File: //snap/cups/1100/usr/include/qpdf/QPDFAcroFormDocumentHelper.hh
// Copyright (c) 2005-2021 Jay Berkenbilt
// Copyright (c) 2022-2025 Jay Berkenbilt and Manfred Holger
//
// This file is part of qpdf.
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
// in compliance with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software distributed under the License
// is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
// or implied. See the License for the specific language governing permissions and limitations under
// the License.
//
// Versions of qpdf prior to version 7 were released under the terms of version 2.0 of the Artistic
// License. At your option, you may continue to consider qpdf to be licensed under those terms.
// Please see the manual for additional information.
#ifndef QPDFACROFORMDOCUMENTHELPER_HH
#define QPDFACROFORMDOCUMENTHELPER_HH
// This document helper is intended to help with operations on interactive forms. Here are the key
// things to know:
// * The PDF specification talks about interactive forms and also about form XObjects. While form
// XObjects appear in parts of interactive forms, this class is concerned about interactive forms,
// not form XObjects.
//
// * Interactive forms are discussed in the PDF Specification (ISO PDF 32000-1:2008) section 12.7.
// Also relevant is the section about Widget annotations. Annotations are discussed in section
// 12.5 with annotation dictionaries discussed in 12.5.1. Widget annotations are discussed
// specifically in section 12.5.6.19.
//
// * What you need to know about the structure of interactive forms in PDF files:
//
// - The document catalog contains the key "/AcroForm" which contains a list of fields. Fields are
// represented as a tree structure much like pages. Nodes in the fields tree may contain other
// fields. Fields may inherit values of many of their attributes from ancestors in the tree.
//
// - Fields may also have children that are widget annotations. As a special case, and a cause of
// considerable confusion, if a field has a single annotation as a child, the annotation
// dictionary may be merged with the field dictionary. In that case, the field and the
// annotation are in the same object. Note that, while field dictionary attributes are
// inherited, annotation dictionary attributes are not.
//
// - A page dictionary contains a key called "/Annots" which contains a simple list of
// annotations. For any given annotation of subtype "/Widget", you should encounter that
// annotation in the "/Annots" dictionary of a page, and you should also be able to reach it by
// traversing through the "/AcroForm" dictionary from the document catalog. In the simplest case
// (and also a very common case), a form field's widget annotation will be merged with the field
// object, and the object will appear directly both under "/Annots" in the page dictionary and
// under "/Fields" in the "/AcroForm" dictionary. In a more complex case, you may have to trace
// through various "/Kids" elements in the "/AcroForm" field entry until you find the annotation
// dictionary.
#include <qpdf/QPDFDocumentHelper.hh>
#include <qpdf/DLL.h>
#include <qpdf/QPDFAnnotationObjectHelper.hh>
#include <qpdf/QPDFFormFieldObjectHelper.hh>
#include <qpdf/QPDFPageObjectHelper.hh>
#include <map>
#include <set>
#include <vector>
class QPDFAcroFormDocumentHelper: public QPDFDocumentHelper
{
public:
QPDF_DLL
QPDFAcroFormDocumentHelper(QPDF&);
QPDF_DLL
~QPDFAcroFormDocumentHelper() override = default;
// This class lazily creates an internal cache of the mapping among form fields, annotations,
// and pages. Methods within this class preserve the validity of this cache. However, if you
// modify pages' annotation dictionaries, the document's /AcroForm dictionary, or any form
// fields manually in a way that alters the association between forms, fields, annotations, and
// pages, it may cause this cache to become invalid. This method marks the cache invalid and
// forces it to be regenerated the next time it is needed.
QPDF_DLL
void invalidateCache();
QPDF_DLL
bool hasAcroForm();
// Add a form field, initializing the document's AcroForm dictionary if needed, updating the
// cache if necessary. Note that you are adding fields that are copies of other fields, this
// method may result in multiple fields existing with the same qualified name, which can have
// unexpected side effects. In that case, you should use addAndRenameFormFields() instead.
QPDF_DLL
void addFormField(QPDFFormFieldObjectHelper);
// Add a collection of form fields making sure that their fully qualified names don't conflict
// with already present form fields. Fields within the collection of new fields that have the
// same name as each other will continue to do so.
QPDF_DLL
void addAndRenameFormFields(std::vector<QPDFObjectHandle> fields);
// Remove fields from the fields array
QPDF_DLL
void removeFormFields(std::set<QPDFObjGen> const&);
// Set the name of a field, updating internal records of field names. Name should be UTF-8
// encoded.
QPDF_DLL
void setFormFieldName(QPDFFormFieldObjectHelper, std::string const& name);
// Return a vector of all terminal fields in a document. Terminal fields are fields that have no
// children that are also fields. Terminal fields may still have children that are annotations.
// Intermediate nodes in the fields tree are not included in this list, but you can still reach
// them through the getParent method of the field object helper.
QPDF_DLL
std::vector<QPDFFormFieldObjectHelper> getFormFields();
// Return all the form fields that have the given fully-qualified name and also have an explicit
// "/T" attribute. For this information to be accurate, any changes to field names must be done
// through setFormFieldName() above.
QPDF_DLL
std::set<QPDFObjGen> getFieldsWithQualifiedName(std::string const& name);
// Return the annotations associated with a terminal field. Note that in the case of a field
// having a single annotation, the underlying object will typically be the same as the
// underlying object for the field.
QPDF_DLL
std::vector<QPDFAnnotationObjectHelper> getAnnotationsForField(QPDFFormFieldObjectHelper);
// Return annotations of subtype /Widget for a page.
