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qpdf/qpdf/test_driver.cc
Jay Berkenbilt 9044a24097 PointerHolder: deprecate getPointer() and getRefcount() 
Use get() and use_count() instead. Add #define
NO_POINTERHOLDER_DEPRECATION to remove deprecation markers for these
only.

This commit also removes all deprecated PointerHolder API calls from
qpdf's code except in PointerHolder's test suite, which must continue
to test the deprecated APIs.
2022-02-04 13:12:37 -05:00

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// This program tests miscellaneous functionality in the qpdf library
// that we don't want to pollute the qpdf program with.
#include <qpdf/QPDF.hh>
#include <qpdf/QPDFPageDocumentHelper.hh>
#include <qpdf/QPDFPageObjectHelper.hh>
#include <qpdf/QPDFAcroFormDocumentHelper.hh>
#include <qpdf/QPDFNumberTreeObjectHelper.hh>
#include <qpdf/QPDFNameTreeObjectHelper.hh>
#include <qpdf/QPDFPageLabelDocumentHelper.hh>
#include <qpdf/QPDFOutlineDocumentHelper.hh>
#include <qpdf/QPDFEmbeddedFileDocumentHelper.hh>
#include <qpdf/QUtil.hh>
#include <qpdf/QTC.hh>
#include <qpdf/Pl_StdioFile.hh>
#include <qpdf/Pl_Buffer.hh>
#include <qpdf/Pl_Flate.hh>
#include <qpdf/Pl_Discard.hh>
#include <qpdf/QPDFWriter.hh>
#include <qpdf/QPDFSystemError.hh>
#include <qpdf/QIntC.hh>
#include <qpdf/QPDFJob.hh>
#include <qpdf/QPDFUsage.hh>
#include <iostream>
#include <sstream>
#include <algorithm>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <assert.h>
#include <limits.h>
#include <map>
static char const* whoami = 0;
void usage()
{
std::cerr << "Usage: " << whoami << " n filename1 [arg2]"
<< std::endl;
exit(2);
}
class Provider: public QPDFObjectHandle::StreamDataProvider
{
public:
Provider(PointerHolder<Buffer> b) :
b(b),
bad_length(false)
{
}
virtual ~Provider()
{
}
virtual void provideStreamData(int objid, int generation,
Pipeline* p)
{
p->write(b->getBuffer(), b->getSize());
if (this->bad_length)
{
unsigned char ch = ' ';
p->write(&ch, 1);
}
p->finish();
}
void badLength(bool v)
{
this->bad_length = v;
}
private:
PointerHolder<Buffer> b;
bool bad_length;
};
class ParserCallbacks: public QPDFObjectHandle::ParserCallbacks
{
public:
virtual ~ParserCallbacks()
{
}
virtual void contentSize(size_t size);
virtual void handleObject(QPDFObjectHandle, size_t, size_t);
virtual void handleEOF();
};
void
ParserCallbacks::contentSize(size_t size)
{
std::cout << "content size: " << size << std::endl;
}
void
ParserCallbacks::handleObject(QPDFObjectHandle obj,
size_t offset, size_t length)
{
if (obj.isName() && (obj.getName() == "/Abort"))
{
std::cout << "test suite: terminating parsing" << std::endl;
terminateParsing();
}
std::cout << obj.getTypeName() << ", offset=" << offset
<< ", length=" << length << ": ";
if (obj.isInlineImage())
{
// Exercise getTypeCode
assert(obj.getTypeCode() == QPDFObject::ot_inlineimage);
std::cout << QUtil::hex_encode(obj.getInlineImageValue()) << std::endl;
}
else
{
std::cout << obj.unparse() << std::endl;
}
}
void
ParserCallbacks::handleEOF()
{
std::cout << "-EOF-" << std::endl;
}
class TokenFilter: public QPDFObjectHandle::TokenFilter
{
public:
TokenFilter()
{
}
virtual ~TokenFilter()
{
}
virtual void handleToken(QPDFTokenizer::Token const& t)
{
if (t == QPDFTokenizer::Token(QPDFTokenizer::tt_string, "Potato"))
{
// Exercise unparsing of strings by token constructor
writeToken(
QPDFTokenizer::Token(QPDFTokenizer::tt_string, "Salad"));
}
else
{
writeToken(t);
}
}
virtual void handleEOF()
{
writeToken(QPDFTokenizer::Token(QPDFTokenizer::tt_name, "/bye"));
write("\n");
}
};
static std::string getPageContents(QPDFObjectHandle page)
{
PointerHolder<Buffer> b1 =
page.getKey("/Contents").getStreamData();
return std::string(
reinterpret_cast<char *>(b1->getBuffer()), b1->getSize()) + "\0";
}
static void checkPageContents(QPDFObjectHandle page,
std::string const& wanted_string)
{
std::string contents = getPageContents(page);
if (contents.find(wanted_string) == std::string::npos)
{
std::cout << "didn't find " << wanted_string << " in "
<< contents << std::endl;
}
}
static QPDFObjectHandle createPageContents(QPDF& pdf, std::string const& text)
{
std::string contents = "BT /F1 15 Tf 72 720 Td (" + text + ") Tj ET\n";
return QPDFObjectHandle::newStream(&pdf, contents);
}
static void print_rect(std::ostream& out,
QPDFObjectHandle::Rectangle const& r)
{
out << "[" << r.llx << ", " << r.lly << ", "
<< r.urx << ", " << r.ury << "]";
}
#define assert_compare_numbers(expected, expr) \
compare_numbers(#expr, expected, expr)
template <typename T1, typename T2>
static void compare_numbers(
char const* description, T1 const& expected, T2 const& actual)
{
if (expected != actual)
{
std::cerr << description << ": expected = " << expected
<< "; actual = " << actual << std::endl;
}
}
static void test_0_1(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle trailer = pdf.getTrailer();
QPDFObjectHandle qtest = trailer.getKey("/QTest");
if (! trailer.hasKey("/QTest"))
{
// This will always happen when /QTest is null because
// hasKey returns false for null keys regardless of
// whether the key exists or not. That way there's never
// any difference between a key that is present and null
// and a key that is absent.
QTC::TC("qpdf", "main QTest implicit");
std::cout << "/QTest is implicit" << std::endl;
}
QTC::TC("qpdf", "main QTest indirect",
qtest.isIndirect() ? 1 : 0);
std::cout << "/QTest is "
<< (qtest.isIndirect() ? "in" : "")
<< "direct and has type "
<< qtest.getTypeName()
<< " (" << qtest.getTypeCode() << ")" << std::endl;
if (qtest.isNull())
{
QTC::TC("qpdf", "main QTest null");
std::cout << "/QTest is null" << std::endl;
}
else if (qtest.isBool())
{
QTC::TC("qpdf", "main QTest bool",
qtest.getBoolValue() ? 1 : 0);
std::cout << "/QTest is Boolean with value "
<< (qtest.getBoolValue() ? "true" : "false")
<< std::endl;
}
else if (qtest.isInteger())
{
QTC::TC("qpdf", "main QTest int");
std::cout << "/QTest is an integer with value "
<< qtest.getIntValue() << std::endl;
}
else if (qtest.isReal())
{
QTC::TC("qpdf", "main QTest real");
std::cout << "/QTest is a real number with value "
<< qtest.getRealValue() << std::endl;
}
else if (qtest.isName())
{
QTC::TC("qpdf", "main QTest name");
std::cout << "/QTest is a name with value "
<< qtest.getName() << std::endl;
}
else if (qtest.isString())
{
QTC::TC("qpdf", "main QTest string");
std::cout << "/QTest is a string with value "
<< qtest.getStringValue() << std::endl;
}
else if (qtest.isArray())
{
QTC::TC("qpdf", "main QTest array");
std::cout << "/QTest is an array with "
<< qtest.getArrayNItems() << " items" << std::endl;
int i = 0;
for (auto& iter: qtest.aitems())
{
QTC::TC("qpdf", "main QTest array indirect",
iter.isIndirect() ? 1 : 0);
std::cout << " item " << i << " is "
<< (iter.isIndirect() ? "in" : "")
<< "direct" << std::endl;
++i;
}
}
else if (qtest.isDictionary())
{
QTC::TC("qpdf", "main QTest dictionary");
std::cout << "/QTest is a dictionary" << std::endl;
for (auto& iter: qtest.ditems())
{
QTC::TC("qpdf", "main QTest dictionary indirect",
iter.second.isIndirect() ? 1 : 0);
std::cout << " " << iter.first << " is "
<< (iter.second.isIndirect() ? "in" : "")
<< "direct" << std::endl;
}
}
else if (qtest.isStream())
{
QTC::TC("qpdf", "main QTest stream");
std::cout << "/QTest is a stream. Dictionary: "
<< qtest.getDict().unparse() << std::endl;
std::cout << "Raw stream data:" << std::endl;
std::cout.flush();
QUtil::binary_stdout();
PointerHolder<Pl_StdioFile> out = new Pl_StdioFile("raw", stdout);
qtest.pipeStreamData(out.get(), 0, qpdf_dl_none);
std::cout << std::endl << "Uncompressed stream data:" << std::endl;
if (qtest.pipeStreamData(0, 0, qpdf_dl_all))
{
std::cout.flush();
QUtil::binary_stdout();
out = new Pl_StdioFile("filtered", stdout);
qtest.pipeStreamData(out.get(), 0, qpdf_dl_all);
std::cout << std::endl << "End of stream data" << std::endl;
}
else
{
std::cout << "Stream data is not filterable." << std::endl;
}
}
else
{
// Should not happen!
std::cout << "/QTest is an unknown object" << std::endl;
}
std::cout << "unparse: " << qtest.unparse() << std::endl
<< "unparseResolved: " << qtest.unparseResolved()
<< std::endl;
}
static void test_2(QPDF& pdf, char const* arg2)
{
// Encrypted file. This test case is designed for a specific
// PDF file.
QPDFObjectHandle trailer = pdf.getTrailer();
std::cout << trailer.getKey("/Info").
getKey("/CreationDate").getStringValue() << std::endl;
std::cout << trailer.getKey("/Info").
getKey("/Producer").getStringValue() << std::endl;
QPDFObjectHandle encrypt = trailer.getKey("/Encrypt");
std::cout << encrypt.getKey("/O").unparse() << std::endl;
std::cout << encrypt.getKey("/U").unparse() << std::endl;
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle pages = root.getKey("/Pages");
QPDFObjectHandle kids = pages.getKey("/Kids");
QPDFObjectHandle page = kids.getArrayItem(1); // second page
QPDFObjectHandle contents = page.getKey("/Contents");
QUtil::binary_stdout();
PointerHolder<Pl_StdioFile> out = new Pl_StdioFile("filtered", stdout);
contents.pipeStreamData(out.get(), 0, qpdf_dl_generalized);
}
static void test_3(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle streams = pdf.getTrailer().getKey("/QStreams");
for (int i = 0; i < streams.getArrayNItems(); ++i)
{
QPDFObjectHandle stream = streams.getArrayItem(i);
std::cout << "-- stream " << i << " --" << std::endl;
std::cout.flush();
QUtil::binary_stdout();
PointerHolder<Pl_StdioFile> out =
new Pl_StdioFile("tokenized stream", stdout);
stream.pipeStreamData(out.get(),
qpdf_ef_normalize, qpdf_dl_generalized);
}
}
static void test_4(QPDF& pdf, char const* arg2)
{
// Mutability testing: Make /QTest direct recursively, then
// copy to /Info. Also make some other mutations so we can
// tell the difference and ensure that the original /QTest
// isn't effected.
QPDFObjectHandle trailer = pdf.getTrailer();
QPDFObjectHandle qtest = trailer.getKey("/QTest");
qtest.makeDirect();
qtest.removeKey("/Subject");
qtest.replaceKey("/Author",
QPDFObjectHandle::newString("Mr. Potato Head"));
// qtest.A and qtest.B.A were originally the same object.
// They no longer are after makeDirect(). Mutate one of them
// and ensure the other is not changed. These test cases are
// crafted around a specific set of input files.
