int stroke) { int i; fz_context *ctx = pdev->ctx; pdf_document *doc = pdev->doc; gstate *gs = CURRENT_GSTATE(pdev); /* If the alpha is unchanged, nothing to do */ if (gs->alpha[stroke] == alpha) return; /* Have we sent such an alpha before? */ for (i = 0; i < pdev->num_alphas; i++) if (pdev->alphas[i].alpha == alpha && pdev->alphas[i].stroke == stroke) break; if (i == pdev->num_alphas) { pdf_obj *o; pdf_obj *ref = NULL; fz_var(ref); /* No. Need to make a new one */ if (pdev->num_alphas == pdev->max_alphas) { int newmax = pdev->max_alphas * 2; if (newmax == 0) newmax = 4; pdev->alphas = fz_resize_array(ctx, pdev->alphas, newmax, sizeof(*pdev->alphas)); pdev->max_alphas = newmax; } pdev->alphas[i].alpha = alpha; pdev->alphas[i].stroke = stroke; o = pdf_new_dict(doc, 1); fz_try(ctx) { char text[32]; pdf_dict_puts_drop(o, (stroke ? "CA" : "ca"), pdf_new_real(doc, alpha)); ref = pdf_new_ref(doc, o); snprintf(text, sizeof(text), "ExtGState/Alp%d", i); pdf_dict_putp(pdev->resources, text, ref); } fz_always(ctx) { pdf_drop_obj(o); pdf_drop_obj(ref); } fz_catch(ctx) { fz_rethrow(ctx); } pdev->num_alphas++; } fz_buffer_printf(ctx, gs->buf, "/Alp%d gs\n", i); } static void pdf_dev_font(pdf_device *pdev, fz_font *font, float size) { int i; pdf_document *doc = pdev->doc; fz_context *ctx = pdev->ctx; gstate *gs = CURRENT_GSTATE(pdev); /* If the font is unchanged, nothing to do */ if (gs->font >= 0 && pdev->fonts[gs->font].font == font) return; if (font->ft_buffer != NULL || font->ft_substitute) fz_throw(pdev->ctx, FZ_ERROR_GENERIC, "pdf device supports only base 14 fonts currently"); /* Have we sent such a font before? */ for (i = 0; i < pdev->num_fonts; i++) if (pdev->fonts[i].font == font) break; if (i == pdev->num_fonts) { pdf_obj *o; pdf_obj *ref = NULL; fz_var(ref); /* No. Need to make a new one */ if (pdev->num_fonts == pdev->max_fonts) { int newmax = pdev->max_fonts * 2; if (newmax == 0) newmax = 4; pdev->fonts = fz_resize_array(ctx, pdev->fonts, newmax, sizeof(*pdev->fonts)); pdev->max_fonts = newmax; } pdev->fonts[i].font = fz_keep_font(ctx, font); o = pdf_new_dict(doc, 3); fz_try(ctx) { char text[32]; pdf_dict_puts_drop(o, "Type", pdf_new_name(doc, "Font")); pdf_dict_puts_drop(o, "Subtype", pdf_new_name(doc, "Type1")); pdf_dict_puts_drop(o, "BaseFont", pdf_new_name(doc, font->name)); pdf_dict_puts_drop(o, "Encoding", pdf_new_name(doc, "WinAnsiEncoding")); ref = pdf_new_ref(doc, o); snprintf(text, sizeof(text), "Font/F%d", i); pdf_dict_putp(pdev->resources, text, ref); } fz_always(ctx) { pdf_drop_obj(o); pdf_drop_obj(ref); } fz_catch(ctx) { fz_rethrow(ctx); } pdev->num_fonts++; } fz_buffer_printf(ctx, gs->buf, "/F%d %f Tf\n", i, size); } static void pdf_dev_tm(pdf_device *pdev, const fz_matrix *tm) { gstate *gs = CURRENT_GSTATE(pdev); if (memcmp(&gs->tm, tm, sizeof(*tm)) == 0) return; fz_buffer_printf(pdev->ctx, gs->buf, "%f %f %f %f %f %f Tm\n", tm->a, tm->b, tm->c, tm->d, tm->e, tm->f); gs->tm = *tm; } static void pdf_dev_push_new_buf(pdf_device *pdev, fz_buffer *buf, void (*on_pop)(pdf_device*,void *), void *on_pop_arg) { fz_context *ctx = pdev->ctx; if (pdev->num_gstates == pdev->max_gstates) { int