/* Copyright 2009-2013 Taco Hoekwater This file is part of LuaTeX. LuaTeX 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. LuaTeX 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 Lesser General Public License for more details. You should have received a copy of the GNU General Public License along with LuaTeX; if not, see . */ #include "ptexlib.h" #include #include #include "lua/luatex-api.h" #include "md5.h" #define check_nprintf(size_get, size_want) \ if ((unsigned)(size_get) >= (unsigned)(size_want)) \ formatted_error("pdf backend","snprintf() failed in file %s at line %d", __FILE__, __LINE__); PDF static_pdf = NULL; /*tex The commandline interface: */ int output_mode_used; int output_mode_option; int output_mode_value; int draft_mode_option; int draft_mode_value; /*tex Additional keys of the |/Info| dictionary: */ halfword pdf_info_toks; /*tex Additional keys of the |/Catalog| and its |/OpenAction| dictionary: */ halfword pdf_catalog_toks; halfword pdf_catalog_openaction; /*tex Additional keys of the |/Names| dictionary: */ halfword pdf_names_toks; /*tex Additional keys of the |/Trailer| dictionary" */ halfword pdf_trailer_toks; /*tex Set to |shipping_mode| when |ship_out| starts */ shipping_mode_e global_shipping_mode = NOT_SHIPPING; /*tex Create a new buffer |strbuf_s| of size |size| and maximum allowed size |limit|. Initialize it and set |p| to begin of data. */ strbuf_s *new_strbuf(size_t size, size_t limit) { strbuf_s *b; b = xtalloc(1, strbuf_s); b->size = size; b->limit = limit; if (size > 0) { b->p = b->data = xtalloc(b->size, unsigned char); } else { /*tex For other alloc: */ b->p = b->data = NULL; } return b; } /*tex Check that |n| bytes more fit into buffer; increase it if required. */ static void strbuf_room(strbuf_s * b, size_t n) { unsigned int a; size_t l = (size_t) (b->p - b->data); if (n > b->limit - l) overflow("PDF buffer", (unsigned) b->size); if (n + l > b->size) { a = (unsigned int) (b->size >> 2); if (n + l > b->size + a) b->size = n + l; else if (b->size < b->limit - a) b->size = b->size + a; else b->size = b->limit; b->data = xreallocarray(b->data, unsigned char, (unsigned) b->size); b->p = b->data + l; } } /*tex Seek to position |offset| within buffer. Position must be valid. */ void strbuf_seek(strbuf_s * b, off_t offset) { b->p = b->data + offset; } /*tex Get the current buffer fill level, the number of characters.*/ size_t strbuf_offset(strbuf_s * b) { return (size_t) (b->p - b->data); } /*tex Put one character into buffer. Make room before if needed. */ void strbuf_putchar(strbuf_s * b, unsigned char c) { if ((size_t) (b->p - b->data + 1) > b->size) strbuf_room(b, 1); *b->p++ = c; } /*tex Dump filled buffer part to the \PDF\ file. */ void strbuf_flush(PDF pdf, strbuf_s * b) { pdf_out_block(pdf, (const char *) b->data, strbuf_offset(b)); strbuf_seek(b, 0); } /*tex We free all dynamically allocated buffer structures. */ void strbuf_free(strbuf_s * b) { xfree(b->data); xfree(b); } /*tex This |init_pdf_struct| is called early and only once. */ PDF init_pdf_struct(PDF pdf) { os_struct *os; pdf = xtalloc(1, pdf_output_file); memset(pdf, 0, sizeof(pdf_output_file)); pdf->job_name = makecstring(job_name); /*tex This will be set by |fix_o_mode|: */ output_mode_used = OMODE_NONE; /*tex Used by synctex, we need to use output_mode_used there. */ pdf->o_mode = output_mode_used; pdf->o_state = ST_INITIAL; /*tex Initialize \PDF\ and object stream writing */ pdf->os = os = xtalloc(1, os_struct); memset(pdf->os, 0, sizeof(os_struct)); os->buf[PDFOUT_BUF] = new_strbuf(inf_pdfout_buf_size, sup_pdfout_buf_size); os->buf[OBJSTM_BUF] = new_strbuf(inf_objstm_buf_size, sup_objstm_buf_size); os->obj = xtalloc(PDF_OS_MAX_OBJS, os_obj_data); os->cur_objstm = 0; os->curbuf = PDFOUT_BUF; pdf->buf = os->buf[os->curbuf]; /*tex Later ttf_seek_outbuf(TABDIR_OFF + n * 4 * TTF_ULONG_SIZE); in ttf_init_font we need 236 bytes, so we start with 256 bytes as in \PDFTEX. */ pdf->fb = new_strbuf(256, 100000000); pdf->stream_deflate = false; pdf->stream_writing = false; /*tex Sometimes it is neccesary to allocate memory for PDF output that cannot be deallocated then, so we use |mem| for this purpose. */ pdf->mem_size = inf_pdf_mem_size; pdf->mem = xtalloc(pdf->mem_size, int); /*tex The first word is not used so we can use zero as a value for testing whether a pointer to |mem| is valid. */ pdf->mem_ptr = 1; pdf->pstruct = NULL; pdf->posstruct = xtalloc(1, posstructure); pdf->posstruct->pos.h = 0; pdf->posstruct->pos.v = 0; pdf->posstruct->dir = dir_TLT; /*tex Allocated size of |obj_tab| array> */ pdf->obj_tab_size = (unsigned) inf_obj_tab_size; pdf->obj_tab = xtalloc(pdf->obj_tab_size + 1, obj_entry); memset(pdf->obj_tab, 0, sizeof(obj_entry)); pdf->minor_version = -1; pdf->major_version = -1; pdf->decimal_digits = 4; pdf->gamma = 65536; pdf->image_gamma = 65536; pdf->image_hicolor = 1; pdf->image_apply_gamma = 0; pdf->objcompresslevel = 0; pdf->compress_level = 0; pdf->force_file = 0; pdf->recompress = 0; pdf->draftmode = 0; pdf->inclusion_copy_font = 1; pdf->pk_resolution = 0; pdf->pk_fixed_dpi = 0; pdf->pk_scale_factor = 0; init_dest_names(pdf); pdf->page_resources = NULL; init_pdf_pagecalculations(pdf); pdf->vfstruct = new_vfstruct(); return pdf; } /*tex We use |pdf_get_mem| to allocate memory in |mem|. */ int pdf_get_mem(PDF pdf, int s) { int a; int ret; if (s > sup_pdf_mem_size - pdf->mem_ptr) overflow("pdf memory size (pdf_mem_size)", (unsigned) pdf->mem_size); if (pdf->mem_ptr + s > pdf->mem_size) { a = pdf->mem_size >> 2; if (pdf->mem_ptr + s > pdf->mem_size + a) { pdf->mem_size = pdf->mem_ptr + s; } else if (pdf->mem_size < sup_pdf_mem_size - a) { pdf->mem_size = pdf->mem_size + a; } else { pdf->mem_size = sup_pdf_mem_size; } pdf->mem = xreallocarray(pdf->mem, int, (unsigned) pdf->mem_size); } ret = pdf->mem_ptr; pdf->mem_ptr = pdf->mem_ptr + s; return ret; } /*tex This ensures that |pdfmajorversion| and |pdfminorversion| are set only before any bytes have been written to the generated \PDF\ file. Here also all variables for \PDF\ output are initialized, the \PDF\ file is opened by |ensure_pdf_open|, and the \PDF\ header is written. */ void fix_pdf_version(PDF pdf) { if (pdf->major_version < 0) { /*tex It is unset. */ if (pdf_major_version == 0) { normal_warning("pdf backend","unset major version, using 1 instead"); pdf->major_version = 1; } else if ((pdf_major_version < 0) || (pdf_major_version > 2)) { formatted_warning("pdf backend","illegal major version %d, using 1 instead",pdf_major_version); pdf->major_version = 1; } else { pdf->major_version = pdf_major_version; } } else if (pdf->major_version != pdf_major_version) { normal_warning("pdf backend", "the major version cannot be changed after data is written to the PDF file"); } if (pdf->minor_version < 0) { /*tex It is unset. */ if ((pdf_minor_version < 0) || (pdf_minor_version > 9)) { formatted_warning("pdf backend","illegal minor version %d, using 4 instead",pdf_minor_version); pdf->minor_version = 4; } else { pdf->minor_version = pdf_minor_version; } } else if (pdf->minor_version != pdf_minor_version) { normal_warning("pdf backend", "minorversion cannot be changed after data is written to the PDF file"); } } static void fix_pdf_draftmode(PDF pdf) { if (pdf->draftmode != draft_mode_par) normal_warning("pdf backend", "draftmode cannot be changed after data is written to the PDF file"); if (pdf->draftmode != 0) { /*tex Fix these as they might have been changed in between. */ pdf->compress_level = 0; pdf->objcompresslevel = 0; } } #define ZIP_BUF_SIZE 32768 #define check_err(f, fn) \ if (f != Z_OK) \ formatted_error("pdf backend","zlib %s() failed (error code %d)", fn, f) static void write_zip(PDF pdf) { int flush, err = Z_OK; uInt zip_len; strbuf_s *buf = pdf->buf; z_stream *s = pdf->c_stream; boolean finish = pdf->zip_write_state == ZIP_FINISH; if (pdf->stream_length == 0) { if (s == NULL) { s = pdf->c_stream = xtalloc(1, z_stream); s->zalloc = (alloc_func) 0; s->zfree = (free_func) 0; s->opaque = (voidpf) 0; check_err(deflateInit(s, pdf->compress_level), "deflateInit"); pdf->zipbuf = xtalloc(ZIP_BUF_SIZE, char); } else check_err(deflateReset(s), "deflateReset"); s->next_out = (Bytef *) pdf->zipbuf; s->avail_out = ZIP_BUF_SIZE; } s->next_in = buf->data; s->avail_in = (uInt) (buf->p - buf->data); while (true) { if (s->avail_out == 0 || (finish && s->avail_out < ZIP_BUF_SIZE)) { zip_len = ZIP_BUF_SIZE - s->avail_out; pdf->gone += (off_t) xfwrite(pdf->zipbuf, 1, zip_len, pdf->file); pdf->last_byte = pdf->zipbuf[zip_len - 1]; s->next_out = (Bytef *) pdf->zipbuf; s->avail_out = ZIP_BUF_SIZE; } if (finish) { if (err == Z_STREAM_END) { xfflush(pdf->file); pdf->zip_write_state = NO_ZIP; break; } flush = Z_FINISH; } else { if (s->avail_in == 0) break; flush = Z_NO_FLUSH; } err = deflate(s, flush); if (err != Z_OK && err != Z_STREAM_END) formatted_error("pdf backend","zlib deflate() failed (error code %d)", err); } pdf->stream_length = (off_t) s->total_out; } void zip_free(PDF pdf) { if (pdf->zipbuf != NULL) { check_err(deflateEnd(pdf->c_stream), "deflateEnd"); xfree(pdf->zipbuf); } xfree(pdf->c_stream); } static void write_nozip(PDF pdf) { strbuf_s *buf = pdf->buf; size_t l = strbuf_offset(buf); if (l == 0) return; pdf->stream_length = pdf_offset(pdf) - pdf->save_offset; pdf->gone += (off_t) xfwrite((char *) buf->data, sizeof(char), l, pdf->file); pdf->last_byte = *(buf->p - 1); } /*tex The PDF buffer is flushed by calling |pdf_flush|, which checks the variable |zip_write_state| and will compress the buffer before flushing if neccesary. We call |pdf_begin_stream| to begin a stream and |pdf_end_stream| to finish it. The stream contents will be compressed if compression is turn on. */ void pdf_flush(PDF pdf) { os_struct *os = pdf->os; off_t saved_pdf_gone = pdf->gone; switch (os->curbuf) { case PDFOUT_BUF: if (pdf->draftmode == 0) { switch (pdf->zip_write_state) { case NO_ZIP: write_nozip(pdf); break; case ZIP_WRITING: case ZIP_FINISH: write_zip(pdf); break; default: normal_error("pdf backend", "bad zip state"); } } else pdf->zip_write_state = NO_ZIP; strbuf_seek(pdf->buf, 0); if (saved_pdf_gone > pdf->gone) normal_error("pdf backend", "file size exceeds architectural limits (pdf_gone wraps around)"); break; case OBJSTM_BUF: break; default: normal_error("pdf backend", "bad buffer state"); } } static void pdf_buffer_select(PDF pdf, buffer_e buf) { os_struct *os = pdf->os; if (pdf->os_enable && buf == OBJSTM_BUF) { /*tex Switch to object stream: */ os->curbuf = OBJSTM_BUF; } else { /*tex Switch to \PDF\ stream: */ os->curbuf = PDFOUT_BUF; } pdf->buf = os->buf[pdf->os->curbuf]; } /*tex We create new |/ObjStm| object if required, and set up cross reference info. */ static void pdf_prepare_obj(PDF pdf, int k, int pdf_os_threshold) { os_struct *os = pdf->os; strbuf_s *obuf = os->buf[OBJSTM_BUF]; if (pdf->objcompresslevel >= pdf_os_threshold) pdf_buffer_select(pdf, OBJSTM_BUF); else pdf_buffer_select(pdf, PDFOUT_BUF); switch (os->curbuf) { case PDFOUT_BUF: obj_offset(pdf, k) = pdf_offset(pdf); /*tex Mark it as not included in any |ObjStm|. */ obj_os_idx(pdf, k) = PDF_OS_MAX_OBJS; break; case OBJSTM_BUF: if (os->cur_objstm == 0) { os->cur_objstm = (unsigned int) pdf_create_obj(pdf, obj_type_objstm, 0); os->idx = 0; /*tex Start a fresh object stream. */ obuf->p = obuf->data; /*tex Keep some statistics. */ os->ostm_ctr++; } obj_os_idx(pdf, k) = (int) os->idx; obj_os_objnum(pdf, k) = (int) os->cur_objstm; os->obj[os->idx].num = k; os->obj[os->idx].off = obuf->p - obuf->data; break; default: normal_error("pdf backend", "bad object state"); } } /*tex We set the active buffer pointer and make sure that there are at least |n| bytes free in that buffer, flushing happens if needed. */ inline void pdf_room(PDF pdf, int n) { strbuf_s *buf = pdf->buf; if ((size_t) (n + buf->p - buf->data) <= buf->size) return; if (pdf->os->curbuf == PDFOUT_BUF) { if ((size_t) n > buf->size) overflow("PDF output buffer", (unsigned) buf->size); if ((size_t) (n + buf->p - buf->data) < buf->limit) strbuf_room(buf, (size_t) n); else pdf_flush(pdf); } else { strbuf_room(buf, (size_t) n); } } void pdf_out_block(PDF pdf, const char *s, size_t n) { size_t l; strbuf_s *buf = pdf->buf; do { l = n; if (l > buf->size) l = buf->size; pdf_room(pdf, (int) l); (void) memcpy(buf->p, s, l); buf->p += l; s += l; n -= l; } while (n > 0); } __attribute__ ((format(printf, 2, 3))) void pdf_printf(PDF pdf, const char *fmt, ...) { va_list args; va_start(args, fmt); if (pdf->printf_buf == NULL) { pdf->printf_buf = xtalloc(PRINTF_BUF_SIZE, char); } (void) vsnprintf(pdf->printf_buf, PRINTF_BUF_SIZE, fmt, args); pdf_puts(pdf, pdf->printf_buf); va_end(args); } void pdf_print(PDF pdf, str_number s) { const char *ss; size_t l; if (s >= STRING_OFFSET) { ss = (const char *) str_string(s); l = str_length(s); pdf_out_block(pdf, ss, l); } else { pdf_out(pdf, s); } } void pdf_print_int(PDF pdf, longinteger n) { char s[24]; int w; w = snprintf(s, 23, "%" LONGINTEGER_PRI "d", (LONGINTEGER_TYPE) n); check_nprintf(w, 23); pdf_out_block(pdf, (const char *) s, (size_t) w); } void print_pdffloat(PDF pdf, pdffloat f) { int64_t m = f.m; if (m == 0) { pdf_out(pdf, '0'); } else { int e = f.e; if (e == 0) { /*tex division by |ten_pow[0] == 1| */ if (m == 1) { pdf_out(pdf, '1'); } else { char a[24]; snprintf(a, 23, "%" LONGINTEGER_PRI "i", (LONGINTEGER_TYPE) m); pdf_puts(pdf, a); } } else { int t = ten_pow[e] ; if (t == m) { pdf_out(pdf, '1'); } else { int i, l, w; char a[24]; if (m < 0) { pdf_out(pdf, '-'); m *= -1; } l = m / t; w = snprintf(a, 23, "%i", l); pdf_out_block(pdf, (const char *) a, (size_t) w); l = m % t; if (l != 0) { pdf_out(pdf, '.'); snprintf(a, 23, "%d", l + t); for (i = e; i > 0; i--) { if (a[i] != '0') break; a[i] = '\0'; } pdf_puts(pdf, (a + 1)); } } } } } void pdf_print_str(PDF pdf, const char *s) { const char *orig = s; /*tex This initializes at the last string index. */ int l = (int) strlen(s) - 1; if (l < 0) { pdf_puts(pdf, "()"); return; } /*tex The next might not really be safe as the string could be ``(a)xx(b)'' but so far we never had an issue. */ if ((s[0] == '(') && (s[l] == ')')) { pdf_puts(pdf, s); return; } if ((s[0] != '<') || (s[l] != '>') || odd((l + 1))) { pdf_out(pdf, '('); pdf_puts(pdf, s); pdf_out(pdf, ')'); return; } s++; while (isxdigit((unsigned char)*s)) s++; if (s != orig + l) { pdf_out(pdf, '('); pdf_puts(pdf, orig); pdf_out(pdf, ')'); return; } pdf_puts(pdf, orig); } /*tex A stream needs to have a stream dictionary also. */ void pdf_begin_stream(PDF pdf) { pdf_puts(pdf, "\nstream\n"); pdf_save_offset(pdf); pdf_flush(pdf); if (pdf->stream_deflate) { pdf->zip_write_state = ZIP_WRITING; } pdf->stream_writing = true; pdf->stream_length = 0; pdf->last_byte = 0; } void pdf_end_stream(PDF pdf) { os_struct *os = pdf->os; switch (os->curbuf) { case PDFOUT_BUF: if (pdf->zip_write_state == ZIP_WRITING) pdf->zip_write_state = ZIP_FINISH; /*tex This sets| pdf->last_byte|. */ pdf_flush(pdf); break; case OBJSTM_BUF: normal_error("pdf backend", "bad buffer in end stream, case 1"); break; default: normal_error("pdf backend", "bad buffer in end stream, case 2"); } pdf->stream_deflate = false; pdf->stream_writing = false; /*tex This doesn't really belong to the stream: */ pdf_out(pdf, '\n'); pdf_puts(pdf, "endstream"); /*tex Write the stream |/Length|. */ if (pdf->seek_write_length && pdf->draftmode == 0) { xfseeko(pdf->file, (off_t)pdf->stream_length_offset+12, SEEK_SET, pdf->job_name); fprintf(pdf->file, " "); xfseeko(pdf->file, (off_t)pdf->stream_length_offset, SEEK_SET, pdf->job_name); fprintf(pdf->file, "%" LONGINTEGER_PRI "i >>", (LONGINTEGER_TYPE) pdf->stream_length); xfseeko(pdf->file, 0, SEEK_END, pdf->job_name); } pdf->seek_write_length = false; } /*tex To print |scaled| value to \PDF\ output we need some subroutines to ensure accurary. */ /*tex We max out at $2^{31}-1$. */ #define max_integer 0x7FFFFFFF /*tex scaled value corresponds to 100in, exact, 473628672 */ scaled one_hundred_inch = 7227 * 65536; /*tex scaled value corresponds to 1in (rounded to 4736287) */ scaled one_inch = (7227 * 65536 + 50) / 100; /*tex scaled value corresponds to 1truein (rounded!) */ scaled one_true_inch = (7227 * 65536 + 50) / 100; /*tex scaled value corresponds to 100bp */ scaled one_hundred_bp = (7227 * 65536) / 72; /*tex scaled value corresponds to 1bp (rounded to 65782) */ scaled one_bp = 65781; /*tex One basepoint is set to exactly 65781, as in \TEX\ itself, because this value is also used for |\pdfpxdimen|. */ int ten_pow[10] = { 1, 10, 100, 1000, 10000, 100000, 1000000, 10000000, 100000000, 1000000000 /* $10^0..10^9$ */ }; /*tex The function |divide_scaled| divides |s| by |m| using |dd| decimal digits of precision. */ scaled round_xn_over_d(scaled x, int n, unsigned int d) { boolean positive = true; unsigned t, u, v; if (x < 0) { positive = !positive; x = -(x); } if (n < 0) { positive = !positive; n = -(n); } t = (unsigned) ((x % 0100000) * n); u = (unsigned) (((unsigned) (x) / 0100000) * (unsigned) n + (t / 0100000)); v = (u % d) * 0100000 + (t % 0100000); if (u / d >= 0100000) arith_error = true; else u = 0100000 * (u / d) + (v / d); v = v % d; if (2 * v >= d) u++; if (positive) return (scaled) u; else return (-(scaled) u); } void pdf_add_bp(PDF pdf, scaled s) { pdffloat a; pdfstructure *p = pdf->pstruct; a.m = i64round(s * p->k1); a.e = pdf->decimal_digits; pdf_check_space(pdf); print_pdffloat(pdf, a); pdf_set_space(pdf); } typedef struct { int obj_type; pdf_object_list *list; } pr_entry; static int comp_page_resources(const void *pa, const void *pb, void *p) { int a = ((const pr_entry *) pa)->obj_type; int b = ((const pr_entry *) pb)->obj_type; (void) p; if (a > b) return 1; if (a < b) return -1; return 0; } void addto_page_resources(PDF pdf, pdf_obj_type t, int k) { pdf_resource_struct *re; pr_entry *pr, tmp; void **pp; pdf_object_list *p, *item = NULL; re = pdf->page_resources; if (re->resources_tree == NULL) { re->resources_tree = avl_create(comp_page_resources, NULL, &avl_xallocator); if (re->resources_tree == NULL) formatted_error("pdf backend","addto_page_resources(): avl_create() page_resource_tree failed"); } tmp.obj_type = t; pr = (pr_entry *) avl_find(re->resources_tree, &tmp); if (pr == NULL) { pr = xtalloc(1, pr_entry); pr->obj_type = t; pr->list = NULL; pp = avl_probe(re->resources_tree, pr); if (pp == NULL) formatted_error("pdf backend","addto_page_resources(): avl_probe() out of memory in insertion"); } if (pr->list == NULL) { item = xtalloc(1, pdf_object_list); item->link = NULL; item->info = k; pr->list = item; if (obj_type(pdf, k) == (int)t) { /*tex |k| is an object number. */ set_obj_scheduled(pdf, k); } } else { for (p = pr->list; p->info != k && p->link != NULL; p = p->link); if (p->info != k) { item = xtalloc(1, pdf_object_list); item->link = NULL; item->info = k; p->link = item; if (obj_type(pdf, k) == (int)t) set_obj_scheduled(pdf, k); } } } pdf_object_list *get_page_resources_list(PDF pdf, pdf_obj_type t) { pdf_resource_struct *re = pdf->page_resources; pr_entry *pr, tmp; if (re == NULL || re->resources_tree == NULL) return NULL; tmp.obj_type = t; pr = (pr_entry *) avl_find(re->resources_tree, &tmp); if (pr == NULL) return NULL; return pr->list; } static void reset_page_resources(PDF pdf) { pdf_resource_struct *re = pdf->page_resources; pr_entry *p; struct avl_traverser t; pdf_object_list *l1, *l2; if (re == NULL || re->resources_tree == NULL) return; avl_t_init(&t, re->resources_tree); for (p = avl_t_first(&t, re->resources_tree); p != NULL; p = avl_t_next(&t)) { if (p->list != NULL) { for (l1 = p->list; l1 != NULL; l1 = l2) { l2 = l1->link; free(l1); } /*tex We reset but the AVL tree remains! */ p->list = NULL; } } } static void destroy_pg_res_tree(void *pa, void *param) { (void) param; xfree(pa); } static void destroy_page_resources_tree(PDF pdf) { pdf_resource_struct *re = pdf->page_resources; reset_page_resources(pdf); if (re->resources_tree != NULL) avl_destroy(re->resources_tree, destroy_pg_res_tree); re->resources_tree = NULL; } static void pdf_print_fw_int(PDF pdf, longinteger n) { unsigned char digits[11]; int k = 10; do { k--; digits[k] = (unsigned char) ('0' + (n % 10)); n /= 10; } while (k != 0); if (n!=0) { /*tex The absolute value of $n$ is greater than 9999999999. */ normal_error("pdf backend", "offset exceeds 10 bytes, try enabling object compression."); } digits[10]='\0'; pdf_puts(pdf, (const char *) digits); } /*tex We print out an integer |n| as a fixed number |w| of bytes,. This is used in the |XRef| cross-reference stream creator. */ static void pdf_out_bytes(PDF pdf, longinteger n, size_t w) { /*tex The number of digits in a number being output. */ unsigned char bytes[8]; int k = (int) w; do { k--; bytes[k] = (unsigned char) (n % 256); n /= 256; } while (k != 0); pdf_out_block(pdf, (const char *) bytes, w); } void pdf_print_str_ln(PDF pdf, const char *s) { pdf_print_str(pdf, s); pdf_out(pdf, '\n'); } void pdf_print_toks(PDF pdf, halfword p) { int len = 0; char *s = tokenlist_to_cstring(p, true, &len); if (len > 0) { pdf_check_space(pdf); pdf_puts(pdf, s); pdf_set_space(pdf); } xfree(s); } /* void pdf_add_rect_spec(PDF pdf, halfword r) { pdf_add_bp(pdf, pdf_ann_left(r)); pdf_add_bp(pdf, pdf_ann_bottom(r)); pdf_add_bp(pdf, pdf_ann_right(r)); pdf_add_bp(pdf, pdf_ann_top(r)); } */ void pdf_add_rect_spec(PDF pdf, halfword r) { /* the check is now here */ pdf_add_bp(pdf, pdf_ann_left(r) < pdf_ann_right(r) ? pdf_ann_left(r) : pdf_ann_right(r)); pdf_add_bp(pdf, pdf_ann_bottom(r) < pdf_ann_top(r) ? pdf_ann_bottom(r) : pdf_ann_top(r)); pdf_add_bp(pdf, pdf_ann_left(r) < pdf_ann_right(r) ? pdf_ann_right(r) : pdf_ann_left(r)); pdf_add_bp(pdf, pdf_ann_bottom(r) < pdf_ann_top(r) ? pdf_ann_top(r) : pdf_ann_bottom(r)); } void pdf_rectangle(PDF pdf, halfword r) { pdf_add_name(pdf, "Rect"); pdf_begin_array(pdf); pdf_add_rect_spec(pdf, r); pdf_end_array(pdf); } static void init_pdf_outputparameters(PDF pdf) { int pk_mode; pdf->draftmode = fix_int(draft_mode_par, 0, 1); pdf->compress_level = fix_int(pdf_compress_level, 0, 9); pdf->decimal_digits = fix_int(pdf_decimal_digits, 3, 5); pdf->gamma = fix_int(pdf_gamma, 0, 1000000); pdf->image_gamma = fix_int(pdf_image_gamma, 0, 1000000); pdf->image_hicolor = fix_int(pdf_image_hicolor, 0, 1); pdf->image_apply_gamma = fix_int(pdf_image_apply_gamma, 0, 1); pdf->objcompresslevel = fix_int(pdf_obj_compress_level, 0, MAX_OBJ_COMPRESS_LEVEL); pdf->recompress = fix_int(pdf_recompress, 0, 1); pdf->inclusion_copy_font = fix_int(pdf_inclusion_copy_font, 0, 1); pdf->pk_resolution = fix_int(pdf_pk_resolution, 72, 8000); pdf->pk_fixed_dpi = fix_int(pdf_pk_fixed_dpi, 0, 1); if (((pdf->major_version > 1) || (pdf->minor_version >= 5)) && (pdf->objcompresslevel > 0)) { pdf->os_enable = true; } else { if (pdf->objcompresslevel > 0) { normal_warning("pdf backend","objcompresslevel > 0 requires minorversion > 4"); pdf->objcompresslevel = 0; } pdf->os_enable = false; } if (pdf->pk_resolution == 0) { /*tex If not set from format file or by user take it from \.{texmf.cnf}. */ pdf->pk_resolution = pk_dpi; } pdf->pk_scale_factor = divide_scaled(72, pdf->pk_resolution, pk_decimal_digits(pdf,5)); if (!callback_defined(read_pk_file_callback)) { pk_mode = pdf_pk_mode; if (pk_mode != null) { char *s = tokenlist_to_cstring(pk_mode, true, NULL); kpse_init_prog("LUATEX", (unsigned) pdf->pk_resolution, s, nil); xfree(s); } else { kpse_init_prog("LUATEX", (unsigned) pdf->pk_resolution, nil, nil); } if (!kpse_var_value("MKTEXPK")) kpse_set_program_enabled(kpse_pk_format, 1, kpse_src_cmdline); } set_job_id(pdf, year_par, month_par, day_par, time_par); if ((pdf_unique_resname > 0) && (pdf->resname_prefix == NULL)) pdf->resname_prefix = get_resname_prefix(pdf); } /*tex This checks that we have a name for the generated PDF file and that it's open. */ void pdf_write_header(PDF pdf) { /*tex Initialize variables for \PDF\ output. */ fix_pdf_version(pdf); init_pdf_outputparameters(pdf); fix_pdf_draftmode(pdf); /*tex Write \PDF\ header */ pdf_printf(pdf, "%%PDF-%d.%d\n", pdf->major_version, pdf->minor_version); /* Some binary crap. */ pdf_out(pdf, '%'); pdf_out(pdf, 'L' + 128); pdf_out(pdf, 'U' + 128); pdf_out(pdf, 'A' + 128); pdf_out(pdf, 'T' + 128); pdf_out(pdf, 'E' + 128); pdf_out(pdf, 'X' + 128); pdf_out(pdf, 'P' + 128); pdf_out(pdf, 'D' + 128); pdf_out(pdf, 'F' + 128); pdf_out(pdf, '\n'); } void pdf_open_file(PDF pdf) { ensure_output_file_open(pdf, ".pdf"); } void ensure_output_state(PDF pdf, output_state s) { if (pdf->o_state < s) { if (s > ST_INITIAL) { ensure_output_state(pdf, s - 1); } switch (s - 1) { case ST_INITIAL: fix_o_mode(); break; case ST_OMODE_FIX: backend_out_control[backend_control_open_file](pdf); break; case ST_FILE_OPEN: backend_out_control[backend_control_write_header](pdf); break; case ST_HEADER_WRITTEN: break; case ST_FILE_CLOSED: break; default: normal_error("pdf backend","weird output state"); } pdf->o_state++; } } /*tex Write out an accumulated object stream. The object number and byte offset pairs are generated and appended to the ready buffered object stream. By this the value of \.{/First} can be calculated. Then a new \.