QPDFObjectHandle A = qtest.getKey("/A");
if (A.getArrayItem(0).getIntValue() == 1)
{
// Test mutators
A.setArrayItem(1, QPDFObjectHandle::newInteger(5)); // 1 5 3
A.insertItem(2, QPDFObjectHandle::newInteger(10)); // 1 5 10 3
A.appendItem(QPDFObjectHandle::newInteger(12)); // 1 5 10 3 12
A.eraseItem(3); // 1 5 10 12
A.insertItem(4, QPDFObjectHandle::newInteger(6)); // 1 5 10 12 6
A.insertItem(0, QPDFObjectHandle::newInteger(9)); // 9 1 5 10 12 6
}
else
{
std::vector<QPDFObjectHandle> items;
items.push_back(QPDFObjectHandle::newInteger(14));
items.push_back(QPDFObjectHandle::newInteger(15));
items.push_back(QPDFObjectHandle::newInteger(9));
A.setArrayFromVector(items);
}
QPDFObjectHandle qtest2 = trailer.getKey("/QTest2");
if (! qtest2.isNull())
{
// Test allow_streams=true
qtest2.makeDirect(true);
trailer.replaceKey("/QTest2", qtest2);
}
trailer.replaceKey("/Info", pdf.makeIndirectObject(qtest));
QPDFWriter w(pdf, 0);
w.setQDFMode(true);
w.setStaticID(true);
w.write();
// Prevent "done" message from getting appended
exit(0);
}
static void test_5(QPDF& pdf, char const* arg2)
{
QPDFPageDocumentHelper dh(pdf);
std::vector<QPDFPageObjectHelper> pages = dh.getAllPages();
int pageno = 0;
for (std::vector<QPDFPageObjectHelper>::iterator iter = pages.begin();
iter != pages.end(); ++iter)
{
QPDFPageObjectHelper& page(*iter);
++pageno;
std::cout << "page " << pageno << ":" << std::endl;
std::cout << " images:" << std::endl;
std::map<std::string, QPDFObjectHandle> images = page.getImages();
for (auto const& iter2: images)
{
std::string const& name = iter2.first;
QPDFObjectHandle image = iter2.second;
QPDFObjectHandle dict = image.getDict();
long long width = dict.getKey("/Width").getIntValue();
long long height = dict.getKey("/Height").getIntValue();
std::cout << " " << name
<< ": " << width << " x " << height
<< std::endl;
}
std::cout << " content:" << std::endl;
std::vector<QPDFObjectHandle> content = page.getPageContents();
for (auto& iter2: content)
{
std::cout << " " << iter2.unparse() << std::endl;
}
std::cout << "end page " << pageno << std::endl;
}
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle qstrings = root.getKey("/QStrings");
if (qstrings.isArray())
{
std::cout << "QStrings:" << std::endl;
int nitems = qstrings.getArrayNItems();
for (int i = 0; i < nitems; ++i)
{
std::cout << qstrings.getArrayItem(i).getUTF8Value()
<< std::endl;
}
}
QPDFObjectHandle qnumbers = root.getKey("/QNumbers");
if (qnumbers.isArray())
{
std::cout << "QNumbers:" << std::endl;
int nitems = qnumbers.getArrayNItems();
for (int i = 0; i < nitems; ++i)
{
std::cout << QUtil::double_to_string(
qnumbers.getArrayItem(i).getNumericValue(), 3, false)
<< std::endl;
}
}
}
static void test_6(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle metadata = root.getKey("/Metadata");
if (! metadata.isStream())
{
throw std::logic_error("test 6 run on file with no metadata");
}
Pl_Buffer bufpl("buffer");
metadata.pipeStreamData(&bufpl, 0, qpdf_dl_none);
Buffer* buf = bufpl.getBuffer();
unsigned char const* data = buf->getBuffer();
bool cleartext = false;
if ((buf->getSize() > 9) &&
(strncmp(reinterpret_cast<char const*>(data),
"<?xpacket", 9) == 0))
{
cleartext = true;
}
delete buf;
std::cout << "encrypted="
<< (pdf.isEncrypted() ? 1 : 0)
<< "; cleartext="
<< (cleartext ? 1 : 0)
<< std::endl;
}
static void test_7(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle qstream = root.getKey("/QStream");
if (! qstream.isStream())
{
throw std::logic_error("test 7 run on file with no QStream");
}
qstream.replaceStreamData(
"new data for stream\n",
QPDFObjectHandle::newNull(), QPDFObjectHandle::newNull());
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_8(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle qstream = root.getKey("/QStream");
if (! qstream.isStream())
{
throw std::logic_error("test 7 run on file with no QStream");
}
Pl_Buffer p1("buffer");
Pl_Flate p2("compress", &p1, Pl_Flate::a_deflate);
p2.write(QUtil::unsigned_char_pointer("new data for stream\n"),
20); // no null!
p2.finish();
PointerHolder<Buffer> b = p1.getBuffer();
// This is a bogus way to use StreamDataProvider, but it does
// adequately test its functionality.
Provider* provider = new Provider(b);
PointerHolder<QPDFObjectHandle::StreamDataProvider> p = provider;
qstream.replaceStreamData(
p, QPDFObjectHandle::newName("/FlateDecode"),
QPDFObjectHandle::newNull());
provider->badLength(false);
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
// Linearize to force the provider to be called multiple times.
w.setLinearization(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
// Every time a provider pipes stream data, it has to provide
// the same amount of data.
provider->badLength(true);
try
{
qstream.getStreamData();
std::cout << "oops -- getStreamData didn't throw" << std::endl;
}
catch (std::exception const& e)
{
std::cout << "exception: " << e.what() << std::endl;
}
}
static void test_9(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle root = pdf.getRoot();
// Explicitly exercise the Buffer version of newStream
PointerHolder<Buffer> buf = new Buffer(20);
unsigned char* bp = buf->getBuffer();
memcpy(bp, "data for new stream\n", 20); // no null!
QPDFObjectHandle qstream = QPDFObjectHandle::newStream(
&pdf, buf);
QPDFObjectHandle rstream = QPDFObjectHandle::newStream(&pdf);
try
{
rstream.getStreamData();
std::cout << "oops -- getStreamData didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "exception: " << e.what() << std::endl;
}
rstream.replaceStreamData(
"data for other stream\n",
QPDFObjectHandle::newNull(), QPDFObjectHandle::newNull());
root.replaceKey("/QStream", qstream);
root.replaceKey("/RStream", rstream);
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_10(QPDF& pdf, char const* arg2)
{
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
QPDFPageObjectHelper& ph(pages.at(0));
ph.addPageContents(
QPDFObjectHandle::newStream(
&pdf, "BT /F1 12 Tf 72 620 Td (Baked) Tj ET\n"), true);
ph.addPageContents(
QPDFObjectHandle::newStream(
&pdf, "BT /F1 18 Tf 72 520 Td (Mashed) Tj ET\n"), false);
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_11(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle qstream = root.getKey("/QStream");
PointerHolder<Buffer> b1 = qstream.getStreamData();
PointerHolder<Buffer> b2 = qstream.getRawStreamData();
if ((b1->getSize() == 7) &&
(memcmp(b1->getBuffer(), "potato\n", 7) == 0))
{
std::cout << "filtered stream data okay" << std::endl;
}
if ((b2->getSize() == 15) &&
(memcmp(b2->getBuffer(), "706F7461746F0A\n", 15) == 0))
{
std::cout << "raw stream data okay" << std::endl;
}
}
static void test_12(QPDF& pdf, char const* arg2)
{
pdf.setOutputStreams(0, 0);
pdf.showLinearizationData();
}
static void test_13(QPDF& pdf, char const* arg2)
{
std::ostringstream out;
std::ostringstream err;
pdf.setOutputStreams(&out, &err);
pdf.showLinearizationData();
std::cout << "---output---" << std::endl
<< out.str()
<< "---error---" << std::endl
<< err.str();
}
static void test_14(QPDF& pdf, char const* arg2)
{
// Exercise swap and replace. This test case is designed for
// a specific file.
std::vector<QPDFObjectHandle> pages = pdf.getAllPages();
if (pages.size() != 4)
{
throw std::logic_error("test 14 not called 4-page file");
}
// Swap pages 2 and 3
auto orig_page2 = pages.at(1);
auto orig_page3 = pages.at(2);
assert(orig_page2.getKey("/OrigPage").getIntValue() == 2);
assert(orig_page3.getKey("/OrigPage").getIntValue() == 3);
pdf.swapObjects(orig_page2.getObjGen(), orig_page3.getObjGen());
assert(orig_page2.getKey("/OrigPage").getIntValue() == 3);
assert(orig_page3.getKey("/OrigPage").getIntValue() == 2);
// Replace object and swap objects
QPDFObjectHandle trailer = pdf.getTrailer();
QPDFObjectHandle qdict = trailer.getKey("/QDict");
QPDFObjectHandle qarray = trailer.getKey("/QArray");
// Force qdict but not qarray to resolve
qdict.isDictionary();
QPDFObjectHandle new_dict = QPDFObjectHandle::newDictionary();
new_dict.replaceKey("/NewDict", QPDFObjectHandle::newInteger(2));
try
{
// Do it wrong first...
pdf.replaceObject(qdict.getObjGen(), qdict);
}
catch (std::logic_error const&)
{
std::cout << "caught logic error as expected" << std::endl;
}
pdf.replaceObject(qdict.getObjGen(), new_dict);
// Now qdict points to the new dictionary
std::cout << "old dict: " << qdict.getKey("/NewDict").getIntValue()
<< std::endl;
// Swap dict and array
pdf.swapObjects(qdict.getObjGen(), qarray.getObjGen());
// Now qarray will resolve to new object and qdict resolves to
// the array
std::cout << "swapped array: " << qdict.getArrayItem(0).getName()
<< std::endl;
std::cout << "new dict: " << qarray.getKey("/NewDict").getIntValue()
<< std::endl;
// Reread qdict, still pointing to an array
qdict = pdf.getObjectByObjGen(qdict.getObjGen());
std::cout << "swapped array: " << qdict.getArrayItem(0).getName()
<< std::endl;
// Exercise getAsMap and getAsArray
std::vector<QPDFObjectHandle> array_elements =
qdict.getArrayAsVector();
std::map<std::string, QPDFObjectHandle> dict_items =
qarray.getDictAsMap();
if ((array_elements.size() == 1) &&
(array_elements.at(0).getName() == "/Array") &&
(dict_items.size() == 1) &&
(dict_items["/NewDict"].getIntValue() == 2))
{
std::cout << "array and dictionary contents are correct"
<< std::endl;
}
// Exercise writing to memory buffer
for (int i = 0; i < 2; ++i)
{
QPDFWriter w(pdf);
w.setOutputMemory();
// Exercise setOutputMemory with and without static ID
w.setStaticID(i == 0);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
Buffer* b = w.getBuffer();
std::string const filename = (i == 0 ? "a.pdf" : "b.pdf");
FILE* f = QUtil::safe_fopen(filename.c_str(), "wb");
fwrite(b->getBuffer(), b->getSize(), 1, f);
fclose(f);
delete b;
}
}
static void test_15(QPDF& pdf, char const* arg2)
{
std::vector<QPDFObjectHandle> const& pages = pdf.getAllPages();
// Reference to original page numbers for this test case are
// numbered from 0.
// Remove pages from various places, checking to make sure
// that our pages reference is getting updated.
assert(pages.size() == 10);
pdf.removePage(pages.back()); // original page 9
assert(pages.size() == 9);
pdf.removePage(*pages.begin()); // original page 0
assert(pages.size() == 8);
checkPageContents(pages.at(4), "Original page 5");
pdf.removePage(pages.at(4)); // original page 5
assert(pages.size() == 7);
checkPageContents(pages.at(4), "Original page 6");
checkPageContents(pages.at(0), "Original page 1");
checkPageContents(pages.at(6), "Original page 8");
// Insert pages
// Create some content streams.
std::vector<QPDFObjectHandle> contents;
contents.push_back(createPageContents(pdf, "New page 1"));
contents.push_back(createPageContents(pdf, "New page 0"));
contents.push_back(createPageContents(pdf, "New page 5"));
contents.push_back(createPageContents(pdf, "New page 6"));
contents.push_back(createPageContents(pdf, "New page 11"));
contents.push_back(createPageContents(pdf, "New page 12"));
// Create some page objects. Start with an existing
// dictionary and modify it. Using the results of
// getDictAsMap to create a new dictionary effectively creates
// a shallow copy.
QPDFObjectHandle page_template = pages.at(0);
std::vector<QPDFObjectHandle> new_pages;
for (std::vector<QPDFObjectHandle>::iterator iter = contents.begin();
iter != contents.end(); ++iter)
{
// We will retain indirect object references to other
// indirect objects other than page content.
QPDFObjectHandle page = page_template.shallowCopy();
page.replaceKey("/Contents", *iter);
if (iter == contents.begin())
{
// leave direct
new_pages.push_back(page);
}
else
{
new_pages.push_back(pdf.makeIndirectObject(page));
}
}
// Now insert the pages
pdf.addPage(new_pages.at(0), true);
checkPageContents(pages.at(0), "New page 1");
pdf.addPageAt(new_pages.at(1), true, pages.at(0));
assert(pages.at(0).getObjGen() == new_pages.at(1).getObjGen());
pdf.addPageAt(new_pages.at(2), true, pages.at(5));
assert(pages.at(5).getObjGen() == new_pages.at(2).getObjGen());
pdf.addPageAt(new_pages.at(3), false, pages.at(5));
assert(pages.at(6).getObjGen() == new_pages.at(3).getObjGen());
assert(pages.size() == 11);
pdf.addPage(new_pages.at(4), false);
assert(pages.at(11).getObjGen() == new_pages.at(4).getObjGen());
pdf.addPageAt(new_pages.at(5), false, pages.back());
assert(pages.size() == 13);
checkPageContents(pages.at(0), "New page 0");
checkPageContents(pages.at(1), "New page 1");
checkPageContents(pages.at(5), "New page 5");
checkPageContents(pages.at(6), "New page 6");
checkPageContents(pages.at(11), "New page 11");
checkPageContents(pages.at(12), "New page 12");
// Exercise writing to FILE*
FILE* out = QUtil::safe_fopen("a.pdf", "wb");
QPDFWriter w(pdf, "FILE* a.pdf", out, true);
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_16(QPDF& pdf, char const* arg2)
{
// Insert a page manually and then update the cache.
std::vector<QPDFObjectHandle> const& all_pages = pdf.getAllPages();
QPDFObjectHandle contents = createPageContents(pdf, "New page 10");
QPDFObjectHandle page =
pdf.makeIndirectObject(
QPDFObjectHandle(all_pages.at(0)).shallowCopy());
page.replaceKey("/Contents", contents);
// Insert the page manually.
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle pages = root.getKey("/Pages");
QPDFObjectHandle kids = pages.getKey("/Kids");
page.replaceKey("/Parent", pages);
pages.replaceKey(
"/Count",
QPDFObjectHandle::newInteger(
1 + QIntC::to_longlong(all_pages.size())));
kids.appendItem(page);
assert(all_pages.size() == 10);
pdf.updateAllPagesCache();
assert(all_pages.size() == 11);
assert(all_pages.back().getObjGen() == page.getObjGen());
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_17(QPDF& pdf, char const* arg2)
{
// The input file to this test case has a duplicated page.
