/* poppler-document.cc: glib wrapper for poppler * Copyright (C) 2005, Red Hat, Inc. * * Copyright (C) 2016 Jakub Alba * Copyright (C) 2018, 2019, 2021, 2022 Marek Kasik * Copyright (C) 2019 Masamichi Hosoda * Copyright (C) 2019, 2021, 2024 Oliver Sander * Copyright (C) 2020, 2022 Albert Astals Cid * Copyright (C) 2021 AndrĂ© Guerreiro * Copyright (C) 2024 g10 Code GmbH, Author: Sune Stolborg Vuorela * * This program 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, or (at your option) * any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include #include #ifndef G_OS_WIN32 # include # include # include # include #endif #ifndef __GI_SCANNER__ # include # include # include # include # include # include # include # include # include # include # include # include # include # include # include # include # include # include # include # include "UTF.h" #endif #include "poppler.h" #include "poppler-private.h" #include "poppler-enums.h" #include "poppler-input-stream.h" #include "poppler-cached-file-loader.h" #ifdef G_OS_WIN32 # include #endif /** * SECTION:poppler-document * @short_description: Information about a document * @title: PopplerDocument * * The #PopplerDocument is an object used to refer to a main document. */ enum { PROP_0, PROP_TITLE, PROP_FORMAT, PROP_FORMAT_MAJOR, PROP_FORMAT_MINOR, PROP_SUBTYPE, PROP_SUBTYPE_STRING, PROP_SUBTYPE_PART, PROP_SUBTYPE_CONF, PROP_AUTHOR, PROP_SUBJECT, PROP_KEYWORDS, PROP_CREATOR, PROP_PRODUCER, PROP_CREATION_DATE, PROP_MOD_DATE, PROP_LINEARIZED, PROP_PAGE_LAYOUT, PROP_PAGE_MODE, PROP_VIEWER_PREFERENCES, PROP_PERMISSIONS, PROP_METADATA, PROP_PRINT_SCALING, PROP_PRINT_DUPLEX, PROP_PRINT_N_COPIES, PROP_CREATION_DATETIME, PROP_MOD_DATETIME }; static void poppler_document_layers_free(PopplerDocument *document); typedef struct _PopplerDocumentClass PopplerDocumentClass; struct _PopplerDocumentClass { GObjectClass parent_class; }; G_DEFINE_TYPE(PopplerDocument, poppler_document, G_TYPE_OBJECT) static PopplerDocument *_poppler_document_new_from_pdfdoc(std::unique_ptr &&initer, PDFDoc *newDoc, GError **error) { PopplerDocument *document; if (!newDoc->isOk()) { int fopen_errno; switch (newDoc->getErrorCode()) { case errOpenFile: // If there was an error opening the file, count it as a G_FILE_ERROR // and set the GError parameters accordingly. (this assumes that the // only way to get an errOpenFile error is if newDoc was created using // a filename and thus fopen was called, which right now is true. fopen_errno = newDoc->getFopenErrno(); g_set_error(error, G_FILE_ERROR, g_file_error_from_errno(fopen_errno), "%s", g_strerror(fopen_errno)); break; case errBadCatalog: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_BAD_CATALOG, "Failed to read the document catalog"); break; case errDamaged: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_DAMAGED, "PDF document is damaged"); break; case errEncrypted: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_ENCRYPTED, "Document is encrypted"); break; default: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_INVALID, "Failed to load document"); } delete newDoc; return nullptr; } document = (PopplerDocument *)g_object_new(POPPLER_TYPE_DOCUMENT, nullptr); document->initer = std::move(initer); document->doc = newDoc; document->output_dev = new CairoOutputDev(); document->output_dev->startDoc(document->doc); return document; } static std::optional poppler_password_to_latin1(const gchar *password) { gchar *password_latin; if (!password) { return {}; } password_latin = g_convert(password, -1, "ISO-8859-1", "UTF-8", nullptr, nullptr, nullptr); std::optional password_g = GooString(password_latin); g_free(password_latin); return password_g; } /** * poppler_document_new_from_file: * @uri: uri of the file to load * @password: (allow-none): password to unlock the file with, or %NULL * @error: (allow-none): Return location for an error, or %NULL * * Creates a new #PopplerDocument. If %NULL is returned, then @error will be * set. Possible errors include those in the #POPPLER_ERROR and #G_FILE_ERROR * domains. * * Return value: A newly created #PopplerDocument, or %NULL **/ PopplerDocument *poppler_document_new_from_file(const char *uri, const char *password, GError **error) { PDFDoc *newDoc; char *filename; auto initer = std::make_unique(_poppler_error_cb); filename = g_filename_from_uri(uri, nullptr, error); if (!filename) { return nullptr; } const std::optional password_g = poppler_password_to_latin1(password); #ifdef G_OS_WIN32 wchar_t *filenameW; int length; length = MultiByteToWideChar(CP_UTF8, 0, filename, -1, nullptr, 0); filenameW = new WCHAR[length]; if (!filenameW) return nullptr; length = MultiByteToWideChar(CP_UTF8, 0, filename, -1, filenameW, length); newDoc = new PDFDoc(filenameW, length, password_g, password_g); if (!newDoc->isOk() && newDoc->getErrorCode() == errEncrypted && password) { /* Try again with original password (which comes from GTK in UTF8) Issue #824 */ delete newDoc; newDoc = new PDFDoc(filenameW, length, GooString(password), GooString(password)); } delete[] filenameW; #else newDoc = new PDFDoc(std::make_unique(filename), password_g, password_g); if (!newDoc->isOk() && newDoc->getErrorCode() == errEncrypted && password) { /* Try again with original password (which comes from GTK in UTF8) Issue #824 */ delete newDoc; newDoc = new PDFDoc(std::make_unique(filename), GooString(password), GooString(password)); } #endif g_free(filename); return _poppler_document_new_from_pdfdoc(std::move(initer), newDoc, error); } /** * poppler_document_new_from_data: * @data: (array length=length) (element-type guint8): the pdf data * @length: the length of #data * @password: (nullable): password to unlock the file with, or %NULL * @error: (nullable): Return location for an error, or %NULL * * Creates a new #PopplerDocument. If %NULL is returned, then @error will be * set. Possible errors include those in the #POPPLER_ERROR and #G_FILE_ERROR * domains. * * Note that @data is not copied nor is a new reference to it created. * It must remain valid and cannot be destroyed as long as the returned * document exists. * * Return value: A newly created #PopplerDocument, or %NULL * * Deprecated: 0.82: This requires directly managing @length and @data. * Use poppler_document_new_from_bytes() instead. **/ PopplerDocument *poppler_document_new_from_data(char *data, int length, const char *password, GError **error) { PDFDoc *newDoc; MemStream *str; auto initer = std::make_unique(_poppler_error_cb); // create stream str = new MemStream(data, 0, length, Object(objNull)); const std::optional password_g = poppler_password_to_latin1(password); newDoc = new PDFDoc(str, password_g, password_g); if (!newDoc->isOk() && newDoc->getErrorCode() == errEncrypted && password) { /* Try again with original password (which comes from GTK in UTF8) Issue #824 */ str = dynamic_cast(str->copy()); delete newDoc; newDoc = new PDFDoc(str, GooString(password), GooString(password)); } return _poppler_document_new_from_pdfdoc(std::move(initer), newDoc, error); } class BytesStream : public MemStream { std::unique_ptr m_bytes; public: BytesStream(GBytes *bytes, Object &&dictA) : MemStream(static_cast(g_bytes_get_data(bytes, nullptr)), 0, g_bytes_get_size(bytes), std::move(dictA)), m_bytes { g_bytes_ref(bytes), &g_bytes_unref } { } ~BytesStream() override; }; BytesStream::~BytesStream() = default; class OwningFileStream final : public FileStream { public: OwningFileStream(std::unique_ptr fileA, Object &&dictA) : FileStream(fileA.get(), 0, false, fileA->size(), std::move(dictA)), file(std::move(fileA)) { } ~OwningFileStream() override; private: std::unique_ptr file; }; OwningFileStream::~OwningFileStream() = default; /** * poppler_document_new_from_bytes: * @bytes: a #GBytes * @password: (allow-none): password to unlock the file with, or %NULL * @error: (allow-none): Return location for an error, or %NULL * * Creates a new #PopplerDocument from @bytes. The returned document * will hold a reference to @bytes. * * On error, %NULL is returned, with @error set. Possible errors include * those in the #POPPLER_ERROR and #G_FILE_ERROR domains. * * Return value: (transfer full): a newly created #PopplerDocument, or %NULL * * Since: 0.82 **/ PopplerDocument *poppler_document_new_from_bytes(GBytes *bytes, const char *password, GError **error) { PDFDoc *newDoc; BytesStream *str; g_return_val_if_fail(bytes != nullptr, nullptr); g_return_val_if_fail(error == nullptr || *error == nullptr, nullptr); auto initer = std::make_unique(_poppler_error_cb); // create stream str = new BytesStream(bytes, Object(objNull)); const std::optional password_g = poppler_password_to_latin1(password); newDoc = new PDFDoc(str, password_g, password_g); if (!newDoc->isOk() && newDoc->getErrorCode() == errEncrypted && password) { /* Try again with original password (which comes from GTK in UTF8) Issue #824 */ str = dynamic_cast(str->copy()); delete newDoc; newDoc = new PDFDoc(str, GooString(password), GooString(password)); } return _poppler_document_new_from_pdfdoc(std::move(initer), newDoc, error); } static inline gboolean stream_is_memory_buffer_or_local_file(GInputStream *stream) { return G_IS_MEMORY_INPUT_STREAM(stream) || (G_IS_FILE_INPUT_STREAM(stream) && strcmp(g_type_name_from_instance((GTypeInstance *)stream), "GLocalFileInputStream") == 0); } /** * poppler_document_new_from_stream: * @stream: a #GInputStream to read from * @length: the stream length, or -1 if not known * @password: (allow-none): password to unlock the file with, or %NULL * @cancellable: (allow-none): a #GCancellable, or %NULL * @error: (allow-none): Return location for an error, or %NULL * * Creates a new #PopplerDocument reading the PDF contents from @stream. * Note that the given #GInputStream must be seekable or %G_IO_ERROR_NOT_SUPPORTED * will be returned. * Possible errors include those in the #POPPLER_ERROR, #G_FILE_ERROR * and #G_IO_ERROR domains. * * Returns: (transfer full): a new #PopplerDocument, or %NULL * * Since: 0.22 */ PopplerDocument *poppler_document_new_from_stream(GInputStream *stream, goffset length, const char *password, GCancellable *cancellable, GError **error) { PDFDoc *newDoc; BaseStream *str; g_return_val_if_fail(G_IS_INPUT_STREAM(stream), NULL); g_return_val_if_fail(length == (goffset)-1 || length > 0, NULL); auto initer = std::make_unique(_poppler_error_cb); if (!G_IS_SEEKABLE(stream) || !g_seekable_can_seek(G_SEEKABLE(stream))) { g_set_error_literal(error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED, "Stream is not seekable"); return nullptr; } if (stream_is_memory_buffer_or_local_file(stream)) { if (length == (goffset)-1) { if (!g_seekable_seek(G_SEEKABLE(stream), 0, G_SEEK_END, cancellable, error)) { g_prefix_error(error, "Unable to determine length of stream: "); return nullptr; } length = g_seekable_tell(G_SEEKABLE(stream)); } str = new PopplerInputStream(stream, cancellable, 0, false, length, Object(objNull)); } else { CachedFile *cachedFile = new CachedFile(new PopplerCachedFileLoader(stream, cancellable, length)); str = new CachedFileStream(cachedFile, 0, false, cachedFile->getLength(), Object(objNull)); } const std::optional password_g = poppler_password_to_latin1(password); newDoc = new PDFDoc(str, password_g, password_g); if (!newDoc->isOk() && newDoc->getErrorCode() == errEncrypted && password) { /* Try again with original password (which comes from GTK in UTF8) Issue #824 */ str = str->copy(); delete newDoc; newDoc = new PDFDoc(str, GooString(password), GooString(password)); } return _poppler_document_new_from_pdfdoc(std::move(initer), newDoc, error); } /** * poppler_document_new_from_gfile: * @file: a #GFile to load * @password: (allow-none): password to unlock the file with, or %NULL * @cancellable: (allow-none): a #GCancellable, or %NULL * @error: (allow-none): Return location for an error, or %NULL * * Creates a new #PopplerDocument reading the PDF contents from @file. * Possible errors include those in the #POPPLER_ERROR and #G_FILE_ERROR * domains. * * Returns: (transfer full): a new #PopplerDocument, or %NULL * * Since: 0.22 */ PopplerDocument *poppler_document_new_from_gfile(GFile *file, const char *password, GCancellable *cancellable, GError **error) { PopplerDocument *document; GFileInputStream *stream; g_return_val_if_fail(G_IS_FILE(file), NULL); if (g_file_is_native(file)) { gchar *uri; uri = g_file_get_uri(file); document = poppler_document_new_from_file(uri, password, error); g_free(uri); return document; } stream = g_file_read(file, cancellable, error); if (!stream) { return nullptr; } document = poppler_document_new_from_stream(G_INPUT_STREAM(stream), -1, password, cancellable, error); g_object_unref(stream); return document; } #ifndef G_OS_WIN32 /** * poppler_document_new_from_fd: * @fd: a valid file descriptor * @password: (allow-none): password to unlock the file with, or %NULL * @error: (allow-none): Return location for an error, or %NULL * * Creates a new #PopplerDocument reading the PDF contents from the file * descriptor @fd. @fd must refer to a regular file, or STDIN, and be open * for reading. * Possible errors include those in the #POPPLER_ERROR and #G_FILE_ERROR * domains. * Note that this function takes ownership of @fd; you must not operate on it * again, nor close it. * * Returns: (transfer full): a new #PopplerDocument, or %NULL * * Since: 21.12.0 */ PopplerDocument *poppler_document_new_from_fd(int fd, const char *password, GError **error) { struct stat statbuf; int flags; BaseStream *stream; PDFDoc *newDoc; g_return_val_if_fail(fd != -1, nullptr); auto initer = std::make_unique(_poppler_error_cb); if (fstat(fd, &statbuf) == -1 || (flags = fcntl(fd, F_GETFL, &flags)) == -1) { int errsv = errno; g_set_error_literal(error, G_FILE_ERROR, g_file_error_from_errno(errsv), g_strerror(errsv)); close(fd); return nullptr; } switch (flags & O_ACCMODE) { case O_RDONLY: case O_RDWR: break; case O_WRONLY: default: g_set_error(error, G_FILE_ERROR, G_FILE_ERROR_BADF, "File descriptor %d is not readable", fd); close(fd); return nullptr; } if (fd == fileno(stdin) || !S_ISREG(statbuf.st_mode)) { FILE *file; if (fd == fileno(stdin)) { file = stdin; } else { file = fdopen(fd, "rb"); if (!file) { int errsv = errno; g_set_error_literal(error, G_FILE_ERROR, g_file_error_from_errno(errsv), g_strerror(errsv)); close(fd); return nullptr; } } CachedFile *cachedFile = new CachedFile(new FILECacheLoader(file)); stream = new CachedFileStream(cachedFile, 0, false, cachedFile->getLength(), Object(objNull)); } else { stream = new OwningFileStream(GooFile::open(fd), Object(objNull)); } const std::optional password_g = poppler_password_to_latin1(password); newDoc = new PDFDoc(stream, password_g, password_g); if (!newDoc->isOk() && newDoc->getErrorCode() == errEncrypted && password) { /* Try again with original password (which comes from GTK in UTF8) Issue #824 */ stream = stream->copy(); delete newDoc; newDoc = new PDFDoc(stream, GooString(password), GooString(password)); } return _poppler_document_new_from_pdfdoc(std::move(initer), newDoc, error); } #endif /* !G_OS_WIN32 */ static gboolean handle_save_error(int err_code, GError **error) { switch (err_code) { case errNone: break; case errOpenFile: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_OPEN_FILE, "Failed to open file for writing"); break; case errEncrypted: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_ENCRYPTED, "Document is encrypted"); break; default: g_set_error(error, POPPLER_ERROR, POPPLER_ERROR_INVALID, "Failed to save document"); } return err_code == errNone; } /** * poppler_document_save: * @document: a #PopplerDocument * @uri: uri of file to save * @error: (allow-none): return location for an error, or %NULL * * Saves @document. Any change made in the document such as * form fields filled, annotations added or modified * will be saved. * If @error is set, %FALSE will be returned. Possible errors * include those in the #G_FILE_ERROR domain. * * Return value: %TRUE, if the document was successfully saved **/ gboolean poppler_document_save(PopplerDocument *document, const char *uri, GError **error) { char *filename; gboolean retval = FALSE; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); filename = g_filename_from_uri(uri, nullptr, error); if (filename != nullptr) { GooString fname(filename); int err_code; g_free(filename); err_code = document->doc->saveAs(fname); retval = handle_save_error(err_code, error); } return retval; } /** * poppler_document_save_a_copy: * @document: a #PopplerDocument * @uri: uri of file to save * @error: (allow-none): return location for an error, or %NULL * * Saves a copy of the original @document. * Any change made in the document such as * form fields filled by the user will not be saved. * If @error is set, %FALSE will be returned. Possible errors * include those in the #G_FILE_ERROR domain. * * Return value: %TRUE, if the document was successfully saved **/ gboolean poppler_document_save_a_copy(PopplerDocument *document, const char *uri, GError **error) { char *filename; gboolean retval = FALSE; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); filename = g_filename_from_uri(uri, nullptr, error); if (filename != nullptr) { GooString fname(filename); int err_code; g_free(filename); err_code = document->doc->saveWithoutChangesAs(fname); retval = handle_save_error(err_code, error); } return retval; } #ifndef G_OS_WIN32 /** * poppler_document_save_to_fd: * @document: a #PopplerDocument * @fd: a valid file descriptor open for writing * @include_changes: whether to include user changes (e.g. form fills) * @error: (allow-none): return location for an error, or %NULL * * Saves @document. Any change made in the document such as * form fields filled, annotations added or modified * will be saved if @include_changes is %TRUE, or discarded i * @include_changes is %FALSE. * * Note that this function takes ownership of @fd; you must not operate on it * again, nor close it. * * If @error is set, %FALSE will be returned. Possible errors * include those in the #G_FILE_ERROR domain. * * Return value: %TRUE, if the document was successfully saved * * Since: 21.12.0 **/ gboolean poppler_document_save_to_fd(PopplerDocument *document, int fd, gboolean include_changes, GError **error) { FILE *file; OutStream *stream; int rv; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); g_return_val_if_fail(fd != -1, FALSE); file = fdopen(fd, "wb"); if (file == nullptr) { int errsv = errno; g_set_error(error, G_FILE_ERROR, g_file_error_from_errno(errsv), "Failed to open FD %d for writing: %s", fd, g_strerror(errsv)); return FALSE; } stream = new FileOutStream(file, 0); if (include_changes) { rv = document->doc->saveAs(stream); } else { rv = document->doc->saveWithoutChangesAs(stream); } delete stream; return handle_save_error(rv, error); } #endif /* !G_OS_WIN32 */ static void poppler_document_finalize(GObject *object) { PopplerDocument *document = POPPLER_DOCUMENT(object); poppler_document_layers_free(document); delete document->output_dev; delete document->doc; delete document->initer.release(); G_OBJECT_CLASS(poppler_document_parent_class)->finalize(object); } /** * poppler_document_get_id: * @document: A #PopplerDocument * @permanent_id: (out) (allow-none): location to store an allocated string, use g_free() to free the returned string * @update_id: (out) (allow-none): location to store an allocated string, use g_free() to free the returned string * * Returns the PDF file identifier represented as two byte string arrays of size 32. * @permanent_id is the permanent identifier that is built based on the file * contents at the time it was originally created, so that this identifer * never changes. @update_id is the update identifier that is built based on * the file contents at the time it was last updated. * * Note that returned strings are not null-terminated, they have a fixed * size of 32 bytes. * * Returns: %TRUE if the @document contains an id, %FALSE otherwise * * Since: 0.16 */ gboolean poppler_document_get_id(PopplerDocument *document, gchar **permanent_id, gchar **update_id) { GooString permanent; GooString update; gboolean retval = FALSE; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); if (permanent_id) { *permanent_id = nullptr; } if (update_id) { *update_id = nullptr; } if (document->doc->getID(permanent_id ? &permanent : nullptr, update_id ? &update : nullptr)) { if (permanent_id) { *permanent_id = g_new(char, 32); memcpy(*permanent_id, permanent.c_str(), 32); } if (update_id) { *update_id = g_new(char, 32); memcpy(*update_id, update.c_str(), 32); } retval = TRUE; } return retval; } /** * poppler_document_get_n_pages: * @document: A #PopplerDocument * * Returns the number of pages in a loaded document. * * Return value: Number of pages **/ int poppler_document_get_n_pages(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), 0); return document->doc->getNumPages(); } /** * poppler_document_get_page: * @document: A #PopplerDocument * @index: a page index * * Returns the #PopplerPage indexed at @index. This object is owned by the * caller. * * Return value: (transfer full) : The #PopplerPage at @index **/ PopplerPage *poppler_document_get_page(PopplerDocument *document, int index) { Page *page; g_return_val_if_fail(0 <= index && index < poppler_document_get_n_pages(document), NULL); page = document->doc->getPage(index + 1); if (!page) { return nullptr; } return _poppler_page_new(document, page, index); } /** * poppler_document_get_page_by_label: * @document: A #PopplerDocument * @label: a page label * * Returns the #PopplerPage reference by @label. This object is owned by the * caller. @label is a human-readable string representation of the page number, * and can be document specific. Typically, it is a value such as "iii" or "3". * * By default, "1" refers to the first page. * * Return value: (transfer full) :The #PopplerPage referenced by @label **/ PopplerPage *poppler_document_get_page_by_label(PopplerDocument *document, const char *label) { Catalog *catalog; GooString label_g(label); int index; catalog = document->doc->getCatalog(); if (!catalog->labelToIndex(&label_g, &index)) { return nullptr; } return poppler_document_get_page(document, index); } /** * poppler_document_get_n_attachments: * @document: A #PopplerDocument * * Returns the number of attachments in a loaded document. * See also poppler_document_get_attachments() * * Return value: Number of attachments * * Since: 0.18 */ guint poppler_document_get_n_attachments(PopplerDocument *document) { Catalog *catalog; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), 0); catalog = document->doc->getCatalog(); return catalog && catalog->isOk() ? catalog->numEmbeddedFiles() : 0; } /** * poppler_document_has_attachments: * @document: A #PopplerDocument * * Returns %TRUE of @document has any attachments. * * Return value: %TRUE, if @document has attachments. **/ gboolean poppler_document_has_attachments(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); return (poppler_document_get_n_attachments(document) != 0); } /** * poppler_document_get_attachments: * @document: A #PopplerDocument * * Returns a #GList containing #PopplerAttachments. These attachments * are unowned, and must be unreffed, and the list must be freed with * g_list_free(). * * Return value: (element-type PopplerAttachment) (transfer full): a list of available attachments. **/ GList *poppler_document_get_attachments(PopplerDocument *document) { Catalog *catalog; int n_files, i; GList *retval = nullptr; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); catalog = document->doc->getCatalog(); if (catalog == nullptr || !catalog->isOk()) { return nullptr; } n_files = catalog->numEmbeddedFiles(); for (i = 0; i < n_files; i++) { PopplerAttachment *attachment; const std::unique_ptr emb_file = catalog->embeddedFile(i); if (!emb_file->isOk() || !emb_file->getEmbeddedFile()->isOk()) { continue; } attachment = _poppler_attachment_new(emb_file.get()); if (attachment != nullptr) { retval = g_list_prepend(retval, attachment); } } return g_list_reverse(retval); } /** * poppler_named_dest_from_bytestring: * @data: (array length=length): the bytestring data * @length: the bytestring length * * Converts a bytestring into a zero-terminated string suitable to * pass to poppler_document_find_dest(). * * Note that the returned string has no defined encoding and is not * suitable for display to the user. * * The returned data must be freed using g_free(). * * Returns: (transfer full): the named dest * * Since: 0.73 */ char *poppler_named_dest_from_bytestring(const guint8 *data, gsize length) { const guint8 *p, *pend; char *dest, *q; g_return_val_if_fail(length != 0 || data != nullptr, nullptr); /* Each source byte needs maximally 2 destination chars (\\ or \0) */ q = dest = (gchar *)g_malloc(length * 2 + 1); pend = data + length; for (p = data; p < pend; ++p) { switch (*p) { case '\0': *q++ = '\\'; *q++ = '0'; break; case '\\': *q++ = '\\'; *q++ = '\\'; break; default: *q++ = *p; break; } } *q = 0; /* zero terminate */ return dest; } /** * poppler_named_dest_to_bytestring: * @name: the named dest string * @length: (out): a location to store the length of the returned bytestring * * Converts a named dest string (e.g. from #PopplerDest.named_dest) into a * bytestring, inverting the transformation of * poppler_named_dest_from_bytestring(). * * Note that the returned data is not zero terminated and may also * contains embedded NUL bytes. * * If @name is not a valid named dest string, returns %NULL. * * The returned data must be freed using g_free(). * * Returns: (array length=length) (transfer full) (nullable): a new bytestring, * or %NULL * * Since: 0.73 */ guint8 *poppler_named_dest_to_bytestring(const char *name, gsize *length) { const char *p; guint8 *data, *q; gsize len; g_return_val_if_fail(name != nullptr, nullptr); g_return_val_if_fail(length != nullptr, nullptr); len = strlen(name); q = data = (guint8 *)g_malloc(len); for (p = name; *p; ++p) { if (*p == '\\') { p++; len--; if (*p == '0') { *q++ = '\0'; } else if (*p == '\\') { *q++ = '\\'; } else { goto invalid; } } else { *q++ = *p; } } *length = len; return data; invalid: g_free(data); *length = 0; return nullptr; } /** * poppler_document_find_dest: * @document: A #PopplerDocument * @link_name: a named destination * * Creates a #PopplerDest for the named destination @link_name in @document. * * Note that named destinations are bytestrings, not string. That means that * unless @link_name was returned by a poppler function (e.g. is * #PopplerDest.named_dest), it needs to be converted to string * using poppler_named_dest_from_bytestring() before being passed to this * function. * * The returned value must be freed with poppler_dest_free(). * * Return value: (transfer full): a new #PopplerDest destination, or %NULL if * @link_name is not a destination. **/ PopplerDest *poppler_document_find_dest(PopplerDocument *document, const gchar *link_name) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), nullptr); g_return_val_if_fail(link_name != nullptr, nullptr); gsize len; guint8 *data = poppler_named_dest_to_bytestring(link_name, &len); if (data == nullptr) { return nullptr; } GooString g_link_name((const char *)data, (int)len); g_free(data); std::unique_ptr link_dest = document->doc->findDest(&g_link_name); if (link_dest == nullptr) { return nullptr; } PopplerDest *dest = _poppler_dest_new_goto(document, link_dest.get()); return dest; } static gint _poppler_dest_compare_keys(gconstpointer a, gconstpointer b, gpointer user_data) { return g_strcmp0(static_cast(a), static_cast(b)); } static void _poppler_dest_destroy_value(gpointer value) { poppler_dest_free(static_cast(value)); } /** * poppler_document_create_dests_tree: * @document: A #PopplerDocument * * Creates a balanced binary tree of all named destinations in @document * * The tree key is strings in the form returned by * poppler_named_dest_to_bytestring() which constains a destination name. * The tree value is the #PopplerDest which contains a named destination. * The return value must be freed with g_tree_destroy(). * * Returns: (transfer full) (nullable): the #GTree, or %NULL * Since: 0.78 **/ GTree *poppler_document_create_dests_tree(PopplerDocument *document) { GTree *tree; Catalog *catalog; PopplerDest *dest; int i; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), nullptr); catalog = document->doc->getCatalog(); if (catalog == nullptr) { return nullptr; } tree = g_tree_new_full(_poppler_dest_compare_keys, nullptr, g_free, _poppler_dest_destroy_value); // Iterate from name-dict const int nDests = catalog->numDests(); for (i = 0; i < nDests; ++i) { // The names of name-dict cannot contain \0, // so we can use strlen(). auto name = catalog->getDestsName(i); std::unique_ptr link_dest = catalog->getDestsDest(i); if (link_dest) { gchar *key = poppler_named_dest_from_bytestring(reinterpret_cast(name), strlen(name)); dest = _poppler_dest_new_goto(document, link_dest.get()); g_tree_insert(tree, key, dest); } } // Iterate form name-tree const int nDestsNameTree = catalog->numDestNameTree(); for (i = 0; i < nDestsNameTree; ++i) { auto name = catalog->getDestNameTreeName(i); std::unique_ptr link_dest = catalog->getDestNameTreeDest(i); if (link_dest) { gchar *key = poppler_named_dest_from_bytestring(reinterpret_cast(name->c_str()), name->getLength()); dest = _poppler_dest_new_goto(document, link_dest.get()); g_tree_insert(tree, key, dest); } } return tree; } char *_poppler_goo_string_to_utf8(const GooString *s) { if (s == nullptr) { return nullptr; } char *result; if (hasUnicodeByteOrderMark(s->toStr())) { result = g_convert(s->c_str() + 2, s->getLength() - 2, "UTF-8", "UTF-16BE", nullptr, nullptr, nullptr); } else if (hasUnicodeByteOrderMarkLE(s->toStr())) { result = g_convert(s->c_str() + 2, s->getLength() - 2, "UTF-8", "UTF-16LE", nullptr, nullptr, nullptr); } else { int len; gunichar *ucs4_temp; int i; len = s->getLength(); ucs4_temp = g_new(gunichar, len + 1); for (i = 0; i < len; ++i) { ucs4_temp[i] = pdfDocEncoding[(unsigned char)s->getChar(i)]; } ucs4_temp[i] = 0; result = g_ucs4_to_utf8(ucs4_temp, -1, nullptr, nullptr, nullptr); g_free(ucs4_temp); } return result; } static GooString *_poppler_goo_string_from_utf8(const gchar *src) { if (src == nullptr) { return nullptr; } gsize outlen; gchar *utf16 = g_convert(src, -1, "UTF-16BE", "UTF-8", nullptr, &outlen, nullptr); if (utf16 == nullptr) { return nullptr; } GooString *result = new GooString(utf16, outlen); g_free(utf16); if (!hasUnicodeByteOrderMark(result->toStr())) { prependUnicodeByteOrderMark(result->toNonConstStr()); } return result; } static PopplerPageLayout convert_page_layout(Catalog::PageLayout pageLayout) { switch (pageLayout) { case Catalog::pageLayoutSinglePage: return POPPLER_PAGE_LAYOUT_SINGLE_PAGE; case Catalog::pageLayoutOneColumn: return POPPLER_PAGE_LAYOUT_ONE_COLUMN; case Catalog::pageLayoutTwoColumnLeft: return POPPLER_PAGE_LAYOUT_TWO_COLUMN_LEFT; case Catalog::pageLayoutTwoColumnRight: return POPPLER_PAGE_LAYOUT_TWO_COLUMN_RIGHT; case Catalog::pageLayoutTwoPageLeft: return POPPLER_PAGE_LAYOUT_TWO_PAGE_LEFT; case Catalog::pageLayoutTwoPageRight: return POPPLER_PAGE_LAYOUT_TWO_PAGE_RIGHT; case Catalog::pageLayoutNone: default: return POPPLER_PAGE_LAYOUT_UNSET; } } static PopplerPageMode convert_page_mode(Catalog::PageMode pageMode) { switch (pageMode) { case Catalog::pageModeOutlines: return POPPLER_PAGE_MODE_USE_OUTLINES; case Catalog::pageModeThumbs: return POPPLER_PAGE_MODE_USE_THUMBS; case Catalog::pageModeFullScreen: return POPPLER_PAGE_MODE_FULL_SCREEN; case Catalog::pageModeOC: return POPPLER_PAGE_MODE_USE_OC; case Catalog::pageModeAttach: return POPPLER_PAGE_MODE_USE_ATTACHMENTS; case Catalog::pageModeNone: default: return POPPLER_PAGE_MODE_UNSET; } } static PopplerPDFSubtype convert_pdf_subtype(PDFSubtype pdfSubtype) { switch (pdfSubtype) { case subtypePDFA: return POPPLER_PDF_SUBTYPE_PDF_A; case subtypePDFE: return POPPLER_PDF_SUBTYPE_PDF_E; case subtypePDFUA: return POPPLER_PDF_SUBTYPE_PDF_UA; case subtypePDFVT: return POPPLER_PDF_SUBTYPE_PDF_VT; case subtypePDFX: return POPPLER_PDF_SUBTYPE_PDF_X; case subtypeNone: return POPPLER_PDF_SUBTYPE_NONE; case subtypeNull: default: return POPPLER_PDF_SUBTYPE_UNSET; } } static PopplerPDFPart convert_pdf_subtype_part(PDFSubtypePart pdfSubtypePart) { switch (pdfSubtypePart) { case subtypePart1: return POPPLER_PDF_SUBTYPE_PART_1; case subtypePart2: return POPPLER_PDF_SUBTYPE_PART_2; case subtypePart3: return POPPLER_PDF_SUBTYPE_PART_3; case subtypePart4: return POPPLER_PDF_SUBTYPE_PART_4; case subtypePart5: return POPPLER_PDF_SUBTYPE_PART_5; case subtypePart6: return POPPLER_PDF_SUBTYPE_PART_6; case subtypePart7: return POPPLER_PDF_SUBTYPE_PART_7; case subtypePart8: return POPPLER_PDF_SUBTYPE_PART_8; case subtypePartNone: return POPPLER_PDF_SUBTYPE_PART_NONE; case subtypePartNull: default: return POPPLER_PDF_SUBTYPE_PART_UNSET; } } static PopplerPDFConformance convert_pdf_subtype_conformance(PDFSubtypeConformance pdfSubtypeConf) { switch (pdfSubtypeConf) { case subtypeConfA: return POPPLER_PDF_SUBTYPE_CONF_A; case subtypeConfB: return POPPLER_PDF_SUBTYPE_CONF_B; case subtypeConfG: return POPPLER_PDF_SUBTYPE_CONF_G; case subtypeConfN: return POPPLER_PDF_SUBTYPE_CONF_N; case subtypeConfP: return POPPLER_PDF_SUBTYPE_CONF_P; case subtypeConfPG: return POPPLER_PDF_SUBTYPE_CONF_PG; case subtypeConfU: return POPPLER_PDF_SUBTYPE_CONF_U; case subtypeConfNone: return POPPLER_PDF_SUBTYPE_CONF_NONE; case subtypeConfNull: default: return POPPLER_PDF_SUBTYPE_CONF_UNSET; } } /** * poppler_document_get_pdf_version_string: * @document: A #PopplerDocument * * Returns the PDF version of @document as a string (e.g. PDF-1.6) * * Return value: a new allocated string containing the PDF version * of @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_pdf_version_string(PopplerDocument *document) { gchar *retval; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); retval = g_strndup("PDF-", 15); /* allocates 16 chars, pads with \0s */ g_ascii_formatd(retval + 4, 15 + 1 - 4, "%.2g", document->doc->getPDFMajorVersion() + document->doc->getPDFMinorVersion() / 10.0); return retval; } /** * poppler_document_get_pdf_version: * @document: A #PopplerDocument * @major_version: (out) (nullable): return location for the PDF major version number * @minor_version: (out) (nullable): return location for the PDF minor version number * * Updates values referenced by @major_version & @minor_version with the * major and minor PDF versions of @document. * * Since: 0.16 **/ void poppler_document_get_pdf_version(PopplerDocument *document, guint *major_version, guint *minor_version) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); if (major_version) { *major_version = document->doc->getPDFMajorVersion(); } if (minor_version) { *minor_version = document->doc->getPDFMinorVersion(); } } /** * poppler_document_get_title: * @document: A #PopplerDocument * * Returns the document's title * * Return value: a new allocated string containing the title * of @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_title(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); const std::unique_ptr goo_title = document->doc->getDocInfoTitle(); return _poppler_goo_string_to_utf8(goo_title.get()); } /** * poppler_document_set_title: * @document: A #PopplerDocument * @title: A new title * * Sets the document's title. If @title is %NULL, Title entry * is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_title(PopplerDocument *document, const gchar *title) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *goo_title; if (!title) { goo_title = nullptr; } else { goo_title = _poppler_goo_string_from_utf8(title); if (!goo_title) { return; } } document->doc->setDocInfoTitle(goo_title); } /** * poppler_document_get_author: * @document: A #PopplerDocument * * Returns the author of the document * * Return value: a new allocated string containing the author * of @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_author(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); const std::unique_ptr goo_author = document->doc->getDocInfoAuthor(); return _poppler_goo_string_to_utf8(goo_author.get()); } /** * poppler_document_set_author: * @document: A #PopplerDocument * @author: A new author * * Sets the document's author. If @author is %NULL, Author * entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_author(PopplerDocument *document, const gchar *author) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *goo_author; if (!author) { goo_author = nullptr; } else { goo_author = _poppler_goo_string_from_utf8(author); if (!goo_author) { return; } } document->doc->setDocInfoAuthor(goo_author); } /** * poppler_document_get_subject: * @document: A #PopplerDocument * * Returns the subject of the document * * Return value: a new allocated string containing the subject * of @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_subject(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); const std::unique_ptr goo_subject = document->doc->getDocInfoSubject(); return _poppler_goo_string_to_utf8(goo_subject.get()); } /** * poppler_document_set_subject: * @document: A #PopplerDocument * @subject: A new subject * * Sets the document's subject. If @subject is %NULL, Subject * entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_subject(PopplerDocument *document, const gchar *subject) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *goo_subject; if (!subject) { goo_subject = nullptr; } else { goo_subject = _poppler_goo_string_from_utf8(subject); if (!goo_subject) { return; } } document->doc->setDocInfoSubject(goo_subject); } /** * poppler_document_get_keywords: * @document: A #PopplerDocument * * Returns the keywords associated to the document * * Return value: a new allocated string containing keywords associated * to @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_keywords(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); const std::unique_ptr goo_keywords = document->doc->getDocInfoKeywords(); return _poppler_goo_string_to_utf8(goo_keywords.get()); } /** * poppler_document_set_keywords: * @document: A #PopplerDocument * @keywords: New keywords * * Sets the document's keywords. If @keywords is %NULL, * Keywords entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_keywords(PopplerDocument *document, const gchar *keywords) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *goo_keywords; if (!keywords) { goo_keywords = nullptr; } else { goo_keywords = _poppler_goo_string_from_utf8(keywords); if (!goo_keywords) { return; } } document->doc->setDocInfoKeywords(goo_keywords); } /** * poppler_document_get_creator: * @document: A #PopplerDocument * * Returns the creator of the document. If the document was converted * from another format, the creator is the name of the product * that created the original document from which it was converted. * * Return value: a new allocated string containing the creator * of @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_creator(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); const std::unique_ptr goo_creator = document->doc->getDocInfoCreator(); return _poppler_goo_string_to_utf8(goo_creator.get()); } /** * poppler_document_set_creator: * @document: A #PopplerDocument * @creator: A new creator * * Sets the document's creator. If @creator is %NULL, Creator * entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_creator(PopplerDocument *document, const gchar *creator) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *goo_creator; if (!creator) { goo_creator = nullptr; } else { goo_creator = _poppler_goo_string_from_utf8(creator); if (!goo_creator) { return; } } document->doc->setDocInfoCreator(goo_creator); } /** * poppler_document_get_producer: * @document: A #PopplerDocument * * Returns the producer of the document. If the document was converted * from another format, the producer is the name of the product * that converted it to PDF * * Return value: a new allocated string containing the producer * of @document, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_producer(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); const std::unique_ptr goo_producer = document->doc->getDocInfoProducer(); return _poppler_goo_string_to_utf8(goo_producer.get()); } /** * poppler_document_set_producer: * @document: A #PopplerDocument * @producer: A new producer * * Sets the document's producer. If @producer is %NULL, * Producer entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_producer(PopplerDocument *document, const gchar *producer) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *goo_producer; if (!producer) { goo_producer = nullptr; } else { goo_producer = _poppler_goo_string_from_utf8(producer); if (!goo_producer) { return; } } document->doc->setDocInfoProducer(goo_producer); } /** * poppler_document_get_creation_date: * @document: A #PopplerDocument * * Returns the date the document was created as seconds since the Epoch * * Return value: the date the document was created, or -1 * * Since: 0.16 **/ time_t poppler_document_get_creation_date(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), (time_t)-1); const std::unique_ptr str = document->doc->getDocInfoCreatDate(); if (!str) { return (time_t)-1; } time_t date; gboolean success = _poppler_convert_pdf_date_to_gtime(str.get(), &date); return (success) ? date : (time_t)-1; } /** * poppler_document_set_creation_date: * @document: A #PopplerDocument * @creation_date: A new creation date * * Sets the document's creation date. If @creation_date is -1, CreationDate * entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_creation_date(PopplerDocument *document, time_t creation_date) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *str = creation_date == (time_t)-1 ? nullptr : timeToDateString(&creation_date); document->doc->setDocInfoCreatDate(str); } /** * poppler_document_get_creation_date_time: * @document: A #PopplerDocument * * Returns the date the document was created as a #GDateTime * * Returns: (nullable): the date the document was created, or %NULL * * Since: 20.09.0 **/ GDateTime *poppler_document_get_creation_date_time(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), nullptr); std::unique_ptr str { document->doc->getDocInfoCreatDate() }; if (!str) { return nullptr; } return _poppler_convert_pdf_date_to_date_time(str.get()); } /** * poppler_document_set_creation_date_time: * @document: A #PopplerDocument * @creation_datetime: (nullable): A new creation #GDateTime * * Sets the document's creation date. If @creation_datetime is %NULL, * CreationDate entry is removed from the document's Info dictionary. * * Since: 20.09.0 **/ void poppler_document_set_creation_date_time(PopplerDocument *document, GDateTime *creation_datetime) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *str = nullptr; if (creation_datetime) { str = _poppler_convert_date_time_to_pdf_date(creation_datetime); } document->doc->setDocInfoCreatDate(str); } /** * poppler_document_get_modification_date: * @document: A #PopplerDocument * * Returns the date the document was most recently modified as seconds since the Epoch * * Return value: the date the document was most recently modified, or -1 * * Since: 0.16 **/ time_t poppler_document_get_modification_date(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), (time_t)-1); const std::unique_ptr str = document->doc->getDocInfoModDate(); if (!str) { return (time_t)-1; } time_t date; gboolean success = _poppler_convert_pdf_date_to_gtime(str.get(), &date); return (success) ? date : (time_t)-1; } /** * poppler_document_set_modification_date: * @document: A #PopplerDocument * @modification_date: A new modification date * * Sets the document's modification date. If @modification_date is -1, ModDate * entry is removed from the document's Info dictionary. * * Since: 0.46 **/ void poppler_document_set_modification_date(PopplerDocument *document, time_t modification_date) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *str = modification_date == (time_t)-1 ? nullptr : timeToDateString(&modification_date); document->doc->setDocInfoModDate(str); } /** * poppler_document_get_modification_date_time: * @document: A #PopplerDocument * * Returns the date the document was most recently modified as a #GDateTime * * Returns: (nullable): the date the document was modified, or %NULL * * Since: 20.09.0 **/ GDateTime *poppler_document_get_modification_date_time(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), nullptr); std::unique_ptr str { document->doc->getDocInfoModDate() }; if (!str) { return nullptr; } return _poppler_convert_pdf_date_to_date_time(str.get()); } /** * poppler_document_set_modification_date_time: * @document: A #PopplerDocument * @modification_datetime: (nullable): A new modification #GDateTime * * Sets the document's modification date. If @modification_datetime is %NULL, * ModDate entry is removed from the document's Info dictionary. * * Since: 20.09.0 **/ void poppler_document_set_modification_date_time(PopplerDocument *document, GDateTime *modification_datetime) { g_return_if_fail(POPPLER_IS_DOCUMENT(document)); GooString *str = nullptr; if (modification_datetime) { str = _poppler_convert_date_time_to_pdf_date(modification_datetime); } document->doc->setDocInfoModDate(str); } /** * poppler_document_is_linearized: * @document: A #PopplerDocument * * Returns whether @document is linearized or not. Linearization of PDF * enables efficient incremental access of the PDF file in a network environment. * * Return value: %TRUE if @document is linearized, %FALSE otherwise * * Since: 0.16 **/ gboolean poppler_document_is_linearized(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); return document->doc->isLinearized(); } /** * poppler_document_get_n_signatures: * @document: A #PopplerDocument * * Returns how many digital signatures @document contains. * PDF digital signatures ensure that the content hash not been altered since last edit and * that it was produced by someone the user can trust * * Return value: The number of signatures found in the document * * Since: 21.12.0 **/ gint poppler_document_get_n_signatures(const PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), 0); return document->doc->getSignatureFields().size(); } /** * poppler_document_get_signature_fields: * @document: A #PopplerDocument * * Returns a #GList containing all signature #PopplerFormFields in the document. * * Return value: (element-type PopplerFormField) (transfer full): a list of all signature form fields. * * Since: 22.02.0 **/ GList *poppler_document_get_signature_fields(PopplerDocument *document) { std::vector signature_fields; FormWidget *widget; GList *result = nullptr; gsize i; signature_fields = document->doc->getSignatureFields(); for (i = 0; i < signature_fields.size(); i++) { widget = signature_fields[i]->getCreateWidget(); if (widget != nullptr) { result = g_list_prepend(result, _poppler_form_field_new(document, widget)); } } return g_list_reverse(result); } /** * poppler_document_get_page_layout: * @document: A #PopplerDocument * * Returns the page layout that should be used when the document is opened * * Return value: a #PopplerPageLayout that should be used when the document is opened * * Since: 0.16 **/ PopplerPageLayout poppler_document_get_page_layout(PopplerDocument *document) { Catalog *catalog; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PAGE_LAYOUT_UNSET); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { return convert_page_layout(catalog->getPageLayout()); } return POPPLER_PAGE_LAYOUT_UNSET; } /** * poppler_document_get_page_mode: * @document: A #PopplerDocument * * Returns a #PopplerPageMode representing how the document should * be initially displayed when opened. * * Return value: a #PopplerPageMode that should be used when document is opened * * Since: 0.16 **/ PopplerPageMode poppler_document_get_page_mode(PopplerDocument *document) { Catalog *catalog; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PAGE_MODE_UNSET); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { return convert_page_mode(catalog->getPageMode()); } return POPPLER_PAGE_MODE_UNSET; } /** * poppler_document_get_print_scaling: * @document: A #PopplerDocument * * Returns the print scaling value suggested by author of the document. * * Return value: a #PopplerPrintScaling that should be used when document is printed * * Since: 0.73 **/ PopplerPrintScaling poppler_document_get_print_scaling(PopplerDocument *document) { Catalog *catalog; ViewerPreferences *preferences; PopplerPrintScaling print_scaling = POPPLER_PRINT_SCALING_APP_DEFAULT; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PRINT_SCALING_APP_DEFAULT); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { preferences = catalog->getViewerPreferences(); if (preferences) { switch (preferences->getPrintScaling()) { default: case ViewerPreferences::PrintScaling::printScalingAppDefault: print_scaling = POPPLER_PRINT_SCALING_APP_DEFAULT; break; case ViewerPreferences::PrintScaling::printScalingNone: print_scaling = POPPLER_PRINT_SCALING_NONE; break; } } } return print_scaling; } /** * poppler_document_get_print_duplex: * @document: A #PopplerDocument * * Returns the duplex mode value suggested for printing by author of the document. * Value POPPLER_PRINT_DUPLEX_NONE means that the document does not specify this * preference. * * Returns: a #PopplerPrintDuplex that should be used when document is printed * * Since: 0.80 **/ PopplerPrintDuplex poppler_document_get_print_duplex(PopplerDocument *document) { Catalog *catalog; ViewerPreferences *preferences; PopplerPrintDuplex duplex = POPPLER_PRINT_DUPLEX_NONE; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PRINT_DUPLEX_NONE); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { preferences = catalog->getViewerPreferences(); if (preferences) { switch (preferences->getDuplex()) { default: case ViewerPreferences::Duplex::duplexNone: duplex = POPPLER_PRINT_DUPLEX_NONE; break; case ViewerPreferences::Duplex::duplexSimplex: duplex = POPPLER_PRINT_DUPLEX_SIMPLEX; break; case ViewerPreferences::Duplex::duplexDuplexFlipShortEdge: duplex = POPPLER_PRINT_DUPLEX_DUPLEX_FLIP_SHORT_EDGE; break; case ViewerPreferences::Duplex::duplexDuplexFlipLongEdge: duplex = POPPLER_PRINT_DUPLEX_DUPLEX_FLIP_LONG_EDGE; break; } } } return duplex; } /** * poppler_document_get_print_n_copies: * @document: A #PopplerDocument * * Returns the suggested number of copies to be printed. * This preference should be applied only if returned value * is greater than 1 since value 1 usually means that * the document does not specify it. * * Returns: Number of copies * * Since: 0.80 **/ gint poppler_document_get_print_n_copies(PopplerDocument *document) { Catalog *catalog; ViewerPreferences *preferences; gint retval = 1; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), 1); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { preferences = catalog->getViewerPreferences(); if (preferences) { retval = preferences->getNumCopies(); } } return retval; } /** * poppler_document_get_print_page_ranges: * @document: A #PopplerDocument * @n_ranges: (out): return location for number of ranges * * Returns the suggested page ranges to print in the form of array * of #PopplerPageRanges and number of ranges. * %NULL pointer means that the document does not specify page ranges * for printing. * * Returns: (array length=n_ranges) (transfer full): an array * of #PopplerPageRanges or %NULL. Free the array when * it is no longer needed. * * Since: 0.80 **/ PopplerPageRange *poppler_document_get_print_page_ranges(PopplerDocument *document, int *n_ranges) { Catalog *catalog; ViewerPreferences *preferences; std::vector> ranges; PopplerPageRange *result = nullptr; g_return_val_if_fail(n_ranges != nullptr, nullptr); *n_ranges = 0; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), nullptr); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { preferences = catalog->getViewerPreferences(); if (preferences) { ranges = preferences->getPrintPageRange(); *n_ranges = ranges.size(); result = g_new(PopplerPageRange, ranges.size()); for (size_t i = 0; i < ranges.size(); ++i) { result[i].start_page = ranges[i].first; result[i].end_page = ranges[i].second; } } } return result; } /** * poppler_document_get_permissions: * @document: A #PopplerDocument * * Returns the flags specifying which operations are permitted when the document is opened. * * Return value: a set of flags from #PopplerPermissions enumeration * * Since: 0.16 **/ PopplerPermissions poppler_document_get_permissions(PopplerDocument *document) { guint flag = 0; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PERMISSIONS_FULL); if (document->doc->okToPrint()) { flag |= POPPLER_PERMISSIONS_OK_TO_PRINT; } if (document->doc->okToChange()) { flag |= POPPLER_PERMISSIONS_OK_TO_MODIFY; } if (document->doc->okToCopy()) { flag |= POPPLER_PERMISSIONS_OK_TO_COPY; } if (document->doc->okToAddNotes()) { flag |= POPPLER_PERMISSIONS_OK_TO_ADD_NOTES; } if (document->doc->okToFillForm()) { flag |= POPPLER_PERMISSIONS_OK_TO_FILL_FORM; } if (document->doc->okToAccessibility()) { flag |= POPPLER_PERMISSIONS_OK_TO_EXTRACT_CONTENTS; } if (document->doc->okToAssemble()) { flag |= POPPLER_PERMISSIONS_OK_TO_ASSEMBLE; } if (document->doc->okToPrintHighRes()) { flag |= POPPLER_PERMISSIONS_OK_TO_PRINT_HIGH_RESOLUTION; } return (PopplerPermissions)flag; } /** * poppler_document_get_pdf_subtype_string: * @document: A #PopplerDocument * * Returns the PDF subtype version of @document as a string. * * Returns: (transfer full) (nullable): a newly allocated string containing * the PDF subtype version of @document, or %NULL * * Since: 0.70 **/ gchar *poppler_document_get_pdf_subtype_string(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); std::unique_ptr infostring; switch (document->doc->getPDFSubtype()) { case subtypePDFA: infostring = document->doc->getDocInfoStringEntry("GTS_PDFA1Version"); break; case subtypePDFE: infostring = document->doc->getDocInfoStringEntry("GTS_PDFEVersion"); break; case subtypePDFUA: infostring = document->doc->getDocInfoStringEntry("GTS_PDFUAVersion"); break; case subtypePDFVT: infostring = document->doc->getDocInfoStringEntry("GTS_PDFVTVersion"); break; case subtypePDFX: infostring = document->doc->getDocInfoStringEntry("GTS_PDFXVersion"); break; case subtypeNone: case subtypeNull: default: { /* nothing */ } } return _poppler_goo_string_to_utf8(infostring.get()); } /** * poppler_document_get_pdf_subtype: * @document: A #PopplerDocument * * Returns the subtype of @document as a #PopplerPDFSubtype. * * Returns: the document's subtype * * Since: 0.70 **/ PopplerPDFSubtype poppler_document_get_pdf_subtype(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PDF_SUBTYPE_NONE); return convert_pdf_subtype(document->doc->getPDFSubtype()); } /** * poppler_document_get_pdf_part: * @document: A #PopplerDocument * * Returns the part of the conforming standard that the @document adheres to * as a #PopplerPDFSubtype. * * Returns: the document's subtype part * * Since: 0.70 **/ PopplerPDFPart poppler_document_get_pdf_part(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PDF_SUBTYPE_PART_NONE); return convert_pdf_subtype_part(document->doc->getPDFSubtypePart()); } /** * poppler_document_get_pdf_conformance: * @document: A #PopplerDocument * * Returns the conformance level of the @document as #PopplerPDFConformance. * * Returns: the document's subtype conformance level * * Since: 0.70 **/ PopplerPDFConformance poppler_document_get_pdf_conformance(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), POPPLER_PDF_SUBTYPE_CONF_NONE); return convert_pdf_subtype_conformance(document->doc->getPDFSubtypeConformance()); } /** * poppler_document_get_metadata: * @document: A #PopplerDocument * * Returns the XML metadata string of the document * * Return value: a new allocated string containing the XML * metadata, or %NULL * * Since: 0.16 **/ gchar *poppler_document_get_metadata(PopplerDocument *document) { Catalog *catalog; gchar *retval = nullptr; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { std::unique_ptr s = catalog->readMetadata(); if (s) { retval = g_strdup(s->c_str()); } } return retval; } /** * poppler_document_reset_form: * @document: A #PopplerDocument * @fields: (element-type utf8) (nullable): list of fields to reset * @exclude_fields: whether to reset all fields except those in @fields * * Resets the form fields specified by fields if exclude_fields is FALSE. * Resets all others if exclude_fields is TRUE. * All form fields are reset regardless of the exclude_fields flag * if fields is empty. * * Since: 0.90 **/ void poppler_document_reset_form(PopplerDocument *document, GList *fields, gboolean exclude_fields) { std::vector list; Catalog *catalog; GList *iter; Form *form; g_return_if_fail(POPPLER_IS_DOCUMENT(document)); catalog = document->doc->getCatalog(); if (catalog && catalog->isOk()) { form = catalog->getForm(); if (form) { for (iter = fields; iter != nullptr; iter = iter->next) { list.emplace_back((char *)iter->data); } form->reset(list, exclude_fields); } } } /** * poppler_document_has_javascript: * @document: A #PopplerDocument * * Returns whether @document has any javascript in it. * * Since: 0.90 **/ gboolean poppler_document_has_javascript(PopplerDocument *document) { g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), FALSE); return document->doc->hasJavascript(); } static void poppler_document_get_property(GObject *object, guint prop_id, GValue *value, GParamSpec *pspec) { PopplerDocument *document = POPPLER_DOCUMENT(object); guint version; switch (prop_id) { case PROP_TITLE: g_value_take_string(value, poppler_document_get_title(document)); break; case PROP_FORMAT: g_value_take_string(value, poppler_document_get_pdf_version_string(document)); break; case PROP_FORMAT_MAJOR: poppler_document_get_pdf_version(document, &version, nullptr); g_value_set_uint(value, version); break; case PROP_FORMAT_MINOR: poppler_document_get_pdf_version(document, nullptr, &version); g_value_set_uint(value, version); break; case PROP_AUTHOR: g_value_take_string(value, poppler_document_get_author(document)); break; case PROP_SUBJECT: g_value_take_string(value, poppler_document_get_subject(document)); break; case PROP_KEYWORDS: g_value_take_string(value, poppler_document_get_keywords(document)); break; case PROP_CREATOR: g_value_take_string(value, poppler_document_get_creator(document)); break; case PROP_PRODUCER: g_value_take_string(value, poppler_document_get_producer(document)); break; case PROP_CREATION_DATE: g_value_set_int(value, poppler_document_get_creation_date(document)); break; case PROP_CREATION_DATETIME: g_value_take_boxed(value, poppler_document_get_creation_date_time(document)); break; case PROP_MOD_DATE: g_value_set_int(value, poppler_document_get_modification_date(document)); break; case PROP_MOD_DATETIME: g_value_take_boxed(value, poppler_document_get_modification_date_time(document)); break; case PROP_LINEARIZED: g_value_set_boolean(value, poppler_document_is_linearized(document)); break; case PROP_PAGE_LAYOUT: g_value_set_enum(value, poppler_document_get_page_layout(document)); break; case PROP_PAGE_MODE: g_value_set_enum(value, poppler_document_get_page_mode(document)); break; case PROP_VIEWER_PREFERENCES: /* FIXME: write... */ g_value_set_flags(value, POPPLER_VIEWER_PREFERENCES_UNSET); break; case PROP_PRINT_SCALING: g_value_set_enum(value, poppler_document_get_print_scaling(document)); break; case PROP_PRINT_DUPLEX: g_value_set_enum(value, poppler_document_get_print_duplex(document)); break; case PROP_PRINT_N_COPIES: g_value_set_int(value, poppler_document_get_print_n_copies(document)); break; case PROP_PERMISSIONS: g_value_set_flags(value, poppler_document_get_permissions(document)); break; case PROP_SUBTYPE: g_value_set_enum(value, poppler_document_get_pdf_subtype(document)); break; case PROP_SUBTYPE_STRING: g_value_take_string(value, poppler_document_get_pdf_subtype_string(document)); break; case PROP_SUBTYPE_PART: g_value_set_enum(value, poppler_document_get_pdf_part(document)); break; case PROP_SUBTYPE_CONF: g_value_set_enum(value, poppler_document_get_pdf_conformance(document)); break; case PROP_METADATA: g_value_take_string(value, poppler_document_get_metadata(document)); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec); } } static void poppler_document_set_property(GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { PopplerDocument *document = POPPLER_DOCUMENT(object); switch (prop_id) { case PROP_TITLE: poppler_document_set_title(document, g_value_get_string(value)); break; case PROP_AUTHOR: poppler_document_set_author(document, g_value_get_string(value)); break; case PROP_SUBJECT: poppler_document_set_subject(document, g_value_get_string(value)); break; case PROP_KEYWORDS: poppler_document_set_keywords(document, g_value_get_string(value)); break; case PROP_CREATOR: poppler_document_set_creator(document, g_value_get_string(value)); break; case PROP_PRODUCER: poppler_document_set_producer(document, g_value_get_string(value)); break; case PROP_CREATION_DATE: poppler_document_set_creation_date(document, g_value_get_int(value)); break; case PROP_CREATION_DATETIME: poppler_document_set_creation_date_time(document, (GDateTime *)g_value_get_boxed(value)); break; case PROP_MOD_DATE: poppler_document_set_modification_date(document, g_value_get_int(value)); break; case PROP_MOD_DATETIME: poppler_document_set_modification_date_time(document, (GDateTime *)g_value_get_boxed(value)); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec); } } static void poppler_document_class_init(PopplerDocumentClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS(klass); gobject_class->finalize = poppler_document_finalize; gobject_class->get_property = poppler_document_get_property; gobject_class->set_property = poppler_document_set_property; /** * PopplerDocument:title: * * The document's title or %NULL */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_TITLE, g_param_spec_string("title", "Document Title", "The title of the document", nullptr, G_PARAM_READWRITE)); /** * PopplerDocument:format: * * The PDF version as string. See also poppler_document_get_pdf_version_string() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_FORMAT, g_param_spec_string("format", "PDF Format", "The PDF version of the document", nullptr, G_PARAM_READABLE)); /** * PopplerDocument:format-major: * * The PDF major version number. See also poppler_document_get_pdf_version() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_FORMAT_MAJOR, g_param_spec_uint("format-major", "PDF Format Major", "The PDF major version number of the document", 0, G_MAXUINT, 1, G_PARAM_READABLE)); /** * PopplerDocument:format-minor: * * The PDF minor version number. See also poppler_document_get_pdf_version() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_FORMAT_MINOR, g_param_spec_uint("format-minor", "PDF Format Minor", "The PDF minor version number of the document", 0, G_MAXUINT, 0, G_PARAM_READABLE)); /** * PopplerDocument:author: * * The author of the document */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_AUTHOR, g_param_spec_string("author", "Author", "The author of the document", nullptr, G_PARAM_READWRITE)); /** * PopplerDocument:subject: * * The subject of the document */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_SUBJECT, g_param_spec_string("subject", "Subject", "Subjects the document touches", nullptr, G_PARAM_READWRITE)); /** * PopplerDocument:keywords: * * The keywords associated to the document */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_KEYWORDS, g_param_spec_string("keywords", "Keywords", "Keywords", nullptr, G_PARAM_READWRITE)); /** * PopplerDocument:creator: * * The creator