{/ObjStm} object is generated, and everything is copied to the PDF output buffer, where also compression is done. When calling this procedure, |pdf_os_mode| must be |true|. */ static void pdf_os_write_objstream(PDF pdf) { os_struct *os = pdf->os; /*tex |n1|, |n2|: |ObjStm| buffer may be reallocated! */ unsigned int i, j, n1, n2; strbuf_s *obuf = os->buf[OBJSTM_BUF]; if (os->cur_objstm == 0) { /*tex No object stream started. */ return; } /*tex Remember end of collected object stream contents. */ n1 = (unsigned int) strbuf_offset(obuf); /*tex This is needed here to calculate |/First| for the |ObjStm| dict */ for (i = 0, j = 0; i < os->idx; i++) { /*tex Add object-number/byte-offset list to buffer. */ pdf_print_int(pdf, (int) os->obj[i].num); pdf_out(pdf, ' '); pdf_print_int(pdf, (int) os->obj[i].off); if (j == 9 || i == os->idx - 1) { /*tex Print out in groups of ten for better readability. */ pdf_out(pdf, '\n'); j = 0; } else { pdf_out(pdf, ' '); j++; } } /*tex Remember current buffer end. */ n2 = (unsigned int) strbuf_offset(obuf); /*tex Switch to \PDF\ stream writing. */ pdf_begin_obj(pdf, (int) os->cur_objstm, OBJSTM_NEVER); pdf_begin_dict(pdf); pdf_dict_add_name(pdf, "Type", "ObjStm"); /*tex The number of objects in |ObjStm|. */ pdf_dict_add_int(pdf, "N", (int) os->idx); pdf_dict_add_int(pdf, "First", (int) (n2 - n1)); pdf_dict_add_streaminfo(pdf); pdf_end_dict(pdf); pdf_begin_stream(pdf); /*tex Write object-number/byte-offset list. */ pdf_out_block(pdf, (const char *) (obuf->data + n1), (size_t) (n2 - n1)); /*tex Write collected object stream contents. */ pdf_out_block(pdf, (const char *) obuf->data, (size_t) n1); pdf_end_stream(pdf); pdf_end_obj(pdf); /*tex We force object stream generation next time. */ os->cur_objstm = 0; } /*tex Here comes a bunch of flushers: */ void pdf_begin_dict(PDF pdf) { pdf_check_space(pdf); pdf_puts(pdf, "<<"); pdf_set_space(pdf); } void pdf_end_dict(PDF pdf) { pdf_check_space(pdf); pdf_puts(pdf, ">>"); pdf_set_space(pdf); } void pdf_dict_add_bool(PDF pdf, const char *key, int i) { pdf_add_name(pdf, key); pdf_add_bool(pdf, i); } void pdf_dict_add_int(PDF pdf, const char *key, int i) { pdf_add_name(pdf, key); pdf_add_int(pdf, i); } void pdf_dict_add_name(PDF pdf, const char *key, const char *val) { pdf_add_name(pdf, key); pdf_add_name(pdf, val); } void pdf_dict_add_string(PDF pdf, const char *key, const char *val) { if (val == NULL) return; pdf_add_name(pdf, key); pdf_check_space(pdf); pdf_print_str(pdf, val); pdf_set_space(pdf); } void pdf_dict_add_ref(PDF pdf, const char *key, int num) { pdf_add_name(pdf, key); pdf_add_ref(pdf, num); } void pdf_add_null(PDF pdf) { pdf_check_space(pdf); pdf_puts(pdf, "null"); pdf_set_space(pdf); } void pdf_add_bool(PDF pdf, int i) { pdf_check_space(pdf); if (i == 0) pdf_puts(pdf, "false"); else pdf_puts(pdf, "true"); pdf_set_space(pdf); } void pdf_add_int(PDF pdf, int i) { pdf_check_space(pdf); pdf_print_int(pdf, i); pdf_set_space(pdf); } void pdf_add_longint(PDF pdf, longinteger n) { pdf_check_space(pdf); pdf_print_int(pdf, n); pdf_set_space(pdf); } void pdf_add_string(PDF pdf, const char *s) { pdf_check_space(pdf); pdf_print_str(pdf, s); pdf_set_space(pdf); } void pdf_add_name(PDF pdf, const char *name) { pdf_check_space(pdf); pdf_out(pdf, '/'); pdf_puts(pdf, name); pdf_set_space(pdf); } void pdf_add_ref(PDF pdf, int num) { pdf_check_space(pdf); pdf_print_int(pdf, num); pdf_puts(pdf, " 0 R"); pdf_set_space(pdf); } /*tex When we add the stream length and filter entries to a stream dictionary, remember file position for seek. */ void pdf_dict_add_streaminfo(PDF pdf) { if (pdf->compress_level > 0) { pdf_dict_add_name(pdf, "Filter", "FlateDecode"); pdf->stream_deflate = true; } pdf_add_name(pdf, "Length"); pdf->stream_length_offset = pdf_offset(pdf) + 1; /*tex Fill in length at |pdf_end_stream| call. */ pdf->seek_write_length = true; /*tex We reserve space for 10 decimal digits plus space. */ pdf_puts(pdf, " x "); pdf_set_space(pdf); } void pdf_begin_array(PDF pdf) { pdf_check_space(pdf); pdf_out(pdf, '['); pdf_set_space(pdf); } void pdf_end_array(PDF pdf) { pdf_check_space(pdf); pdf_out(pdf, ']'); pdf_set_space(pdf); } void pdf_begin_obj(PDF pdf, int i, int pdf_os_threshold) { os_struct *os = pdf->os; ensure_output_state(pdf, ST_HEADER_WRITTEN); pdf_prepare_obj(pdf, i, pdf_os_threshold); switch (os->curbuf) { case PDFOUT_BUF: pdf_printf(pdf, "%d 0 obj\n", (int) i); break; case OBJSTM_BUF: if (pdf->compress_level == 0) { /*tex Some debugging help. */ pdf_printf(pdf, "%% %d 0 obj\n", (int) i); } break; default: normal_error("pdf backend","weird begin object"); } pdf_reset_space(pdf); } void pdf_end_obj(PDF pdf) { os_struct *os = pdf->os; switch (os->curbuf) { case PDFOUT_BUF: /*tex End a \PDF\ object. */ pdf_puts(pdf, "\nendobj\n"); break; case OBJSTM_BUF: /*tex Tthe number of objects collected so far in ObjStm: */ os->idx++; /*tex Only for statistics: */ os->o_ctr++; if (os->idx == PDF_OS_MAX_OBJS) { pdf_os_write_objstream(pdf); } else { /*tex Adobe Reader seems to need this. */ pdf_out(pdf, '\n'); } break; default: normal_error("pdf backend","weird end object"); } } /* Needed for embedding fonts. */ pdf_obj *pdf_new_stream(void) { pdf_obj *stream = xmalloc(sizeof(pdf_obj)); stream->length = 0; stream->data = NULL; return stream; } void pdf_add_stream(pdf_obj * stream, unsigned char *buf, long len) { int i; assert(stream != NULL); if (stream->data == NULL) { stream->data = xmalloc((unsigned) len); } else { stream->data = xrealloc(stream->data, (unsigned) len + (unsigned) stream->length); } for (i = 0; i < len; i++) { *(stream->data + stream->length + i) = *(buf + i); } stream->length += (unsigned) len; } void pdf_release_obj(pdf_obj * stream) { if (stream != NULL) { if (stream->data != NULL) { xfree(stream->data); } xfree(stream); } } /* This one converts any string given in in in an allowed PDF string which can be handled by printf et.al.: \.{\\} is escaped to \.{\\\\}, parenthesis are escaped and control characters are octal encoded. This assumes that the string does not contain any already escaped characters! */ char *convertStringToPDFString(const char *in, int len) { static char pstrbuf[MAX_PSTRING_LEN]; char *out = pstrbuf; int i, j, k; char buf[5]; j = 0; for (i = 0; i < len; i++) { check_buf((unsigned) j + sizeof(buf), MAX_PSTRING_LEN); if (((unsigned char) in[i] < '!') || ((unsigned char) in[i] > '~')) { /*tex Convert control characters into octal. */ k = snprintf(buf, sizeof(buf), "\\%03o", (unsigned int) (unsigned char) in[i]); check_nprintf(k, sizeof(buf)); out[j++] = buf[0]; out[j++] = buf[1]; out[j++] = buf[2]; out[j++] = buf[3]; } else if ((in[i] == '(') || (in[i] == ')')) { /*tex Escape parenthesis: */ out[j++] = '\\'; out[j++] = in[i]; } else if (in[i] == '\\') { /*tex Escape backslash: */ out[j++] = '\\'; out[j++] = '\\'; } else { /* Copy char : */ out[j++] = in[i]; } } out[j] = '\0'; return pstrbuf; } /*tex This one converts any string given in in in an allowed PDF string which is hexadecimal encoded; |sizeof(out)| should be at least $|lin|*2+1$. */ static void convertStringToHexString(const char *in, char *out, int lin) { int i, k; char buf[3]; int j = 0; for (i = 0; i < lin; i++) { k = snprintf(buf, sizeof(buf), "%02X", (unsigned int) (unsigned char) in[i]); check_nprintf(k, sizeof(buf)); out[j++] = buf[0]; out[j++] = buf[1]; } out[j] = '\0'; } /*tex We compute the ID string as per PDF specification 1.4 9.3 that stipulates only that the two IDs must be identical when the file is created and that they should be reasonably unique. Since it's difficult to get the file size at this point in the execution of pdfTeX and scanning the info dict is also difficult, we start with a simpler implementation using just the first two items. A user supplied trailerid had better be an array! So maybe we need to check for |[]| and error otherwise. */ static void print_ID(PDF pdf) { if ((pdf_suppress_optional_info & 512) == 0) { const char *p = NULL; pdf_add_name(pdf, "ID"); p = get_pdf_table_string("trailerid"); if (p && strlen(p) > 0) { pdf_puts(pdf,p); } else if (pdf_trailer_id != 0) { /*tex The user provided one: */ pdf_print_toks(pdf, pdf_trailer_id); } else { /*tex The system provided one: */ time_t t; size_t size; char time_str[32]; md5_state_t state; md5_byte_t digest[16]; char id[64]; char pwd[4096]; md5_init(&state); t = pdf->start_time; size = strftime(time_str, sizeof(time_str), "%Y%m%dT%H%M%SZ", gmtime(&t)); md5_append(&state, (const md5_byte_t *) time_str, (int) size); if (getcwd(pwd, sizeof(pwd)) == NULL) { formatted_error("pdf