QPDFObjectHandle page_kids =
pdf.getRoot().getKey("/Pages").getKey("/Kids");
assert(page_kids.getArrayItem(0).getObjGen() ==
page_kids.getArrayItem(1).getObjGen());
std::vector<QPDFObjectHandle> const& pages = pdf.getAllPages();
assert(pages.size() == 3);
assert(! (pages.at(0).getObjGen() == pages.at(1).getObjGen()));
assert(QPDFObjectHandle(pages.at(0)).getKey("/Contents").getObjGen() ==
QPDFObjectHandle(pages.at(1)).getKey("/Contents").getObjGen());
pdf.removePage(pages.at(0));
assert(pages.size() == 2);
PointerHolder<Buffer> b = QPDFObjectHandle(pages.at(0)).
getKey("/Contents").getStreamData();
std::string contents = std::string(
reinterpret_cast<char const*>(b->getBuffer()),
b->getSize());
assert(contents.find("page 0") != std::string::npos);
}
static void test_18(QPDF& pdf, char const* arg2)
{
// Remove a page and re-insert it in the same file.
std::vector<QPDFObjectHandle> const& pages = pdf.getAllPages();
// Remove pages from various places, checking to make sure
// that our pages reference is getting updated.
assert(pages.size() == 10);
QPDFObjectHandle page5 = pages.at(5);
pdf.removePage(page5);
assert(pages.size() == 9);
pdf.addPage(page5, false);
assert(pages.size() == 10);
assert(pages.back().getObjGen() == page5.getObjGen());
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_19(QPDF& pdf, char const* arg2)
{
// Remove a page and re-insert it in the same file.
std::vector<QPDFObjectHandle> const& pages = pdf.getAllPages();
// Try to insert a page that's already there. A shallow copy
// gets inserted instead.
auto newpage = pages.at(5);
size_t count = pages.size();
pdf.addPage(newpage, false);
auto last = pages.back();
assert(pages.size() == count + 1);
assert(! (last.getObjGen() == newpage.getObjGen()));
assert(last.getKey("/Contents").getObjGen() ==
newpage.getKey("/Contents").getObjGen());
}
static void test_20(QPDF& pdf, char const* arg2)
{
// Shallow copy an array
QPDFObjectHandle trailer = pdf.getTrailer();
QPDFObjectHandle qtest = trailer.getKey("/QTest");
QPDFObjectHandle copy = qtest.shallowCopy();
// Append shallow copy of a scalar
copy.appendItem(trailer.getKey("/Size").shallowCopy());
trailer.replaceKey("/QTest2", copy);
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_21(QPDF& pdf, char const* arg2)
{
// Try to shallow copy a stream
std::vector<QPDFObjectHandle> const& pages = pdf.getAllPages();
QPDFObjectHandle page = pages.at(0);
QPDFObjectHandle contents = page.getKey("/Contents");
contents.shallowCopy();
std::cout << "you can't see this" << std::endl;
}
static void test_22(QPDF& pdf, char const* arg2)
{
// Try to remove a page we don't have
QPDFPageDocumentHelper dh(pdf);
std::vector<QPDFPageObjectHelper> pages = dh.getAllPages();
QPDFPageObjectHelper& page = pages.at(0);
dh.removePage(page);
dh.removePage(page);
std::cout << "you can't see this" << std::endl;
}
static void test_23(QPDF& pdf, char const* arg2)
{
QPDFPageDocumentHelper dh(pdf);
std::vector<QPDFPageObjectHelper> pages = dh.getAllPages();
dh.removePage(pages.back());
}
static void test_24(QPDF& pdf, char const* arg2)
{
// Test behavior of reserved objects
QPDFObjectHandle res1 = QPDFObjectHandle::newReserved(&pdf);
QPDFObjectHandle res2 = QPDFObjectHandle::newReserved(&pdf);
QPDFObjectHandle trailer = pdf.getTrailer();
trailer.replaceKey("Array1", res1);
trailer.replaceKey("Array2", res2);
QPDFObjectHandle array1 = QPDFObjectHandle::newArray();
QPDFObjectHandle array2 = QPDFObjectHandle::newArray();
array1.appendItem(res2);
array1.appendItem(QPDFObjectHandle::newInteger(1));
array2.appendItem(res1);
array2.appendItem(QPDFObjectHandle::newInteger(2));
// Make sure trying to ask questions about a reserved object
// doesn't break it.
if (res1.isArray())
{
std::cout << "oops -- res1 is an array" << std::endl;
}
if (res1.isReserved())
{
std::cout << "res1 is still reserved after checking if array"
<< std::endl;
}
pdf.replaceReserved(res1, array1);
if (res1.isReserved())
{
std::cout << "oops -- res1 is still reserved" << std::endl;
}
else
{
std::cout << "res1 is no longer reserved" << std::endl;
}
res1.assertArray();
std::cout << "res1 is an array" << std::endl;
try
{
res2.unparseResolved();
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "logic error: " << e.what() << std::endl;
}
try
{
res2.makeDirect();
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "logic error: " << e.what() << std::endl;
}
pdf.replaceReserved(res2, array2);
res2.assertArray();
std::cout << "res2 is an array" << std::endl;
// Verify that the previously added reserved keys can be
// dereferenced properly now
int i1 = res1.getArrayItem(0).getArrayItem(1).getIntValueAsInt();
int i2 = res2.getArrayItem(0).getArrayItem(1).getIntValueAsInt();
if ((i1 == 2) && (i2 == 1))
{
std::cout << "circular access and lazy resolution worked" << std::endl;
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_25(QPDF& pdf, char const* arg2)
{
// The copy object tests are designed to work with a specific
// file. Look at the test suite for the file, and look at the
// file for comments about the file's structure.
// Copy qtest without crossing page boundaries. Should get O1
// and O2 and their streams but not O3 or any other pages.
assert(arg2 != 0);
{
// Make sure original PDF is out of scope when we write.
QPDF oldpdf;
oldpdf.processFile(arg2);
QPDFObjectHandle qtest = oldpdf.getTrailer().getKey("/QTest");
pdf.getTrailer().replaceKey(
"/QTest", pdf.copyForeignObject(qtest));
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_26(QPDF& pdf, char const* arg2)
{
// Copy the O3 page using addPage. Copy qtest without
// crossing page boundaries. In addition to previous results,
// should get page O3 but no other pages including the page
// that O3 points to. Also, inherited object will have been
// pushed down and will be preserved.
{
// Make sure original PDF is out of scope when we write.
assert(arg2 != 0);
QPDF oldpdf;
oldpdf.processFile(arg2);
QPDFObjectHandle qtest = oldpdf.getTrailer().getKey("/QTest");
QPDFObjectHandle O3 = qtest.getKey("/O3");
QPDFPageDocumentHelper(pdf).addPage(O3, false);
pdf.getTrailer().replaceKey(
"/QTest", pdf.copyForeignObject(qtest));
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setStreamDataMode(qpdf_s_preserve);
w.write();
}
static void test_27(QPDF& pdf, char const* arg2)
{
// Copy O3 and the page O3 refers to before copying qtest.
// Should get qtest plus only the O3 page and the page that O3
// points to. Inherited objects should be preserved. This test
// also exercises copying from a stream that has a buffer and
// a provider, including copying a provider multiple times. We
// also exercise setImmediateCopyFrom.
// Create a provider. The provider stays in scope.
PointerHolder<QPDFObjectHandle::StreamDataProvider> p1;
{
// Local scope
Pl_Buffer pl("buffer");
pl.write(QUtil::unsigned_char_pointer("new data for stream\n"),
20); // no null!
pl.finish();
PointerHolder<Buffer> b = pl.getBuffer();
Provider* provider = new Provider(b);
p1 = provider;
}
// Create a stream that uses a provider in empty1 and copy it
// to empty2. It is copied from empty2 to the final pdf.
QPDF empty1;
empty1.emptyPDF();
QPDFObjectHandle s1 = QPDFObjectHandle::newStream(&empty1);
s1.replaceStreamData(
p1, QPDFObjectHandle::newNull(), QPDFObjectHandle::newNull());
QPDF empty2;
empty2.emptyPDF();
s1 = empty2.copyForeignObject(s1);
{
// Make sure some source PDFs are out of scope when we
// write.
PointerHolder<QPDFObjectHandle::StreamDataProvider> p2;
// Create another provider. This one will go out of scope
// along with its containing qpdf, which has
// setImmediateCopyFrom(true).
{
// Local scope
Pl_Buffer pl("buffer");
pl.write(QUtil::unsigned_char_pointer(
"more data for stream\n"),
21); // no null!
pl.finish();
PointerHolder<Buffer> b = pl.getBuffer();
Provider* provider = new Provider(b);
p2 = provider;
}
QPDF empty3;
empty3.emptyPDF();
empty3.setImmediateCopyFrom(true);
QPDFObjectHandle s3 = QPDFObjectHandle::newStream(&empty3);
s3.replaceStreamData(
p2, QPDFObjectHandle::newNull(), QPDFObjectHandle::newNull());
assert(arg2 != 0);
QPDF oldpdf;
oldpdf.processFile(arg2);
QPDFObjectHandle qtest = oldpdf.getTrailer().getKey("/QTest");
QPDFObjectHandle O3 = qtest.getKey("/O3");
QPDFPageDocumentHelper dh(pdf);
dh.addPage(O3.getKey("/OtherPage"), false);
dh.addPage(O3, false);
QPDFObjectHandle s2 = QPDFObjectHandle::newStream(
&oldpdf, "potato\n");
pdf.getTrailer().replaceKey(
"/QTest", pdf.copyForeignObject(qtest));
pdf.getTrailer().replaceKey(
"/QTest2", QPDFObjectHandle::newArray());
pdf.getTrailer().getKey("/QTest2").appendItem(
pdf.copyForeignObject(s1));
pdf.getTrailer().getKey("/QTest2").appendItem(
pdf.copyForeignObject(s2));
pdf.getTrailer().getKey("/QTest2").appendItem(
pdf.copyForeignObject(s3));
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setCompressStreams(false);
w.setDecodeLevel(qpdf_dl_generalized);
w.write();
}
static void test_28(QPDF& pdf, char const* arg2)
{
// Copy foreign object errors
try
{
pdf.copyForeignObject(pdf.getTrailer().getKey("/QTest"));
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "logic error: " << e.what() << std::endl;
}
try
{
pdf.copyForeignObject(QPDFObjectHandle::newInteger(1));
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "logic error: " << e.what() << std::endl;
}
}
static void test_29(QPDF& pdf, char const* arg2)
{
// Detect mixed objects in QPDFWriter
assert(arg2 != 0);
QPDF other;
other.processFile(arg2);
// Should use copyForeignObject instead
other.getTrailer().replaceKey(
"/QTest", pdf.getTrailer().getKey("/QTest"));
try
{
QPDFWriter w(other, "a.pdf");
w.write();
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "logic error: " << e.what() << std::endl;
}
// Detect adding a foreign object
auto root1 = pdf.getRoot();
auto root2 = other.getRoot();
try
{
root1.replaceKey("/Oops", root2);
}
catch (std::logic_error const& e)
{
std::cout << "logic error: " << e.what() << std::endl;
}
}
static void test_30(QPDF& pdf, char const* arg2)
{
assert(arg2 != 0);
QPDF encrypted;
encrypted.processFile(arg2, "user");
QPDFWriter w(pdf, "b.pdf");
w.setStreamDataMode(qpdf_s_preserve);
w.copyEncryptionParameters(encrypted);
w.write();
// Make sure the contents are actually the same
QPDF final;
final.processFile("b.pdf", "user");
std::vector<QPDFObjectHandle> pages = pdf.getAllPages();
std::string orig_contents = getPageContents(pages.at(0));
pages = final.getAllPages();
std::string new_contents = getPageContents(pages.at(0));
if (orig_contents != new_contents)
{
std::cout << "oops -- page contents don't match" << std::endl
<< "original:\n" << orig_contents
<< "new:\n" << new_contents
<< std::endl;
}
}
static void test_31(QPDF& pdf, char const* arg2)
{
// Test object parsing from a string. The input file is not used.
