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#include "fitz.h"
#include "muxps.h"
static void
xps_rels_for_part(char *buf, char *name, int buflen)
{
char *p, *basename;
p = strrchr(name, '/');
basename = p ? p + 1 : name;
fz_strlcpy(buf, name, buflen);
p = strrchr(buf, '/');
if (p) *p = 0;
fz_strlcat(buf, "/_rels/", buflen);
fz_strlcat(buf, basename, buflen);
fz_strlcat(buf, ".rels", buflen);
}
/*
* The FixedDocumentSequence and FixedDocument parts determine
* which parts correspond to actual pages, and the page order.
*/
void
xps_debug_page_list(xps_document *doc)
{
xps_fixdoc *fixdoc = doc->first_fixdoc;
xps_page *page = doc->first_page;
if (doc->start_part)
printf("start part %s\n", doc->start_part);
while (fixdoc)
{
printf("fixdoc %s\n", fixdoc->name);
fixdoc = fixdoc->next;
}
while (page)
{
printf("page[%d] %s w=%d h=%d\n", page->number, page->name, page->width, page->height);
page = page->next;
}
}
static void
xps_add_fixed_document(xps_document *doc, char *name)
{
xps_fixdoc *fixdoc;
/* Check for duplicates first */
for (fixdoc = doc->first_fixdoc; fixdoc; fixdoc = fixdoc->next)
if (!strcmp(fixdoc->name, name))
return;
fixdoc = fz_malloc_struct(doc->ctx, xps_fixdoc);
fixdoc->name = fz_strdup(doc->ctx, name);
fixdoc->outline = NULL;
fixdoc->next = NULL;
if (!doc->first_fixdoc)
{
doc->first_fixdoc = fixdoc;
doc->last_fixdoc = fixdoc;
}
else
{
doc->last_fixdoc->next = fixdoc;
doc->last_fixdoc = fixdoc;
}
}
void
xps_add_link(xps_document *doc, fz_rect area, char *base_uri, char *target_uri)
{
int len;
char *buffer = NULL;
char *uri;
xps_target *target;
fz_link_dest dest;
fz_link *link;
fz_context *ctx = doc->ctx;
fz_var(buffer);
if (doc->current_page == NULL || doc->current_page->links_resolved)
return;
fz_try(ctx)
{
len = 2 + (base_uri ? strlen(base_uri) : 0) +
(target_uri ? strlen(target_uri) : 0);
buffer = fz_malloc(doc->ctx, len);
xps_resolve_url(buffer, base_uri, target_uri, len);
if (xps_url_is_remote(buffer))
{
dest.kind = FZ_LINK_URI;
dest.ld.uri.is_map = 0;
dest.ld.uri.uri = buffer;
buffer = NULL;
}
else
{
uri = buffer;
/* FIXME: This won't work for remote docs */
/* Skip until we find the fragment marker */
while (*uri && *uri != '#')
uri++;
if (*uri == '#')
uri++;
for (target = doc->target; target; target = target->next)
if (!strcmp(target->name, uri))
break;
if (target == NULL)
break;
dest.kind = FZ_LINK_GOTO;
dest.ld.gotor.flags = 0;
dest.ld.gotor.lt.x = 0;
dest.ld.gotor.lt.y = 0;
dest.ld.gotor.rb.x = 0;
dest.ld.gotor.rb.y = 0;
dest.ld.gotor.page = target->page;
dest.ld.gotor.file_spec = NULL;
dest.ld.gotor.new_window = 0;
}
link = fz_new_link(doc->ctx, area, dest);
link->next = doc->current_page->links;
doc->current_page->links = link;
}
fz_always(ctx)
{
fz_free(doc->ctx, buffer);
}
fz_catch(ctx)
{
fz_rethrow(ctx);
}
}
fz_link *
xps_load_links(xps_document *doc, xps_page *page)
{
if (!page->links_resolved)
fz_warn(doc->ctx, "xps_load_links before page has been executed!");
return fz_keep_link(doc->ctx, page->links);
}
static void
xps_add_fixed_page(xps_document *doc, char *name, int width, int height)
{
xps_page *page;
/* Check for duplicates first */
for (page = doc->first_page; page; page = page->next)
if (!strcmp(page->name, name))
return;
page = fz_malloc_struct(doc->ctx, xps_page);
page->name = fz_strdup(doc->ctx, name);
page->number = doc->page_count++;
page->width = width;
page->height = height;
page->links = NULL;
page->links_resolved = 0;
page->root = NULL;
page->next = NULL;
if (!doc->first_page)
{
