paragraph *pdf_config_filename(char *filename)
{
- paragraph *p;
- wchar_t *ufilename, *up;
- int len;
-
- p = mknew(paragraph);
- memset(p, 0, sizeof(*p));
- p->type = para_Config;
- p->next = NULL;
- p->fpos.filename = "<command line>";
- p->fpos.line = p->fpos.col = -1;
-
- ufilename = ufroma_dup(filename);
- len = ustrlen(ufilename) + 2 + lenof(L"pdf-filename");
- p->keyword = mknewa(wchar_t, len);
- up = p->keyword;
- ustrcpy(up, L"pdf-filename");
- up = uadv(up);
- ustrcpy(up, ufilename);
- up = uadv(up);
- *up = L'\0';
- assert(up - p->keyword < len);
- sfree(ufilename);
-
- return p;
+ return cmdline_cfg_simple("pdf-filename", filename, NULL);
}
typedef struct object_Tag object;
static object *new_object(objlist *list);
static void objtext(object *o, char const *text);
static void objstream(object *o, char const *text);
+static void pdf_string(void (*add)(object *, char const *),
+ object *, char const *);
+static void pdf_string_len(void (*add)(object *, char const *),
+ object *, char const *, int);
static void objref(object *o, object *dest);
static void make_pages_node(object *node, object *parent, page_data *first,
if (p->type == para_Config && p->parent) {
if (!ustricmp(p->keyword, L"pdf-filename")) {
sfree(filename);
- filename = utoa_dup(uadv(p->keyword));
+ filename = dupstr(adv(p->origkeyword));
}
}
}
for (page = doc->pages; page; page = page->next) {
object *opage, *cstr;
rect *r;
- text_fragment *frag;
+ text_fragment *frag, *frag_end;
char buf[256];
+ int x, y, lx, ly;
opage = (object *)page->spare;
/*
}
objstream(cstr, "BT\n");
- for (frag = page->first_text; frag; frag = frag->next) {
- char *c;
+ /*
+ * PDF tracks two separate current positions: the position
+ * given in the `line matrix' and the position given in the
+ * `text matrix'. We must therefore track both as well.
+ * They start off at -1 (unset).
+ */
+ lx = ly = -1;
+ x = y = -1;
+
+ frag = page->first_text;
+ while (frag) {
+ /*
+ * For compactness, I'm going to group text fragments
+ * into subsequences that use the same font+size. So
+ * first find the end of this subsequence.
+ */
+ for (frag_end = frag;
+ (frag_end &&
+ frag_end->fe == frag->fe &&
+ frag_end->fontsize == frag->fontsize);
+ frag_end = frag_end->next);
+
+ /*
+ * Now select the text fragment, and prepare to display
+ * the text.
+ */
objstream(cstr, "/");
objstream(cstr, frag->fe->name);
- sprintf(buf, " %d Tf 1 0 0 1 %g %g Tm (", frag->fontsize,
- frag->x/4096.0, frag->y/4096.0);
+ sprintf(buf, " %d Tf ", frag->fontsize);
objstream(cstr, buf);
- for (c = frag->text; *c; c++) {
- if (*c == '(' || *c == ')' || *c == '\\')
- objstream(cstr, "\\");
- buf[0] = *c;
- buf[1] = '\0';
+ while (frag && frag != frag_end) {
+ /*
+ * Place the text position for the first piece of
+ * text.
+ */
+ if (lx < 0) {
+ sprintf(buf, "1 0 0 1 %g %g Tm ",
+ frag->x/4096.0, frag->y/4096.0);
+ } else {
+ sprintf(buf, "%g %g Td ",
+ (frag->x - lx)/4096.0, (frag->y - ly)/4096.0);
+ }
objstream(cstr, buf);
+ lx = x = frag->x;
+ ly = y = frag->y;
+
+ /*
+ * See if we're going to use Tj (show a single
+ * string) or TJ (show an array of strings with
+ * x-spacings between them). We determine this by
+ * seeing if there's more than one text fragment in
+ * sequence with the same y-coordinate.
+ */
+ if (frag->next && frag->next != frag_end &&
+ frag->next->y == y) {
+ /*
+ * The TJ strategy.
+ */
+ objstream(cstr, "[");
+ while (frag && frag != frag_end && frag->y == y) {
+ if (frag->x != x) {
+ sprintf(buf, "%g",
+ (x - frag->x) * 1000.0 /
+ (4096.0 * frag->fontsize));
+ objstream(cstr, buf);
+ }
+ pdf_string(objstream, cstr, frag->text);
+ x = frag->x + frag->width;
+ frag = frag->next;
+ }
+ objstream(cstr, "]TJ\n");
+ } else
+ {
+ /*
+ * The Tj strategy.