QPDFObjectHandle o1 =
QPDFObjectHandle::parse(
"[/name 16059 3.14159 false\n"
" << /key true /other [ (string1) (string2) ] >> null]");
std::cout << o1.unparse() << std::endl;
QPDFObjectHandle o2 = QPDFObjectHandle::parse(" 12345 \f ");
assert(o2.isInteger() && (o2.getIntValue() == 12345));
try
{
QPDFObjectHandle::parse("[1 0 R]", "indirect test");
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::logic_error const& e)
{
std::cout << "logic error parsing indirect: " << e.what()
<< std::endl;
}
try
{
QPDFObjectHandle::parse("0 trailing", "trailing test");
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::runtime_error const& e)
{
std::cout << "trailing data: " << e.what()
<< std::endl;
}
assert(QPDFObjectHandle::parse(
&pdf, "[1 0 R]", "indirect test").unparse() ==
"[ 1 0 R ]");
}
static void test_32(QPDF& pdf, char const* arg2)
{
// Extra header text
char const* filenames[] = {"a.pdf", "b.pdf", "c.pdf", "d.pdf"};
for (int i = 0; i < 4; ++i)
{
bool linearized = ((i & 1) != 0);
bool newline = ((i & 2) != 0);
QPDFWriter w(pdf, filenames[i]);
w.setStaticID(true);
std::cout
<< "file: " << filenames[i] << std::endl
<< "linearized: " << (linearized ? "yes" : "no") << std::endl
<< "newline: " << (newline ? "yes" : "no") << std::endl;
w.setLinearization(linearized);
w.setExtraHeaderText(newline
? "%% Comment with newline\n"
: "%% Comment\n% No newline");
w.write();
}
}
static void test_33(QPDF& pdf, char const* arg2)
{
// Test writing to a custom pipeline
Pl_Buffer p("buffer");
QPDFWriter w(pdf);
w.setStaticID(true);
w.setOutputPipeline(&p);
w.write();
PointerHolder<Buffer> b = p.getBuffer();
FILE* f = QUtil::safe_fopen("a.pdf", "wb");
fwrite(b->getBuffer(), b->getSize(), 1, f);
fclose(f);
}
static void test_34(QPDF& pdf, char const* arg2)
{
// Look at Extensions dictionary
std::cout << "version: " << pdf.getPDFVersion() << std::endl
<< "extension level: " << pdf.getExtensionLevel() << std::endl
<< pdf.getRoot().getKey("/Extensions").unparse() << std::endl;
}
static void test_35(QPDF& pdf, char const* arg2)
{
// Extract attachments
std::map<std::string, PointerHolder<Buffer> > attachments;
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle names = root.getKey("/Names");
QPDFObjectHandle embeddedFiles = names.getKey("/EmbeddedFiles");
names = embeddedFiles.getKey("/Names");
for (int i = 0; i < names.getArrayNItems(); ++i)
{
QPDFObjectHandle item = names.getArrayItem(i);
if (item.isDictionary() &&
item.getKey("/Type").isName() &&
(item.getKey("/Type").getName() == "/Filespec") &&
item.getKey("/EF").isDictionary() &&
item.getKey("/EF").getKey("/F").isStream())
{
std::string filename = item.getKey("/F").getStringValue();
QPDFObjectHandle stream = item.getKey("/EF").getKey("/F");
attachments[filename] = stream.getStreamData();
}
}
for (std::map<std::string, PointerHolder<Buffer> >::iterator iter =
attachments.begin(); iter != attachments.end(); ++iter)
{
std::string const& filename = (*iter).first;
std::string data = std::string(
reinterpret_cast<char const*>((*iter).second->getBuffer()),
(*iter).second->getSize());
bool is_binary = false;
for (size_t i = 0; i < data.size(); ++i)
{
if ((data.at(i) < 0) || (data.at(i) > 126))
{
is_binary = true;
break;
}
}
if (is_binary)
{
std::string t;
for (size_t i = 0;
i < std::min(data.size(), QIntC::to_size(20));
++i)
{
if ((data.at(i) >= 32) && (data.at(i) <= 126))
{
t += data.at(i);
}
else
{
t += ".";
}
}
t += " (" + QUtil::uint_to_string(data.size()) + " bytes)";
data = t;
}
std::cout << filename << ":\n" << data << "--END--\n";
}
}
static void test_36(QPDF& pdf, char const* arg2)
{
// Extract raw unfilterable attachment
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle names = root.getKey("/Names");
QPDFObjectHandle embeddedFiles = names.getKey("/EmbeddedFiles");
names = embeddedFiles.getKey("/Names");
for (int i = 0; i < names.getArrayNItems(); ++i)
{
QPDFObjectHandle item = names.getArrayItem(i);
if (item.isDictionary() &&
item.getKey("/Type").isName() &&
(item.getKey("/Type").getName() == "/Filespec") &&
item.getKey("/EF").isDictionary() &&
item.getKey("/EF").getKey("/F").isStream() &&
(item.getKey("/F").getStringValue() == "attachment1.txt"))
{
std::string filename = item.getKey("/F").getStringValue();
QPDFObjectHandle stream = item.getKey("/EF").getKey("/F");
Pl_Buffer p1("buffer");
Pl_Flate p2("compress", &p1, Pl_Flate::a_inflate);
stream.pipeStreamData(&p2, 0, qpdf_dl_none);
PointerHolder<Buffer> buf = p1.getBuffer();
std::string data = std::string(
reinterpret_cast<char const*>(buf->getBuffer()),
buf->getSize());
std::cout << stream.getDict().unparse()
<< filename << ":\n" << data << "--END--\n";
}
}
}
static void test_37(QPDF& pdf, char const* arg2)
{
// Parse content streams of all pages
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
for (std::vector<QPDFPageObjectHelper>::iterator iter = pages.begin();
iter != pages.end(); ++iter)
{
QPDFPageObjectHelper& page(*iter);
ParserCallbacks cb;
page.parseContents(&cb);
}
}
static void test_38(QPDF& pdf, char const* arg2)
{
// Designed for override-compressed-object.pdf
QPDFObjectHandle qtest = pdf.getRoot().getKey("/QTest");
for (int i = 0; i < qtest.getArrayNItems(); ++i)
{
std::cout << qtest.getArrayItem(i).unparseResolved() << std::endl;
}
}
static void test_39(QPDF& pdf, char const* arg2)
{
// Display image filter and color set for each image on each page
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
int pageno = 0;
for (std::vector<QPDFPageObjectHelper>::iterator p_iter =
pages.begin();
p_iter != pages.end(); ++p_iter)
{
std::cout << "page " << ++pageno << std::endl;
std::map<std::string, QPDFObjectHandle> images =
(*p_iter).getImages();
for (std::map<std::string, QPDFObjectHandle>::iterator i_iter =
images.begin(); i_iter != images.end(); ++i_iter)
{
QPDFObjectHandle image_dict = (*i_iter).second.getDict();
std::cout << "filter: "
<< image_dict.getKey("/Filter").unparseResolved()
<< ", color space: "
<< image_dict.getKey("/ColorSpace").unparseResolved()
<< std::endl;
}
}
}
static void test_40(QPDF& pdf, char const* arg2)
{
// Write PCLm. This requires specially crafted PDF files. This
// feature was implemented by Sahil Arora
// <sahilarora.535@gmail.com> as part of a Google Summer of
// Code project in 2017.
assert(arg2 != 0);
QPDFWriter w(pdf, arg2);
w.setPCLm(true);
w.setStaticID(true);
w.write();
}
static void test_41(QPDF& pdf, char const* arg2)
{
// Apply a token filter. This test case is crafted to work
// with coalesce.pdf.
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
for (std::vector<QPDFPageObjectHelper>::iterator iter =
pages.begin();
iter != pages.end(); ++iter)
{
(*iter).addContentTokenFilter(new TokenFilter);
}
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.write();
}
static void test_42(QPDF& pdf, char const* arg2)
{
// Access objects as wrong type. This test case is crafted to
// work with object-types.pdf.
QPDFObjectHandle qtest = pdf.getTrailer().getKey("/QTest");
QPDFObjectHandle array = qtest.getKey("/Dictionary").getKey("/Key2");
QPDFObjectHandle dictionary = qtest.getKey("/Dictionary");
QPDFObjectHandle integer = qtest.getKey("/Integer");
QPDFObjectHandle null = QPDFObjectHandle::newNull();
assert(array.isArray());
{
// Exercise iterators directly
auto ai = array.aitems();
auto i = ai.begin();
assert(i->getName() == "/Item0");
auto& i_value = *i;
--i;
assert(i->getName() == "/Item0");
++i;
++i;
++i;
assert(i == ai.end());
++i;
assert(i == ai.end());
assert(! i_value.isInitialized());
--i;
assert(i_value.getName() == "/Item2");
assert(i->getName() == "/Item2");
}
assert(dictionary.isDictionary());
{
// Exercise iterators directly
auto di = dictionary.ditems();
auto i = di.begin();
assert(i->first == "/Key1");
auto& i_value = *i;
assert(i->second.getName() == "/Value1");
++i;
++i;
assert(i == di.end());
assert(! i_value.second.isInitialized());
}
assert("" == qtest.getStringValue());
array.getArrayItem(-1).assertNull();
array.getArrayItem(16059).assertNull();
integer.getArrayItem(0).assertNull();
integer.appendItem(null);
array.eraseItem(-1);
array.eraseItem(16059);
integer.eraseItem(0);
integer.insertItem(0, null);
integer.setArrayFromVector(std::vector<QPDFObjectHandle>());
integer.setArrayItem(0, null);
assert(0 == integer.getArrayNItems());
assert(integer.getArrayAsVector().empty());
assert(false == integer.getBoolValue());
assert(integer.getDictAsMap().empty());
assert(integer.getKeys().empty());
assert(false == integer.hasKey("/Potato"));
integer.removeKey("/Potato");
integer.replaceOrRemoveKey("/Potato", null);
integer.replaceOrRemoveKey("/Potato", QPDFObjectHandle::newInteger(1));
integer.replaceKey("/Potato", QPDFObjectHandle::newInteger(1));
qtest.getKey("/Integer").getKey("/Potato");
assert(integer.getInlineImageValue().empty());
assert(0 == dictionary.getIntValue());
assert("/QPDFFakeName" == integer.getName());
assert("QPDFFAKE" == integer.getOperatorValue());
assert("0.0" == dictionary.getRealValue());
assert(integer.getStringValue().empty());
assert(integer.getUTF8Value().empty());
assert(0.0 == dictionary.getNumericValue());
// Make sure error messages are okay for nested values
std::cerr << "One error\n";
assert(array.getArrayItem(0).getStringValue().empty());
std::cerr << "One error\n";
assert(dictionary.getKey("/Quack").getStringValue().empty());
assert(array.getArrayItem(1).isDictionary());
assert(array.getArrayItem(1).getKey("/K").isArray());
assert(array.getArrayItem(1).getKey("/K").getArrayItem(0).isName());
assert("/V" ==
array.getArrayItem(1).getKey("/K").getArrayItem(0).getName());
std::cerr << "Two errors\n";
assert(array.getArrayItem(16059).getStringValue().empty());
std::cerr << "One error\n";
array.getArrayItem(1).getKey("/K").getArrayItem(0).getStringValue();
// Stream dictionary
QPDFObjectHandle page = pdf.getAllPages().at(0);
assert("/QPDFFakeName" ==
page.getKey("/Contents").getDict().getKey("/Potato").getName());
// Rectangles
QPDFObjectHandle::Rectangle r0 = integer.getArrayAsRectangle();
assert((r0.llx == 0) && (r0.lly == 0) &&
(r0.urx == 0) && (r0.ury == 0));
QPDFObjectHandle rect = QPDFObjectHandle::newFromRectangle(
QPDFObjectHandle::Rectangle(1.2, 3.4, 5.6, 7.8));
QPDFObjectHandle::Rectangle r1 = rect.getArrayAsRectangle();
assert((r1.llx > 1.19) && (r1.llx < 1.21) &&
(r1.lly > 3.39) && (r1.lly < 3.41) &&
(r1.urx > 5.59) && (r1.urx < 5.61) &&
(r1.ury > 7.79) && (r1.ury < 7.81));
QPDFObjectHandle uninitialized;
assert(! uninitialized.isInitialized());
assert(! uninitialized.isInteger());
assert(! uninitialized.isDictionary());
}
static void test_43(QPDF& pdf, char const* arg2)
{
// Forms
QPDFAcroFormDocumentHelper afdh(pdf);
if (! afdh.hasAcroForm())
{
std::cout << "no forms\n";
return;
}
std::cout << "iterating over form fields\n";
std::vector<QPDFFormFieldObjectHelper> form_fields =
afdh.getFormFields();
for (std::vector<QPDFFormFieldObjectHelper>::iterator iter =
form_fields.begin();
iter != form_fields.end(); ++iter)
{
QPDFFormFieldObjectHelper ffh(*iter);
std::cout << "Field: " << ffh.getObjectHandle().unparse()
<< std::endl;
QPDFFormFieldObjectHelper node = ffh;
while (! node.isNull())
{
QPDFFormFieldObjectHelper parent(node.getParent());
std::cout << " Parent: "
<< (parent.isNull()
? std::string("none")
: parent.getObjectHandle().unparse())
<< std::endl;
node = parent;
}
std::cout << " Fully qualified name: "
<< ffh.getFullyQualifiedName() << std::endl;
std::cout << " Partial name: "
<< ffh.getPartialName() << std::endl;
std::cout << " Alternative name: "
<< ffh.getAlternativeName() << std::endl;
std::cout << " Mapping name: "
<< ffh.getMappingName() << std::endl;
std::cout << " Field type: "
<< ffh.getFieldType() << std::endl;
std::cout << " Value: "
<< ffh.getValue().unparse() << std::endl;
std::cout << " Value as string: "
<< ffh.getValueAsString() << std::endl;
std::cout << " Default value: "
<< ffh.getDefaultValue().unparse() << std::endl;
std::cout << " Default value as string: "
<< ffh.getDefaultValueAsString() << std::endl;
std::cout << " Default appearance: "
<< ffh.getDefaultAppearance() << std::endl;
std::cout << " Quadding: "
<< ffh.getQuadding() << std::endl;
std::vector<QPDFAnnotationObjectHelper> annotations =
afdh.getAnnotationsForField(ffh);
for (std::vector<QPDFAnnotationObjectHelper>::iterator i2 =
annotations.begin();
i2 != annotations.end(); ++i2)
{
std::cout << " Annotation: "
<< (*i2).getObjectHandle().unparse() << std::endl;
}
}
std::cout << "iterating over annotations per page\n";
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
for (std::vector<QPDFPageObjectHelper>::iterator iter = pages.begin();
iter != pages.end(); ++iter)
{
std::cout << "Page: " << (*iter).getObjectHandle().unparse()
<< std::endl;
std::vector<QPDFAnnotationObjectHelper> annotations =
afdh.getWidgetAnnotationsForPage(*iter);
for (std::vector<QPDFAnnotationObjectHelper>::iterator i2 =
annotations.begin();
i2 != annotations.end(); ++i2)
{
QPDFAnnotationObjectHelper ah(*i2);
std::cout << " Annotation: " << ah.getObjectHandle().unparse()
<< std::endl;
std::cout << " Field: "
<< (afdh.getFieldForAnnotation(ah).
getObjectHandle().unparse())
<< std::endl;
std::cout << " Subtype: " << ah.getSubtype() << std::endl;
std::cout << " Rect: ";
print_rect(std::cout, ah.getRect());
std::cout << std::endl;
std::string state = ah.getAppearanceState();
if (! state.empty())
{
std::cout << " Appearance state: " << state
<< std::endl;
}
std::cout << " Appearance stream (/N): "
<< ah.getAppearanceStream("/N").unparse()
<< std::endl;
std::cout << " Appearance stream (/N, /3): "
<< ah.getAppearanceStream("/N", "/3").unparse()
<< std::endl;
}
}
}
static void test_44(QPDF& pdf, char const* arg2)
{
// Set form fields.