newmax = pdev->max_gstates*2; pdev->gstates = fz_resize_array(ctx, pdev->gstates, newmax, sizeof(*pdev->gstates)); pdev->max_gstates = newmax; } memcpy(&pdev->gstates[pdev->num_gstates], &pdev->gstates[pdev->num_gstates-1], sizeof(*pdev->gstates)); fz_keep_stroke_state(ctx, pdev->gstates[pdev->num_gstates].stroke_state); if (buf) pdev->gstates[pdev->num_gstates].buf = buf; else fz_keep_buffer(ctx, pdev->gstates[pdev->num_gstates].buf); pdev->gstates[pdev->num_gstates].on_pop = on_pop; pdev->gstates[pdev->num_gstates].on_pop_arg = on_pop_arg; fz_buffer_printf(ctx, pdev->gstates[pdev->num_gstates].buf, "q\n"); pdev->num_gstates++; } static void pdf_dev_push(pdf_device *pdev) { pdf_dev_push_new_buf(pdev, NULL, NULL, NULL); } static void * pdf_dev_pop(pdf_device *pdev) { fz_context *ctx = pdev->ctx; gstate *gs = CURRENT_GSTATE(pdev); void *arg = gs->on_pop_arg; fz_buffer_printf(pdev->ctx, gs->buf, "Q\n"); if (gs->on_pop) gs->on_pop(pdev, arg); pdev->num_gstates--; fz_drop_stroke_state(ctx, pdev->gstates[pdev->num_gstates].stroke_state); fz_drop_buffer(ctx, pdev->gstates[pdev->num_gstates].buf); return arg; } static void pdf_dev_text(pdf_device *pdev, fz_text *text, float size) { int mask = FT_LOAD_NO_SCALE | FT_LOAD_IGNORE_TRANSFORM; int i; fz_matrix trm; fz_matrix inverse; gstate *gs = CURRENT_GSTATE(pdev); fz_matrix trunc_trm; trm = gs->tm; trunc_trm.a = trm.a; trunc_trm.b = trm.b; trunc_trm.c = trm.c; trunc_trm.d = trm.d; trunc_trm.e = 0; trunc_trm.f = 0; fz_invert_matrix(&inverse, &trunc_trm); i = 0; while (i < text->len) { fz_text_item *it = &text->items[i]; fz_point delta; float x; int j; delta.x = it->x - trm.e; delta.y = it->y - trm.f; fz_transform_point(&delta, &inverse); if (delta.x != 0 || delta.y != 0) { fz_buffer_printf(pdev->ctx, gs->buf, "%f %f Td ", delta.x, delta.y); trm.e = it->x; trm.f = it->y; } j = i+1; if (text->font->ft_face) { /* Find prefix of text for which the advance of each character accounts * for the position offset */ x = it->x; while (j < text->len) { FT_Fixed adv; FT_Get_Advance(text->font->ft_face, text->items[j-1].gid, mask, &adv); x += (float)adv * size /((FT_Face)text->font->ft_face)->units_per_EM; if (fabs(x - text->items[j].x) > ALLOWED_TEXT_POS_ERROR || fabs(it->y - text->items[j].y) > ALLOWED_TEXT_POS_ERROR) break; j++; } } fz_buffer_printf(pdev->ctx, gs->buf, "<"); for (i = i; i < j; i++) { /* FIXME: should use it->gid, rather than it->ucs, and convert * to the correct encoding */ fz_buffer_printf(pdev->ctx, gs->buf, "%02x", text->items[i].ucs); } fz_buffer_printf(pdev->ctx, gs->buf, "> Tj\n"); } gs->tm.e = trm.e; gs->tm.f = trm.f; } static void pdf_dev_trm(pdf_device *pdev, int trm) { gstate *gs = CURRENT_GSTATE(pdev); if (gs->text_rendering_mode == trm) return; gs->text_rendering_mode = trm; fz_buffer_printf(pdev->ctx, gs->buf, "%d Tr\n", trm); } static void pdf_dev_begin_text(pdf_device *pdev, const fz_matrix *tm, int trm) { pdf_dev_trm(pdev, trm); if (!pdev->in_text) { gstate *gs = CURRENT_GSTATE(pdev); fz_buffer_printf(pdev->ctx, gs->buf, "BT\n"); gs->tm.a = 1; gs->tm.b = 0; gs->tm.c = 0; gs->tm.d = 1; gs->tm.e = 0; gs->tm.f = 0; pdev->in_text = 1; } pdf_dev_tm(pdev, tm); } static void pdf_dev_end_text(pdf_device *pdev) { gstate *gs = CURRENT_GSTATE(pdev); if (!pdev->in_text) return; pdev->in_text = 0; fz_buffer_printf(pdev->ctx, gs->buf, "ET\n"); } static int pdf_dev_new_form(pdf_obj **form_ref, pdf_device *pdev, const fz_rect *bbox, int isolated, int knockout, int blendmode, float alpha, fz_colorspace *colorspace) { fz_context *ctx = pdev->ctx; pdf_document *doc = pdev->doc; int num; pdf_obj *group_ref; pdf_obj *group; pdf_obj *form; *form_ref = NULL; /* Find (or make) a new group with the required options. */ for(num = 0; num < pdev->num_groups; num++) { group_entry *g = &pdev->groups[num]; if (g->isolated == isolated && g->knockout == knockout && g->blendmode == blendmode && g->alpha == alpha && g->colorspace == colorspace) { group_ref = pdev->groups[num].ref; break; } } /* If we didn't find one, make one */ if (num == pdev->num_groups) { if (pdev->num_groups == pdev->max_groups) { int newmax = pdev->max_groups * 2; if (newmax == 0) newmax = 4; pdev->groups = fz_resize_array(ctx, pdev->groups, newmax, sizeof(*pdev->groups)); pdev->max_groups = newmax; } pdev->num_groups++; pdev->groups[num].isolated = isolated; pdev->groups[num].knockout = knockout; pdev->groups[num].blendmode = blendmode; pdev->groups[num].alpha = alpha; pdev->groups[num].colorspace = fz_keep_colorspace(ctx, colorspace); pdev->groups[num].ref = NULL; group = pdf_new_dict(doc, 5); fz_try(ctx) { pdf_dict_puts_drop(group, "Type", pdf_new_name(doc, "Group")); pdf_dict_puts_drop(group, "S", pdf_new_name(doc, "Transparency")); pdf_dict_puts_drop(group, "K", pdf_new_bool(doc, knockout)); pdf_dict_puts_drop(group, "I", pdf_new_bool(doc, isolated)); pdf_dict_puts_drop(group, "BM", pdf_new_name(doc, fz_blendmode_name(blendmode))); if (!colorspace) {} else if (colorspace->n == 1) pdf_dict_puts_drop(group, "CS", pdf_new_name(doc, "DeviceGray")); else if (colorspace->n == 4) pdf_dict_puts_drop(group, "CS", pdf_new_name(doc, "DeviceCMYK")); else pdf_dict_puts_drop(group, "CS", pdf_new_name(doc, "DeviceRGB")); group_ref = pdev->groups[num].ref = pdf_new_ref(doc, group); } fz_always(ctx) { pdf_drop_obj(group); } fz_catch(ctx) { fz_rethrow(ctx); } } /* Make us a new Forms object that points to that group, and change * to writing into the buffer for that Forms object. */ form = pdf_new_dict(doc, 4); fz_try(ctx) { pdf_dict_puts_drop(form, "Subtype", pdf_new_name(doc, "Form")); pdf_dict_puts(form, "Group", group_ref); pdf_dict_puts_drop(form, "FormType", pdf_new_int(doc, 1)); pdf_dict_puts_drop(form, "BBox", pdf_new_rect(doc, bbox)); *form_ref = pdf_new_ref(doc, form); } fz_catch(ctx) { pdf_drop_obj(form); fz_rethrow(ctx); } /* Insert the new form object into the resources */ { char text[32]; num = pdev->num_forms++; snprintf(text, sizeof(text), "XObject/Fm%d", num); pdf_dict_putp(pdev->resources, text, *form_ref); } return num; } /* Entry points */ static void pdf_dev_fill_path(fz_device *dev, fz_path *path, int even_odd, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { pdf_device *pdev = dev->user; gstate *gs = CURRENT_GSTATE(pdev); pdf_dev_end_text(pdev); pdf_dev_alpha(pdev, alpha, 