doc->first_page = page;
doc->last_page = page;
}
else
{
doc->last_page->next = page;
doc->last_page = page;
}
}
static void
xps_add_link_target(xps_document *doc, char *name)
{
xps_page *page = doc->last_page;
xps_target *target = fz_malloc_struct(doc->ctx, xps_target);
target->name = fz_strdup(doc->ctx, name);
target->page = page->number;
target->next = doc->target;
doc->target = target;
}
int
xps_find_link_target(xps_document *doc, char *target_uri)
{
xps_target *target;
char *needle = strrchr(target_uri, '#');
needle = needle ? needle + 1 : target_uri;
for (target = doc->target; target; target = target->next)
if (!strcmp(target->name, needle))
return target->page;
return 0;
}
static void
xps_free_link_targets(xps_document *doc)
{
xps_target *target = doc->target, *next;
while (target)
{
next = target->next;
fz_free(doc->ctx, target->name);
fz_free(doc->ctx, target);
target = next;
}
}
static void
xps_free_fixed_pages(xps_document *doc)
{
xps_page *page = doc->first_page;
while (page)
{
xps_page *next = page->next;
xps_free_page(doc, page);
fz_drop_link(doc->ctx, page->links);
fz_free(doc->ctx, page->name);
fz_free(doc->ctx, page);
page = next;
}
doc->first_page = NULL;
doc->last_page = NULL;
}
static void
xps_free_fixed_documents(xps_document *doc)
{
xps_fixdoc *fixdoc = doc->first_fixdoc;
while (fixdoc)
{
xps_fixdoc *next = fixdoc->next;
fz_free(doc->ctx, fixdoc->name);
fz_free(doc->ctx, fixdoc->outline);
fz_free(doc->ctx, fixdoc);
fixdoc = next;
}
doc->first_fixdoc = NULL;
doc->last_fixdoc = NULL;
}
void
xps_free_page_list(xps_document *doc)
{
xps_free_fixed_documents(doc);
xps_free_fixed_pages(doc);
xps_free_link_targets(doc);
}
/*
* Parse the fixed document sequence structure and _rels/.rels to find the start part.
*/
static void
xps_parse_metadata_imp(xps_document *doc, xml_element *item, xps_fixdoc *fixdoc)
{
while (item)
{
if (!strcmp(xml_tag(item), "Relationship"))
{
char *target = xml_att(item, "Target");
char *type = xml_att(item, "Type");
if (target && type)
{
char tgtbuf[1024];
xps_resolve_url(tgtbuf, doc->base_uri, target, sizeof tgtbuf);
if (!strcmp(type, REL_START_PART))
doc->start_part = fz_strdup(doc->ctx, tgtbuf);
if (!strcmp(type, REL_DOC_STRUCTURE) && fixdoc)
fixdoc->outline = fz_strdup(doc->ctx, tgtbuf);
}
}
if (!strcmp(xml_tag(item), "DocumentReference"))
{
char *source = xml_att(item, "Source");
if (source)
{
char srcbuf[1024];
xps_resolve_url(srcbuf, doc->base_uri, source, sizeof srcbuf);
xps_add_fixed_document(doc, srcbuf);
}
}
if (!strcmp(xml_tag(item), "PageContent"))
{
char *source = xml_att(item, "Source");
char *width_att = xml_att(item, "Width");
char *height_att = xml_att(item, "Height");
int width = width_att ? atoi(width_att) : 0;
int height = height_att ? atoi(height_att) : 0;
if (source)
{
char srcbuf[1024];
xps_resolve_url(srcbuf, doc->base_uri, source, sizeof srcbuf);
xps_add_fixed_page(doc, srcbuf, width, height);
}
}
if (!strcmp(xml_tag(item), "LinkTarget"))
{
char *name = xml_att(item, "Name");
if (name)
xps_add_link_target(doc, name);
}
xps_parse_metadata_imp(doc, xml_down(item), fixdoc);
item = xml_next(item);
}
}
static void
xps_parse_metadata(xps_document *doc, xps_part *part, xps_fixdoc *fixdoc)
{
xml_element *root;
char buf[1024];
char *s;
/* Save directory name part */
fz_strlcpy(buf, part->name, sizeof buf);
s = strrchr(buf, '/');
if (s)
s[0] = 0;
/* _rels parts are voodoo: their URI references are from
* the part they are associated with, not the actual _rels
* part being parsed.