QPDFAcroFormDocumentHelper afdh(pdf);
std::vector<QPDFFormFieldObjectHelper> fields = afdh.getFormFields();
for (std::vector<QPDFFormFieldObjectHelper>::iterator iter =
fields.begin();
iter != fields.end(); ++iter)
{
QPDFFormFieldObjectHelper& field(*iter);
QPDFObjectHandle ft = field.getInheritableFieldValue("/FT");
if (ft.isName() && (ft.getName() == "/Tx"))
{
// \xc3\xb7 is utf-8 for U+00F7 (divided by)
field.setV("3.14 \xc3\xb7 0");
std::cout << "Set field value: "
<< field.getFullyQualifiedName()
<< " -> "
<< field.getValueAsString()
<< std::endl;
}
}
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.setSuppressOriginalObjectIDs(true);
w.write();
}
static void test_45(QPDF& pdf, char const* arg2)
{
// Decode obfuscated files. This is here to help test with
// files that trigger anti-virus warnings. See comments in
// qpdf.test for details.
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.write();
if (! pdf.getWarnings().empty())
{
exit(3);
}
}
static void test_46(QPDF& pdf, char const* arg2)
{
// Test number tree. This test is crafted to work with
// number-tree.pdf
QPDFObjectHandle qtest = pdf.getTrailer().getKey("/QTest");
QPDFNumberTreeObjectHelper ntoh(qtest, pdf);
for (auto& iter: ntoh)
{
std::cout << iter.first << " "
<< iter.second.getStringValue()
<< std::endl;
}
QPDFNumberTreeObjectHelper::idx_map ntoh_map = ntoh.getAsMap();
for (auto& iter: ntoh_map)
{
std::cout << iter.first << " "
<< iter.second.getStringValue()
<< std::endl;
}
assert(1 == ntoh.getMin());
assert(29 == ntoh.getMax());
assert(ntoh.hasIndex(6));
assert(! ntoh.hasIndex(500));
QPDFObjectHandle oh;
assert(! ntoh.findObject(4, oh));
assert(ntoh.findObject(3, oh));
assert("three" == oh.getStringValue());
QPDFNumberTreeObjectHelper::numtree_number offset = 0;
assert(! ntoh.findObjectAtOrBelow(0, oh, offset));
assert(ntoh.findObjectAtOrBelow(8, oh, offset));
assert("six" == oh.getStringValue());
assert(2 == offset);
auto new1 = QPDFNumberTreeObjectHelper::newEmpty(pdf);
auto iter1 = new1.begin();
assert(iter1 == new1.end());
++iter1;
assert(iter1 == new1.end());
--iter1;
assert(iter1 == new1.end());
new1.insert(1, QPDFObjectHandle::newString("1"));
++iter1;
assert((*iter1).first == 1); // exercise operator* explicitly
auto& iter1_val = *iter1;
--iter1;
assert(iter1 == new1.end());
--iter1;
assert(iter1->first == 1);
assert(iter1_val.first == 1);
new1.insert(2, QPDFObjectHandle::newString("2"));
++iter1;
assert(iter1->first == 2);
assert(iter1_val.first == 2);
++iter1;
assert(iter1 == new1.end());
assert(! iter1_val.second.isInitialized());
++iter1;
assert(iter1->first == 1);
--iter1;
assert(iter1 == new1.end());
--iter1;
assert(iter1->first == 2);
std::cout << "insertAfter" << std::endl;
auto new2 = QPDFNumberTreeObjectHelper::newEmpty(pdf);
auto iter2 = new2.begin();
assert(iter2 == new2.end());
iter2.insertAfter(3, QPDFObjectHandle::newString("3!"));
assert(iter2->first == 3);
iter2.insertAfter(4, QPDFObjectHandle::newString("4!"));
assert(iter2->first == 4);
for (auto& i: new2)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
// Exercise deprecated API until qpdf 11
std::cout << "/Bad1: deprecated API" << std::endl;
#ifdef _MSC_VER
# pragma warning (disable: 4996)
#endif
#if (defined(__GNUC__) || defined(__clang__))
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
auto bad1 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Bad1"));
#if (defined(__GNUC__) || defined(__clang__))
# pragma GCC diagnostic pop
#endif
assert(bad1.begin() == bad1.end());
std::cout << "/Bad1" << std::endl;
bad1 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Bad1"), pdf);
assert(bad1.begin() == bad1.end());
assert(bad1.last() == bad1.end());
std::cout << "/Bad2" << std::endl;
auto bad2 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Bad2"), pdf);
for (auto& i: bad2)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
std::vector<std::string> empties = {"/Empty1", "/Empty2"};
for (auto const& k: empties)
{
std::cout << k << std::endl;
auto empty = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey(k), pdf);
assert(empty.begin() == empty.end());
assert(empty.last() == empty.end());
auto i = empty.insert(5, QPDFObjectHandle::newString("5"));
assert(i->first == 5);
assert(i->second.getStringValue() == "5");
assert(empty.begin()->first == 5);
assert(empty.last()->first == 5);
assert(empty.begin()->second.getStringValue() == "5");
i = empty.insert(5, QPDFObjectHandle::newString("5+"));
assert(i->first == 5);
assert(i->second.getStringValue() == "5+");
assert(empty.begin()->second.getStringValue() == "5+");
i = empty.insert(6, QPDFObjectHandle::newString("6"));
assert(i->first == 6);
assert(i->second.getStringValue() == "6");
assert(empty.begin()->second.getStringValue() == "5+");
assert(empty.last()->first == 6);
assert(empty.last()->second.getStringValue() == "6");
}
std::cout << "Insert into invalid" << std::endl;
auto invalid1 = QPDFNumberTreeObjectHelper(
QPDFObjectHandle::newDictionary(), pdf);
try
{
invalid1.insert(1, QPDFObjectHandle::newNull());
}
catch (QPDFExc& e)
{
std::cout << e.what() << std::endl;
}
std::cout << "/Bad3, no repair" << std::endl;
auto bad3_oh = pdf.getTrailer().getKey("/Bad3");
auto bad3 = QPDFNumberTreeObjectHelper(bad3_oh, pdf, false);
for (auto& i: bad3)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
assert(! bad3_oh.getKey("/Kids").getArrayItem(0).isIndirect());
std::cout << "/Bad3, repair" << std::endl;
bad3 = QPDFNumberTreeObjectHelper(bad3_oh, pdf, true);
for (auto& i: bad3)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
assert(bad3_oh.getKey("/Kids").getArrayItem(0).isIndirect());
std::cout << "/Bad4 -- missing limits" << std::endl;
auto bad4 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Bad4"), pdf);
bad4.insert(5, QPDFObjectHandle::newString("5"));
for (auto& i: bad4)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
std::cout << "/Bad5 -- limit errors" << std::endl;
auto bad5 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Bad5"), pdf);
assert(bad5.find(10) == bad5.end());
}
static void test_47(QPDF& pdf, char const* arg2)
{
// Test page labels.
QPDFPageLabelDocumentHelper pldh(pdf);
long long npages = pdf.getRoot().getKey("/Pages").
getKey("/Count").getIntValue();
std::vector<QPDFObjectHandle> labels;
pldh.getLabelsForPageRange(0, npages - 1, 1, labels);
assert(labels.size() % 2 == 0);
for (size_t i = 0; i < labels.size(); i+= 2)
{
std::cout << labels.at(i).getIntValue() << " "
<< labels.at(i+1).unparse() << std::endl;
}
}
static void test_48(QPDF& pdf, char const* arg2)
{
// Test name tree. This test is crafted to work with
// name-tree.pdf
QPDFObjectHandle qtest = pdf.getTrailer().getKey("/QTest");
QPDFNameTreeObjectHelper ntoh(qtest, pdf);
for (auto& iter: ntoh)
{
std::cout << iter.first << " -> "
<< iter.second.getStringValue()
<< std::endl;
}
std::map<std::string, QPDFObjectHandle> ntoh_map = ntoh.getAsMap();
for (auto& iter: ntoh_map)
{
std::cout << iter.first << " -> "
<< iter.second.getStringValue()
<< std::endl;
}
assert(ntoh.hasName("11 elephant"));
assert(ntoh.hasName("07 sev\xe2\x80\xa2n"));
assert(! ntoh.hasName("potato"));
QPDFObjectHandle oh;
assert(! ntoh.findObject("potato", oh));
assert(ntoh.findObject("07 sev\xe2\x80\xa2n", oh));
assert("seven!" == oh.getStringValue());
auto last = ntoh.last();
assert(last->first == "29 twenty-nine");
assert(last->second.getUTF8Value() == "twenty-nine!");
auto new1 = QPDFNameTreeObjectHelper::newEmpty(pdf);
auto iter1 = new1.begin();
assert(iter1 == new1.end());
++iter1;
assert(iter1 == new1.end());
--iter1;
assert(iter1 == new1.end());
new1.insert("1", QPDFObjectHandle::newString("1"));
++iter1;
assert(iter1->first == "1");
auto& iter1_val = *iter1;
--iter1;
assert(iter1 == new1.end());
--iter1;
assert(iter1->first == "1");
assert(iter1_val.first == "1");
new1.insert("2", QPDFObjectHandle::newString("2"));
++iter1;
assert(iter1->first == "2");
assert(iter1_val.first == "2");
++iter1;
assert(iter1 == new1.end());
assert(! iter1_val.second.isInitialized());
++iter1;
assert(iter1->first == "1");
--iter1;
assert(iter1 == new1.end());
--iter1;
assert(iter1->first == "2");
std::cout << "insertAfter" << std::endl;
auto new2 = QPDFNameTreeObjectHelper::newEmpty(pdf);
auto iter2 = new2.begin();
assert(iter2 == new2.end());
iter2.insertAfter("3", QPDFObjectHandle::newString("3!"));
assert(iter2->first == "3");
iter2.insertAfter("4", QPDFObjectHandle::newString("4!"));
assert(iter2->first == "4");
for (auto& i: new2)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
std::vector<std::string> empties = {"/Empty1", "/Empty2"};
for (auto const& k: empties)
{
std::cout << k << std::endl;
auto empty = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey(k), pdf);
assert(empty.begin() == empty.end());
assert(empty.last() == empty.end());
auto i = empty.insert("five", QPDFObjectHandle::newString("5"));
assert(i->first == "five");
assert(i->second.getStringValue() == "5");
assert(empty.begin()->first == "five");
assert(empty.last()->first == "five");
assert(empty.begin()->second.getStringValue() == "5");
i = empty.insert("five", QPDFObjectHandle::newString("5+"));
assert(i->first == "five");
assert(i->second.getStringValue() == "5+");
assert(empty.begin()->second.getStringValue() == "5+");
i = empty.insert("six", QPDFObjectHandle::newString("6"));
assert(i->first == "six");
assert(i->second.getStringValue() == "6");
assert(empty.begin()->second.getStringValue() == "5+");
assert(empty.last()->first == "six");
assert(empty.last()->second.getStringValue() == "6");
}
// Exercise deprecated API until qpdf 11
std::cout << "/Bad1: deprecated API" << std::endl;
#ifdef _MSC_VER
# pragma warning (disable: 4996)
#endif
#if (defined(__GNUC__) || defined(__clang__))
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
auto bad1 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad1"));
#if (defined(__GNUC__) || defined(__clang__))
# pragma GCC diagnostic pop
#endif
try
{
bad1.find("G", true);
assert(false);
}
catch (std::runtime_error& e)
{
std::cout << e.what() << std::endl;
}
std::cout << "/Bad1 -- wrong key type" << std::endl;
bad1 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad1"), pdf);
assert(bad1.find("G", true)->first == "A");
for (auto const& i: bad1)
{
std::cout << i.first << std::endl;
}
std::cout << "/Bad2 -- invalid kid" << std::endl;
auto bad2 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad2"), pdf);
assert(bad2.find("G", true)->first == "B");
for (auto const& i: bad2)
{
std::cout << i.first << std::endl;
}
std::cout << "/Bad3 -- invalid kid" << std::endl;
auto bad3 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad3"), pdf);
assert(bad3.find("G", true) == bad3.end());
std::cout << "/Bad4 -- invalid kid" << std::endl;
auto bad4 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad4"), pdf);
assert(bad4.find("F", true)->first == "C");
for (auto const& i: bad4)
{
std::cout << i.first << std::endl;
}
std::cout << "/Bad5 -- loop in find" << std::endl;
auto bad5 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad5"), pdf);
assert(bad5.find("F", true)->first == "D");
std::cout << "/Bad6 -- bad limits" << std::endl;
auto bad6 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Bad6"), pdf);
assert(bad6.insert("H", QPDFObjectHandle::newNull())->first == "H");
}
static void test_49(QPDF& pdf, char const* arg2)
{
// Outlines
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
QPDFOutlineDocumentHelper odh(pdf);
int pageno = 0;
for (std::vector<QPDFPageObjectHelper>::iterator iter = pages.begin();
iter != pages.end(); ++iter, ++pageno)
{
std::vector<QPDFOutlineObjectHelper> outlines =
odh.getOutlinesForPage((*iter).getObjectHandle().getObjGen());
for (std::vector<QPDFOutlineObjectHelper>::iterator oiter =
outlines.begin();
oiter != outlines.end(); ++oiter)
{
std::cout
<< "page " << pageno << ": "
<< (*oiter).getTitle() << " -> "
<< (*oiter).getDest().unparseResolved() << std::endl;
}
}
}
static void test_50(QPDF& pdf, char const* arg2)
{
// Test dictionary merge. This test is crafted to work with
// merge-dict.pdf
QPDFObjectHandle d1 = pdf.getTrailer().getKey("/Dict1");
QPDFObjectHandle d2 = pdf.getTrailer().getKey("/Dict2");
d1.mergeResources(d2);
std::cout << d1.getJSON().unparse() << std::endl;
// Top-level type mismatch
d1.mergeResources(d2.getKey("/k1"));
std::set<std::string> names = d1.getResourceNames();
for (std::set<std::string>::iterator iter = names.begin();
iter != names.end(); ++iter)
{
std::cout << *iter << std::endl;
}
}
static void test_51(QPDF& pdf, char const* arg2)
{
// Test radio button and checkbox field setting. The input
// files must have radios button called r1 and r2 and
// checkboxes called checkbox1 and checkbox2. The files
// button-set*.pdf are designed for this test case.