0); pdf_dev_color(pdev, colorspace, color, 0); pdf_dev_ctm(pdev, ctm); pdf_dev_path(pdev, path); fz_buffer_printf(dev->ctx, gs->buf, (even_odd ? "f*\n" : "f\n")); } static void pdf_dev_stroke_path(fz_device *dev, fz_path *path, fz_stroke_state *stroke, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { pdf_device *pdev = dev->user; gstate *gs = CURRENT_GSTATE(pdev); pdf_dev_end_text(pdev); pdf_dev_alpha(pdev, alpha, 1); pdf_dev_color(pdev, colorspace, color, 1); pdf_dev_ctm(pdev, ctm); pdf_dev_stroke_state(pdev, stroke); pdf_dev_path(pdev, path); fz_buffer_printf(dev->ctx, gs->buf, "S\n"); } static void pdf_dev_clip_path(fz_device *dev, fz_path *path, const fz_rect *rect, int even_odd, const fz_matrix *ctm) { pdf_device *pdev = dev->user; gstate *gs; pdf_dev_end_text(pdev); pdf_dev_push(pdev); pdf_dev_ctm(pdev, ctm); pdf_dev_path(pdev, path); gs = CURRENT_GSTATE(pdev); fz_buffer_printf(dev->ctx, gs->buf, (even_odd ? "W* n\n" : "W n\n")); } static void pdf_dev_clip_stroke_path(fz_device *dev, fz_path *path, const fz_rect *rect, fz_stroke_state *stroke, const fz_matrix *ctm) { pdf_device *pdev = dev->user; gstate *gs; pdf_dev_end_text(pdev); pdf_dev_push(pdev); /* FIXME: Need to push a group, select a pattern (or shading) here, * stroke with the pattern/shading. Then move to defining that pattern * with the next calls to the device interface until the next pop * when we pop the group. */ pdf_dev_ctm(pdev, ctm); pdf_dev_path(pdev, path); gs = CURRENT_GSTATE(pdev); fz_buffer_printf(dev->ctx, gs->buf, "W n\n"); } static void pdf_dev_fill_text(fz_device *dev, fz_text *text, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { pdf_device *pdev = dev->user; fz_matrix trm = text->trm; float size = fz_matrix_expansion(&trm); fz_pre_scale(&trm, 1/size, 1/size); pdf_dev_begin_text(pdev, &trm, 0); pdf_dev_font(pdev, text->font, size); pdf_dev_ctm(pdev, ctm); pdf_dev_alpha(pdev, alpha, 0); pdf_dev_color(pdev, colorspace, color, 0); pdf_dev_text(pdev, text, size); } static void pdf_dev_stroke_text(fz_device *dev, fz_text *text, fz_stroke_state *stroke, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { pdf_device *pdev = dev->user; fz_matrix trm = text->trm; float size = fz_matrix_expansion(&trm); fz_pre_scale(&trm, 1/size, 1/size); pdf_dev_begin_text(pdev, &text->trm, 1); pdf_dev_font(pdev, text->font, 1); pdf_dev_ctm(pdev, ctm); pdf_dev_alpha(pdev, alpha, 1); pdf_dev_color(pdev, colorspace, color, 1); pdf_dev_text(pdev, text, size); } static void pdf_dev_clip_text(fz_device *dev, fz_text *text, const fz_matrix *ctm, int accumulate) { pdf_device *pdev = dev->user; fz_matrix trm = text->trm; float size = fz_matrix_expansion(&trm); fz_pre_scale(&trm, 1/size, 1/size); pdf_dev_begin_text(pdev, &text->trm, 0); pdf_dev_ctm(pdev, ctm); pdf_dev_font(pdev, text->font, 7); pdf_dev_text(pdev, text, size); } static void pdf_dev_clip_stroke_text(fz_device *dev, fz_text *text, fz_stroke_state *stroke, const fz_matrix *ctm) { pdf_device *pdev = dev->user; fz_matrix trm = text->trm; float size = fz_matrix_expansion(&trm); fz_pre_scale(&trm, 1/size, 1/size); pdf_dev_begin_text(pdev, &text->trm, 