backend","getcwd() failed (%s), (path too long?)", strerror(errno)); } #ifdef WIN32 { char *p; for (p = pwd; *p; p++) { if (*p == '\\') *p = '/'; else if (IS_KANJI(p)) p++; } } #endif md5_append(&state, (const md5_byte_t *) pwd, (int) strlen(pwd)); md5_append(&state, (const md5_byte_t *) "/", 1); md5_append(&state, (const md5_byte_t *) pdf->file_name, (int) strlen(pdf->file_name)); md5_finish(&state, digest); convertStringToHexString((char *) digest, id, 16); pdf_begin_array(pdf); pdf_check_space(pdf); pdf_printf(pdf, "<%s> <%s>", id, id); pdf_set_space(pdf); pdf_end_array(pdf); } } } /*tex Here we print the |/CreationDate| entry in the form |(D:YYYYMMDDHHmmSSOHH'mm')|. The main difficulty is get the time zone offset. |strftime()| does this in ISO C99 (e.g. newer glibc) with \%z, but we have to work with other systems (e.g. Solaris 2.5). */ #define TIME_STR_SIZE 30 static void makepdftime(PDF pdf) { struct tm lt, gmt; size_t size; int i, off, off_hours, off_mins; time_t t = pdf->start_time; char *time_str = pdf->start_time_str; /*tex Get the time. */ if (utc_option) { lt = *gmtime(&t); } else { lt = *localtime(&t); } size = strftime(time_str, TIME_STR_SIZE, "D:%Y%m%d%H%M%S", <); /*tex Expected format: |YYYYmmddHHMMSS|. */ if (size == 0) { /*tex Unexpected, contents of |time_str| is undefined .*/ time_str[0] = '\0'; return; } /*tex A correction for seconds. the PDF reference expects 00..59, therefore we map 60 and 61 to 59. */ if (time_str[14] == '6') { time_str[14] = '5'; time_str[15] = '9'; /*tex For safety: */ time_str[16] = '\0'; } /*tex Get the time zone offset. */ gmt = *gmtime(&t); off = 60 * (lt.tm_hour - gmt.tm_hour) + lt.tm_min - gmt.tm_min; if (lt.tm_year != gmt.tm_year) { off += (lt.tm_year > gmt.tm_year) ? 1440 : -1440; } else if (lt.tm_yday != gmt.tm_yday) { off += (lt.tm_yday > gmt.tm_yday) ? 1440 : -1440; } if (off == 0) { time_str[size++] = 'Z'; time_str[size] = 0; } else { off_hours = off / 60; off_mins = abs(off - off_hours * 60); i = snprintf(&time_str[size], 9, "%+03d'%02d'", off_hours, off_mins); check_nprintf(i, 9); } pdf->start_time = t; } void initialize_start_time(PDF pdf) { if (pdf->start_time == 0) { pdf->start_time = get_start_time(); pdf->start_time_str = xtalloc(TIME_STR_SIZE, char); makepdftime(pdf); } } char *getcreationdate(PDF pdf) { initialize_start_time(pdf); return pdf->start_time_str; } void remove_pdffile(PDF pdf) { if (pdf != NULL) { if (!kpathsea_debug && pdf->file_name && (pdf->draftmode == 0)) { xfclose(pdf->file, pdf->file_name); remove(pdf->file_name); } } } /*tex We use this checker in other modules. It is not pdf specific. */ void check_o_mode(PDF pdf, const char *s, int o_mode_bitpattern, boolean strict) { output_mode o_mode; const char *m = NULL; if (lua_only) { normal_error("lua only","no backend present, needed for what you asked for"); return ; } if (output_mode_used == OMODE_NONE) o_mode = get_o_mode(); else o_mode = output_mode_used; /*tex This is used by synctex, we need to use output_mode_used there. */ pdf->o_mode = output_mode_used; if (!((1 << o_mode) & o_mode_bitpattern)) { switch (o_mode) { case OMODE_DVI: m = "DVI"; break; case OMODE_PDF: m = "PDF"; break; default: normal_error("pdf backend","weird output state"); } if (strict) formatted_error("pdf backend", "%s not allowed in %s mode (outputmode = %d)",s, m, (int) output_mode_par); else formatted_warning("pdf backend", "%s not allowed in %s mode (outputmode = %d)",s, m, (int) output_mode_par); } else if (strict) ensure_output_state(pdf, ST_HEADER_WRITTEN); } void ensure_output_file_open(PDF pdf, const char *ext) { char *fn; if (pdf->file_name != NULL) return; if (job_name == 0) open_log_file(); fn = pack_job_name(ext); if (pdf->draftmode == 0 || output_mode_used == OMODE_DVI) { while (!lua_b_open_out(&pdf->file, fn)) fn = prompt_file_name("file name for output", ext); } pdf->file_name = fn; } /*tex till here */ void set_job_id(PDF pdf, int year, int month, int day, int time) { char *name_string, *format_string, *s; size_t slen; int i; if (pdf->job_id_string != NULL) return; name_string = makecstring(job_name); format_string = makecstring(format_ident); slen = SMALL_BUF_SIZE + strlen(name_string) + strlen(format_string) + strlen(luatex_banner); s = xtalloc(slen, char); /*tex The \WEBC\ version string starts with a space. (Really?) */ i = snprintf(s, slen, "%.4d/%.2d/%.2d %.2d:%.2d %s %s %s", year, month, day, time / 60, time % 60, name_string, format_string, luatex_banner); check_nprintf(i, slen); pdf->job_id_string = xstrdup(s); xfree(s); xfree(name_string); xfree(format_string); } char *get_resname_prefix(PDF pdf) { static char name_str[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; /*tex We make a tag of 6 characters long. */ static char prefix[7]; short i; size_t base = strlen(name_str); unsigned long crc = crc32(0L, Z_NULL, 0); crc = crc32(crc, (Bytef *) pdf->job_id_string, (uInt) strlen(pdf->job_id_string)); for (i = 0; i < 6; i++) { prefix[i] = name_str[crc % base]; crc /= base; } prefix[6] = '\0'; return prefix; } void pdf_begin_page(PDF pdf) { int xform_attributes; int xform_type = 0; scaled form_margin = pdf_xform_margin; ensure_output_state(pdf, ST_HEADER_WRITTEN); init_pdf_pagecalculations(pdf); if (pdf->page_resources == NULL) { pdf->page_resources = xtalloc(1, pdf_resource_struct); pdf->page_resources->resources_tree = NULL; } pdf->page_resources->last_resources = pdf_create_obj(pdf, obj_type_others, 0); reset_page_resources(pdf); if (global_shipping_mode == SHIPPING_PAGE) { pdf->last_page = pdf_get_obj(pdf, obj_type_page, total_pages + 1, 0); /*tex Mark that this page has been created. */ set_obj_aux(pdf, pdf->last_page, 1); pdf->last_stream = pdf_create_obj(pdf, obj_type_pagestream, 0); pdf_begin_obj(pdf, pdf->last_stream, OBJSTM_NEVER); pdf->last_thread = null; pdf_begin_dict(pdf); } else { xform_type = obj_xform_type(pdf, pdf_cur_form) ; pdf_begin_obj(pdf, pdf_cur_form, OBJSTM_NEVER); pdf->last_stream = pdf_cur_form; /*tex Write out the |Form| stream header */ pdf_begin_dict(pdf); if (xform_type == 0) { pdf_dict_add_name(pdf, "Type", "XObject"); pdf_dict_add_name(pdf, "Subtype", "Form"); pdf_dict_add_int(pdf, "FormType", 1); } xform_attributes = pdf_xform_attr; /*tex Now stored in the object: */ form_margin = obj_xform_margin(pdf, pdf_cur_form); if (xform_attributes != null) pdf_print_toks(pdf, xform_attributes); print_pdf_table_string(pdf, "xformattributes"); if (obj_xform_attr(pdf, pdf_cur_form) != null) { pdf_print_toks(pdf, obj_xform_attr(pdf, pdf_cur_form)); delete_token_ref(obj_xform_attr(pdf, pdf_cur_form)); set_obj_xform_attr(pdf, pdf_cur_form, null); } if (obj_xform_attr_str(pdf, pdf_cur_form) != null) { lua_pdf_literal(pdf, obj_xform_attr_str(pdf, pdf_cur_form),1); luaL_unref(Luas, LUA_REGISTRYINDEX, obj_xform_attr_str(pdf, pdf_cur_form)); set_obj_xform_attr_str(pdf, pdf_cur_form, null); } if (xform_type == 0 || xform_type == 1 || xform_type == 3) { pdf_add_name(pdf, "BBox"); pdf_begin_array(pdf); pdf_add_bp(pdf, -form_margin); pdf_add_bp(pdf, -form_margin); pdf_add_bp(pdf, pdf->page_size.h + form_margin); pdf_add_bp(pdf, pdf->page_size.v + form_margin); pdf_end_array(pdf); } if (xform_type == 0 || xform_type == 2 || xform_type == 3) { pdf_add_name(pdf, "Matrix"); pdf_begin_array(pdf); pdf_add_int(pdf, 1); pdf_add_int(pdf, 0); pdf_add_int(pdf, 0); pdf_add_int(pdf, 1); pdf_add_int(pdf, 0); pdf_add_int(pdf, 0); pdf_end_array(pdf); } pdf_dict_add_ref(pdf, "Resources", pdf->page_resources->last_resources); } /*tex Start a stream of page or form contents: */ pdf_dict_add_streaminfo(pdf); pdf_end_dict(pdf); pdf_begin_stream(pdf); /*tex Start with an empty stack: */ pos_stack_used = 0; if (global_shipping_mode == SHIPPING_PAGE) { colorstackpagestart(); } if (global_shipping_mode == SHIPPING_PAGE) pdf_out_colorstack_startpage(pdf); } void print_pdf_table_string(PDF pdf, const char *s) { size_t len; const char *ls; lua_rawgeti(Luas, LUA_REGISTRYINDEX, lua_key_index(pdf_data)); lua_rawget(Luas, LUA_REGISTRYINDEX); lua_pushstring(Luas, s); lua_rawget(Luas, -2); if (lua_type(Luas, -1) == LUA_TSTRING) { ls = lua_tolstring(Luas, -1, &len); if (len > 0) { pdf_check_space(pdf); pdf_out_block(pdf, ls, len); pdf_set_space(pdf); } } lua_pop(Luas, 2); } const char *get_pdf_table_string(const char *s) { const_lstring ls; lua_rawgeti(Luas, LUA_REGISTRYINDEX, lua_key_index(pdf_data)); lua_rawget(Luas, LUA_REGISTRYINDEX); lua_pushstring(Luas, s); lua_rawget(Luas, -2); if (lua_type(Luas, -1) == LUA_TSTRING) { ls.s = lua_tolstring(Luas, -1, &ls.l); /*tex Here |s| is supposed to be anchored (e.g.