#include <qpdf/QPDFAcroFormDocumentHelper.hh>

#include <qpdf/Pl_Buffer.hh>

#include <qpdf/QPDFObjectHandle_private.hh>

#include <qpdf/QPDFPageDocumentHelper.hh>

#include <qpdf/QPDF_private.hh>

#include <qpdf/QTC.hh>

#include <qpdf/QUtil.hh>

#include <qpdf/ResourceFinder.hh>

#include <deque>

#include <utility>

using namespace qpdf;

using namespace std::literals;

class QPDFAcroFormDocumentHelper::Members

{

  public:

    Members() = default;

    Members(Members const&) = delete;

    ~Members() = default;

    struct FieldData

    {

        std::vector<QPDFAnnotationObjectHelper> annotations;

        std::string name;

    };

    bool cache_valid{false};

    std::map<QPDFObjGen, FieldData> field_to;

    std::map<QPDFObjGen, QPDFFormFieldObjectHelper> annotation_to_field;

    std::map<std::string, std::set<QPDFObjGen>> name_to_fields;

};

QPDFAcroFormDocumentHelper::QPDFAcroFormDocumentHelper(QPDF& qpdf) :

    QPDFDocumentHelper(qpdf),

    m(std::make_shared<Members>())

{

    // We have to analyze up front. Otherwise, when we are adding annotations and fields, we are in

    // a temporarily unstable configuration where some widget annotations are not reachable.

    analyze();

}

QPDFAcroFormDocumentHelper&

QPDFAcroFormDocumentHelper::get(QPDF& qpdf)

{

    return qpdf.doc().acroform();

}

void

QPDFAcroFormDocumentHelper::validate(bool repair)

{

    invalidateCache();

    analyze();

}

void

QPDFAcroFormDocumentHelper::invalidateCache()

{

    m->cache_valid = false;

    m->field_to.clear();

    m->annotation_to_field.clear();

}

bool

QPDFAcroFormDocumentHelper::hasAcroForm()

{

    return qpdf.getRoot().hasKey("/AcroForm");

}

QPDFObjectHandle

QPDFAcroFormDocumentHelper::getOrCreateAcroForm()

{

    auto acroform = qpdf.getRoot().getKey("/AcroForm");

    if (!acroform.isDictionary()) {

        acroform = qpdf.getRoot().replaceKeyAndGetNew(

            "/AcroForm", qpdf.makeIndirectObject(QPDFObjectHandle::newDictionary()));

    }

    return acroform;

}

void

QPDFAcroFormDocumentHelper::addFormField(QPDFFormFieldObjectHelper ff)

{

    auto acroform = getOrCreateAcroForm();

    auto fields = acroform.getKey("/Fields");

    if (!fields.isArray()) {

        fields = acroform.replaceKeyAndGetNew("/Fields", QPDFObjectHandle::newArray());

    }

    fields.appendItem(ff.getObjectHandle());

    traverseField(ff.getObjectHandle(), {}, 0);

}

void

QPDFAcroFormDocumentHelper::addAndRenameFormFields(std::vector<QPDFObjectHandle> fields)

{

    analyze();

    std::map<std::string, std::string> renames;

    QPDFObjGen::set seen;

    for (std::list<QPDFObjectHandle> queue{fields.begin(), fields.end()}; !queue.empty();

         queue.pop_front()) {

        auto& obj = queue.front();

        if (seen.add(obj)) {

            auto kids = obj.getKey("/Kids");

            if (kids.isArray()) {

                for (auto const& kid: kids.aitems()) {

                    queue.push_back(kid);

                }

            }

            if (obj.hasKey("/T")) {

                // Find something we can append to the partial name that makes the fully qualified

                // name unique. When we find something, reuse the same suffix for all fields in this

                // group with the same name. We can only change the name of fields that have /T, and

                // this field's /T is always at the end of the fully qualified name, appending to /T

                // has the effect of appending the same thing to the fully qualified name.

                std::string old_name = QPDFFormFieldObjectHelper(obj).getFullyQualifiedName();

                if (!renames.contains(old_name)) {

                    std::string new_name = old_name;

                    int suffix = 0;

                    std::string append;

                    while (!getFieldsWithQualifiedName(new_name).empty()) {

                        ++suffix;