QPDFObjectHandle acroform = pdf.getRoot().getKey("/AcroForm");
QPDFObjectHandle fields = acroform.getKey("/Fields");
int nitems = fields.getArrayNItems();
for (int i = 0; i < nitems; ++i)
{
QPDFObjectHandle field = fields.getArrayItem(i);
QPDFObjectHandle T = field.getKey("/T");
if (! T.isString())
{
continue;
}
std::string Tval = T.getUTF8Value();
if (Tval == "r1")
{
std::cout << "setting r1 via parent\n";
QPDFFormFieldObjectHelper foh(field);
foh.setV(QPDFObjectHandle::newName("/2"));
}
else if (Tval == "r2")
{
std::cout << "setting r2 via child\n";
field = field.getKey("/Kids").getArrayItem(1);
QPDFFormFieldObjectHelper foh(field);
foh.setV(QPDFObjectHandle::newName("/3"));
}
else if (Tval == "checkbox1")
{
std::cout << "turning checkbox1 on\n";
QPDFFormFieldObjectHelper foh(field);
foh.setV(QPDFObjectHandle::newName("/Yes"));
}
else if (Tval == "checkbox2")
{
std::cout << "turning checkbox2 off\n";
QPDFFormFieldObjectHelper foh(field);
foh.setV(QPDFObjectHandle::newName("/Off"));
}
}
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.write();
}
static void test_52(QPDF& pdf, char const* arg2)
{
// This test just sets a field value for appearance stream
// generating testing.
QPDFObjectHandle acroform = pdf.getRoot().getKey("/AcroForm");
QPDFObjectHandle fields = acroform.getKey("/Fields");
int nitems = fields.getArrayNItems();
for (int i = 0; i < nitems; ++i)
{
QPDFObjectHandle field = fields.getArrayItem(i);
QPDFObjectHandle T = field.getKey("/T");
if (! T.isString())
{
continue;
}
std::string Tval = T.getUTF8Value();
if (Tval == "list1")
{
std::cout << "setting list1 value\n";
QPDFFormFieldObjectHelper foh(field);
foh.setV(QPDFObjectHandle::newString(arg2));
}
}
QPDFWriter w(pdf, "a.pdf");
w.write();
}
static void test_53(QPDF& pdf, char const* arg2)
{
// Test get all objects and dangling ref handling
QPDFObjectHandle root = pdf.getRoot();
root.replaceKey(
"/Q1",
pdf.makeIndirectObject(QPDFObjectHandle::newString("potato")));
std::cout << "all objects" << std::endl;
std::vector<QPDFObjectHandle> all = pdf.getAllObjects();
for (std::vector<QPDFObjectHandle>::iterator iter = all.begin();
iter != all.end(); ++iter)
{
std::cout << (*iter).unparse() << std::endl;
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.write();
}
static void test_54(QPDF& pdf, char const* arg2)
{
// Test getFinalVersion. This must be invoked with a file
// whose final version is not 1.5.
QPDFWriter w(pdf, "a.pdf");
assert(pdf.getPDFVersion() != "1.5");
w.setObjectStreamMode(qpdf_o_generate);
if (w.getFinalVersion() != "1.5")
{
std::cout << "oops: " << w.getFinalVersion() << std::endl;
}
}
static void test_55(QPDF& pdf, char const* arg2)
{
// Form XObjects
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(pdf).getAllPages();
QPDFObjectHandle qtest = QPDFObjectHandle::newArray();
for (std::vector<QPDFPageObjectHelper>::iterator iter = pages.begin();
iter != pages.end(); ++iter)
{
QPDFPageObjectHelper& ph(*iter);
qtest.appendItem(ph.getFormXObjectForPage());
qtest.appendItem(ph.getFormXObjectForPage(false));
}
pdf.getTrailer().replaceKey("/QTest", qtest);
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.write();
}
static void test_56_59(QPDF& pdf, char const* arg2,
bool handle_from_transformation,
bool invert_to_transformation)
{
// red pages are from pdf, blue pages are from pdf2
// red pages always have stated rotation absolutely
// 56: blue pages are overlaid exactly on top of red pages
// 57: blue pages have stated rotation relative to red pages
// 58: blue pages have no rotation (absolutely upright)
// 59: blue pages have stated rotation absolutely
// Placing form XObjects
assert(arg2);
QPDF pdf2;
pdf2.processFile(arg2);
std::vector<QPDFPageObjectHelper> pages1 =
QPDFPageDocumentHelper(pdf).getAllPages();
std::vector<QPDFPageObjectHelper> pages2 =
QPDFPageDocumentHelper(pdf2).getAllPages();
size_t npages = (pages1.size() < pages2.size()
? pages1.size() : pages2.size());
for (size_t i = 0; i < npages; ++i)
{
QPDFPageObjectHelper& ph1 = pages1.at(i);
QPDFPageObjectHelper& ph2 = pages2.at(i);
QPDFObjectHandle fo = pdf.copyForeignObject(
ph2.getFormXObjectForPage(handle_from_transformation));
int min_suffix = 1;
QPDFObjectHandle resources = ph1.getAttribute("/Resources", true);
std::string name = resources.getUniqueResourceName(
"/Fx", min_suffix);
std::string content =
ph1.placeFormXObject(
fo, name, ph1.getTrimBox().getArrayAsRectangle(),
invert_to_transformation);
if (! content.empty())
{
resources.mergeResources(
QPDFObjectHandle::parse("<< /XObject << >> >>"));
resources.getKey("/XObject").replaceKey(name, fo);
ph1.addPageContents(
QPDFObjectHandle::newStream(&pdf, "q\n"), true);
ph1.addPageContents(
QPDFObjectHandle::newStream(&pdf, "\nQ\n" + content),
false);
}
}
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.write();
}
static void test_56(QPDF& pdf, char const* arg2)
{
test_56_59(pdf, arg2, false, false);
}
static void test_57(QPDF& pdf, char const* arg2)
{
test_56_59(pdf, arg2, true, false);
}
static void test_58(QPDF& pdf, char const* arg2)
{
test_56_59(pdf, arg2, false, true);
}
static void test_59(QPDF& pdf, char const* arg2)
{
test_56_59(pdf, arg2, true, true);
}
static void test_60(QPDF& pdf, char const* arg2)
{
// Boundary condition testing for getUniqueResourceName;
// additional testing of mergeResources with conflict
// detection
QPDFObjectHandle r1 = QPDFObjectHandle::newDictionary();
int min_suffix = 1;
for (int i = 1; i < 3; ++i)
{
std::string name = r1.getUniqueResourceName("/Quack", min_suffix);
r1.mergeResources(QPDFObjectHandle::parse("<< /Z << >> >>"));
r1.getKey("/Z").replaceKey(
name, QPDFObjectHandle::newString("moo"));
}
auto make_resource = [&](QPDFObjectHandle& dict,
std::string const& key,
std::string const& str) {
auto o1 = QPDFObjectHandle::newArray();
o1.appendItem(QPDFObjectHandle::newString(str));
dict.replaceKey(key, pdf.makeIndirectObject(o1));
};
auto z = r1.getKey("/Z");
r1.replaceKey("/Y", QPDFObjectHandle::newDictionary());
auto y = r1.getKey("/Y");
make_resource(z, "/F1", "r1.Z.F1");
make_resource(z, "/F2", "r1.Z.F2");
make_resource(y, "/F2", "r1.Y.F2");
make_resource(y, "/F3", "r1.Y.F3");
QPDFObjectHandle r2 =
QPDFObjectHandle::parse("<< /Z << >> /Y << >> >>");
z = r2.getKey("/Z");
y = r2.getKey("/Y");
make_resource(z, "/F2", "r2.Z.F2");
make_resource(y, "/F3", "r2.Y.F3");
make_resource(y, "/F4", "r2.Y.F4");
// Add a direct object
y.replaceKey("/F5", QPDFObjectHandle::newString("direct r2.Y.F5"));
std::map<std::string, std::map<std::string, std::string>> conflicts;
auto show_conflicts = [&](std::string const& msg) {
std::cout << msg << std::endl;
for (auto const& i1: conflicts)
{
std::cout << i1.first << ":" << std::endl;
for (auto const& i2: i1.second)
{
std::cout << " " << i2.first << " -> " << i2.second
<< std::endl;
}
}
};
r1.mergeResources(r2, &conflicts);
show_conflicts("first merge");
auto r3 = r1.shallowCopy();
// Merge again. The direct object gets recopied. Everything
// else is the same.
r1.mergeResources(r2, &conflicts);
show_conflicts("second merge");
// Make all resources in r2 direct. Then merge two more times.
// We should get the one previously direct object copied one
// time as an indirect object.
r2.makeResourcesIndirect(pdf);
r1.mergeResources(r2, &conflicts);
show_conflicts("third merge");
r1.mergeResources(r2, &conflicts);
show_conflicts("fourth merge");
// The only differences between /QTest and /QTest3 should be
// the direct objects merged from r2.
pdf.getTrailer().replaceKey("/QTest1", r1);
pdf.getTrailer().replaceKey("/QTest2", r2);
pdf.getTrailer().replaceKey("/QTest3", r3);
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.write();
}
static void test_61(QPDF& pdf, char const* arg2)
{
// Test to make sure exceptions can be caught properly across
// shared library boundaries.
pdf.setAttemptRecovery(false);
pdf.setSuppressWarnings(true);
try
{
pdf.processMemoryFile("empty", "", 0);
}
catch (QPDFExc const&)
{
std::cout << "Caught QPDFExc as expected" << std::endl;
}
try
{
QUtil::safe_fopen("/does/not/exist", "r");
}
catch (QPDFSystemError const&)
{
std::cout << "Caught QPDFSystemError as expected" << std::endl;
}
try
{
QUtil::int_to_string_base(0, 12);
}
catch (std::logic_error const&)
{
std::cout << "Caught logic_error as expected" << std::endl;
}
try
{
QUtil::toUTF8(0xffffffff);
}
catch (std::runtime_error const&)
{
std::cout << "Caught runtime_error as expected" << std::endl;
}
}
static void test_62(QPDF& pdf, char const* arg2)
{
// Test int size checks. This test will fail if int and long
// long are the same size.
QPDFObjectHandle t = pdf.getTrailer();
unsigned long long q1_l = 3ULL * QIntC::to_ulonglong(INT_MAX);
long long q1 = QIntC::to_longlong(q1_l);
long long q2_l = 3LL * QIntC::to_longlong(INT_MIN);
long long q2 = QIntC::to_longlong(q2_l);
unsigned int q3_i = UINT_MAX;
long long q3 = QIntC::to_longlong(q3_i);
t.replaceKey("/Q1", QPDFObjectHandle::newInteger(q1));
t.replaceKey("/Q2", QPDFObjectHandle::newInteger(q2));
t.replaceKey("/Q3", QPDFObjectHandle::newInteger(q3));
assert_compare_numbers(q1, t.getKey("/Q1").getIntValue());
assert_compare_numbers(q1_l, t.getKey("/Q1").getUIntValue());
assert_compare_numbers(INT_MAX, t.getKey("/Q1").getIntValueAsInt());
assert_compare_numbers(UINT_MAX, t.getKey("/Q1").getUIntValueAsUInt());
assert_compare_numbers(q2_l, t.getKey("/Q2").getIntValue());
assert_compare_numbers(0U, t.getKey("/Q2").getUIntValue());
assert_compare_numbers(INT_MIN, t.getKey("/Q2").getIntValueAsInt());
assert_compare_numbers(0U, t.getKey("/Q2").getUIntValueAsUInt());
assert_compare_numbers(INT_MAX, t.getKey("/Q3").getIntValueAsInt());
assert_compare_numbers(UINT_MAX, t.getKey("/Q3").getUIntValueAsUInt());
}
static void test_63(QPDF& pdf, char const* arg2)
{
QPDFWriter w(pdf);
// Exercise setting encryption parameters before setting the
// output filename. The previous bug does not happen if static
// or deterministic ID is used because the filename is not
// used as part of the input data for ID generation in those
// cases.
w.setR6EncryptionParameters(
"u", "o", true, true, true, true, true, true, qpdf_r3p_full, true);
w.setOutputFilename("a.pdf");
w.write();
}
static void test_64_67(QPDF& pdf, char const* arg2,
bool allow_shrink, bool allow_expand)
{
// Overlay file2 on file1.