\ in the registry) so it's not garbage collected. */ lua_pop(Luas, 2); return ls.s; } lua_pop(Luas, 2); return NULL ; } void pdf_end_page(PDF pdf) { char s[64], *p; int j, annots = 0, beads = 0, callback_id; pdf_resource_struct *res_p = pdf->page_resources; pdf_resource_struct local_page_resources; pdf_object_list *annot_list, *bead_list, *link_list, *ol, *ol1; /*tex We save |pdf->page_size| during flushing pending forms: */ scaledpos save_cur_page_size; shipping_mode_e save_shipping_mode; int save_pdf_cur_form; int xform_resources; int page_resources, page_attributes; int procset = PROCSET_PDF; /*tex Finish the stream of page or form contents: */ pdf_goto_pagemode(pdf); if (pos_stack_used > 0) { formatted_error("pdf backend","%u unmatched 'save' after %s shipout", (unsigned int) pos_stack_used, ((global_shipping_mode == SHIPPING_PAGE) ? "page" : "form")); } pdf_end_stream(pdf); pdf_end_obj(pdf); callback_id = callback_defined(finish_pdfpage_callback); if (callback_id > 0) run_callback(callback_id, "b->",(global_shipping_mode == SHIPPING_PAGE)); if (global_shipping_mode == SHIPPING_PAGE) { int location = 0; int callback_id = callback_defined(page_order_index_callback); if (callback_id) { run_callback(callback_id, "d->d", total_pages, &location); } pdf->last_pages = pdf_do_page_divert(pdf, pdf->last_page, location); /*tex Write out the |/Page| object. */ pdf_begin_obj(pdf, pdf->last_page, OBJSTM_ALWAYS); pdf_begin_dict(pdf); pdf_dict_add_name(pdf, "Type", "Page"); pdf_dict_add_ref(pdf, "Contents", pdf->last_stream); pdf_dict_add_ref(pdf, "Resources", res_p->last_resources); pdf_add_name(pdf, "MediaBox"); pdf_begin_array(pdf); pdf_add_int(pdf, 0); pdf_add_int(pdf, 0); pdf_add_bp(pdf, pdf->page_size.h); pdf_add_bp(pdf, pdf->page_size.v); pdf_end_array(pdf); page_attributes = pdf_page_attr ; if (page_attributes != null) pdf_print_toks(pdf, page_attributes); print_pdf_table_string(pdf, "pageattributes"); pdf_dict_add_ref(pdf, "Parent", pdf->last_pages); if (pdf->img_page_group_val != 0) { pdf_dict_add_ref(pdf, "Group", pdf->img_page_group_val); } annot_list = get_page_resources_list(pdf, obj_type_annot); link_list = get_page_resources_list(pdf, obj_type_link); if (annot_list != NULL || link_list != NULL) { annots = pdf_create_obj(pdf, obj_type_annots, 0); pdf_dict_add_ref(pdf, "Annots", annots); } bead_list = get_page_resources_list(pdf, obj_type_bead); if (bead_list != NULL) { beads = pdf_create_obj(pdf, obj_type_beads, 0); pdf_dict_add_ref(pdf, "B", beads); } pdf_end_dict(pdf); pdf_end_obj(pdf); pdf->img_page_group_val = 0; /*tex Generate an array of annotations or beads in page. */ if (annot_list != NULL || link_list != NULL) { pdf_begin_obj(pdf, annots, OBJSTM_ALWAYS); pdf_begin_array(pdf); while (annot_list != NULL) { pdf_add_ref(pdf, annot_list->info); annot_list = annot_list->link; } while (link_list != NULL) { pdf_add_ref(pdf, link_list->info); link_list = link_list->link; } pdf_end_array(pdf); pdf_end_obj(pdf); } if (bead_list != NULL) { pdf_begin_obj(pdf, beads, OBJSTM_ALWAYS); pdf_begin_array(pdf); while (bead_list != NULL) { pdf_add_ref(pdf, bead_list->info); bead_list = bead_list->link; } pdf_end_array(pdf); pdf_end_obj(pdf); } } /*tex Write out the resource lists and pending raw objects. */ ol = get_page_resources_list(pdf, obj_type_obj); while (ol != NULL) { if (!is_obj_written(pdf, ol->info)) pdf_write_obj(pdf, ol->info); ol = ol->link; } /*tex When flushing pending forms we need to save and restore resource lists which are also used by page shipping. Saving and restoring |pdf->page_size| is needed for proper writing out pending \PDF\ marks. */ ol = get_page_resources_list(pdf, obj_type_xform); while (ol != NULL) { if (!is_obj_written(pdf, ol->info)) { save_pdf_cur_form = pdf_cur_form; pdf_cur_form = ol->info; save_cur_page_size = pdf->page_size; save_shipping_mode = global_shipping_mode; pdf->page_resources = &local_page_resources; local_page_resources.resources_tree = NULL; ship_out(pdf, obj_xform_box(pdf, pdf_cur_form), SHIPPING_FORM); /*tex Restore the page size and page resources. */ pdf->page_size = save_cur_page_size; global_shipping_mode = save_shipping_mode; destroy_page_resources_tree(pdf); pdf->page_resources = res_p; pdf_cur_form = save_pdf_cur_form; } ol = ol->link; } /*tex Write out pending images. */ ol = get_page_resources_list(pdf, obj_type_ximage); while (ol != NULL) { if (!is_obj_written(pdf, ol->info)) pdf_write_image(pdf, ol->info); ol = ol->link; } if (global_shipping_mode == SHIPPING_PAGE) { /*tex Write out pending \PDF\ marks and annotations. */ ol = get_page_resources_list(pdf, obj_type_annot); while (ol != NULL) { if (ol->info > 0 && obj_type(pdf, ol->info) == obj_type_annot) { /*tex Here |j| points to |pdf_annot_node|: */ j = obj_annot_ptr(pdf, ol->info); pdf_begin_obj(pdf, ol->info, OBJSTM_ALWAYS); pdf_begin_dict(pdf); pdf_dict_add_name(pdf, "Type", "Annot"); pdf_print_toks(pdf, pdf_annot_data(j)); pdf_rectangle(pdf, j); pdf_end_dict(pdf); pdf_end_obj(pdf); } ol = ol->link; } /*tex Write out PDF link annotations. */ if ((ol = get_page_resources_list(pdf, obj_type_link)) != NULL) { while (ol != NULL) { j = obj_annot_ptr(pdf, ol->info); pdf_begin_obj(pdf, ol->info, OBJSTM_ALWAYS); pdf_begin_dict(pdf); pdf_dict_add_name(pdf, "Type", "Annot"); if (pdf_action_type(pdf_link_action(j)) != pdf_action_user) pdf_dict_add_name(pdf, "Subtype", "Link"); if (pdf_link_attr(j) != null) pdf_print_toks(pdf, pdf_link_attr(j)); pdf_rectangle(pdf, j); if (pdf_action_type(pdf_link_action(j)) != pdf_action_user) pdf_puts(pdf, "/A "); write_action(pdf, pdf_link_action(j)); pdf_end_dict(pdf); pdf_end_obj(pdf); ol = ol->link; } /*tex Flush |pdf_start_link_node|'s created by |append_link|. */ ol = get_page_resources_list(pdf, obj_type_link); while (ol != NULL) { j = obj_annot_ptr(pdf, ol->info); /*tex Nodes with |subtype = pdf_link_data_node| were created by |append_link| and must be flushed here, as they are not linked in any list. */ if (subtype(j) == pdf_link_data_node) flush_node(j); ol = ol->link; } } /*tex Write out \PDF\ mark destinations. */ write_out_pdf_mark_destinations(pdf); /*tex Write out \PDF\ bead rectangle specifications. */ print_bead_rectangles(pdf); } /*tex Write out resources dictionary. */ pdf_begin_obj(pdf, res_p->last_resources, OBJSTM_ALWAYS); pdf_begin_dict(pdf); /*tex Print additional resources. */ if (global_shipping_mode == SHIPPING_PAGE) { page_resources = pdf_page_resources; if (page_resources != null) { pdf_print_toks(pdf, page_resources); } print_pdf_table_string(pdf, "pageresources"); } else { xform_resources = pdf_xform_resources; if (xform_resources != null) { pdf_print_toks(pdf, xform_resources); } print_pdf_table_string(pdf, "xformresources"); if (obj_xform_resources(pdf, pdf_cur_form) != null) { pdf_print_toks(pdf, obj_xform_resources(pdf, pdf_cur_form)); delete_token_ref(obj_xform_resources(pdf, pdf_cur_form)); set_obj_xform_resources(pdf, pdf_cur_form, null); } if (obj_xform_resources_str(pdf, pdf_cur_form) != null) { lua_pdf_literal(pdf, obj_xform_resources_str(pdf, pdf_cur_form),1); luaL_unref(Luas, LUA_REGISTRYINDEX, obj_xform_resources_str(pdf, pdf_cur_form)); set_obj_xform_resources_str(pdf, pdf_cur_form, null); } } /*tex Generate font resources. */ if ((ol = get_page_resources_list(pdf, obj_type_font)) != NULL) { pdf_add_name(pdf, "Font"); pdf_begin_dict(pdf); while (ol != NULL) { p = s; p += snprintf(p, 20, "F%i", obj_info(pdf, ol->info)); if (pdf->resname_prefix != NULL) p += snprintf(p, 20, "%s", pdf->resname_prefix); pdf_dict_add_ref(pdf, s, ol->info); ol = ol->link; } pdf_end_dict(pdf); procset |= PROCSET_TEXT; } /*tex Generate |XObject| resources. */ ol = get_page_resources_list(pdf, obj_type_xform); ol1 = get_page_resources_list(pdf, obj_type_ximage); if (ol != NULL || ol1 != NULL) { pdf_add_name(pdf, "XObject"); pdf_begin_dict(pdf); while (ol != NULL) { p = s; p += snprintf(p, 20, "Fm%i", obj_info(pdf, ol->info)); if (pdf->resname_prefix != NULL) p += snprintf(p, 20, "%s", pdf->resname_prefix); pdf_dict_add_ref(pdf, s, ol->info); ol = ol->link; } while (ol1 != null) { p = s; p += snprintf(p, 20, "Im%i", obj_info(pdf, ol1->info)); if (pdf->resname_prefix != NULL) p += snprintf(p, 20, "%s", pdf->resname_prefix); pdf_dict_add_ref(pdf, s, ol1->info); procset |= img_procset(idict_array[obj_data_ptr(pdf, ol1->info)]); ol1 = ol1->link; } pdf_end_dict(pdf); } /*tex Generate |ProcSet| in version 1.