                        append = "+" + std::to_string(suffix);

                        new_name = old_name + append;

                    }

                    renames[old_name] = append;

                }

                std::string append = renames[old_name];

                if (!append.empty()) {

                    obj.replaceKey(

                        "/T",

                        QPDFObjectHandle::newUnicodeString(

                            obj.getKey("/T").getUTF8Value() + append));

                }

            }

        }

    }

    for (auto const& i: fields) {

        addFormField(i);

    }

}

void

QPDFAcroFormDocumentHelper::removeFormFields(std::set<QPDFObjGen> const& to_remove)

{

    auto acroform = qpdf.getRoot().getKey("/AcroForm");

    if (!acroform.isDictionary()) {

        return;

    }

    auto fields = acroform.getKey("/Fields");

    if (!fields.isArray()) {

        return;

    }

    for (auto const& og: to_remove) {

        auto it = m->field_to.find(og);

        if (it != m->field_to.end()) {

            for (auto aoh: it->second.annotations) {

                m->annotation_to_field.erase(aoh.getObjectHandle().getObjGen());

            }

            auto const& name = it->second.name;

            if (!name.empty()) {

                m->name_to_fields[name].erase(og);

                if (m->name_to_fields[name].empty()) {

                    m->name_to_fields.erase(name);

                }

            }

            m->field_to.erase(og);

        }

    }

    int i = 0;

    while (std::cmp_less(i, fields.size())) {

        auto field = fields.getArrayItem(i);

        if (to_remove.contains(field.getObjGen())) {

            fields.eraseItem(i);

        } else {

            ++i;

        }

    }

}

void

QPDFAcroFormDocumentHelper::setFormFieldName(QPDFFormFieldObjectHelper ff, std::string const& name)

{

    ff.setFieldAttribute("/T", name);

    traverseField(ff, ff["/Parent"], 0);

}

std::vector<QPDFFormFieldObjectHelper>

QPDFAcroFormDocumentHelper::getFormFields()

{

    analyze();

    std::vector<QPDFFormFieldObjectHelper> result;

    for (auto const& [og, data]: m->field_to) {

        if (!data.annotations.empty()) {

            result.emplace_back(qpdf.getObject(og));

        }

    }

    return result;

}

std::set<QPDFObjGen>

QPDFAcroFormDocumentHelper::getFieldsWithQualifiedName(std::string const& name)

{

    analyze();

    // Keep from creating an empty entry

    auto iter = m->name_to_fields.find(name);

    if (iter != m->name_to_fields.end()) {

        return iter->second;

    }

    return {};

}

std::vector<QPDFAnnotationObjectHelper>

QPDFAcroFormDocumentHelper::getAnnotationsForField(QPDFFormFieldObjectHelper h)

{

    analyze();

    std::vector<QPDFAnnotationObjectHelper> result;

    QPDFObjGen og(h.getObjectHandle().getObjGen());

    if (m->field_to.contains(og)) {

        result = m->field_to[og].annotations;

    }

    return result;

}

std::vector<QPDFAnnotationObjectHelper>

QPDFAcroFormDocumentHelper::getWidgetAnnotationsForPage(QPDFPageObjectHelper h)

{

    return h.getAnnotations("/Widget");

}

std::vector<QPDFFormFieldObjectHelper>

QPDFAcroFormDocumentHelper::getFormFieldsForPage(QPDFPageObjectHelper ph)

{

    analyze();

    QPDFObjGen::set todo;

    std::vector<QPDFFormFieldObjectHelper> result;

    for (auto& annot: getWidgetAnnotationsForPage(ph)) {

        auto field = getFieldForAnnotation(annot).getTopLevelField();

        if (todo.add(field) && field.getObjectHandle().isDictionary()) {

            result.push_back(field);

        }

    }

    return result;

}

QPDFFormFieldObjectHelper

QPDFAcroFormDocumentHelper::getFieldForAnnotation(QPDFAnnotationObjectHelper h)

{

    QPDFObjectHandle oh = h.getObjectHandle();

    if (!oh.isDictionaryOfType("", "/Widget")) {

        return Null::temp();

    }

    analyze();

    QPDFObjGen og(oh.getObjGen());

    if (m->annotation_to_field.contains(og)) {

        return m->annotation_to_field[og];

    }

    return Null::temp();