*/
s = strstr(buf, "/_rels");
if (s)
*s = 0;
doc->base_uri = buf;
doc->part_uri = part->name;
root = xml_parse_document(doc->ctx, part->data, part->size);
xps_parse_metadata_imp(doc, root, fixdoc);
xml_free_element(doc->ctx, root);
doc->base_uri = NULL;
doc->part_uri = NULL;
}
static void
xps_read_and_process_metadata_part(xps_document *doc, char *name, xps_fixdoc *fixdoc)
{
if (xps_has_part(doc, name))
{
xps_part *part = xps_read_part(doc, name);
xps_parse_metadata(doc, part, fixdoc);
xps_free_part(doc, part);
}
}
void
xps_read_page_list(xps_document *doc)
{
xps_fixdoc *fixdoc;
xps_read_and_process_metadata_part(doc, "/_rels/.rels", NULL);
if (!doc->start_part)
fz_throw(doc->ctx, "cannot find fixed document sequence start part");
xps_read_and_process_metadata_part(doc, doc->start_part, NULL);
for (fixdoc = doc->first_fixdoc; fixdoc; fixdoc = fixdoc->next)
{
char relbuf[1024];
fz_try(doc->ctx)
{
xps_rels_for_part(relbuf, fixdoc->name, sizeof relbuf);
xps_read_and_process_metadata_part(doc, relbuf, fixdoc);
}
fz_catch(doc->ctx)
{
fz_warn(doc->ctx, "cannot process FixedDocument rels part");
}
xps_read_and_process_metadata_part(doc, fixdoc->name, fixdoc);
}
}
int
xps_count_pages(xps_document *doc)
{
return doc->page_count;
}
static void
xps_load_fixed_page(xps_document *doc, xps_page *page)
{
xps_part *part;
xml_element *root;
char *width_att;
char *height_att;
part = xps_read_part(doc, page->name);
root = xml_parse_document(doc->ctx, part->data, part->size);
xps_free_part(doc, part);
if (strcmp(xml_tag(root), "FixedPage"))
fz_throw(doc->ctx, "expected FixedPage element (found %s)", xml_tag(root));
width_att = xml_att(root, "Width");
if (!width_att)
fz_throw(doc->ctx, "FixedPage missing required attribute: Width");
height_att = xml_att(root, "Height");
if (!height_att)
fz_throw(doc->ctx, "FixedPage missing required attribute: Height");
page->width = atoi(width_att);
page->height = atoi(height_att);
page->root = root;
}
xps_page *
xps_load_page(xps_document *doc, int number)
{
xps_page *page;
int n = 0;
for (page = doc->first_page; page; page = page->next)
{
if (n == number)
{
doc->current_page = page;
if (!page->root)
xps_load_fixed_page(doc, page);
return page;
}
n ++;
}
fz_throw(doc->ctx, "cannot find page %d", number + 1);
return NULL;
}
fz_rect
xps_bound_page(xps_document *doc, xps_page *page)
{
fz_rect bounds;
bounds.x0 = bounds.y0 = 0;
bounds.x1 = page->width * 72.0f / 96.0f;
bounds.y1 = page->height * 72.0f / 96.0f;
return bounds;
}
void
xps_free_page(xps_document *doc, xps_page *page)
{
/* only free the XML contents */
if (page->root)
xml_free_element(doc->ctx, page->root);
page->root = NULL;
}
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