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198 lines
8.2 KiB
ReStructuredText
198 lines
8.2 KiB
ReStructuredText
.. _linearization:
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Linearization
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=============
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This chapter describes how ``QPDF`` and ``QPDFWriter`` implement
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creation and processing of linearized PDFs.
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.. _linearization-strategy:
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Basic Strategy for Linearization
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--------------------------------
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To avoid the incestuous problem of having the qpdf library validate its
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own linearized files, we have a special linearized file checking mode
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which can be invoked via :command:`qpdf
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--check-linearization` (or :command:`qpdf
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--check`). This mode reads the linearization parameter
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dictionary and the hint streams and validates that object ordering,
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parameters, and hint stream contents are correct. The validation code
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was first tested against linearized files created by external tools
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(Acrobat and pdlin) and then used to validate files created by
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``QPDFWriter`` itself.
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.. _linearized.preparation:
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Preparing For Linearization
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---------------------------
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Before creating a linearized PDF file from any other PDF file, the PDF
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file must be altered such that all page attributes are propagated down
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to the page level (and not inherited from parents in the ``/Pages``
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tree). We also have to know which objects refer to which other objects,
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being concerned with page boundaries and a few other cases. We refer to
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this part of preparing the PDF file as
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*optimization*, discussed in
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:ref:`optimization`. Note the, in this context, the
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term *optimization* is a qpdf term, and the
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term *linearization* is a term from the PDF
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specification. Do not be confused by the fact that many applications
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refer to linearization as optimization or web optimization.
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When creating linearized PDF files from optimized PDF files, there are
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really only a few issues that need to be dealt with:
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- Creation of hints tables
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- Placing objects in the correct order
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- Filling in offsets and byte sizes
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.. _optimization:
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Optimization
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------------
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In order to perform various operations such as linearization and
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splitting files into pages, it is necessary to know which objects are
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referenced by which pages, page thumbnails, and root and trailer
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dictionary keys. It is also necessary to ensure that all page-level
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attributes appear directly at the page level and are not inherited from
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parents in the pages tree.
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We refer to the process of enforcing these constraints as
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*optimization*. As mentioned above, note
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that some applications refer to linearization as optimization. Although
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this optimization was initially motivated by the need to create
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linearized files, we are using these terms separately.
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PDF file optimization is implemented in the
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:file:`QPDF_optimization.cc` source file. That file
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is richly commented and serves as the primary reference for the
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optimization process.
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After optimization has been completed, the private member variables
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``obj_user_to_objects`` and ``object_to_obj_users`` in ``QPDF`` have
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been populated. Any object that has more than one value in the
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``object_to_obj_users`` table is shared. Any object that has exactly one
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value in the ``object_to_obj_users`` table is private. To find all the
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private objects in a page or a trailer or root dictionary key, one
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merely has make this determination for each element in the
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``obj_user_to_objects`` table for the given page or key.
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Note that pages and thumbnails have different object user types, so the
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above test on a page will not include objects referenced by the page's
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thumbnail dictionary and nothing else.
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.. _linearization.writing:
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Writing Linearized Files
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------------------------
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We will create files with only primary hint streams. We will never write
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overflow hint streams. (As of PDF version 1.4, Acrobat doesn't either,
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and they are never necessary.) The hint streams contain offset
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information to objects that point to where they would be if the hint
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stream were not present. This means that we have to calculate all object
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positions before we can generate and write the hint table. This means
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that we have to generate the file in two passes. To make this reliable,
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``QPDFWriter`` in linearization mode invokes exactly the same code twice
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to write the file to a pipeline.
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In the first pass, the target pipeline is a count pipeline chained to a
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discard pipeline. The count pipeline simply passes its data through to
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the next pipeline in the chain but can return the number of bytes passed
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through it at any intermediate point. The discard pipeline is an end of
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line pipeline that just throws its data away. The hint stream is not
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written and dummy values with adequate padding are stored in the first
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cross reference table, linearization parameter dictionary, and /Prev key
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of the first trailer dictionary. All the offset, length, object
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renumbering information, and anything else we need for the second pass
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is stored.
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At the end of the first pass, this information is passed to the ``QPDF``
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class which constructs a compressed hint stream in a memory buffer and
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returns it. ``QPDFWriter`` uses this information to write a complete
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hint stream object into a memory buffer. At this point, the length of
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the hint stream is known.
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In the second pass, the end of the pipeline chain is a regular file
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instead of a discard pipeline, and we have known values for all the
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offsets and lengths that we didn't have in the first pass. We have to
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adjust offsets that appear after the start of the hint stream by the
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length of the hint stream, which is known. Anything that is of variable
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length is padded, with the padding code surrounding any writing code
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that differs in the two passes. This ensures that changes to the way
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things are represented never results in offsets that were gathered
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during the first pass becoming incorrect for the second pass.
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Using this strategy, we can write linearized files to a non-seekable
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output stream with only a single pass to disk or wherever the output is
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going.
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.. _linearization-data:
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Calculating Linearization Data
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------------------------------
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Once a file is optimized, we have information about which objects access
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which other objects. We can then process these tables to decide which
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part (as described in "Linearized PDF Document Structure" in the PDF
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specification) each object is contained within. This tells us the exact
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order in which objects are written. The ``QPDFWriter`` class asks for
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this information and enqueues objects for writing in the proper order.
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It also turns on a check that causes an exception to be thrown if an
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object is encountered that has not already been queued. (This could
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happen only if there were a bug in the traversal code used to calculate
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the linearization data.)
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.. _linearization-issues:
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Known Issues with Linearization
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-------------------------------
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There are a handful of known issues with this linearization code. These
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issues do not appear to impact the behavior of linearized files which
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still work as intended: it is possible for a web browser to begin to
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display them before they are fully downloaded. In fact, it seems that
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various other programs that create linearized files have many of these
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same issues. These items make reference to terminology used in the
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linearization appendix of the PDF specification.
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- Thread Dictionary information keys appear in part 4 with the rest of
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Threads instead of in part 9. Objects in part 9 are not grouped
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together functionally.
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- We are not calculating numerators for shared object positions within
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content streams or interleaving them within content streams.
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- We generate only page offset, shared object, and outline hint tables.
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It would be relatively easy to add some additional tables. We gather
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most of the information needed to create thumbnail hint tables. There
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are comments in the code about this.
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.. _linearization-debugging:
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Debugging Note
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--------------
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The :command:`qpdf --show-linearization` command can show
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the complete contents of linearization hint streams. To look at the raw
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data, you can extract the filtered contents of the linearization hint
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tables using :command:`qpdf --show-object=n
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--filtered-stream-data`. Then, to convert this into a bit
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stream (since linearization tables are bit streams written without
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regard to byte boundaries), you can pipe the resulting data through the
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following perl code:
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.. code-block:: perl
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use bytes;
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binmode STDIN;
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undef $/;
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my $a = <STDIN>;
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my @ch = split(//, $a);
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map { printf("%08b", ord($_)) } @ch;
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print "\n";
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