}

void

QPDFAcroFormDocumentHelper::analyze()

{

    if (m->cache_valid) {

        return;

    }

    m->cache_valid = true;

    QPDFObjectHandle acroform = qpdf.getRoot().getKey("/AcroForm");

    if (!(acroform.isDictionary() && acroform.hasKey("/Fields"))) {

        return;

    }

    QPDFObjectHandle fields = acroform.getKey("/Fields");

    if (Array fa = fields) {

        // Traverse /AcroForm to find annotations and map them bidirectionally to fields.

        for (auto const& field: fa) {

            traverseField(field, {}, 0);

        }

    } else {

        acroform.warn("/Fields key of /AcroForm dictionary is not an array; ignoring");

        fields = Array::empty();

    }

    // All Widget annotations should have been encountered by traversing /AcroForm, but in case any

    // weren't, find them by walking through pages, and treat any widget annotation that is not

    // associated with a field as its own field. This just ensures that requesting the field for any

    // annotation we find through a page's /Annots list will have some associated field. Note that

    // a file that contains this kind of error will probably not

    // actually work with most viewers.

    for (auto const& ph: QPDFPageDocumentHelper(qpdf).getAllPages()) {

        for (auto const& iter: getWidgetAnnotationsForPage(ph)) {

            QPDFObjectHandle annot(iter.getObjectHandle());

            QPDFObjGen og(annot.getObjGen());

            if (!m->annotation_to_field.contains(og)) {

                // This is not supposed to happen, but it's easy enough for us to handle this case.

                // Treat the annotation as its own field. This could allow qpdf to sensibly handle a

                // case such as a PDF creator adding a self-contained annotation (merged with the

                // field dictionary) to the page's /Annots array and forgetting to also put it in

                // /AcroForm.

                annot.warn(

                    "this widget annotation is not reachable from /AcroForm in the document "

                    "catalog");

                m->annotation_to_field[og] = QPDFFormFieldObjectHelper(annot);

                m->field_to[og].annotations.emplace_back(annot);

            }

        }

    }

}

void

QPDFAcroFormDocumentHelper::traverseField(

    QPDFObjectHandle field, QPDFObjectHandle const& parent, int depth)

{

    if (depth > 100) {

        // Arbitrarily cut off recursion at a fixed depth to avoid specially crafted files that

        // could cause stack overflow.

        return;

    }

    if (!field.indirect()) {

        field.warn(

            "encountered a direct object as a field or annotation while traversing /AcroForm; "

            "ignoring field or annotation");

        return;

    }

    if (field == parent) {

        field.warn("loop detected while traversing /AcroForm");

        return;

    }

    if (!field.isDictionary()) {

        field.warn(

            "encountered a non-dictionary as a field or annotation while traversing /AcroForm; "

            "ignoring field or annotation");

        return;

    }

    QPDFObjGen og(field.getObjGen());

    if (m->field_to.contains(og) || m->annotation_to_field.contains(og)) {

        field.warn("loop detected while traversing /AcroForm");

        return;

    }

    // A dictionary encountered while traversing the /AcroForm field may be a form field, an

    // annotation, or the merger of the two. A field that has no fields below it is a terminal. If a

    // terminal field looks like an annotation, it is an annotation because annotation dictionary

    // fields can be merged with terminal field dictionaries. Otherwise, the annotation fields might

    // be there to be inherited by annotations below it.

    Array Kids = field["/Kids"];

    const bool is_field = depth == 0 || Kids || field.hasKey("/Parent");

    const bool is_annotation =

        !Kids && (field.hasKey("/Subtype") || field.hasKey("/Rect") || field.hasKey("/AP"));

    QTC::TC("qpdf", "QPDFAcroFormDocumentHelper field found", (depth == 0) ? 0 : 1);

    QTC::TC("qpdf", "QPDFAcroFormDocumentHelper annotation found", (is_field ? 0 : 1));

    if (is_annotation) {

        QPDFObjectHandle our_field = (is_field ? field : parent);

        m->field_to[our_field.getObjGen()].annotations.emplace_back(field);

        m->annotation_to_field[og] = QPDFFormFieldObjectHelper(our_field);