0); pdf_dev_font(pdev, text->font, 5); pdf_dev_ctm(pdev, ctm); pdf_dev_text(pdev, text, size); } static void pdf_dev_ignore_text(fz_device *dev, fz_text *text, const fz_matrix *ctm) { pdf_device *pdev = dev->user; fz_matrix trm = text->trm; float size = fz_matrix_expansion(&trm); fz_pre_scale(&trm, 1/size, 1/size); pdf_dev_begin_text(pdev, &text->trm, 0); pdf_dev_ctm(pdev, ctm); pdf_dev_font(pdev, text->font, 3); pdf_dev_text(pdev, text, size); } static void pdf_dev_fill_image(fz_device *dev, fz_image *image, const fz_matrix *ctm, float alpha) { pdf_device *pdev = (pdf_device *)dev->user; int num; gstate *gs = CURRENT_GSTATE(pdev); fz_matrix local_ctm = *ctm; pdf_dev_end_text(pdev); num = send_image(pdev, image, 0, 0); pdf_dev_alpha(pdev, alpha, 0); /* PDF images are upside down, so fiddle the ctm */ fz_pre_scale(&local_ctm, 1, -1); fz_pre_translate(&local_ctm, 0, -1); pdf_dev_ctm(pdev, &local_ctm); fz_buffer_printf(dev->ctx, gs->buf, "/Img%d Do\n", num); } static void pdf_dev_fill_shade(fz_device *dev, fz_shade *shade, const fz_matrix *ctm, float alpha) { pdf_device *pdev = (pdf_device *)dev->user; /* FIXME */ pdf_dev_end_text(pdev); } static void pdf_dev_fill_image_mask(fz_device *dev, fz_image *image, const fz_matrix *ctm, fz_colorspace *colorspace, float *color, float alpha) { pdf_device *pdev = (pdf_device *)dev->user; gstate *gs = CURRENT_GSTATE(pdev); int num; fz_matrix local_ctm = *ctm; pdf_dev_end_text(pdev); num = send_image(pdev, image, 1, 0); fz_buffer_printf(dev->ctx, gs->buf, "q\n"); pdf_dev_alpha(pdev, alpha, 0); pdf_dev_color(pdev, colorspace, color, 0); /* PDF images are upside down, so fiddle the ctm */ fz_pre_scale(&local_ctm, 1, -1); fz_pre_translate(&local_ctm, 0, -1); pdf_dev_ctm(pdev, &local_ctm); fz_buffer_printf(dev->ctx, gs->buf, "/Img%d Do Q\n", num); } static void pdf_dev_clip_image_mask(fz_device *dev, fz_image *image, const fz_rect *rect, const fz_matrix *ctm) { pdf_device *pdev = (pdf_device *)dev->user; /* FIXME */ pdf_dev_end_text(pdev); pdf_dev_push(pdev); } static void pdf_dev_pop_clip(fz_device *dev) { pdf_device *pdev = (pdf_device *)dev->user; /* FIXME */ pdf_dev_end_text(pdev); pdf_dev_pop(pdev); } static void pdf_dev_begin_mask(fz_device *dev, const fz_rect *bbox, int luminosity, fz_colorspace *colorspace, float *color) { pdf_device *pdev = (pdf_device *)dev->user; pdf_document *doc = pdev->doc; fz_context *ctx = pdev->ctx; gstate *gs; pdf_obj *smask = NULL; pdf_obj *egs = NULL; pdf_obj *egs_ref; pdf_obj *form_ref; pdf_obj *color_obj = NULL; int i; fz_var(smask); fz_var(egs); fz_var(color_obj); pdf_dev_end_text(pdev); /* Make a new form to contain the contents of the softmask */ pdf_dev_new_form(&form_ref, pdev, bbox, 0, 0, 0, 1, colorspace); fz_try(ctx) { smask = pdf_new_dict(doc, 4); pdf_dict_puts(smask, "Type", pdf_new_name(doc, "Mask")); pdf_dict_puts_drop(smask, "S", pdf_new_name(doc, (luminosity ? "Luminosity" : "Alpha"))); pdf_dict_puts(smask, "G", form_ref); color_obj = pdf_new_array(doc, colorspace->n); for (i = 0; i < colorspace->n; i++) pdf_array_push(color_obj, pdf_new_real(doc, color[i])); pdf_dict_puts_drop(smask, "BC", color_obj); color_obj = NULL; egs = pdf_new_dict(doc, 5); pdf_dict_puts_drop(egs, "Type", pdf_new_name(doc, "ExtGState")); pdf_dict_puts_drop(egs, "SMask", pdf_new_ref(doc, smask)); egs_ref = pdf_new_ref(doc, egs); { char text[32]; snprintf(text, sizeof(text), "ExtGState/SM%d", pdev->num_smasks++); pdf_dict_putp(pdev->resources, text, egs_ref); pdf_drop_obj(egs_ref); } gs = CURRENT_GSTATE(pdev); fz_buffer_printf(dev->ctx, gs->buf, "/SM%d gs\n", pdev->num_smasks-1); } fz_always(ctx) { pdf_drop_obj(smask); } fz_catch(ctx) { pdf_drop_obj(form_ref); pdf_drop_obj(color_obj); fz_rethrow(ctx); } /* Now, everything we get until the end_mask needs to go into a * new buffer, which will be the stream contents for the form. */ pdf_dev_push_new_buf(pdev, fz_new_buffer(ctx, 1024), NULL, form_ref); } static void pdf_dev_end_mask(fz_device *dev) { pdf_device *pdev = (pdf_device *)dev->user; pdf_document *doc = pdev->doc; fz_context *ctx = pdev->ctx; gstate *gs = CURRENT_GSTATE(pdev); fz_buffer *buf = fz_keep_buffer(ctx, gs->buf); pdf_obj *form_ref = (pdf_obj *)gs->on_pop_arg; /* Here we do part of the pop, but not all of it. */ pdf_dev_end_text(pdev); fz_buffer_printf(ctx, buf, "Q\n"); pdf_dict_puts_drop(form_ref, "Length", pdf_new_int(doc, buf->len)); pdf_update_stream(doc, pdf_to_num(form_ref), buf); fz_drop_buffer(ctx, buf); gs->buf = fz_keep_buffer(ctx, gs[-1].buf); gs->on_pop_arg = NULL; pdf_drop_obj(form_ref); fz_buffer_printf(ctx, gs->buf, "q\n"); } static void pdf_dev_begin_group(fz_device *dev, const fz_rect *bbox, int isolated, int knockout, int blendmode, float alpha) { pdf_device *pdev = (pdf_device *)dev->user; fz_context *ctx = pdev->ctx; int num; pdf_obj *form_ref; gstate *gs; pdf_dev_end_text(pdev); num = pdf_dev_new_form(&form_ref, pdev, bbox, isolated, knockout, blendmode, alpha, NULL); /* Add the call to this group */ gs = CURRENT_GSTATE(pdev); fz_buffer_printf(dev->ctx, gs->buf, "/Fm%d Do\n", num); /* Now, everything we get until the end of group needs to go into a * new buffer, which will be the stream contents for the form. */ pdf_dev_push_new_buf(pdev, fz_new_buffer(ctx, 1024), NULL, form_ref); } static void pdf_dev_end_group(fz_device *dev) { pdf_device *pdev = (pdf_device *)dev->user; pdf_document *doc = pdev->doc; gstate *gs = CURRENT_GSTATE(pdev); fz_context *ctx = pdev->ctx; fz_buffer *buf = fz_keep_buffer(ctx, gs->buf); pdf_obj *form_ref; pdf_dev_end_text(pdev); form_ref = (pdf_obj *)pdf_dev_pop(pdev); pdf_dict_puts_drop(form_ref, "Length", pdf_new_int(doc, gs->buf->len)); pdf_update_stream(doc, pdf_to_num(form_ref), buf); fz_drop_buffer(ctx, buf); pdf_drop_obj(form_ref); } static int pdf_dev_begin_tile(fz_device *dev, const fz_rect *area, const fz_rect *view, float xstep, float ystep, const fz_matrix *ctm, int id) { pdf_device *pdev = (pdf_device *)dev->user; /* FIXME */ pdf_dev_end_text(pdev); return 0; } static void pdf_dev_end_tile(fz_device *dev) { pdf_device *pdev = (pdf_device *)dev->user; /* FIXME */ pdf_dev_end_text(pdev); } static void pdf_dev_free_user(fz_device *dev) { pdf_device *pdev = dev->user; pdf_document *doc = pdev->doc; fz_context *ctx = pdev->ctx; gstate *gs = CURRENT_GSTATE(pdev); int