// 64: allow neither shrink nor shrink
// 65: allow shrink but not expand
// 66: allow expand but not shrink
// 67: allow both shrink and expand
// Placing form XObjects: expand, shrink
assert(arg2);
QPDF pdf2;
pdf2.processFile(arg2);
std::vector<QPDFPageObjectHelper> pages1 =
QPDFPageDocumentHelper(pdf).getAllPages();
std::vector<QPDFPageObjectHelper> pages2 =
QPDFPageDocumentHelper(pdf2).getAllPages();
size_t npages = (pages1.size() < pages2.size()
? pages1.size() : pages2.size());
for (size_t i = 0; i < npages; ++i)
{
QPDFPageObjectHelper& ph1 = pages1.at(i);
QPDFPageObjectHelper& ph2 = pages2.at(i);
QPDFObjectHandle fo = pdf.copyForeignObject(
ph2.getFormXObjectForPage());
int min_suffix = 1;
QPDFObjectHandle resources = ph1.getAttribute("/Resources", true);
std::string name = resources.getUniqueResourceName(
"/Fx", min_suffix);
std::string content =
ph1.placeFormXObject(
fo, name, ph1.getTrimBox().getArrayAsRectangle(),
false, allow_shrink, allow_expand);
if (! content.empty())
{
resources.mergeResources(
QPDFObjectHandle::parse("<< /XObject << >> >>"));
resources.getKey("/XObject").replaceKey(name, fo);
ph1.addPageContents(
QPDFObjectHandle::newStream(&pdf, "q\n"), true);
ph1.addPageContents(
QPDFObjectHandle::newStream(&pdf, "\nQ\n" + content),
false);
}
}
QPDFWriter w(pdf, "a.pdf");
w.setQDFMode(true);
w.setStaticID(true);
w.write();
}
static void test_64(QPDF& pdf, char const* arg2)
{
test_64_67(pdf, arg2, false, false);
}
static void test_65(QPDF& pdf, char const* arg2)
{
test_64_67(pdf, arg2, true, false);
}
static void test_66(QPDF& pdf, char const* arg2)
{
test_64_67(pdf, arg2, false, true);
}
static void test_67(QPDF& pdf, char const* arg2)
{
test_64_67(pdf, arg2, true, true);
}
static void test_68(QPDF& pdf, char const* arg2)
{
QPDFObjectHandle root = pdf.getRoot();
QPDFObjectHandle qstream = root.getKey("/QStream");
try
{
qstream.getStreamData();
std::cout << "oops -- didn't throw" << std::endl;
}
catch (std::exception& e)
{
std::cout << "get unfilterable stream: " << e.what()
<< std::endl;
}
PointerHolder<Buffer> b1 = qstream.getStreamData(qpdf_dl_all);
if ((b1->getSize() > 10) &&
(memcmp(b1->getBuffer(),
"wwwwwwwww", 9) == 0))
{
std::cout << "filtered stream data okay" << std::endl;
}
PointerHolder<Buffer> b2 = qstream.getRawStreamData();
if ((b2->getSize() > 10) &&
(memcmp(b2->getBuffer(),
"\xff\xd8\xff\xe0\x00\x10\x4a\x46\x49\x46", 10) == 0))
{
std::cout << "raw stream data okay" << std::endl;
}
}
static void test_69(QPDF& pdf, char const* arg2)
{
pdf.setImmediateCopyFrom(true);
auto pages = pdf.getAllPages();
for (size_t i = 0; i < pages.size(); ++i)
{
QPDF out;
out.emptyPDF();
out.addPage(pages.at(i), false);
std::string outname = std::string("auto-") +
QUtil::uint_to_string(i) + ".pdf";
QPDFWriter w(out, outname.c_str());
w.setStaticID(true);
w.write();
}
}
static void test_70(QPDF& pdf, char const* arg2)
{
auto trailer = pdf.getTrailer();
trailer.getKey("/S1").setFilterOnWrite(false);
trailer.getKey("/S2").setFilterOnWrite(false);
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setDecodeLevel(qpdf_dl_specialized);
w.write();
}
static void test_71(QPDF& pdf, char const* arg2)
{
auto show = [](QPDFObjectHandle& obj,
QPDFObjectHandle& xobj_dict,
std::string const& key) {
std::cout << xobj_dict.unparse() << " -> "
<< key << " -> " << obj.unparse() << std::endl;
};
auto page = QPDFPageDocumentHelper(pdf).getAllPages().at(0);
std::cout << "--- recursive, all ---" << std::endl;
page.forEachXObject(true, show);
std::cout << "--- non-recursive, all ---" << std::endl;
page.forEachXObject(false, show);
std::cout << "--- recursive, images ---" << std::endl;
page.forEachImage(true, show);
std::cout << "--- non-recursive, images ---" << std::endl;
page.forEachImage(false, show);
std::cout << "--- recursive, form XObjects ---" << std::endl;
page.forEachFormXObject(true, show);
std::cout << "--- non-recursive, form XObjects ---" << std::endl;
page.forEachFormXObject(false, show);
auto fx1 = QPDFPageObjectHelper(
page.getObjectHandle()
.getKey("/Resources")
.getKey("/XObject")
.getKey("/Fx1"));
std::cout << "--- recursive, all, from fx1 ---" << std::endl;
fx1.forEachXObject(true, show);
std::cout << "--- non-recursive, all, from fx1 ---" << std::endl;
fx1.forEachXObject(false, show);
std::cout << "--- get images, page ---" << std::endl;
for (auto& i: page.getImages())
{
std::cout << i.first << " -> " << i.second.unparse() << std::endl;
}
std::cout << "--- get images, fx ---" << std::endl;
for (auto& i: fx1.getImages())
{
std::cout << i.first << " -> " << i.second.unparse() << std::endl;
}
std::cout << "--- get form XObjects, page ---" << std::endl;
for (auto& i: page.getFormXObjects())
{
std::cout << i.first << " -> " << i.second.unparse() << std::endl;
}
std::cout << "--- get form XObjects, fx ---" << std::endl;
for (auto& i: fx1.getFormXObjects())
{
std::cout << i.first << " -> " << i.second.unparse() << std::endl;
}
}
static void test_72(QPDF& pdf, char const* arg2)
{
// Call some QPDFPageObjectHelper methods on form XObjects.
auto page = QPDFPageDocumentHelper(pdf).getAllPages().at(0);
auto fx1 = QPDFPageObjectHelper(
page.getObjectHandle()
.getKey("/Resources")
.getKey("/XObject")
.getKey("/Fx1"));
std::cout << "--- parseContents ---" << std::endl;
ParserCallbacks cb;
fx1.parseContents(&cb);
// Do this once with addContentTokenFilter and once with
// addTokenFilter to show that they are the same and to ensure
// that addTokenFilter is directly exercised in testing.
for (int i = 0; i < 2; i++)
{
Pl_Buffer b("buffer");
if (i == 0)
{
fx1.addContentTokenFilter(new TokenFilter);
}
else
{
fx1.getObjectHandle().addTokenFilter(new TokenFilter);
}
fx1.pipeContents(&b);
std::unique_ptr<Buffer> buf(b.getBuffer());
std::string s(
reinterpret_cast<char const*>(buf->getBuffer()),
buf->getSize());
assert(s.find("/bye") != std::string::npos);
}
}
static void test_73(QPDF& pdf, char const* arg2)
{
try
{
QPDF pdf2;
pdf2.getRoot();
}
catch (std::exception& e)
{
std::cerr << "getRoot: " << e.what() << std::endl;
}
pdf.closeInputSource();
pdf.getRoot().getKey("/Pages").unparseResolved();
}
static void test_74(QPDF& pdf, char const* arg2)
{
// This test is crafted to work with split-nntree.pdf
std::cout << "/Split1" << std::endl;
auto split1 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Split1"), pdf);
split1.setSplitThreshold(4);
auto check_split1 = [&split1](int k) {
auto i = split1.insert(k, QPDFObjectHandle::newString(
QUtil::int_to_string(k)));
assert(i->first == k);
};
check_split1(15);
check_split1(35);
check_split1(125);
for (auto const& i: split1)
{
std::cout << i.first << std::endl;
}
std::cout << "/Split2" << std::endl;
auto split2 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Split2"), pdf);
split2.setSplitThreshold(4);
auto check_split2 = [](QPDFNameTreeObjectHelper& noh,
std::string const& k) {
auto i = noh.insert(k, QPDFObjectHandle::newUnicodeString(k));
assert(i->first == k);
};
check_split2(split2, "C");
for (auto const& i: split2)
{
std::cout << i.first << std::endl;
}
std::cout << "/Split3" << std::endl;
auto split3 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Split3"), pdf);
split3.setSplitThreshold(4);
check_split2(split3, "P");
check_split2(split3, "\xcf\x80");
for (auto& i: split3)
{
std::cout << i.first << " " << i.second.unparse() << std::endl;
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setQDFMode(true);
w.write();
}
static void test_75(QPDF& pdf, char const* arg2)
{
// This test is crafted to work with erase-nntree.pdf
auto erase1 = QPDFNameTreeObjectHelper(
pdf.getTrailer().getKey("/Erase1"), pdf);
QPDFObjectHandle value;
assert(! erase1.remove("1X"));
assert(erase1.remove("1C", &value));
assert(value.getUTF8Value() == "c");
auto iter1 = erase1.find("1B");
iter1.remove();
assert(iter1->first == "1D");
iter1.remove();
assert(iter1 == erase1.end());
--iter1;
assert(iter1->first == "1A");
iter1.remove();
assert(iter1 == erase1.end());
auto erase2_oh = pdf.getTrailer().getKey("/Erase2");
auto erase2 = QPDFNumberTreeObjectHelper(erase2_oh, pdf);
auto iter2 = erase2.find(250);
iter2.remove();
assert(iter2 == erase2.end());
--iter2;
assert(iter2->first == 240);
auto k1 = erase2_oh.getKey("/Kids").getArrayItem(1);
auto l1 = k1.getKey("/Limits");
assert(l1.getArrayItem(0).getIntValue() == 230);
assert(l1.getArrayItem(1).getIntValue() == 240);
iter2 = erase2.find(210);
iter2.remove();
assert(iter2->first == 220);
k1 = erase2_oh.getKey("/Kids").getArrayItem(0);
l1 = k1.getKey("/Limits");
assert(l1.getArrayItem(0).getIntValue() == 220);
assert(l1.getArrayItem(1).getIntValue() == 220);
k1 = k1.getKey("/Kids");
assert(k1.getArrayNItems() == 1);
auto erase3 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Erase3"), pdf);
iter2 = erase3.find(320);
iter2.remove();
assert(iter2 == erase3.end());
erase3.remove(310);
assert(erase3.begin() == erase3.end());
auto erase4 = QPDFNumberTreeObjectHelper(
pdf.getTrailer().getKey("/Erase4"), pdf);
iter2 = erase4.find(420);
iter2.remove();
assert(iter2->first == 430);
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setQDFMode(true);
w.write();
}
static void test_76(QPDF& pdf, char const* arg2)
{
// Embedded files. arg2 is a file to attach. Hard-code the
// mime type and file name for test purposes.
QPDFEmbeddedFileDocumentHelper efdh(pdf);
auto fs1 = QPDFFileSpecObjectHelper::createFileSpec(
pdf, "att1.txt", arg2);
fs1.setDescription("some text");
auto efs1 = QPDFEFStreamObjectHelper(fs1.getEmbeddedFileStream());
efs1.setSubtype("text/plain")
.setCreationDate("D:20210207191121-05'00'")
.setModDate("D:20210208001122Z");
efdh.replaceEmbeddedFile("att1", fs1);
auto efs2 = QPDFEFStreamObjectHelper::createEFStream(
pdf, "from string");
efs2.setSubtype("text/plain");
Pl_Buffer p("buffer");
p.write(QUtil::unsigned_char_pointer("from buffer"), 11);
p.finish();
auto efs3 = QPDFEFStreamObjectHelper::createEFStream(
pdf, p.getBuffer());
efs3.setSubtype("text/plain");
efdh.replaceEmbeddedFile(
"att2", QPDFFileSpecObjectHelper::createFileSpec(
pdf, "att2.txt", efs2));
auto fs3 = QPDFFileSpecObjectHelper::createFileSpec(
pdf, "att3.txt", efs3);
efdh.replaceEmbeddedFile("att3", fs3);
fs3.setFilename("\xcf\x80.txt", "att3.txt");
assert(efs1.getCreationDate() == "D:20210207191121-05'00'");
assert(efs1.getModDate() == "D:20210208001122Z");
assert(efs2.getSize() == 11);
assert(efs2.getSubtype() == "text/plain");
assert(QUtil::hex_encode(efs2.getChecksum()) ==
"2fce9c8228e360ba9b04a1bd1bf63d6b");
for (auto iter: efdh.getEmbeddedFiles())
{
std::cout << iter.first << " -> " << iter.second->getFilename()
<< std::endl;
}
assert(efdh.getEmbeddedFile("att1")->getFilename() == "att1.txt");
assert(! efdh.getEmbeddedFile("potato"));
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setQDFMode(true);
w.write();
}
static void test_77(QPDF& pdf, char const* arg2)
{
QPDFEmbeddedFileDocumentHelper efdh(pdf);
assert(efdh.removeEmbeddedFile("att2"));
assert(! efdh.removeEmbeddedFile("att2"));
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setQDFMode(true);
w.write();
}
static void test_78(QPDF& pdf, char const* arg2)
{
// Test functional versions of replaceStreamData()
auto f1 = [](Pipeline* p) {
p->write(QUtil::unsigned_char_pointer("potato"), 6);
p->finish();
};
auto f2 = [](Pipeline* p, bool suppress_warnings, bool will_retry) {
std::cerr << "f2" << std::endl;
if (will_retry)
{
std::cerr << "failing" << std::endl;
return false;
}
if (! suppress_warnings)
{
std::cerr << "warning" << std::endl;
}
p->write(QUtil::unsigned_char_pointer("salad"), 5);
p->finish();
std::cerr << "f2 done" << std::endl;
return true;
};
auto null = QPDFObjectHandle::newNull();
auto s1 = QPDFObjectHandle::newStream(&pdf);
s1.replaceStreamData(f1, null, null);
auto s2 = QPDFObjectHandle::newStream(&pdf);
s2.replaceStreamData(f2, null, null);
pdf.getTrailer().replaceKey(
"/Streams", QPDFObjectHandle::newArray({s1, s2}));
std::cout << "piping with warning suppression" << std::endl;
Pl_Discard d;
s2.pipeStreamData(&d, nullptr, 0, qpdf_dl_all, true, false);
std::cout << "writing" << std::endl;
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setQDFMode(true);
w.write();
}
static void test_79(QPDF& pdf, char const* arg2)
{
// Exercise stream copier
// Copy streams. Modify the original and make sure the copy is
// unaffected.