    }

    if (is_field && depth != 0 && field["/Parent"] != parent) {

        for (auto const& kid: Array(field["/Parent"]["/Kids"])) {

            if (kid == parent) {

                field.warn("loop detected while traversing /AcroForm");

                return;

            }

        }

        field.warn("encountered invalid /Parent entry while traversing /AcroForm; correcting");

        field.replaceKey("/Parent", parent);

    }

    if (is_field && field.hasKey("/T")) {

        QPDFFormFieldObjectHelper foh(field);

        std::string name = foh.getFullyQualifiedName();

        auto old = m->field_to.find(og);

        if (old != m->field_to.end() && !old->second.name.empty()) {

            // We might be updating after a name change, so remove any old information

            m->name_to_fields[old->second.name].erase(og);

        }

        m->field_to[og].name = name;

        m->name_to_fields[name].insert(og);

    }

    for (auto const& kid: Kids) {

        traverseField(kid, field, 1 + depth);

    }

}

bool

QPDFAcroFormDocumentHelper::getNeedAppearances()

{

    bool result = false;

    QPDFObjectHandle acroform = qpdf.getRoot().getKey("/AcroForm");

    if (acroform.isDictionary() && acroform.getKey("/NeedAppearances").isBool()) {

        result = acroform.getKey("/NeedAppearances").getBoolValue();

    }

    return result;

}

void

QPDFAcroFormDocumentHelper::setNeedAppearances(bool val)

{

    QPDFObjectHandle acroform = qpdf.getRoot().getKey("/AcroForm");

    if (!acroform.isDictionary()) {

        qpdf.getRoot().warn(

            "ignoring call to QPDFAcroFormDocumentHelper::setNeedAppearances"

            " on a file that lacks an /AcroForm dictionary");

        return;

    }

    if (val) {

        acroform.replaceKey("/NeedAppearances", QPDFObjectHandle::newBool(true));

    } else {

        acroform.removeKey("/NeedAppearances");

    }

}

void

QPDFAcroFormDocumentHelper::generateAppearancesIfNeeded()

{

    if (!getNeedAppearances()) {

        return;

    }

    for (auto const& page: QPDFPageDocumentHelper(qpdf).getAllPages()) {

        for (auto& aoh: getWidgetAnnotationsForPage(page)) {

            QPDFFormFieldObjectHelper ffh = getFieldForAnnotation(aoh);

            if (ffh.getFieldType() == "/Btn") {

                // Rather than generating appearances for button fields, rely on what's already

                // there. Just make sure /AS is consistent with /V, which we can do by resetting the

                // value of the field back to itself. This code is referenced in a comment in

                // QPDFFormFieldObjectHelper::generateAppearance.

                if (ffh.isRadioButton() || ffh.isCheckbox()) {

                    ffh.setV(ffh.getValue());

                }

            } else {

                ffh.generateAppearance(aoh);

            }

        }

    }

    setNeedAppearances(false);

}

void

QPDFAcroFormDocumentHelper::disableDigitalSignatures()

{

    qpdf.removeSecurityRestrictions();

    std::set<QPDFObjGen> to_remove;

    auto fields = getFormFields();

    for (auto& f: fields) {

        auto ft = f.getFieldType();

        if (ft == "/Sig") {

            auto oh = f.getObjectHandle();

            to_remove.insert(oh.getObjGen());

            // Make this no longer a form field. If it's also an annotation, the annotation will

            // survive. If it's only a field and is no longer referenced, it will disappear.

            oh.removeKey("/FT");

            // Remove fields that are specific to signature fields.

            oh.removeKey("/V");

            oh.removeKey("/SV");

            oh.removeKey("/Lock");

        }

    }

    removeFormFields(to_remove);

}

void

QPDFAcroFormDocumentHelper::adjustInheritedFields(

    QPDFObjectHandle obj,

    bool override_da,

    std::string const& from_default_da,

    bool override_q,

    int from_default_q)

{

    if (!(override_da || override_q)) {

        return;

    }

    // Override /Q or /DA if needed. If this object has a field type, directly or inherited, it is a

    // field and not just an annotation. In that case, we need to override if we are getting a value

    // from the document that is different from the value we would have gotten from the old

    // document. We must take care not to override an explicit value. It's possible that /FT may be

    // inherited by lower fields that may explicitly set /DA or /Q or that this is a field whose

    // type does not require /DA or /Q and we may be put a value on the field that is unused. This