i; pdf_dev_end_text(pdev); pdf_dict_puts_drop(pdev->contents, "Length", pdf_new_int(doc, gs->buf->len)); for (i = pdev->num_gstates-1; i >= 0; i--) { fz_drop_stroke_state(ctx, pdev->gstates[i].stroke_state); } for (i = pdev->num_fonts-1; i >= 0; i--) { fz_drop_font(ctx, pdev->fonts[i].font); } for (i = pdev->num_imgs-1; i >= 0; i--) { pdf_drop_obj(pdev->images[i].ref); } pdf_update_stream(doc, pdf_to_num(pdev->contents), pdev->gstates[0].buf); fz_drop_buffer(ctx, pdev->gstates[0].buf); pdf_drop_obj(pdev->contents); pdf_drop_obj(pdev->resources); fz_free(ctx, pdev->images); fz_free(ctx, pdev->alphas); fz_free(ctx, pdev->gstates); fz_free(ctx, pdev); } fz_device *pdf_new_pdf_device(pdf_document *doc, pdf_obj *contents, pdf_obj *resources, const fz_matrix *ctm) { fz_context *ctx = doc->ctx; pdf_device *pdev = fz_malloc_struct(ctx, pdf_device); fz_device *dev; fz_try(ctx) { pdev->ctx = ctx; pdev->doc = doc; pdev->contents = pdf_keep_obj(contents); pdev->resources = pdf_keep_obj(resources); pdev->gstates = fz_malloc_struct(ctx, gstate); pdev->gstates[0].buf = fz_new_buffer(ctx, 256); pdev->gstates[0].ctm = *ctm; pdev->gstates[0].colorspace[0] = fz_device_gray(ctx); pdev->gstates[0].colorspace[1] = fz_device_gray(ctx); pdev->gstates[0].color[0][0] = 1; pdev->gstates[0].color[1][0] = 1; pdev->gstates[0].alpha[0] = 1.0; pdev->gstates[0].alpha[1] = 1.0; pdev->gstates[0].font = -1; pdev->gstates[0].horizontal_scaling = 100; pdev->num_gstates = 1; pdev->max_gstates = 1; dev = fz_new_device(ctx, pdev); } fz_catch(ctx) { if (pdev->gstates) fz_drop_buffer(ctx, pdev->gstates[0].buf); fz_free(ctx, pdev); fz_rethrow(ctx); } dev->free_user = pdf_dev_free_user; dev->fill_path = pdf_dev_fill_path; dev->stroke_path = pdf_dev_stroke_path; dev->clip_path = pdf_dev_clip_path; dev->clip_stroke_path = pdf_dev_clip_stroke_path; dev->fill_text = pdf_dev_fill_text; dev->stroke_text = pdf_dev_stroke_text; dev->clip_text = pdf_dev_clip_text; dev->clip_stroke_text = pdf_dev_clip_stroke_text; dev->ignore_text = pdf_dev_ignore_text; dev->fill_shade = pdf_dev_fill_shade; dev->fill_image = pdf_dev_fill_image; dev->fill_image_mask = pdf_dev_fill_image_mask; dev->clip_image_mask = pdf_dev_clip_image_mask; dev->pop_clip = pdf_dev_pop_clip; dev->begin_mask = pdf_dev_begin_mask; dev->end_mask = pdf_dev_end_mask; dev->begin_group = pdf_dev_begin_group; dev->end_group = pdf_dev_end_group; dev->begin_tile = pdf_dev_begin_tile; dev->end_tile = pdf_dev_end_tile; return dev; } fz_device *pdf_page_write(pdf_document *doc, pdf_page *page) { fz_context *ctx = doc->ctx; pdf_obj *resources = pdf_dict_gets(page->me, "Resources"); fz_matrix ctm; fz_pre_translate(fz_scale(&ctm, 1, -1), 0, page->mediabox.y0-page->mediabox.y1); if (resources == NULL) { resources = pdf_new_dict(doc, 0); pdf_dict_puts_drop(page->me, "Resources", resources); } if (page->contents == NULL) { pdf_obj *obj = pdf_new_dict(doc, 0); fz_try(ctx) { page->contents = pdf_new_ref(doc, obj); pdf_dict_puts(page->me, "Contents", page->contents); } fz_always(ctx) { pdf_drop_obj(obj); } fz_catch(ctx) { fz_rethrow(ctx); } } return pdf_new_pdf_device(doc, page->contents, resources, &ctm); }