of the document. See also poppler_document_get_creator() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_CREATOR, g_param_spec_string("creator", "Creator", "The software that created the document", nullptr, G_PARAM_READWRITE)); /** * PopplerDocument:producer: * * The producer of the document. See also poppler_document_get_producer() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_PRODUCER, g_param_spec_string("producer", "Producer", "The software that converted the document", nullptr, G_PARAM_READWRITE)); /** * PopplerDocument:creation-date: * * The date the document was created as seconds since the Epoch, or -1 * * Deprecated: 20.09.0: This will overflow in 2038. Use creation-datetime * instead. */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_CREATION_DATE, g_param_spec_int("creation-date", "Creation Date", "The date and time the document was created", -1, G_MAXINT, -1, (GParamFlags)(G_PARAM_READWRITE | G_PARAM_DEPRECATED))); /** * PopplerDocument:creation-datetime: * The #GDateTime the document was created. * * Since: 20.09.0 */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_CREATION_DATETIME, g_param_spec_boxed("creation-datetime", "Creation DateTime", "The date and time the document was created", G_TYPE_DATE_TIME, G_PARAM_READWRITE)); /** * PopplerDocument:mod-date: * * The date the document was most recently modified as seconds since the Epoch, or -1 * * Deprecated: 20.09.0: This will overflow in 2038. Use mod-datetime instead. */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_MOD_DATE, g_param_spec_int("mod-date", "Modification Date", "The date and time the document was modified", -1, G_MAXINT, -1, (GParamFlags)(G_PARAM_READWRITE | G_PARAM_DEPRECATED))); /** * PopplerDocument:mod-datetime: * * The #GDateTime the document was most recently modified. * * Since: 20.09.0 */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_MOD_DATETIME, g_param_spec_boxed("mod-datetime", "Modification DateTime", "The date and time the document was modified", G_TYPE_DATE_TIME, G_PARAM_READWRITE)); /** * PopplerDocument:linearized: * * Whether document is linearized. See also poppler_document_is_linearized() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_LINEARIZED, g_param_spec_boolean("linearized", "Fast Web View Enabled", "Is the document optimized for web viewing?", FALSE, G_PARAM_READABLE)); /** * PopplerDocument:page-layout: * * The page layout that should be used when the document is opened */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_PAGE_LAYOUT, g_param_spec_enum("page-layout", "Page Layout", "Initial Page Layout", POPPLER_TYPE_PAGE_LAYOUT, POPPLER_PAGE_LAYOUT_UNSET, G_PARAM_READABLE)); /** * PopplerDocument:page-mode: * * The mode that should be used when the document is opened */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_PAGE_MODE, g_param_spec_enum("page-mode", "Page Mode", "Page Mode", POPPLER_TYPE_PAGE_MODE, POPPLER_PAGE_MODE_UNSET, G_PARAM_READABLE)); /** * PopplerDocument:viewer-preferences: */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_VIEWER_PREFERENCES, g_param_spec_flags("viewer-preferences", "Viewer Preferences", "Viewer Preferences", POPPLER_TYPE_VIEWER_PREFERENCES, POPPLER_VIEWER_PREFERENCES_UNSET, G_PARAM_READABLE)); /** * PopplerDocument:print-scaling: * * Since: 0.73 */ g_object_class_install_property( G_OBJECT_CLASS(klass), PROP_PRINT_SCALING, g_param_spec_enum("print-scaling", "Print Scaling", "Print Scaling Viewer Preference", POPPLER_TYPE_PRINT_SCALING, POPPLER_PRINT_SCALING_APP_DEFAULT, (GParamFlags)(G_PARAM_READABLE | G_PARAM_STATIC_STRINGS))); /** * PopplerDocument:print-duplex: * * Since: 0.80 */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_PRINT_DUPLEX, g_param_spec_enum("print-duplex", "Print Duplex", "Duplex Viewer Preference", POPPLER_TYPE_PRINT_DUPLEX, POPPLER_PRINT_DUPLEX_NONE, (GParamFlags)(G_PARAM_READABLE | G_PARAM_STATIC_STRINGS))); /** * PopplerDocument:print-n-copies: * * Suggested number of copies to be printed for this document * * Since: 0.80 */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_PRINT_N_COPIES, g_param_spec_int("print-n-copies", "Number of Copies to Print", "Number of Copies Viewer Preference", 1, G_MAXINT, 1, (GParamFlags)(G_PARAM_READABLE | G_PARAM_STATIC_STRINGS))); /** * PopplerDocument:permissions: * * Flags specifying which operations are permitted when the document is opened */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_PERMISSIONS, g_param_spec_flags("permissions", "Permissions", "Permissions", POPPLER_TYPE_PERMISSIONS, POPPLER_PERMISSIONS_FULL, G_PARAM_READABLE)); /** * PopplerDocument:subtype: * * Document PDF subtype type */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_SUBTYPE, g_param_spec_enum("subtype", "PDF Format Subtype Type", "The PDF subtype of the document", POPPLER_TYPE_PDF_SUBTYPE, POPPLER_PDF_SUBTYPE_UNSET, G_PARAM_READABLE)); /** * PopplerDocument:subtype-string: * * Document PDF subtype. See also poppler_document_get_pdf_subtype_string() */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_SUBTYPE_STRING, g_param_spec_string("subtype-string", "PDF Format Subtype", "The PDF subtype of the document", nullptr, G_PARAM_READABLE)); /** * PopplerDocument:subtype-part: * * Document PDF subtype part */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_SUBTYPE_PART, g_param_spec_enum("subtype-part", "PDF Format Subtype Part", "The part of PDF conformance", POPPLER_TYPE_PDF_PART, POPPLER_PDF_SUBTYPE_PART_UNSET, G_PARAM_READABLE)); /** * PopplerDocument:subtype-conformance: * * Document PDF subtype conformance */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_SUBTYPE_CONF, g_param_spec_enum("subtype-conformance", "PDF Format Subtype Conformance", "The conformance level of PDF subtype", POPPLER_TYPE_PDF_CONFORMANCE, POPPLER_PDF_SUBTYPE_CONF_UNSET, G_PARAM_READABLE)); /** * PopplerDocument:metadata: * * Document metadata in XML format, or %NULL */ g_object_class_install_property(G_OBJECT_CLASS(klass), PROP_METADATA, g_param_spec_string("metadata", "XML Metadata", "Embedded XML metadata", nullptr, G_PARAM_READABLE)); } static void poppler_document_init(PopplerDocument *document) { } /** * PopplerIndexIter: * * Interface for getting the Index of a poppler_document * * Since 24.10 this type supports g_autoptr */ struct _PopplerIndexIter { PopplerDocument *document; const std::vector *items; int index; }; G_DEFINE_BOXED_TYPE(PopplerIndexIter, poppler_index_iter, poppler_index_iter_copy, poppler_index_iter_free) /** * poppler_index_iter_copy: * @iter: a #PopplerIndexIter * * Creates a new #PopplerIndexIter as a copy of @iter. This must be freed with * poppler_index_iter_free(). * * Return value: a new #PopplerIndexIter **/ PopplerIndexIter *poppler_index_iter_copy(PopplerIndexIter *iter) { PopplerIndexIter *new_iter; g_return_val_if_fail(iter != nullptr, NULL); new_iter = g_slice_dup(PopplerIndexIter, iter); new_iter->document = (PopplerDocument *)g_object_ref(new_iter->document); return new_iter; } /** * poppler_index_iter_new: * @document: a #PopplerDocument * * Returns the root #PopplerIndexIter for @document, or %NULL. This must be * freed with poppler_index_iter_free(). * * Certain documents have an index associated with them. This index can be used * to help the user navigate the document, and is similar to a table of * contents. Each node in the index will contain a #PopplerAction that can be * displayed to the user — typically a #POPPLER_ACTION_GOTO_DEST or a * #POPPLER_ACTION_URI. * * Here is a simple example of some code that walks the full index: * * * static void * walk_index (PopplerIndexIter *iter) * { * do * { * /* Get the action and do something with it */ * PopplerIndexIter *child = poppler_index_iter_get_child (iter); * if (child) * walk_index (child); * poppler_index_iter_free (child); * } * while (poppler_index_iter_next (iter)); * } * ... * { * iter = poppler_index_iter_new (document); * walk_index (iter); * poppler_index_iter_free (iter); * } * * * Return value: a new #PopplerIndexIter **/ PopplerIndexIter *poppler_index_iter_new(PopplerDocument *document) { PopplerIndexIter *iter; Outline *outline; const std::vector *items; outline = document->doc->getOutline(); if (outline == nullptr) { return nullptr; } items = outline->getItems(); if (items == nullptr) { return nullptr; } iter = g_slice_new(PopplerIndexIter); iter->document = (PopplerDocument *)g_object_ref(document); iter->items = items; iter->index = 0; return iter; } /** * poppler_index_iter_get_child: * @parent: a #PopplerIndexIter * * Returns a newly created child of @parent, or %NULL if the iter has no child. * See poppler_index_iter_new() for more information on this function. * * Return value: a new #PopplerIndexIter **/ PopplerIndexIter *poppler_index_iter_get_child(PopplerIndexIter *parent) { PopplerIndexIter *child; OutlineItem *item; g_return_val_if_fail(parent != nullptr, NULL); item = (*parent->items)[parent->index]; item->open(); if (!(item->hasKids() && item->getKids())) { return nullptr; } child = g_slice_new0(PopplerIndexIter); child->document = (PopplerDocument *)g_object_ref(parent->document); child->items = item->getKids(); g_assert(child->items); return child; } static gchar *unicode_to_char(const Unicode *unicode, int len) { const UnicodeMap *uMap = globalParams->getUtf8Map(); GooString gstr; gchar buf[8]; /* 8 is enough for mapping an unicode char to a string */ int i, n; for (i = 0; i < len; ++i) { n = uMap->mapUnicode(unicode[i], buf, sizeof(buf)); gstr.append(buf, n); } return g_strdup(gstr.c_str()); } /** * poppler_index_iter_is_open: * @iter: a #PopplerIndexIter * * Returns whether this node should be expanded by default to the user. The * document can provide a hint as to how the document's index should be expanded * initially. * * Return value: %TRUE, if the document wants @iter to be expanded **/ gboolean poppler_index_iter_is_open(PopplerIndexIter *iter) { OutlineItem *item; item = (*iter->items)[iter->index]; return item->isOpen(); } /** * poppler_index_iter_get_action: * @iter: a #PopplerIndexIter * * Returns the #PopplerAction associated with @iter. It must be freed with * poppler_action_free(). * * Return value: a new #PopplerAction **/ PopplerAction *poppler_index_iter_get_action(PopplerIndexIter *iter) { OutlineItem *item; const LinkAction *link_action; PopplerAction *action; gchar *title; g_return_val_if_fail(iter != nullptr, NULL); item = (*iter->items)[iter->index]; link_action = item->getAction(); const std::vector &itemTitle = item->getTitle(); title = unicode_to_char(itemTitle.data(), itemTitle.size()); action = _poppler_action_new(iter->document, link_action, title); g_free(title); return action; } /** * poppler_index_iter_next: * @iter: a #PopplerIndexIter * * Sets @iter to point to the next action at the current level, if valid. See * poppler_index_iter_new() for more information. * * Return value: %TRUE, if @iter was set to the next action **/ gboolean poppler_index_iter_next(PopplerIndexIter *iter) { g_return_val_if_fail(iter != nullptr, FALSE); iter->index++; if (iter->index >= (int)iter->items->size()) { return FALSE; } return TRUE; } /** * poppler_index_iter_free: * @iter: a #PopplerIndexIter * * Frees @iter. **/ void poppler_index_iter_free(PopplerIndexIter *iter) { if (G_UNLIKELY(iter == nullptr)) { return; } g_object_unref(iter->document); g_slice_free(PopplerIndexIter, iter); } /** * PopplerFontsIter: * * Since 24.10 this type supports g_autoptr */ struct _PopplerFontsIter { std::vector items; int index; }; G_DEFINE_BOXED_TYPE(PopplerFontsIter, poppler_fonts_iter, poppler_fonts_iter_copy, poppler_fonts_iter_free) /** * poppler_fonts_iter_get_full_name: * @iter: a #PopplerFontsIter * * Returns the full name of the font associated with @iter * * Returns: the font full name */ const char *poppler_fonts_iter_get_full_name(PopplerFontsIter *iter) { FontInfo *info; info = iter->items[iter->index]; const std::optional &name = info->getName(); if (name) { return name->c_str(); } else { return nullptr; } } /** * poppler_fonts_iter_get_name: * @iter: a #PopplerFontsIter * * Returns the name of the font associated with @iter * * Returns: the font name */ const char *poppler_fonts_iter_get_name(PopplerFontsIter *iter) { FontInfo *info; const char *name; name = poppler_fonts_iter_get_full_name(iter); info = iter->items[iter->index]; if (info->getSubset() && name) { while (*name && *name != '+') { name++; } if (*name) { name++; } } return name; } /** * poppler_fonts_iter_get_substitute_name: * @iter: a #PopplerFontsIter * * The name of the substitute font of the font associated with @iter or %NULL if * the font is embedded * * Returns: the name of the substitute font or %NULL if font is embedded * * Since: 0.20 */ const char *poppler_fonts_iter_get_substitute_name(PopplerFontsIter *iter) { FontInfo *info; info = iter->items[iter->index]; const std::optional &name = info->getSubstituteName(); if (name) { return name->c_str(); } else { return nullptr; } } /** * poppler_fonts_iter_get_file_name: * @iter: a #PopplerFontsIter * * The filename of the font associated with @iter or %NULL if * the font is embedded * * Returns: the filename of the font or %NULL if font is embedded */ const char *poppler_fonts_iter_get_file_name(PopplerFontsIter *iter) { FontInfo *info; info = iter->items[iter->index]; const std::optional &file = info->getFile(); if (file) { return file->c_str(); } else { return nullptr; } } /** * poppler_fonts_iter_get_font_type: * @iter: a #PopplerFontsIter * * Returns the type of the font associated with @iter * * Returns: the font type */ PopplerFontType poppler_fonts_iter_get_font_type(PopplerFontsIter *iter) { FontInfo *info; g_return_val_if_fail(iter != nullptr, POPPLER_FONT_TYPE_UNKNOWN); info = iter->items[iter->index]; return (PopplerFontType)info->getType(); } /** * poppler_fonts_iter_get_encoding: * @iter: a #PopplerFontsIter * * Returns the encoding of the font associated with @iter * * Returns: the font encoding * * Since: 0.20 */ const char *poppler_fonts_iter_get_encoding(PopplerFontsIter *iter) { FontInfo *info; info = iter->items[iter->index]; const std::string &encoding = info->getEncoding(); if (!encoding.empty()) { return encoding.c_str(); } else { return nullptr; } } /** * poppler_fonts_iter_is_embedded: * @iter: a #PopplerFontsIter * * Returns whether the font associated with @iter is embedded in the document * * Returns: %TRUE if font is embedded, %FALSE otherwise */ gboolean poppler_fonts_iter_is_embedded(PopplerFontsIter *iter) { FontInfo *info; info = iter->items[iter->index]; return info->getEmbedded(); } /** * poppler_fonts_iter_is_subset: * @iter: a #PopplerFontsIter * * Returns whether the font associated with @iter is a subset of another font * * Returns: %TRUE if font is a subset, %FALSE otherwise */ gboolean poppler_fonts_iter_is_subset(PopplerFontsIter *iter) { FontInfo *info; info = iter->items[iter->index]; return info->getSubset(); } /** * poppler_fonts_iter_next: * @iter: a #PopplerFontsIter * * Sets @iter to point to the next font * * Returns: %TRUE, if @iter was set to the next font **/ gboolean poppler_fonts_iter_next(PopplerFontsIter *iter) { g_return_val_if_fail(iter != nullptr, FALSE); iter->index++; if (iter->index >= (int)iter->items.size()) { return FALSE; } return TRUE; } /** * poppler_fonts_iter_copy: * @iter: a #PopplerFontsIter to copy * * Creates a copy of @iter * * Returns: a new allocated copy of @iter */ PopplerFontsIter *poppler_fonts_iter_copy(PopplerFontsIter *iter) { PopplerFontsIter *new_iter; g_return_val_if_fail(iter != nullptr, NULL); new_iter = g_slice_dup(PopplerFontsIter, iter); new_iter->items.resize(iter->items.size()); for (std::size_t i = 0; i < iter->items.size(); i++) { FontInfo *info = iter->items[i]; new_iter->items[i] = new FontInfo(*info); } return new_iter; } /** * poppler_fonts_iter_free: * @iter: a #PopplerFontsIter * * Frees the given #PopplerFontsIter */ void poppler_fonts_iter_free(PopplerFontsIter *iter) { if (G_UNLIKELY(iter == nullptr)) { return; } for (auto entry : iter->items) { delete entry; } iter->items.~vector(); g_slice_free(PopplerFontsIter, iter); } static PopplerFontsIter *poppler_fonts_iter_new(std::vector &&items) { PopplerFontsIter *iter; iter = g_slice_new(PopplerFontsIter); new ((void *)&iter->items) std::vector(std::move(items)); iter->index = 0; return iter; } typedef struct _PopplerFontInfoClass PopplerFontInfoClass; struct _PopplerFontInfoClass { GObjectClass parent_class; }; /** * PopplerFontInfo: * * Interface for getting the Fonts of a poppler_document * * Since 24.10 this type supports g_autoptr */ G_DEFINE_TYPE(PopplerFontInfo, poppler_font_info, G_TYPE_OBJECT) static void poppler_font_info_finalize(GObject *object); static void poppler_font_info_class_init(PopplerFontInfoClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS(klass); gobject_class->finalize = poppler_font_info_finalize; } static void poppler_font_info_init(PopplerFontInfo *font_info) { font_info->document = nullptr; font_info->scanner = nullptr; } static void poppler_font_info_finalize(GObject *object) { PopplerFontInfo *font_info = POPPLER_FONT_INFO(object); delete font_info->scanner; g_object_unref(font_info->document); G_OBJECT_CLASS(poppler_font_info_parent_class)->finalize(object); } /** * poppler_font_info_new: * @document: a #PopplerDocument * * Creates a new #PopplerFontInfo object * * Returns: a new #PopplerFontInfo instance */ PopplerFontInfo *poppler_font_info_new(PopplerDocument *document) { PopplerFontInfo *font_info; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); font_info = (PopplerFontInfo *)g_object_new(POPPLER_TYPE_FONT_INFO, nullptr); font_info->document = (PopplerDocument *)g_object_ref(document); font_info->scanner = new FontInfoScanner(document->doc); return font_info; } /** * poppler_font_info_scan: * @font_info: a #PopplerFontInfo * @n_pages: number of pages to scan * @iter: (out): return location for a #PopplerFontsIter * * Scans the document associated with @font_info for fonts. At most * @n_pages will be scanned starting from the current iterator. @iter will * point to the first font scanned. * * Here is a simple example of code to scan fonts in a document * * * font_info = poppler_font_info_new (document); * scanned_pages = 0; * while (scanned_pages <= poppler_document_get_n_pages(document)) { * poppler_font_info_scan (font_info, 20, &fonts_iter); * scanned_pages += 20; * if (!fonts_iter) * continue; /* No fonts found in these 20 pages */ * do { * /* Do something with font iter */ * g_print ("Font Name: %s\n", poppler_fonts_iter_get_name (fonts_iter)); * } while (poppler_fonts_iter_next (fonts_iter)); * poppler_fonts_iter_free (fonts_iter); * } * * * Returns: %TRUE, if fonts were found */ gboolean poppler_font_info_scan(PopplerFontInfo *font_info, int n_pages, PopplerFontsIter **iter) { g_return_val_if_fail(iter != nullptr, FALSE); std::vector items = font_info->scanner->scan(n_pages); if (items.empty()) { *iter = nullptr; return FALSE; } else { *iter = poppler_fonts_iter_new(std::move(items)); } return TRUE; } /* For backward compatibility */ void poppler_font_info_free(PopplerFontInfo *font_info) { g_return_if_fail(font_info != nullptr); g_object_unref(font_info); } /* Optional content (layers) */ static Layer *layer_new(OptionalContentGroup *oc) { Layer *layer; layer = g_slice_new0(Layer); layer->oc = oc; return layer; } static void layer_free(Layer *layer) { if (G_UNLIKELY(!layer)) { return; } if (layer->kids) { g_list_free_full(layer->kids, (GDestroyNotify)layer_free); } if (layer->label) { g_free(layer->label); } g_slice_free(Layer, layer); } static GList *get_optional_content_rbgroups(OCGs *ocg) { Array *rb; GList *groups = nullptr; rb = ocg->getRBGroupsArray(); if (rb) { int i, j; for (i = 0; i < rb->getLength(); ++i) { Array *rb_array; GList *group = nullptr; Object obj = rb->get(i); if (!obj.isArray()) { continue; } rb_array = obj.getArray(); for (j = 0; j < rb_array->getLength(); ++j) { OptionalContentGroup *oc; const Object &ref = rb_array->getNF(j); if (!ref.isRef()) { continue; } oc = ocg->findOcgByRef(ref.getRef()); group = g_list_prepend(group, oc); } groups = g_list_prepend(groups, group); } } return groups; } GList *_poppler_document_get_layer_rbgroup(PopplerDocument *document, Layer *layer) { GList *l; for (l = document->layers_rbgroups; l && l->data; l = g_list_next(l)) { GList *group = (GList *)l->data; if (g_list_find(group, layer->oc)) { return group; } } return nullptr; } static GList *get_optional_content_items_sorted(OCGs *ocg, Layer *parent, Array *order) { GList *items = nullptr; Layer *last_item = parent; int i; for (i = 0; i < order->getLength(); ++i) { Object orderItem = order->get(i); if (orderItem.isDict()) { const Object &ref = order->getNF(i); if (ref.isRef()) { OptionalContentGroup *oc = ocg->findOcgByRef(ref.getRef()); Layer *layer = layer_new(oc); items = g_list_prepend(items, layer); last_item = layer; } } else if (orderItem.isArray() && orderItem.arrayGetLength() > 0) { if (!last_item) { last_item = layer_new(nullptr); items = g_list_prepend(items, last_item); } last_item->kids = get_optional_content_items_sorted(ocg, last_item, orderItem.getArray()); last_item = nullptr; } else if (orderItem.isString()) { last_item->label = _poppler_goo_string_to_utf8(orderItem.getString()); } } return g_list_reverse(items); } static GList *get_optional_content_items(OCGs *ocg) { Array *order; GList *items = nullptr; order = ocg->getOrderArray(); if (order) { items = get_optional_content_items_sorted(ocg, nullptr, order); } else { const auto &ocgs = ocg->getOCGs(); for (const auto &oc : ocgs) { Layer *layer = layer_new(oc.second.get()); items = g_list_prepend(items, layer); } items = g_list_reverse(items); } return items; } GList *_poppler_document_get_layers(PopplerDocument *document) { if (!document->layers) { Catalog *catalog = document->doc->getCatalog(); OCGs *ocg = catalog->getOptContentConfig(); if (!ocg) { return nullptr; } document->layers = get_optional_content_items(ocg); document->layers_rbgroups = get_optional_content_rbgroups(ocg); } return document->layers; } static void poppler_document_layers_free(PopplerDocument *document) { if (G_UNLIKELY(!document->layers)) { return; } g_list_free_full(document->layers, (GDestroyNotify)layer_free); g_list_free_full(document->layers_rbgroups, (GDestroyNotify)g_list_free); document->layers = nullptr; document->layers_rbgroups = nullptr; } /** * PopplerLayersIter: * * Interface for getting the Layers of a poppler_document * * Since 24.10 this type supports g_autoptr */ struct _PopplerLayersIter { PopplerDocument *document; GList *items; int index; }; G_DEFINE_BOXED_TYPE(PopplerLayersIter, poppler_layers_iter, poppler_layers_iter_copy, poppler_layers_iter_free) /** * poppler_layers_iter_copy: * @iter: a #PopplerLayersIter * * Creates a new #PopplerLayersIter as a copy of @iter. This must be freed with * poppler_layers_iter_free(). * * Return value: a new #PopplerLayersIter * * Since 0.12 **/ PopplerLayersIter *poppler_layers_iter_copy(PopplerLayersIter *iter) { PopplerLayersIter *new_iter; g_return_val_if_fail(iter != nullptr, NULL); new_iter = g_slice_dup(PopplerLayersIter, iter); new_iter->document = (PopplerDocument *)g_object_ref(new_iter->document); return new_iter; } /** * poppler_layers_iter_free: * @iter: a #PopplerLayersIter * * Frees @iter. * * Since: 0.12 **/ void poppler_layers_iter_free(PopplerLayersIter *iter) { if (G_UNLIKELY(iter == nullptr)) { return; } g_object_unref(iter->document); g_slice_free(PopplerLayersIter, iter); } /** * poppler_layers_iter_new: * @document: a #PopplerDocument * * Since: 0.12 **/ PopplerLayersIter *poppler_layers_iter_new(PopplerDocument *document) { PopplerLayersIter *iter; GList *items; items = _poppler_document_get_layers(document); if (!items) { return nullptr; } iter = g_slice_new0(PopplerLayersIter); iter->document = (PopplerDocument *)g_object_ref(document); iter->items = items; return iter; } /** * poppler_layers_iter_get_child: * @parent: a #PopplerLayersIter * * Returns a newly created child of @parent, or %NULL if the iter has no child. * See poppler_layers_iter_new() for more information on this function. * * Return value: a new #PopplerLayersIter, or %NULL * * Since: 0.12 **/ PopplerLayersIter *poppler_layers_iter_get_child(PopplerLayersIter *parent) { PopplerLayersIter *child; Layer *layer; g_return_val_if_fail(parent != nullptr, NULL); layer = (Layer *)g_list_nth_data(parent->items, parent->index); if (!layer || !layer->kids) { return nullptr; } child = g_slice_new0(PopplerLayersIter); child->document = (PopplerDocument *)g_object_ref(parent->document); child->items = layer->kids; g_assert(child->items); return child; } /** * poppler_layers_iter_get_title: * @iter: a #PopplerLayersIter * * Returns the title associated with @iter. It must be freed with * g_free(). * * Return value: a new string containing the @iter's title or %NULL if @iter doesn't have a title. * The returned string should be freed with g_free() when no longer needed. * * Since: 0.12 **/ gchar *poppler_layers_iter_get_title(PopplerLayersIter *iter) { Layer *layer; g_return_val_if_fail(iter != nullptr, NULL); layer = (Layer *)g_list_nth_data(iter->items, iter->index); return layer->label ? g_strdup(layer->label) : nullptr; } /** * poppler_layers_iter_get_layer: * @iter: a #PopplerLayersIter * * Returns the #PopplerLayer associated with @iter. * * Return value: (transfer full): a new #PopplerLayer, or %NULL if * there isn't any layer associated