    // is harmless, so it's not worth trying to work around.

    auto has_explicit = [](QPDFFormFieldObjectHelper& field, std::string const& key) {

        if (field.getObjectHandle().hasKey(key)) {

            return true;

        }

        return !field.getInheritableFieldValue(key).null();

    };

    if (override_da || override_q) {

        QPDFFormFieldObjectHelper cur_field(obj);

        if (override_da && (!has_explicit(cur_field, "/DA"))) {

            std::string da = cur_field.getDefaultAppearance();

            if (da != from_default_da) {

                obj.replaceKey("/DA", QPDFObjectHandle::newUnicodeString(from_default_da));

            }

        }

        if (override_q && (!has_explicit(cur_field, "/Q"))) {

            int q = cur_field.getQuadding();

            if (q != from_default_q) {

                obj.replaceKey("/Q", QPDFObjectHandle::newInteger(from_default_q));

            }

        }

    }

}

namespace

{

    class ResourceReplacer: public QPDFObjectHandle::TokenFilter

    {

      public:

        ResourceReplacer(

            std::map<std::string, std::map<std::string, std::string>> const& dr_map,

            std::map<std::string, std::map<std::string, std::vector<size_t>>> const& rnames);

        ~ResourceReplacer() override = default;

        void handleToken(QPDFTokenizer::Token const&) override;

      private:

        size_t offset{0};

        std::map<std::string, std::map<size_t, std::string>> to_replace;

    };

} // namespace

ResourceReplacer::ResourceReplacer(

    std::map<std::string, std::map<std::string, std::string>> const& dr_map,

    std::map<std::string, std::map<std::string, std::vector<size_t>>> const& rnames)

{

    // We have:

    // * dr_map[resource_type][key] == new_key

    // * rnames[resource_type][key] == set of offsets

    //

    // We want:

    // * to_replace[key][offset] = new_key

    for (auto const& [rtype, key_offsets]: rnames) {

        auto dr_map_rtype = dr_map.find(rtype);

        if (dr_map_rtype == dr_map.end()) {

            continue;

        }

        for (auto const& [old_key, offsets]: key_offsets) {

            auto dr_map_rtype_old = dr_map_rtype->second.find(old_key);

            if (dr_map_rtype_old == dr_map_rtype->second.end()) {

                continue;

            }

            for (auto const& offs: offsets) {

                to_replace[old_key][offs] = dr_map_rtype_old->second;

            }

        }

    }

}

void

ResourceReplacer::handleToken(QPDFTokenizer::Token const& token)

{

    if (token.getType() == QPDFTokenizer::tt_name) {

        auto it1 = to_replace.find(token.getValue());

        if (it1 != to_replace.end()) {

            auto it2 = it1->second.find(offset);

            if (it2 != it1->second.end()) {

                QTC::TC("qpdf", "QPDFAcroFormDocumentHelper replaced DA token");

                write(it2->second);

                offset += token.getRawValue().length();

                return;

            }

        }

    }

    offset += token.getRawValue().length();

    writeToken(token);

}

void

QPDFAcroFormDocumentHelper::adjustDefaultAppearances(

    QPDFObjectHandle obj, std::map<std::string, std::map<std::string, std::string>> const& dr_map)

{

    // This method is called on a field that has been copied from another file but whose /DA still

    // refers to resources in the original file's /DR.

    // When appearance streams are generated for variable text fields (see ISO 32000 PDF spec

    // section 12.7.3.3), the field's /DA is used to generate content of the appearance stream. /DA

    // contains references to resources that may be resolved in the document's /DR dictionary, which

    // appears in the document's /AcroForm dictionary. For fields that we copied from other

    // documents, we need to ensure that resources are mapped correctly in the case of conflicting

    // names. For example, if a.pdf's /DR has /F1 pointing to one font and b.pdf's /DR also has /F1

    // but it points elsewhere, we need to make sure appearance streams of fields copied from b.pdf

    // into a.pdf use whatever font /F1 meant in b.pdf, not whatever it means in a.pdf. This method

    // takes care of that. It is only called on fields copied from foreign files.

    // A few notes:

    //

    // * If the from document's /DR and the current document's /DR have conflicting keys, we have

    //   already resolved the conflicts before calling this method. The dr_map parameter contains

    //   the mapping from old keys to new keys.