*/ if (pdf->major_version == 1) { pdf_add_name(pdf, "ProcSet"); pdf_begin_array(pdf); if ((procset & PROCSET_PDF) != 0) pdf_add_name(pdf, "PDF"); if ((procset & PROCSET_TEXT) != 0) pdf_add_name(pdf, "Text"); if ((procset & PROCSET_IMAGE_B) != 0) pdf_add_name(pdf, "ImageB"); if ((procset & PROCSET_IMAGE_C) != 0) pdf_add_name(pdf, "ImageC"); if ((procset & PROCSET_IMAGE_I) != 0) pdf_add_name(pdf, "ImageI"); pdf_end_array(pdf); } pdf_end_dict(pdf); pdf_end_obj(pdf); } /*tex We're now ready to wrap up the output file. Destinations that have been referenced but don't exists have |obj_dest_ptr=null|. Leaving them undefined might cause troubles for PDF browsers, so we need to fix them; they point to the last page. */ static void check_nonexisting_destinations(PDF pdf) { int k; for (k = pdf->head_tab[obj_type_dest]; k != 0; k = obj_link(pdf, k)) { if (obj_dest_ptr(pdf, k) == null) { if (obj_info(pdf, k) < 0) { char *ss = makecstring(-obj_info(pdf, k)); formatted_warning("pdf backend", "unreferenced destination with name '%s'",ss); } else { formatted_warning("pdf backend", "unreferenced destination with num '%d'",obj_info(pdf,k)); } pdf_begin_obj(pdf, k, OBJSTM_ALWAYS); pdf_begin_array(pdf); pdf_add_ref(pdf, pdf->last_page); pdf_add_name(pdf, "Fit"); pdf_end_array(pdf); pdf_end_obj(pdf); } } } /*tex For structure destinations we don't have a fallback structure element to use when they are not defined, so we insert "null" instead referenced but don't exists have |obj_dest_ptr=null|. Leaving them undefined might cause troubles for PDF browsers, so we need to fix them; they point to the last page. */ static void check_nonexisting_structure_destinations(PDF pdf) { int k; for (k = pdf->head_tab[obj_type_struct_dest]; k != 0; k = obj_link(pdf, k)) { if (obj_dest_ptr(pdf, k) == null) { if (obj_info(pdf, k) < 0) { char *ss = makecstring(-obj_info(pdf, k)); formatted_warning("pdf backend", "unreferenced structure destination with name '%s'",ss); } else { formatted_warning("pdf backend", "unreferenced structure destination with num '%d'",obj_info(pdf,k)); } pdf_begin_obj(pdf, k, OBJSTM_ALWAYS); pdf_begin_array(pdf); pdf_add_null(pdf); pdf_add_name(pdf, "Fit"); pdf_end_array(pdf); pdf_end_obj(pdf); } } } static void check_nonexisting_pages(PDF pdf) { struct avl_traverser t; oentry *p; struct avl_table *page_tree = pdf->obj_tree[obj_type_page]; avl_t_init(&t, page_tree); /*tex Search from the end backward until the last real page is found. */ for (p = avl_t_last(&t, page_tree); p != NULL && obj_aux(pdf, p->objptr) == 0; p = avl_t_prev(&t)) { formatted_warning("pdf backend", "page %d has been referenced but does not exist",obj_info(pdf, p->objptr)); } } /*tex If the same keys in a dictionary are given several times, then it is not defined which value is choosen by an application. Therefore the keys |/Producer| and |/Creator| are only set if the token list |pdf_info_toks| converted to a string does not contain these key strings. */ static boolean substr_of_str(const char *s, const char *t) { if (strstr(t, s) == NULL) return false; return true; } static int pdf_print_info(PDF pdf, int luatexversion, str_number luatexrevision) { boolean creator_given = false; boolean producer_given = false; boolean creationdate_given = false; boolean moddate_given = false; boolean trapped_given = false; char *s = NULL; const char *p = NULL; int k, len = 0; k = pdf_create_obj(pdf, obj_type_info, 0); pdf_begin_obj(pdf, k, 3); pdf_begin_dict(pdf); if (pdf_info_toks != 0) { s = tokenlist_to_cstring(pdf_info_toks, true, &len); creator_given = substr_of_str("/Creator", s); producer_given = substr_of_str("/Producer", s); creationdate_given = substr_of_str("/CreationDate", s); moddate_given = substr_of_str("/ModDate", s); trapped_given = substr_of_str("/Trapped", s); } p = get_pdf_table_string("info"); if (p && strlen(p) > 0) { creator_given = creator_given || substr_of_str("/Creator", p); producer_given = producer_given || substr_of_str("/Producer", p); creationdate_given = creationdate_given || substr_of_str("/CreationDate", p); moddate_given = moddate_given || substr_of_str("/ModDate", p); trapped_given = trapped_given || substr_of_str("/Trapped", p); } if (pdf_info_toks != null) { if (len > 0) { pdf_check_space(pdf); pdf_puts(pdf, s); pdf_set_space(pdf); xfree(s); } delete_token_ref(pdf_info_toks); pdf_info_toks = null; } if (p && strlen(p) > 0) { pdf_check_space(pdf); pdf_puts(pdf, p); pdf_set_space(pdf); } if ((pdf_suppress_optional_info & 128) == 0 && !producer_given) { pdf_add_name(pdf, "Producer"); pdf_puts(pdf, " (LuaTeX-"); pdf_puts(pdf, luatex_version_string); pdf_out(pdf, ')'); } if ((pdf_suppress_optional_info & 16) == 0 && !creator_given) { pdf_dict_add_string(pdf, "Creator", "TeX"); } if ((pdf_suppress_optional_info & 32) == 0 && !creationdate_given) { initialize_start_time(pdf); pdf_dict_add_string(pdf, "CreationDate", pdf->start_time_str); } if ((pdf_suppress_optional_info & 64) == 0 && !moddate_given) { initialize_start_time(pdf); pdf_dict_add_string(pdf, "ModDate", pdf->start_time_str); } if ((pdf_suppress_optional_info & 256) == 0 && !trapped_given) { pdf_dict_add_name(pdf, "Trapped", "False"); } if ((pdf_suppress_optional_info & 1) == 0) { pdf_dict_add_string(pdf, "PTEX.FullBanner", luatex_banner); } pdf_end_dict(pdf); pdf_end_obj(pdf); return k; } static void build_free_object_list(PDF pdf) { int k; int l = 0; /*tex A |null| object at the begin of a list of free objects. */ set_obj_fresh(pdf, l); for (k = 1; k <= pdf->obj_ptr; k++) { if (!is_obj_written(pdf, k)) { set_obj_link(pdf, l, k); l = k; } } set_obj_link(pdf, l, 0); } /*tex Now we can the finish of \PDF\ output file. At this moment all |/Page| objects are already written completely to \PDF\ output file. */ void pdf_finish_file(PDF pdf, int fatal_error) { if (fatal_error) { remove_pdffile(static_pdf); /* will become remove_output_file */ print_err(" ==> Fatal error occurred, no output PDF file produced!"); } else { int i, j, k; int root, info; int xref_stm = 0; int outlines = 0; int threads = 0; int names_tree = 0; int prerolled = 0; size_t xref_offset_width; int luatexversion = luatex_version; str_number luatexrevision = get_luatexrevision(); int callback_id = callback_defined(stop_run_callback); int callback_id1 = callback_defined(finish_pdffile_callback); if (total_pages == 0 && !pdf->force_file) { if (callback_id == 0) { normal_warning("pdf backend","no pages of output."); } else if (callback_id > 0) { run_callback(callback_id, "->"); } if (pdf->gone > 0) { /* number of bytes gone */ normal_error("pdf backend","already written content discarded, no output file produced."); } } else { if (pdf->draftmode == 0) { /*tex We make sure that the output file name has been already created. */ pdf_flush(pdf); /*tex Flush page 0 objects from JBIG2 images, if any. */ flush_jbig2_page0_objects(pdf); if (callback_id1 > 0) { run_callback(callback_id1, "->"); } if (total_pages > 0) { check_nonexisting_pages(pdf); check_nonexisting_destinations(pdf); check_nonexisting_structure_destinations(pdf); } /*tex Output fonts definition. */ pdf->gen_tounicode = pdf_gen_tounicode; pdf->omit_cidset = pdf_omit_cidset; pdf->omit_charset = pdf_omit_charset; /*tex The first pass over the list will flag the slots that are used so that we can do a preroll for type 3 fonts. */ for (k = 1; k <= max_font_id(); k++) { if (font_used(k) && (pdf_font_num(k) < 0)) { i = -pdf_font_num(k); for (j = font_bc(k); j <= font_ec(k); j++) if (quick_char_exists(k, j) && pdf_char_marked(k, j)) pdf_mark_char(i, j); } } k = pdf->head_tab[obj_type_font]; while (k != 0) { int f = obj_info(pdf, k); if (do_pdf_preroll_font(pdf, f)) { prerolled = 1; } k = obj_link(pdf, k); } /*tex Just in case the user type 3 font has used fonts, we need to do a second pass. We also collect some additional data here. */ for (k = 1; k <= max_font_id(); k++) { if (font_used(k) && (pdf_font_num(k) < 0)) { i = -pdf_font_num(k); if (prerolled) { for (j = font_bc(k); j <= font_ec(k); j++) if (quick_char_exists(k, j) && pdf_char_marked(k, j)) pdf_mark_char(i, j); } else { /*tex No need to waste time on checking again. */ } if ((pdf_font_attr(i) == 0) && (pdf_font_attr(k) != 0)) { set_pdf_font_attr(i, pdf_font_attr(k)); } else if ((pdf_font_attr(k) == 0) && (pdf_font_attr(i) != 0)) { set_pdf_font_attr(k, pdf_font_attr(i)); } else if ((pdf_font_attr(i) != 0) && (pdf_font_attr(k) != 0) && (!str_eq_str(pdf_font_attr(i), pdf_font_attr(k)))) { formatted_warning("pdf backend","fontattr of font %d and %d are conflicting, %k is used",i,k,i); } } } k = pdf->head_tab[obj_type_font]; while (k != 0) { int f = obj_info(pdf, k); do_pdf_font(pdf, f); k = obj_link(pdf, k); } write_fontstuff(pdf); /*tex We're done with the fonts. */ if (total_pages > 0) { pdf->last_pages = output_pages_tree(pdf); /*tex Output outlines. */ outlines = print_outlines(pdf); /*tex The name tree is very similiar to Pages tree so its construction should be certain from Pages tree construction. For intermediate node |obj_info| will be the first name and |obj_link| will be the last name in \.