auto copies = QPDFObjectHandle::newArray();
pdf.getTrailer().replaceKey("/Copies", copies);
auto null = QPDFObjectHandle::newNull();
// Get a regular stream from the file
auto p1 = pdf.getAllPages().at(0);
auto s1 = p1.getKey("/Contents");
// Create a stream from a string
auto s2 = QPDFObjectHandle::newStream(&pdf, "from string");
// Add direct and indirect objects to the dictionary
s2.getDict().replaceKey(
"/Stuff",
QPDFObjectHandle::parse(
&pdf,
"<< /Direct 3 /Indirect " +
pdf.makeIndirectObject(
QPDFObjectHandle::newInteger(16059)).unparse() + ">>"));
s2.getDict().replaceKey(
"/Other", QPDFObjectHandle::newString("other stuff"));
// Use a provider
Pl_Buffer b("buffer");
b.write(QUtil::unsigned_char_pointer("from buffer"), 11);
b.finish();
PointerHolder<Buffer> bp = b.getBuffer();
auto s3 = QPDFObjectHandle::newStream(&pdf, bp);
std::vector<QPDFObjectHandle> streams = {s1, s2, s3};
pdf.getTrailer().replaceKey(
"/Originals", QPDFObjectHandle::newArray(streams));
int i = 0;
for (auto orig: streams)
{
++i;
auto istr = QUtil::int_to_string(i);
auto orig_data = orig.getStreamData();
auto copy = orig.copyStream();
copy.getDict().replaceKey(
"/Other", QPDFObjectHandle::newString("other: " + istr));
orig.replaceStreamData("something new " + istr, null, null);
auto copy_data = copy.getStreamData();
assert(orig_data->getSize() == copy_data->getSize());
assert(memcmp(orig_data->getBuffer(),
copy_data->getBuffer(),
orig_data->getSize()) == 0);
copies.appendItem(copy);
}
QPDFWriter w(pdf, "a.pdf");
w.setStaticID(true);
w.setQDFMode(true);
w.write();
}
static void test_80(QPDF& pdf, char const* arg2)
{
// Exercise transform/copy annotations without passing in
// QPDFAcroFormDocumentHelper pointers. The case of passing
// them in is sufficiently exercised by testing through the
// qpdf CLI.
// The main file is a file that has lots of annotations. Arg2
// is a file to copy annotations to.
QPDFMatrix m;
m.translate(306, 396);
m.scale(0.4, 0.4);
auto page1 = pdf.getAllPages().at(0);
auto old_annots = page1.getKey("/Annots");
// Transform annotations and copy them back to the same page.
std::vector<QPDFObjectHandle> new_annots;
std::vector<QPDFObjectHandle> new_fields;
std::set<QPDFObjGen> old_fields;
QPDFAcroFormDocumentHelper afdh(pdf);
// Use defaults for from_qpdf and from_afdh.
afdh.transformAnnotations(
old_annots, new_annots, new_fields, old_fields, m);
for (auto const& annot: new_annots)
{
old_annots.appendItem(annot);
}
afdh.addAndRenameFormFields(new_fields);
m = QPDFMatrix();
m.translate(612, 0);
m.scale(-1, 1);
QPDF pdf2;
pdf2.processFile(arg2);
auto page2 = QPDFPageDocumentHelper(pdf2).getAllPages().at(0);
page2.copyAnnotations(page1, m);
QPDFWriter w1(pdf, "a.pdf");
w1.setStaticID(true);
w1.setQDFMode(true);
w1.write();
QPDFWriter w2(pdf2, "b.pdf");
w2.setStaticID(true);
w2.setQDFMode(true);
w2.write();
}
static void test_81(QPDF& pdf, char const* arg2)
{
// Exercise that type errors get their own special type
try
{
QPDFObjectHandle::newNull().getIntValue();
assert(false);
}
catch (QPDFExc& e)
{
assert(e.getErrorCode() == qpdf_e_object);
}
}
static void test_82(QPDF& pdf, char const* arg2)
{
// Exercise compound test methods QPDFObjectHandle::isNameAndEquals,
// isDictionaryOfType and isStreamOfType
auto name = QPDFObjectHandle::newName("/Marvin");
auto str = QPDFObjectHandle::newString("/Marvin");
assert(name.isNameAndEquals("/Marvin"));
assert(! name.isNameAndEquals("Marvin"));
assert(! str.isNameAndEquals("/Marvin"));
auto dict = QPDFObjectHandle::parse("<</A 1 /Type /Test /Subtype /Marvin>>");
assert(dict.isDictionaryOfType( "/Test", ""));
assert(dict.isDictionaryOfType("/Test"));
assert(dict.isDictionaryOfType("/Test", "/Marvin"));
assert(dict.isDictionaryOfType("", "/Marvin"));
assert(dict.isDictionaryOfType("", ""));
assert(! dict.isDictionaryOfType("/Test2", ""));
assert(! dict.isDictionaryOfType("/Test2", "/Marvin"));
assert(! dict.isDictionaryOfType("/Test", "/M"));
assert(! name.isDictionaryOfType("", ""));
dict = QPDFObjectHandle::parse("<</A 1 /Type null /Subtype /Marvin>>");
assert(! dict.isDictionaryOfType("/Test"));
dict = QPDFObjectHandle::parse("<</A 1 /Type (Test) /Subtype /Marvin>>");
assert(! dict.isDictionaryOfType("Test"));
dict = QPDFObjectHandle::parse("<</A 1 /Type /Test /Subtype (Marvin)>>");
assert(! dict.isDictionaryOfType("Test"));
dict = QPDFObjectHandle::parse("<</A 1 /Subtype /Marvin>>");
assert(! dict.isDictionaryOfType("/Test", "Marvin"));
auto stream = pdf.getObjectByID(1,0);
assert(stream.isStreamOfType("/ObjStm"));
assert(! stream.isStreamOfType("/Test"));
assert(! pdf.getObjectByID(2,0).isStreamOfType("/Pages"));
/* cSpell: ignore Blaah Blaaah Blaaaah */
auto array = QPDFObjectHandle::parse("[/Blah /Blaah /Blaaah]");
assert(array.isOrHasName("/Blah"));
assert(array.isOrHasName("/Blaaah"));
assert(! array.isOrHasName("/Blaaaah"));
assert(array.getArrayItem(0).isOrHasName("/Blah"));
assert(! array.getArrayItem(1).isOrHasName("/Blah"));
array = QPDFObjectHandle::parse("[]");
assert(! array.isOrHasName("/Blah"));
assert(! str.isOrHasName("/Marvin"));
}
static void test_83(QPDF& pdf, char const* arg2)
{
// Test QPDFJob json with partial = false. For testing with
// partial = true, we just use qpdf --job-json-file.
QPDFJob j;
PointerHolder<char> file_buf;
size_t size;
QUtil::read_file_into_memory(arg2, file_buf, size);
try
{
std::cout << "calling initializeFromJson" << std::endl;
j.initializeFromJson(std::string(file_buf.get(), size));
std::cout << "called initializeFromJson" << std::endl;
}
catch (QPDFUsage& e)
{
std::cerr << "usage: " << e.what() << std::endl;
}
catch (std::exception& e)
{
std::cerr << "exception: " << e.what() << std::endl;
}
}
static void test_84(QPDF& pdf, char const* arg2)
{
// Test QPDFJob API
std::cout << "normal" << std::endl;
{
QPDFJob j;
j.config()
->inputFile("minimal.pdf")
->outputFile("a.pdf")
->qdf()
->deterministicId()
->objectStreams("preserve")
->checkConfiguration();
j.run();
assert(j.getExitCode() == 0);
assert(! j.hasWarnings());
assert(j.getEncryptionStatus() == 0);
}
std::cout << "error caught by check" << std::endl;
try
{
QPDFJob j;
j.config()
->outputFile("a.pdf")
->qdf();
std::cout << "finished config" << std::endl;
j.checkConfiguration();
assert(false);
}
catch (QPDFUsage& e)
{
std::cout << "usage: " << e.what() << std::endl;
}
std::cout << "error caught by run" << std::endl;
try
{
QPDFJob j;
j.config()
->outputFile("a.pdf")
->qdf();
std::cout << "finished config" << std::endl;
j.run();
assert(false);
}
catch (QPDFUsage& e)
{
std::cout << "usage: " << e.what() << std::endl;
}
}
void runtest(int n, char const* filename1, char const* arg2)
{
// Most tests here are crafted to work on specific files. Look at
// the test suite to see how the test is invoked to find the file
// that the test is supposed to operate on.
if (n == 0)
{
// Throw in some random test cases that don't fit anywhere
// else. This is in addition to whatever else is going on in
// test 0.
// The code to trim user passwords looks for 0x28 (which is
// "(") since it marks the beginning of the padding. Exercise
// the code to make sure it skips over 0x28 characters that
// aren't part of padding.
std::string password(
"1234567890123456789012(45678\x28\xbf\x4e\x5e");
assert(password.length() == 32);
QPDF::trim_user_password(password);
assert(password == "1234567890123456789012(45678");
QPDFObjectHandle uninitialized;
assert(uninitialized.getTypeCode() == QPDFObject::ot_uninitialized);
assert(strcmp(uninitialized.getTypeName(), "uninitialized") == 0);
}
QPDF pdf;
PointerHolder<char> file_buf;
FILE* filep = 0;
if (n == 0)
{
pdf.setAttemptRecovery(false);
}
if (((n == 35) || (n == 36)) && (arg2 != 0))
{
// arg2 is password
pdf.processFile(filename1, arg2);
}
else if (n == 45)
{
// Decode obfuscated files. To obfuscated, run the input file
// through this perl script, and save the result to
// filename.obfuscated. This pretends that the input was
// called filename.pdf and that that file contained the
// deobfuscated version.
// undef $/;
// my @str = split('', <STDIN>);
// for (my $i = 0; $i < scalar(@str); ++$i)
// {
// $str[$i] = chr(ord($str[$i]) ^ 0xcc);
// }
// print(join('', @str));
std::string filename(std::string(filename1) + ".obfuscated");
size_t size = 0;
QUtil::read_file_into_memory(filename.c_str(), file_buf, size);
char* p = file_buf.get();
for (size_t i = 0; i < size; ++i)
{
p[i] = static_cast<char>(p[i] ^ 0xcc);
}
pdf.processMemoryFile((std::string(filename1) + ".pdf").c_str(),
p, size);
}
else if ((n == 61) || (n == 81) || (n == 83) || (n == 84))
{
// Ignore filename argument entirely
}
else if (n % 2 == 0)
{
if (n % 4 == 0)
{
QTC::TC("qpdf", "exercise processFile(name)");
pdf.processFile(filename1);
}
else
{
QTC::TC("qpdf", "exercise processFile(FILE*)");
filep = QUtil::safe_fopen(filename1, "rb");
pdf.processFile(filename1, filep, false);
}
}
else
{
QTC::TC("qpdf", "exercise processMemoryFile");
size_t size = 0;
QUtil::read_file_into_memory(filename1, file_buf, size);
pdf.processMemoryFile(filename1, file_buf.get(), size);
}
std::map<int, void (*)(QPDF&, char const*)> test_functions = {
{0, test_0_1}, {1, test_0_1}, {2, test_2}, {3, test_3},
{4, test_4}, {5, test_5}, {6, test_6}, {7, test_7},
{8, test_8}, {9, test_9}, {10, test_10}, {11, test_11},
{12, test_12}, {13, test_13}, {14, test_14}, {15, test_15},
{16, test_16}, {17, test_17}, {18, test_18}, {19, test_19},
{20, test_20}, {21, test_21}, {22, test_22}, {23, test_23},
{24, test_24}, {25, test_25}, {26, test_26}, {27, test_27},
{28, test_28}, {29, test_29}, {30, test_30}, {31, test_31},
{32, test_32}, {33, test_33}, {34, test_34}, {35, test_35},
{36, test_36}, {37, test_37}, {38, test_38}, {39, test_39},
{40, test_40}, {41, test_41}, {42, test_42}, {43, test_43},
{44, test_44}, {45, test_45}, {46, test_46}, {47, test_47},
{48, test_48}, {49, test_49}, {50, test_50}, {51, test_51},
{52, test_52}, {53, test_53}, {54, test_54}, {55, test_55},
{56, test_56}, {57, test_57}, {58, test_58}, {59, test_59},
{60, test_60}, {61, test_61}, {62, test_62}, {63, test_63},
{64, test_64}, {65, test_65}, {66, test_66}, {67, test_67},
{68, test_68}, {69, test_69}, {70, test_70}, {71, test_71},
{72, test_72}, {73, test_73}, {74, test_74}, {75, test_75},
{76, test_76}, {77, test_77}, {78, test_78}, {79, test_79},
{80, test_80}, {81, test_81}, {82, test_82}, {83, test_83},
{84, test_84},
};
auto fn = test_functions.find(n);
if (fn == test_functions.end())
{
throw std::runtime_error(std::string("invalid test ") +
QUtil::int_to_string(n));
}
(fn->second)(pdf, arg2);
if (filep)
{
fclose(filep);
}
std::cout << "test " << n << " done" << std::endl;
}
int main(int argc, char* argv[])
{
QUtil::setLineBuf(stdout);
if ((whoami = strrchr(argv[0], '/')) == NULL)
{
whoami = argv[0];
}
else
{
++whoami;
}
// For libtool's sake....
if (strncmp(whoami, "lt-", 3) == 0)
{
whoami += 3;
}
if ((argc < 3) || (argc > 4))
{
usage();
}
try
{
int n = QUtil::string_to_int(argv[1]);
char const* filename1 = argv[2];
char const* arg2 = argv[3];
runtest(n, filename1, arg2);
}
catch (std::exception& e)
{
std::cerr << e.what() << std::endl;
exit(2);
}
return 0;
}
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