    //

    // * /DA may be inherited from the document's /AcroForm dictionary. By the time this method has

    //   been called, we have already copied any document-level values into the fields to avoid

    //   having them inherit from the new document. This was done in adjustInheritedFields.

    auto DA = obj.getKey("/DA");

    if (!DA.isString()) {

        return;

    }

    // Find names in /DA. /DA is a string that contains content stream-like code, so we create a

    // stream out of the string and then filter it. We don't attach the stream to anything, so it

    // will get discarded.

    ResourceFinder rf;

    auto da_stream = QPDFObjectHandle::newStream(&qpdf, DA.getUTF8Value());

    try {

        auto nwarnings = qpdf.numWarnings();

        da_stream.parseAsContents(&rf);

        if (qpdf.numWarnings() > nwarnings) {

            QTC::TC("qpdf", "QPDFAcroFormDocumentHelper /DA parse error");

        }

    } catch (std::exception& e) {

        // No way to reproduce in test suite right now since error conditions are converted to

        // warnings.

        obj.warn("Unable to parse /DA: "s + e.what() + "; this form field may not update properly");

        return;

    }

    // Regenerate /DA by filtering its tokens.

    ResourceReplacer rr(dr_map, rf.getNamesByResourceType());

    Pl_Buffer buf_pl("filtered DA");

    da_stream.filterAsContents(&rr, &buf_pl);

    std::string new_da = buf_pl.getString();

    obj.replaceKey("/DA", QPDFObjectHandle::newString(new_da));

}

void

QPDFAcroFormDocumentHelper::adjustAppearanceStream(

    QPDFObjectHandle stream, std::map<std::string, std::map<std::string, std::string>> dr_map)

{

    // We don't have to modify appearance streams or their resource dictionaries for them to display

    // properly, but we need to do so to make them save to regenerate. Suppose an appearance stream

    // as a font /F1 that is different from /F1 in /DR, and that when we copy the field, /F1 is

    // remapped to /F1_1. When the field is regenerated, /F1_1 won't appear in the stream's resource

    // dictionary, so the regenerated appearance stream will revert to the /F1_1 in /DR. If we

    // adjust existing appearance streams, we are protected from this problem.

    auto dict = stream.getDict();

    auto resources = dict.getKey("/Resources");

    // Make sure this stream has its own private resource dictionary.

    bool was_indirect = resources.isIndirect();

    resources = resources.shallowCopy();

    if (was_indirect) {

        resources = qpdf.makeIndirectObject(resources);

    }

    dict.replaceKey("/Resources", resources);

    // Create a dictionary with top-level keys so we can use mergeResources to force them to be

    // unshared. We will also use this to resolve conflicts that may already be in the resource

    // dictionary.

    auto merge_with = QPDFObjectHandle::newDictionary();

    for (auto const& top_key: dr_map) {

        merge_with.replaceKey(top_key.first, QPDFObjectHandle::newDictionary());

    }

    resources.mergeResources(merge_with);

    // Rename any keys in the resource dictionary that we remapped.

    for (auto const& i1: dr_map) {

        std::string const& top_key = i1.first;

        auto subdict = resources.getKey(top_key);

        if (!subdict.isDictionary()) {

            continue;

        }

        for (auto const& i2: i1.second) {

            std::string const& old_key = i2.first;

            std::string const& new_key = i2.second;

            auto existing_new = subdict.getKey(new_key);

            if (!existing_new.null()) {

                // The resource dictionary already has a key in it matching what we remapped an old

                // key to, so we'll have to move it out of the way. Stick it in merge_with, which we

                // will re-merge with the dictionary when we're done. We know merge_with already has

                // dictionaries for all the top keys.

                merge_with.getKey(top_key).replaceKey(new_key, existing_new);

            }

            auto existing_old = subdict.getKey(old_key);

            if (!existing_old.null()) {

                subdict.replaceKey(new_key, existing_old);

                subdict.removeKey(old_key);

            }

        }

    }

    // Deal with any any conflicts by re-merging with merge_with and updating our local copy of

    // dr_map, which we will use to modify the stream contents.

    resources.mergeResources(merge_with, &dr_map);

    // Remove empty subdictionaries

    for (auto iter: resources.ditems()) {

        if (iter.second.isDictionary() && iter.second.getKeys().empty()) {

            resources.removeKey(iter.first);

        }

    }

    // Now attach a token filter to replace the actual resources.