+ */
+ pdf_string(objstream, cstr, frag->text);
+ objstream(cstr, "Tj\n");
+ frag = frag->next;
+ }
}
-
- objstream(cstr, ") Tj\n");
}
objstream(cstr, "ET");
objref(annot, (object *)xr->dest.page->spare);
objtext(annot, " /XYZ null null null]\n");
} else {
- char *p;
-
- objtext(annot, "/A <<\n/Type /Action\n/S /URI\n/URI (");
- for (p = xr->dest.url; *p; p++) {
- char c[2];
- c[0] = *p;
- c[1] = '\0';
- if (*p == '(' || *p == ')' || *p == '\\')
- objtext(annot, "\\");
- objtext(annot, c);
- }
- objtext(annot, ")\n>>\n");
+ objtext(annot, "/A <<\n/Type /Action\n/S /URI\n/URI ");
+ pdf_string(objtext, annot, xr->dest.url);
+ objtext(annot, "\n>>\n");
}
objtext(annot, ">>\n");
* means that glyphs are identified by PS strings and hence font
* encoding can be managed independently of the supplied encoding
* of the font. However, in the document outline, the PDF spec
- * simply asks for ordinary text strings without mentioning what
- * character set they are supposed to be interpreted in.
- *
- * Therefore, for the moment, I'm going to assume they're US-ASCII
- * only. If anyone knows better, they should let me know :-/
+ * encodes in either PDFDocEncoding (a custom superset of
+ * ISO-8859-1) or UTF-16BE.
*/
-static int pdf_convert(wchar_t *s, char **result) {
- int doing = (result != 0);
- int ok = TRUE;
- char *p = NULL;
- int plen = 0, psize = 0;
-
- for (; *s; s++) {
- wchar_t c = *s;
- char outc;
-
- if (c >= 32 && c <= 126) {
- /* Char is OK. */
- outc = (char)c;
- } else {
- /* Char is not OK. */
- ok = FALSE;
- outc = 0xBF; /* approximate the good old DEC `uh?' */
- }
- if (doing) {
- if (plen >= psize) {
- psize = plen + 256;
- p = resize(p, psize);
- }
- p[plen++] = outc;
- }
+static char *pdf_outline_convert(wchar_t *s, int *len) {
+ char *ret;
+
+ ret = utoa_careful_dup(s, CS_PDF);
+
+ /*
+ * Very silly special case: if the returned string begins with
+ * FE FF, then the PDF reader will mistake it for a UTF-16BE
+ * string. So in this case we give up on PDFDocEncoding and
+ * encode it in UTF-16 straight away.
+ */
+ if (ret && ret[0] == '\xFE' && ret[1] == '\xFF') {
+ sfree(ret);
+ ret = NULL;
}
- if (doing) {
- p = resize(p, plen+1);
- p[plen] = '\0';
- *result = p;
+
+ if (!ret) {
+ ret = utoa_dup_len(s, CS_UTF16BE, len);
+ } else {
+ *len = strlen(ret);
}
- return ok;
+
+ return ret;
}
static int make_outline(object *parent, outline_element *items, int n,
level = items->level;
while (n > 0) {
- char *title, *p;
+ char *title;
+ int titlelen;
/*
* Here we expect to be sitting on an item at the given
*/
assert(items->level == level);
- pdf_convert(items->pdata->outline_title, &title);
+ title = pdf_outline_convert(items->pdata->outline_title, &titlelen);
totalcount++;
curr = new_object(parent->list);
if (!first) first = curr;
last = curr;
- objtext(curr, "<<\n/Title (");
- for (p = title; *p; p++) {
- char c[2];
- if (*p == '\\' || *p == '(' || *p == ')')
- objtext(curr, "\\");
- c[0] = *p;
- c[1] = '\0';
- objtext(curr, c);
- }
- objtext(curr, ")\n/Parent ");
+ objtext(curr, "<<\n/Title ");
+ pdf_string_len(objtext, curr, title, titlelen);
+ objtext(curr, "\n/Parent ");
objref(curr, parent);
objtext(curr, "\n/Dest [");
objref(curr, (object *)items->pdata->first->page->spare);
switch (type) {
case word_Normal:
- text = utoa_dup(words->text);
+ text = utoa_dup(words->text, CS_ASCII);
break;
case word_WhiteSpace:
text = dupstr(" ");
return ret;
}
+
+static void pdf_string_len(void (*add)(object *, char const *),
+ object *o, char const *str, int len)
+{
+ char const *p;
+
+ add(o, "(");
+ for (p = str; len > 0; p++, len--) {
+ char c[10];
+ if (*p < ' ' || *p > '~') {
+ sprintf(c, "\\%03o", 0xFF & (int)*p);
+ } else {
+ int n = 0;
+ if (*p == '\\' || *p == '(' || *p == ')')
+ c[n++] = '\\';
+ c[n++] = *p;
+ c[n] = '\0';
+ }
+ add(o, c);
+ }
+ add(o, ")");
+}
+
+static void pdf_string(void (*add)(object *, char const *),
+ object *o, char const *str)
+{
+ pdf_string_len(add, o, str, strlen(str));
+}