{\\Limits} array. Note that |pdf_dest_names_ptr| will be less than |obj_ptr|, so we test if |k < pdf_dest_names_ptr| then |k| is index of leaf in |dest_names|; else |k| will be index in |obj_tab| of some intermediate node. */ names_tree = output_name_tree(pdf); /*tex Output article threads. */ if (pdf->head_tab[obj_type_thread] != 0) { threads = pdf_create_obj(pdf, obj_type_others, 0); pdf_begin_obj(pdf, threads, OBJSTM_ALWAYS); pdf_begin_array(pdf); k = pdf->head_tab[obj_type_thread]; while (k != 0) { pdf_add_ref(pdf, k); k = obj_link(pdf, k); } pdf_end_array(pdf); pdf_end_obj(pdf); k = pdf->head_tab[obj_type_thread]; while (k != 0) { out_thread(pdf, k); k = obj_link(pdf, k); } } else { threads = 0; } } /*tex Output the |/Catalog| object. */ root = pdf_create_obj(pdf, obj_type_catalog, 0); pdf_begin_obj(pdf, root, OBJSTM_ALWAYS); pdf_begin_dict(pdf); pdf_dict_add_name(pdf, "Type", "Catalog"); if (total_pages > 0) { pdf_dict_add_ref(pdf, "Pages", pdf->last_pages); if (threads != 0) { pdf_dict_add_ref(pdf, "Threads", threads); } if (outlines != 0) { pdf_dict_add_ref(pdf, "Outlines", outlines); } if (names_tree != 0) { pdf_dict_add_ref(pdf, "Names", names_tree); } if (pdf_catalog_toks != null) { pdf_print_toks(pdf, pdf_catalog_toks); delete_token_ref(pdf_catalog_toks); pdf_catalog_toks = null; } } if (pdf_catalog_openaction != 0) { pdf_dict_add_ref(pdf, "OpenAction", pdf_catalog_openaction); } print_pdf_table_string(pdf, "catalog"); pdf_end_dict(pdf); pdf_end_obj(pdf); info = pdf_print_info(pdf, luatexversion, luatexrevision); if (pdf->os_enable) { pdf_buffer_select(pdf, OBJSTM_BUF); pdf_os_write_objstream(pdf); pdf_flush(pdf); pdf_buffer_select(pdf, PDFOUT_BUF); /*tex Output the cross-reference stream dictionary. */ xref_stm = pdf_create_obj(pdf, obj_type_others, 0); pdf_begin_obj(pdf, xref_stm, OBJSTM_NEVER); if ((obj_offset(pdf, pdf->obj_ptr) / 256) > 16777215) xref_offset_width = 5; else if (obj_offset(pdf, pdf->obj_ptr) > 16777215) xref_offset_width = 4; else if (obj_offset(pdf, pdf->obj_ptr) > 65535) xref_offset_width = 3; else xref_offset_width = 2; /*tex Build a linked list of free objects. */ build_free_object_list(pdf); pdf_begin_dict(pdf); pdf_dict_add_name(pdf, "Type", "XRef"); pdf_add_name(pdf, "Index"); pdf_begin_array(pdf); pdf_add_int(pdf, 0); pdf_add_int(pdf, pdf->obj_ptr + 1); pdf_end_array(pdf); pdf_dict_add_int(pdf, "Size", pdf->obj_ptr + 1); pdf_add_name(pdf, "W"); pdf_begin_array(pdf); pdf_add_int(pdf, 1); pdf_add_int(pdf, (int) xref_offset_width); pdf_add_int(pdf, 1); pdf_end_array(pdf); pdf_dict_add_ref(pdf, "Root", root); pdf_dict_add_ref(pdf, "Info", info); if (pdf_trailer_toks != null) { pdf_print_toks(pdf, pdf_trailer_toks); delete_token_ref(pdf_trailer_toks); pdf_trailer_toks = null; } print_pdf_table_string(pdf, "trailer"); print_ID(pdf); pdf_dict_add_streaminfo(pdf); pdf_end_dict(pdf); pdf_begin_stream(pdf); for (k = 0; k <= pdf->obj_ptr; k++) { if (!is_obj_written(pdf, k)) { /*tex A free object: */ pdf_out(pdf, 0); pdf_out_bytes(pdf, obj_link(pdf, k), xref_offset_width); pdf_out(pdf, 255); } else if (obj_os_idx(pdf, k) == PDF_OS_MAX_OBJS) { /*tex An object not in object stream: */ pdf_out(pdf, 1); pdf_out_bytes(pdf, obj_offset(pdf, k), xref_offset_width); pdf_out(pdf, 0); } else { /*tex An object in object stream: */ pdf_out(pdf, 2); pdf_out_bytes(pdf, obj_offset(pdf, k), xref_offset_width); pdf_out(pdf, obj_os_idx(pdf, k)); } } pdf_end_stream(pdf); pdf_end_obj(pdf); pdf_flush(pdf); } else { /*tex Output the |obj_tab| and build a linked list of free objects. */ build_free_object_list(pdf); pdf_save_offset(pdf); pdf_puts(pdf, "xref\n"); pdf_puts(pdf, "0 "); pdf_print_int_ln(pdf, pdf->obj_ptr + 1); pdf_print_fw_int(pdf, obj_link(pdf, 0)); pdf_puts(pdf, " 65535 f \n"); for (k = 1; k <= pdf->obj_ptr; k++) { if (!is_obj_written(pdf, k)) { pdf_print_fw_int(pdf, obj_link(pdf, k)); pdf_puts(pdf, " 00000 f \n"); } else { pdf_print_fw_int(pdf, obj_offset(pdf, k)); pdf_puts(pdf, " 00000 n \n"); } } } /*tex Output the trailer. */ if (!pdf->os_enable) { pdf_puts(pdf, "trailer\n"); pdf_reset_space(pdf); pdf_begin_dict(pdf); pdf_dict_add_int(pdf, "Size", pdf->obj_ptr + 1); pdf_dict_add_ref(pdf, "Root", root); pdf_dict_add_ref(pdf, "Info", info); if (pdf_trailer_toks != null) { pdf_print_toks(pdf, pdf_trailer_toks); delete_token_ref(pdf_trailer_toks); pdf_trailer_toks = null; } print_ID(pdf); pdf_end_dict(pdf); pdf_out(pdf, '\n'); } pdf_puts(pdf, "startxref\n"); pdf_reset_space(pdf); if (pdf->os_enable) pdf_add_longint(pdf, (longinteger) obj_offset(pdf, xref_stm)); else pdf_add_longint(pdf, (longinteger) pdf->save_offset); pdf_puts(pdf, "\n%%EOF\n"); pdf_flush(pdf); if (callback_id == 0) { tprint_nl("Output written on "); tprint(pdf->file_name); tprint(" ("); print_int(total_pages); tprint(" page"); if (total_pages != 1) print_char('s'); tprint(", "); print_int(pdf_offset(pdf)); tprint(" bytes)."); print_ln(); } else if (callback_id > 0) { run_callback(callback_id, "->"); } libpdffinish(pdf); close_file(pdf->file); } else { if (callback_id > 0) { run_callback(callback_id, "->"); } libpdffinish(pdf); normal_warning("pdf backend","draftmode enabled, not changing output pdf"); } } if (callback_id == 0) { if (log_opened_global) { fprintf(log_file, "\nPDF statistics: %d PDF objects out of %d (max. %d)\n", (int) pdf->obj_ptr, (int) pdf->obj_tab_size, (int) sup_obj_tab_size); if (pdf->os->ostm_ctr > 0) { fprintf(log_file, " %d compressed objects within %d object stream%s\n", (int) pdf->os->o_ctr, (int) pdf->os->ostm_ctr, (pdf->os->ostm_ctr > 1 ? "s" : "")); } fprintf(log_file, " %d named destinations out of %d (max. %d)\n", (int) pdf->dest_names_ptr, (int) pdf->dest_names_size, (int) sup_dest_names_size); fprintf(log_file, " %d words of extra memory for PDF output out of %d (max. %d)\n", (int) pdf->mem_ptr, (int) pdf->mem_size, (int) sup_pdf_mem_size); } } } } void scan_pdfcatalog(PDF pdf) { halfword p; scan_toks(false, true); pdf_catalog_toks = concat_tokens(pdf_catalog_toks, def_ref); if (scan_keyword("openaction")) { if (pdf_catalog_openaction != 0) { normal_error("pdf backend", "duplicate of openaction"); } else { check_o_mode(pdf, "catalog", 1 << OMODE_PDF, true); p = scan_action(pdf); pdf_catalog_openaction = pdf_create_obj(pdf, obj_type_others, 0); pdf_begin_obj(pdf, pdf_catalog_openaction, OBJSTM_ALWAYS); write_action(pdf, p); pdf_end_obj(pdf); delete_action_ref(p); } } } /*tex This function converts double to pdffloat; very small and very large numbers are {\em not} converted to scientific notation. Here n must be a number or real conforming to the implementation limits of \PDF\ as specified in appendix C.1 of the \PDF\ standard. The maximum value of ints is |+2^32|, the maximum value of reals is |+2^15| and the smallest values of reals is |1/(2^16)|. We are quite large on precision, because it could happen that a pdf file imported as figure has real numbers with an unusual (and possibly useless) high precision. Later the formatter will write the numbers in the correct format. */ static pdffloat conv_double_to_pdffloat(double n) { pdffloat a; /* was a.e = 6; */ a.e = 9 ; a.m = i64round(n * ten_pow[a.e]); return a; } void pdf_add_real(PDF pdf, double d) { pdf_check_space(pdf); print_pdffloat(pdf, conv_double_to_pdffloat(d)); pdf_set_space(pdf); } void pdf_push_list(PDF pdf, scaledpos *saved_pos, int *saved_loc) { /* nothing */ } void pdf_pop_list(PDF pdf, scaledpos *saved_pos, int *saved_loc) { /* nothing */ } extern void pdf_set_reference_point(PDF pdf, posstructure *refpoint) { refpoint->pos.h = pdf_h_origin; refpoint->pos.v = pdf->page_size.v - pdf_v_origin; }