    ResourceFinder rf;

    try {

        auto nwarnings = qpdf.numWarnings();

        stream.parseAsContents(&rf);

        QTC::TC(

            "qpdf",

            "QPDFAcroFormDocumentHelper AP parse error",

            qpdf.numWarnings() > nwarnings ? 0 : 1);

        auto rr = new ResourceReplacer(dr_map, rf.getNamesByResourceType());

        auto tf = std::shared_ptr<QPDFObjectHandle::TokenFilter>(rr);

        stream.addTokenFilter(tf);

    } catch (std::exception& e) {

        // No way to reproduce in test suite right now since error conditions are converted to

        // warnings.

        stream.warn("Unable to parse appearance stream: "s + e.what());

    }

}

void

QPDFAcroFormDocumentHelper::transformAnnotations(

    QPDFObjectHandle a_old_annots,

    std::vector<QPDFObjectHandle>& new_annots,

    std::vector<QPDFObjectHandle>& new_fields,

    std::set<QPDFObjGen>& old_fields,

    QPDFMatrix const& cm,

    QPDF* from_qpdf,

    QPDFAcroFormDocumentHelper* from_afdh)

{

    Array old_annots = std::move(a_old_annots);

    if (!from_qpdf) {

        // Assume these are from the same QPDF.

        from_qpdf = &qpdf;

        from_afdh = this;

    } else if (from_qpdf != &qpdf && !from_afdh) {

        from_afdh = &QPDFAcroFormDocumentHelper::get(*from_qpdf);

    }

    const bool foreign = from_qpdf != &qpdf;

    // It's possible that we will transform annotations that don't include any form fields. This

    // code takes care not to muck around with /AcroForm unless we have to.

    Dictionary acroform = qpdf.getRoot()["/AcroForm"];

    Dictionary from_acroform = from_qpdf->getRoot()["/AcroForm"];

    // /DA and /Q may be inherited from the document-level /AcroForm dictionary. If we are copying a

    // foreign stream and the stream is getting one of these values from its document's /AcroForm,

    // we will need to copy the value explicitly so that it doesn't start getting its default from

    // the destination document.

    std::string from_default_da;

    int from_default_q = 0;

    // If we copy any form fields, we will need to merge the source document's /DR into this

    // document's /DR.

    Dictionary from_dr;

    std::string default_da;

    int default_q = 0;

    if (foreign) {

        if (acroform) {

            if (acroform["/DA"].isString()) {

                default_da = acroform["/DA"].getUTF8Value();

            }

            if (Integer Q = acroform["/Q"]) {

                default_q = Q;

            }

        }

        if (from_acroform) {

            from_dr = from_acroform["/DR"];

            if (from_dr) {

                if (!from_dr.indirect()) {

                    from_dr = from_qpdf->makeIndirectObject(from_dr);

                }

                from_dr = qpdf.copyForeignObject(from_dr);

            }

            if (from_acroform["/DA"].isString()) {

                from_default_da = from_acroform["/DA"].getUTF8Value();

            }

            if (Integer Q = from_acroform["/Q"]) {

                from_default_q = Q;

            }

        }

    }

    const bool override_da = from_acroform ? from_default_da != default_da : false;

    const bool override_q = from_acroform ? from_default_q != default_q : false;

    // If we have to merge /DR, we will need a mapping of conflicting keys for rewriting /DA. Set

    // this up for lazy initialization in case we encounter any form fields.

    std::map<std::string, std::map<std::string, std::string>> dr_map;

    Dictionary dr;

    auto init_dr_map = [&]() {

        if (!dr) {

            // Ensure that we have a /DR that is an indirect

            // dictionary object.

            if (!acroform) {

                acroform = getOrCreateAcroForm();

            }

            dr = acroform["/DR"];

            if (!dr) {

                dr = Dictionary::empty();

            }

            QPDFObjectHandle(dr).makeResourcesIndirect(qpdf);

            if (!dr.indirect()) {

                acroform.replaceKey("/DR", qpdf.makeIndirectObject(dr));

                dr = acroform["/DR"];

            }

            // Merge the other document's /DR, creating a conflict map. mergeResources checks to

            // make sure both objects are dictionaries. By this point, if this is foreign, from_dr

            // has been copied, so we use the target qpdf as the owning qpdf.