with @iter * * Since: 0.12 **/ PopplerLayer *poppler_layers_iter_get_layer(PopplerLayersIter *iter) { Layer *layer; PopplerLayer *poppler_layer = nullptr; g_return_val_if_fail(iter != nullptr, NULL); layer = (Layer *)g_list_nth_data(iter->items, iter->index); if (layer->oc) { GList *rb_group = nullptr; rb_group = _poppler_document_get_layer_rbgroup(iter->document, layer); poppler_layer = _poppler_layer_new(iter->document, layer, rb_group); } return poppler_layer; } /** * poppler_layers_iter_next: * @iter: a #PopplerLayersIter * * Sets @iter to point to the next action at the current level, if valid. See * poppler_layers_iter_new() for more information. * * Return value: %TRUE, if @iter was set to the next action * * Since: 0.12 **/ gboolean poppler_layers_iter_next(PopplerLayersIter *iter) { g_return_val_if_fail(iter != nullptr, FALSE); iter->index++; if (iter->index >= (gint)g_list_length(iter->items)) { return FALSE; } return TRUE; } typedef struct _PopplerPSFileClass PopplerPSFileClass; struct _PopplerPSFileClass { GObjectClass parent_class; }; /** * PopplerPsFile: * * Interface for exporting to ps * * Since 24.10 this type supports g_autoptr */ G_DEFINE_TYPE(PopplerPSFile, poppler_ps_file, G_TYPE_OBJECT) static void poppler_ps_file_finalize(GObject *object); static void poppler_ps_file_class_init(PopplerPSFileClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS(klass); gobject_class->finalize = poppler_ps_file_finalize; } static void poppler_ps_file_init(PopplerPSFile *ps_file) { ps_file->out = nullptr; ps_file->fd = -1; ps_file->filename = nullptr; ps_file->paper_width = -1; ps_file->paper_height = -1; ps_file->duplex = FALSE; } static void poppler_ps_file_finalize(GObject *object) { PopplerPSFile *ps_file = POPPLER_PS_FILE(object); delete ps_file->out; g_object_unref(ps_file->document); g_free(ps_file->filename); #ifndef G_OS_WIN32 if (ps_file->fd != -1) { close(ps_file->fd); } #endif /* !G_OS_WIN32 */ G_OBJECT_CLASS(poppler_ps_file_parent_class)->finalize(object); } /** * poppler_ps_file_new: * @document: a #PopplerDocument * @filename: the path of the output filename * @first_page: the first page to print * @n_pages: the number of pages to print * * Create a new postscript file to render to * * Return value: (transfer full): a PopplerPSFile **/ PopplerPSFile *poppler_ps_file_new(PopplerDocument *document, const char *filename, int first_page, int n_pages) { PopplerPSFile *ps_file; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), NULL); g_return_val_if_fail(filename != nullptr, NULL); g_return_val_if_fail(n_pages > 0, NULL); ps_file = (PopplerPSFile *)g_object_new(POPPLER_TYPE_PS_FILE, nullptr); ps_file->document = (PopplerDocument *)g_object_ref(document); ps_file->filename = g_strdup(filename); ps_file->first_page = first_page + 1; ps_file->last_page = first_page + 1 + n_pages - 1; return ps_file; } #ifndef G_OS_WIN32 /** * poppler_ps_file_new_fd: * @document: a #PopplerDocument * @fd: a valid file descriptor open for writing * @first_page: the first page to print * @n_pages: the number of pages to print * * Create a new postscript file to render to. * Note that this function takes ownership of @fd; you must not operate on it * again, nor close it. * * Return value: (transfer full): a #PopplerPSFile * * Since: 21.12.0 **/ PopplerPSFile *poppler_ps_file_new_fd(PopplerDocument *document, int fd, int first_page, int n_pages) { PopplerPSFile *ps_file; g_return_val_if_fail(POPPLER_IS_DOCUMENT(document), nullptr); g_return_val_if_fail(fd != -1, nullptr); g_return_val_if_fail(n_pages > 0, nullptr); ps_file = (PopplerPSFile *)g_object_new(POPPLER_TYPE_PS_FILE, nullptr); ps_file->document = (PopplerDocument *)g_object_ref(document); ps_file->fd = fd; ps_file->first_page = first_page + 1; ps_file->last_page = first_page + 1 + n_pages - 1; return ps_file; } #endif /* !G_OS_WIN32 */ /** * poppler_ps_file_set_paper_size: * @ps_file: a PopplerPSFile which was not yet printed to. * @width: the paper width in 1/72 inch * @height: the paper height in 1/72 inch * * Set the output paper size. These values will end up in the * DocumentMedia, the BoundingBox DSC comments and other places in the * generated PostScript. * **/ void poppler_ps_file_set_paper_size(PopplerPSFile *ps_file, double width, double height) { g_return_if_fail(ps_file->out == nullptr); ps_file->paper_width = width; ps_file->paper_height = height; } /** * poppler_ps_file_set_duplex: * @ps_file: a PopplerPSFile which was not yet printed to * @duplex: whether to force duplex printing (on printers which support this) * * Enable or disable Duplex printing. * **/ void poppler_ps_file_set_duplex(PopplerPSFile *ps_file, gboolean duplex) { g_return_if_fail(ps_file->out == nullptr); ps_file->duplex = duplex; } /** * poppler_ps_file_free: * @ps_file: a PopplerPSFile * * Frees @ps_file * **/ void poppler_ps_file_free(PopplerPSFile *ps_file) { g_return_if_fail(ps_file != nullptr); g_object_unref(ps_file); } /** * poppler_document_get_form_field: * @document: a #PopplerDocument * @id: an id of a #PopplerFormField * * Returns the #PopplerFormField for the given @id. It must be freed with * g_object_unref() * * Return value: (transfer full): a new #PopplerFormField or %NULL if * not found **/ PopplerFormField *poppler_document_get_form_field(PopplerDocument *document, gint id) { Page *page; unsigned pageNum; unsigned fieldNum; FormWidget *field; FormWidget::decodeID(id, &pageNum, &fieldNum); page = document->doc->getPage(pageNum); if (!page) { return nullptr; } const std::unique_ptr widgets = page->getFormWidgets(); if (!widgets) { return nullptr; } field = widgets->getWidget(fieldNum); if (field) { return _poppler_form_field_new(document, field); } return nullptr; } gboolean _poppler_convert_pdf_date_to_gtime(const GooString *date, time_t *gdate) { gchar *date_string; gboolean retval; if (hasUnicodeByteOrderMark(date->toStr())) { date_string = g_convert(date->c_str() + 2, date->getLength() - 2, "UTF-8", "UTF-16BE", nullptr, nullptr, nullptr); } else { date_string = g_strndup(date->c_str(), date->getLength()); } retval = poppler_date_parse(date_string, gdate); g_free(date_string); return retval; } /** * _poppler_convert_pdf_date_to_date_time: * @date: a PDF date * * Converts the PDF date in @date to a #GDateTime. * * Returns: The converted date, or %NULL on error. **/ GDateTime *_poppler_convert_pdf_date_to_date_time(const GooString *date) { GDateTime *date_time = nullptr; GTimeZone *time_zone = nullptr; int year, mon, day, hour, min, sec, tzHours, tzMins; char tz; if (parseDateString(date, &year, &mon, &day, &hour, &min, &sec, &tz, &tzHours, &tzMins)) { if (tz == '+' || tz == '-') { gchar *identifier; identifier = g_strdup_printf("%c%02u:%02u", tz, tzHours, tzMins); #if GLIB_CHECK_VERSION(2, 68, 0) time_zone = g_time_zone_new_identifier(identifier); if (!time_zone) { g_debug("Failed to create time zone for identifier \"%s\"", identifier); time_zone = g_time_zone_new_utc(); } #else time_zone = g_time_zone_new(identifier); #endif g_free(identifier); } else if (tz == '\0' || tz == 'Z') { time_zone = g_time_zone_new_utc(); } else { g_warning("unexpected tz val '%c'", tz); time_zone = g_time_zone_new_utc(); } date_time = g_date_time_new(time_zone, year, mon, day, hour, min, sec); g_time_zone_unref(time_zone); } return date_time; } /** * _poppler_convert_date_time_to_pdf_date: * @datetime: a #GDateTime * * Converts a #GDateTime to a PDF date. * * Returns: The converted date **/ GooString *_poppler_convert_date_time_to_pdf_date(GDateTime *datetime) { int offset_min; gchar *date_str; std::string out_str; offset_min = g_date_time_get_utc_offset(datetime) / 1000000 / 60; date_str = g_date_time_format(datetime, "D:%Y%m%d%H%M%S"); if (offset_min == 0) { out_str = GooString::format("{0:s}Z", date_str); } else { char tz = offset_min > 0 ? '+' : '-'; out_str = GooString::format("{0:s}{1:c}{2:02d}'{3:02d}'", date_str, tz, offset_min / 60, offset_min % 60); } g_free(date_str); return new GooString(std::move(out_str)); } static void _poppler_sign_document_thread(GTask *task, PopplerDocument *document, const PopplerSigningData *signing_data, GCancellable *cancellable) { const PopplerCertificateInfo *certificate_info; const char *signing_data_signature_text; const PopplerColor *font_color; const PopplerColor *border_color; const PopplerColor *background_color; gboolean ret; g_return_if_fail(POPPLER_IS_DOCUMENT(document)); g_return_if_fail(signing_data != nullptr); signing_data_signature_text = poppler_signing_data_get_signature_text(signing_data); if (signing_data_signature_text == nullptr) { g_task_return_new_error(task, POPPLER_ERROR, POPPLER_ERROR_SIGNING, "No signature given"); return; } certificate_info = poppler_signing_data_get_certificate_info(signing_data); if (certificate_info == nullptr) { g_task_return_new_error(task, POPPLER_ERROR, POPPLER_ERROR_SIGNING, "Invalid certificate information provided for signing"); return; } PopplerPage *page = poppler_document_get_page(document, poppler_signing_data_get_page(signing_data)); if (page == nullptr) { g_task_return_new_error(task, POPPLER_ERROR, POPPLER_ERROR_SIGNING, "Invalid page number selected for signing"); return; } font_color = poppler_signing_data_get_font_color(signing_data); border_color = poppler_signing_data_get_border_color(signing_data); background_color = poppler_signing_data_get_background_color(signing_data); std::unique_ptr signature_text = std::make_unique(utf8ToUtf16WithBom(signing_data_signature_text)); std::unique_ptr signature_text_left = std::make_unique(utf8ToUtf16WithBom(poppler_signing_data_get_signature_text_left(signing_data))); const auto field_partial_name = new GooString(poppler_signing_data_get_field_partial_name(signing_data), strlen(poppler_signing_data_get_field_partial_name(signing_data))); const auto owner_pwd = std::optional(poppler_signing_data_get_document_owner_password(signing_data)); const auto user_pwd = std::optional(poppler_signing_data_get_document_user_password(signing_data)); const auto reason = std::unique_ptr(poppler_signing_data_get_reason(signing_data) ? new GooString(poppler_signing_data_get_reason(signing_data), strlen(poppler_signing_data_get_reason(signing_data))) : nullptr); const auto location = std::unique_ptr(poppler_signing_data_get_location(signing_data) ? new GooString(poppler_signing_data_get_location(signing_data), strlen(poppler_signing_data_get_location(signing_data))) : nullptr); const PopplerRectangle *rect = poppler_signing_data_get_signature_rectangle(signing_data); ret = document->doc->sign(poppler_signing_data_get_destination_filename(signing_data), poppler_certificate_info_get_id((PopplerCertificateInfo *)certificate_info), poppler_signing_data_get_password(signing_data) ? poppler_signing_data_get_password(signing_data) : "", field_partial_name, poppler_signing_data_get_page(signing_data) + 1, PDFRectangle(rect->x1, rect->y1, rect->x2, rect->y2), *signature_text, *signature_text_left, poppler_signing_data_get_font_size(signing_data), poppler_signing_data_get_left_font_size(signing_data), _poppler_convert_poppler_color_to_annot_color(font_color), poppler_signing_data_get_border_width(signing_data), _poppler_convert_poppler_color_to_annot_color(border_color), _poppler_convert_poppler_color_to_annot_color(background_color), reason.get(), location.get(), poppler_signing_data_get_image_path(signing_data) ? poppler_signing_data_get_image_path(signing_data) : "", owner_pwd, user_pwd); g_task_return_boolean(task, ret); } /** * poppler_document_sign: * @document: a #PopplerDocument * @signing_data: a #PopplerSigningData * @cancellable: a #GCancellable * @callback: a #GAsyncReadyCallback * @user_data: user data used by callback function * * Sign #document using #signing_data. * * Since: 23.07.0 **/ void poppler_document_sign(PopplerDocument *document, const PopplerSigningData *signing_data, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GTask *task; g_return_if_fail(POPPLER_IS_DOCUMENT(document)); g_return_if_fail(signing_data != nullptr); task = g_task_new(document, cancellable, callback, user_data); g_task_set_task_data(task, (void *)signing_data, nullptr); g_task_run_in_thread(task, (GTaskThreadFunc)_poppler_sign_document_thread); g_object_unref(task); } /** * poppler_document_sign_finish: * @document: a #PopplerDocument * @result: a #GAsyncResult * @error: a #GError * * Finish poppler_sign_document and get return status or error. * * Returns: %TRUE on successful signing a document, otherwise %FALSE and error is set. * * Since: 23.07.0 **/ gboolean poppler_document_sign_finish(PopplerDocument *document, GAsyncResult *result, GError **error) { g_return_val_if_fail(g_task_is_valid(result, document), FALSE); return g_task_propagate_boolean(G_TASK(result), error); }