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qpdf/examples/pdf-invert-images.cc
Jay Berkenbilt d71f05ca07 Fix sign and conversion warnings (major)
This makes all integer type conversions that have potential data loss
explicit with calls that do range checks and raise an exception. After
this commit, qpdf builds with no warnings when -Wsign-conversion
-Wconversion is used with gcc or clang or when -W3 -Wd4800 is used
with MSVC. This significantly reduces the likelihood of potential
crashes from bogus integer values.

There are some parts of the code that take int when they should take
size_t or an offset. Such places would make qpdf not support files
with more than 2^31 of something that usually wouldn't be so large. In
the event that such a file shows up and is valid, at least qpdf would
raise an error in the right spot so the issue could be legitimately
addressed rather than failing in some weird way because of a silent
overflow condition.
2019-06-21 13:17:21 -04:00

185 lines
5.4 KiB
C++

#include <iostream>
#include <string.h>
#include <stdlib.h>
#include <qpdf/QPDF.hh>
#include <qpdf/QPDFPageDocumentHelper.hh>
#include <qpdf/QPDFPageObjectHelper.hh>
#include <qpdf/QUtil.hh>
#include <qpdf/Buffer.hh>
#include <qpdf/QPDFWriter.hh>
#include <qpdf/QIntC.hh>
static char const* whoami = 0;
void usage()
{
std::cerr << "Usage: " << whoami << " infile.pdf outfile.pdf [in-password]"
<< std::endl
<< "Invert some images in infile.pdf;"
<< " write output to outfile.pdf" << std::endl;
exit(2);
}
// Derive a class from StreamDataProvider to provide updated stream
// data. The main purpose of using this object is to avoid having to
// allocate memory up front for the objects. A real application might
// use temporary files in order to avoid having to allocate all the
// memory. Here, we're not going to worry about that since the goal
// is really to show how to use this facility rather than to show the
// best possible way to write an image inverter. This class still
// illustrates dynamic creation of the new stream data.
class ImageInverter: public QPDFObjectHandle::StreamDataProvider
{
public:
virtual ~ImageInverter()
{
}
virtual void provideStreamData(int objid, int generation,
Pipeline* pipeline);
// Map [og] = image object
std::map<QPDFObjGen, QPDFObjectHandle> image_objects;
// Map [og] = image data
std::map<QPDFObjGen, PointerHolder<Buffer> > image_data;
};
void
ImageInverter::provideStreamData(int objid, int generation,
Pipeline* pipeline)
{
// Use the object and generation number supplied to look up the
// image data. Then invert the image data and write the inverted
// data to the pipeline.
PointerHolder<Buffer> data =
this->image_data[QPDFObjGen(objid, generation)];
size_t size = data->getSize();
unsigned char* buf = data->getBuffer();
unsigned char ch;
for (size_t i = 0; i < size; ++i)
{
ch = QIntC::to_uchar(0xff - buf[i]);
pipeline->write(&ch, 1);
}
pipeline->finish();
}
int main(int argc, char* argv[])
{
whoami = QUtil::getWhoami(argv[0]);
// For libtool's sake....
if (strncmp(whoami, "lt-", 3) == 0)
{
whoami += 3;
}
// For test suite
bool static_id = false;
if ((argc > 1) && (strcmp(argv[1], " --static-id") == 0))
{
static_id = true;
--argc;
++argv;
}
if (! ((argc == 3) || (argc == 4)))
{
usage();
}
char const* infilename = argv[1];
char const* outfilename = argv[2];
char const* password = (argc == 4) ? argv[3] : "";
try
{
QPDF qpdf;
qpdf.processFile(infilename, password);
ImageInverter* inv = new ImageInverter;
PointerHolder<QPDFObjectHandle::StreamDataProvider> p = inv;
// For each page...
std::vector<QPDFPageObjectHelper> pages =
QPDFPageDocumentHelper(qpdf).getAllPages();
for (std::vector<QPDFPageObjectHelper>::iterator iter = pages.begin();
iter != pages.end(); ++iter)
{
QPDFPageObjectHelper& page(*iter);
// Get all images on the page.
std::map<std::string, QPDFObjectHandle> images =
page.getPageImages();
for (std::map<std::string, QPDFObjectHandle>::iterator iter =
images.begin();
iter != images.end(); ++iter)
{
QPDFObjectHandle& image = (*iter).second;
QPDFObjectHandle image_dict = image.getDict();
QPDFObjectHandle color_space =
image_dict.getKey("/ColorSpace");
QPDFObjectHandle bits_per_component =
image_dict.getKey("/BitsPerComponent");
// For our example, we can only work with images 8-bit
// grayscale images that we can fully decode. Use
// pipeStreamData with a null pipeline to determine
// whether the image is filterable. Directly inspect
// keys to determine the image type.
if (image.pipeStreamData(0, qpdf_ef_compress,
qpdf_dl_generalized) &&
color_space.isName() &&
bits_per_component.isInteger() &&
(color_space.getName() == "/DeviceGray") &&
(bits_per_component.getIntValue() == 8))
{
// Store information about the images based on the
// object and generation number. Recall that a single
// image object may be used more than once.
QPDFObjGen og = image.getObjGen();
if (inv->image_objects.count(og) == 0)
{
inv->image_objects[og] = image;
inv->image_data[og] = image.getStreamData();
// Register our stream data provider for this
// stream. Future calls to getStreamData or
// pipeStreamData will use the new
// information. Provide null for both filter
// and decode parameters. Note that this does
// not mean the image data will be
// uncompressed when we write the file. By
// default, QPDFWriter will use /FlateDecode
// for anything that is uncompressed or
// filterable in the input QPDF object, so we
// don't have to deal with it explicitly here.
image.replaceStreamData(
p,
QPDFObjectHandle::newNull(),
QPDFObjectHandle::newNull());
}
}
}
}
// Write out a new file
QPDFWriter w(qpdf, outfilename);
if (static_id)
{
// For the test suite, uncompress streams and use static
// IDs.
w.setStaticID(true); // for testing only
}
w.write();
std::cout << whoami << ": new file written to " << outfilename
<< std::endl;
}
catch (std::exception &e)
{
std::cerr << whoami << " processing file " << infilename << ": "
<< e.what() << std::endl;
exit(2);
}
return 0;
}