            QPDFObjectHandle(from_dr).makeResourcesIndirect(qpdf);

            QPDFObjectHandle(dr).mergeResources(from_dr, &dr_map);

            if (from_afdh->getNeedAppearances()) {

                setNeedAppearances(true);

            }

        }

    };

    // This helper prevents us from copying the same object multiple times.

    std::map<QPDFObjGen, QPDFObjectHandle> orig_to_copy;

    auto maybe_copy_object = [&](QPDFObjectHandle& to_copy) {

        auto og = to_copy.getObjGen();

        if (orig_to_copy.contains(og)) {

            to_copy = orig_to_copy[og];

            return false;

        } else {

            to_copy = qpdf.makeIndirectObject(to_copy.shallowCopy());

            orig_to_copy[og] = to_copy;

            return true;

        }

    };

    // Traverse the field, copying kids, and preserving integrity.

    auto traverse_field = [&](QPDFObjectHandle& top_field) -> void {

        std::deque<Dictionary> queue({top_field});

        QPDFObjGen::set seen;

        for (auto it = queue.begin(); it != queue.end(); ++it) {

            auto& obj = *it;

            if (seen.add(obj)) {

                Dictionary parent = obj["/Parent"];

                if (parent.indirect()) {

                    auto parent_og = parent.id_gen();

                    if (orig_to_copy.contains(parent_og)) {

                        obj.replaceKey("/Parent", orig_to_copy[parent_og]);

                    } else {

                        parent.warn(

                            "while traversing field " + obj.id_gen().unparse(',') +

                            ", found parent (" + parent_og.unparse(',') +

                            ") that had not been seen, indicating likely invalid field structure");

                    }

                }

                size_t i = 0;

                Array Kids = obj["/Kids"];

                for (auto& kid: Kids) {

                    if (maybe_copy_object(kid)) {

                        Kids.set(i, kid);

                        queue.emplace_back(kid);

                    }

                    ++i;

                }

                adjustInheritedFields(

                    obj, override_da, from_default_da, override_q, from_default_q);

                if (foreign) {

                    // Lazily initialize our /DR and the conflict map.

                    init_dr_map();

                    // The spec doesn't say anything about /DR on the field, but lots of writers

                    // put one there, and it is frequently the same as the document-level /DR.

                    // To avoid having the field's /DR point to information that we are not

                    // maintaining, just reset it to that if it exists. Empirical evidence

                    // suggests that many readers, including Acrobat, Adobe Acrobat Reader,

                    // chrome, firefox, the mac Preview application, and several of the free

                    // readers on Linux all ignore /DR at the field level.

                    if (obj.contains("/DR")) {

                        obj.replaceKey("/DR", dr);

                    }

                    if (obj["/DA"].isString() && !dr_map.empty()) {

                        adjustDefaultAppearances(obj, dr_map);

                    }

                }

            }

        }

    };

    auto transform_annotation =

        [&](QPDFObjectHandle& annot) -> std::tuple<QPDFObjectHandle, bool, bool> {

        // Make copies of annotations and fields down to the appearance streams, preserving all

        // internal referential integrity. When the incoming annotations are from a different file,

        // we first copy them locally. Then, whether local or foreign, we copy them again so that if

        // we bring the same annotation in multiple times (e.g. overlaying a foreign page onto

        // multiple local pages or a local page onto multiple other local pages), we don't create

        // annotations that are referenced in more than one place. If we did that, the effect of

        // applying transformations would be cumulative, which is definitely not what we want.

        // Besides, annotations and fields are not intended to be referenced in multiple places.

        // Determine if this annotation is attached to a form field. If so, the annotation may be

        // the same object as the form field, or the form field may have the annotation as a kid. In

        // either case, we have to walk up the field structure to find the top-level field. Within

        // one iteration through a set of annotations, we don't want to copy the same item more than

        // once. For example, suppose we have field A with kids B, C, and D, each of which has

        // annotations BA, CA, and DA. When we get to BA, we will find that BA is a kid of B which

        // is under A. When we do a copyForeignObject of A, it will also copy everything else