QPDF_DLL
std::vector<QPDFAnnotationObjectHelper> getWidgetAnnotationsForPage(QPDFPageObjectHelper);
// Return top-level form fields for a page.
QPDF_DLL
std::vector<QPDFFormFieldObjectHelper> getFormFieldsForPage(QPDFPageObjectHelper);
// Return the terminal field that is associated with this annotation. If the annotation
// dictionary is merged with the field dictionary, the underlying object will be the same, but
// this is not always the case. Note that if you call this method with an annotation that is not
// a widget annotation, there will not be an associated field, and this method will return a
// helper associated with a null object (isNull() == true).
QPDF_DLL
QPDFFormFieldObjectHelper getFieldForAnnotation(QPDFAnnotationObjectHelper);
// Return the current value of /NeedAppearances. If /NeedAppearances is missing, return false as
// that is how PDF viewers are supposed to interpret it.
QPDF_DLL
bool getNeedAppearances();
// Indicate whether appearance streams must be regenerated. If you modify a field value, you
// should call setNeedAppearances(true) unless you also generate an appearance stream for the
// corresponding annotation at the same time. If you generate appearance streams for all fields,
// you can call setNeedAppearances(false). If you use QPDFFormFieldObjectHelper::setV, it will
// automatically call this method unless you tell it not to.
QPDF_DLL
void setNeedAppearances(bool);
// If /NeedAppearances is false, do nothing. Otherwise generate appearance streams for all
// widget annotations that need them. See comments in QPDFFormFieldObjectHelper.hh for
// generateAppearance for limitations. For checkbox and radio button fields, this code ensures
// that appearance state is consistent with the field's value and uses any pre-existing
// appearance streams.
QPDF_DLL
void generateAppearancesIfNeeded();
// Disable Digital Signature Fields. Remove all digital signature fields from the document,
// leaving any annotation showing the content of the field intact. This also calls
// QPDF::removeSecurityRestrictions.
QPDF_DLL
void disableDigitalSignatures();
// Note: this method works on all annotations, not just ones with associated fields. For each
// annotation in old_annots, apply the given transformation matrix to create a new annotation.
// New annotations are appended to new_annots. If the annotation is associated with a form
// field, a new form field is created that points to the new annotation and is appended to
// new_fields, and the old field is added to old_fields.
//
// old_annots may belong to a different QPDF object. In that case, you should pass in from_qpdf,
// and copyForeignObject will be called automatically. If this is the case, for efficiency, you
// may pass in a QPDFAcroFormDocumentHelper for the other file to avoid the expensive process of
// creating one for each call to transformAnnotations. New fields and annotations are not added
// to the document or pages. You have to do that yourself after calling transformAnnotations. If
// this operation will leave orphaned fields behind, such as if you are replacing the old
// annotations with the new ones on the same page and the fields and annotations are not shared,
// you will also need to remove the old fields to prevent them from hanging around unreferenced.
QPDF_DLL
void transformAnnotations(
QPDFObjectHandle old_annots,
std::vector<QPDFObjectHandle>& new_annots,
std::vector<QPDFObjectHandle>& new_fields,
std::set<QPDFObjGen>& old_fields,
QPDFMatrix const& cm,
QPDF* from_qpdf = nullptr,
QPDFAcroFormDocumentHelper* from_afdh = nullptr);
// Copy form fields and annotations from one page to another, allowing the from page to be in a
// different QPDF or in the same QPDF. This would typically be called after calling addPage to
// add field/annotation awareness. When just copying the page by itself, annotations end up
// being shared, and fields end up being omitted because there is no reference to the field from
// the page. This method ensures that each separate copy of a page has private annotations and
// that fields and annotations are properly updated to resolve conflicts that may occur from
// common resource and field names across documents. It is basically a wrapper around
// transformAnnotations that handles updating the receiving page. If new_fields is non-null, any
// newly created fields are added to it.
QPDF_DLL
void fixCopiedAnnotations(
QPDFObjectHandle to_page,
QPDFObjectHandle from_page,
QPDFAcroFormDocumentHelper& from_afdh,
std::set<QPDFObjGen>* new_fields = nullptr);
private:
void analyze();
void traverseField(
QPDFObjectHandle field, QPDFObjectHandle parent, int depth, QPDFObjGen::set& visited);
QPDFObjectHandle getOrCreateAcroForm();
void adjustInheritedFields(
QPDFObjectHandle obj,
bool override_da,
std::string const& from_default_da,
bool override_q,
int from_default_q);
void adjustDefaultAppearances(
QPDFObjectHandle obj,
std::map<std::string, std::map<std::string, std::string>> const& dr_map);
void adjustAppearanceStream(
QPDFObjectHandle stream, std::map<std::string, std::map<std::string, std::string>> dr_map);
class Members
{
friend class QPDFAcroFormDocumentHelper;
public:
QPDF_DLL
~Members() = default;
private:
Members();
Members(Members const&) = delete;
bool cache_valid;
std::map<QPDFObjGen, std::vector<QPDFAnnotationObjectHelper>> field_to_annotations;
std::map<QPDFObjGen, QPDFFormFieldObjectHelper> annotation_to_field;
std::map<QPDFObjGen, std::string> field_to_name;
std::map<std::string, std::set<QPDFObjGen>> name_to_fields;
};
std::shared_ptr<Members> m;
};
#endif // QPDFACROFORMDOCUMENTHELPER_HH