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975 lines
34 KiB
Markdown
975 lines
34 KiB
Markdown
Introduction
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============
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PDFio is a simple C library for reading and writing PDF files. The primary
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goals of pdfio are:
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- Read and write any version of PDF file
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- Provide access to pages, objects, and streams within a PDF file
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- Support reading and writing of encrypted PDF files
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- Extract or embed useful metadata (author, creator, page information, etc.)
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- "Filter" PDF files, for example to extract a range of pages or to embed fonts
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that are missing from a PDF
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- Provide access to objects used for each page
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PDFio is *not* concerned with rendering or viewing a PDF file, although a PDF
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RIP or viewer could be written using it.
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PDFio is Copyright © 2021-2024 by Michael R Sweet and is licensed under the
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Apache License Version 2.0 with an (optional) exception to allow linking against
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GPL2/LGPL2 software. See the files "LICENSE" and "NOTICE" for more information.
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Requirements
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------------
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PDFio requires the following to build the software:
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- A C99 compiler such as Clang, GCC, or MS Visual C
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- A POSIX-compliant `make` program
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- A POSIX-compliant `sh` program
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- ZLIB (<https://www.zlib.net>) 1.0 or higher
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IDE files for Xcode (macOS/iOS) and Visual Studio (Windows) are also provided.
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Installing pdfio
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----------------
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PDFio comes with a configure script that creates a portable makefile that will
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work on any POSIX-compliant system with ZLIB installed. To make it, run:
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./configure
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make
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To test it, run:
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make test
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To install it, run:
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sudo make install
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If you want a shared library, run:
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./configure --enable-shared
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make
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sudo make install
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The default installation location is "/usr/local". Pass the `--prefix` option
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to make to install it to another location:
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./configure --prefix=/some/other/directory
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Other configure options can be found using the `--help` option:
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./configure --help
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Visual Studio Project
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---------------------
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The Visual Studio solution ("pdfio.sln") is provided for Windows developers and
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generates both a static library and DLL.
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Xcode Project
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-------------
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There is also an Xcode project ("pdfio.xcodeproj") you can use on macOS which
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generates a static library that will be installed under "/usr/local" with:
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sudo xcodebuild install
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Detecting PDFio
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---------------
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PDFio can be detected using the `pkg-config` command, for example:
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if pkg-config --exists pdfio; then
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...
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fi
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In a makefile you can add the necessary compiler and linker options with:
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```make
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CFLAGS += `pkg-config --cflags pdfio`
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LIBS += `pkg-config --libs pdfio`
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```
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On Windows, you need to link to the `PDFIO1.LIB` (DLL) library and include the
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`zlib_native` NuGet package dependency. You can also use the published
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`pdfio_native` NuGet package.
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Header Files
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------------
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PDFio provides a primary header file that is always used:
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```c
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#include <pdfio.h>
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```
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PDFio also provides [PDF content helper functions](@) for producing PDF content
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that are defined in a separate header file:
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```c
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#include <pdfio-content.h>
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```
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API Overview
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============
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PDFio exposes several types:
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- `pdfio_file_t`: A PDF file (for reading or writing)
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- `pdfio_array_t`: An array of values
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- `pdfio_dict_t`: A dictionary of key/value pairs in a PDF file, object, etc.
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- `pdfio_obj_t`: An object in a PDF file
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- `pdfio_stream_t`: An object stream
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Understanding PDF Files
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-----------------------
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A PDF file provides data and commands for displaying pages of graphics and text,
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and is structured in a way that allows it to be displayed in the same way across
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multiple devices and platforms.
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The following is a PDF which shows "Hello, World!" on one page:
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```
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%PDF-1.0 %Header starts here
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%âãÏÓ
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1 0 obj %Body starts here
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<<
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/Kids [2 0 R]
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/Count 1
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/Type /Pages
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>>
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endobj
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2 0 obj
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<<
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/Rotate 0
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/Parent 1 0 R
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/Resources 3 0 R
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/MediaBox [0 0 612 792]
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/Contents [4 0 R]/Type /Page
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>>
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endobj
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3 0 obj
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<<
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/Font
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<<
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/F0
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<<
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/BaseFont /Times-Italic
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/Subtype /Type1
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/Type /Font
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>>
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>>
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>>
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endobj
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4 0 obj
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<<
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/Length 65
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>>
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stream
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1. 0. 0. 1. 50. 700. cm
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BT
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/F0 36. Tf
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(Hello, World!) Tj
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ET
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endstream
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endobj
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5 0 obj
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<<
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/Pages 1 0 R
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/Type /Catalog
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>>
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endobj
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xref %Cross-reference table starts here
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0 6
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0000000000 65535 f
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0000000015 00000 n
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0000000074 00000 n
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0000000192 00000 n
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0000000291 00000 n
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0000000409 00000 n
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trailer %Trailer starts here
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<<
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/Root 5 0 R
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/Size 6
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>>
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startxref
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459
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%%EOF
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```
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### Header
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This is the first line of a PDF File. This specifies the version of PDF Format used.
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For Example: '%PDF-1.0'
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Since PDF files almost always contain binary data, they can become corrupted if line
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endings are changed (for example, if the file is transferred over FTP in text mode).
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To allow legacy file transfer programs to determine that the file is binary, it is
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usual to include some bytes withcharacter codes higher than 127 in the header.
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- For example: %âãÏÓ
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- The percent sign indicates another header line, the other few bytes are arbitrary
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character codes in excess of 127. So, the whole header in our example is:
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```
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%PDF-1.0
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%âãÏÓ
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```
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### Body
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The file body consists of a sequence of objects, each preceded by an object number,
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generation number, and the obj keyword on one line, and followed by the endobj keyword
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on another. For Example:
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```
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1 0 obj
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<<
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/Kids [2 0 R]
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/Count 1
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/Type /Pages
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>>
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endobj
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```
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Here, the object number is 1, and the generation number is 0 (it almost always is).
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The content for object 1 is in between the two lines 1 0 obj and endobj.
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In this case, it’s the dictionary <</Kids [2 0 R] /Count 1 /Type /Pages>>
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### Cross-Reference Table
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The cross-reference table lists the byte offset of each object in the file body.
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This allows random access to objects, meaning they don't have to be read in order.
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Objects that are not used are never read, making the process efficient.
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Operations like counting the number of pages in a PDF document are fast, even in large files.
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Each object has an object number and a generation number.
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- Generation numbers are used when a cross-reference table entry is reused.
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- For simplicity, we will assume generation numbers to be always zero and ignore them.
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The cross-reference table consists of:
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- Header line that indicates the number of entries.
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- Special entry (the first entry).
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- One line for each of the object in the file body.
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```
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0 6 %Six entries in table, starting at 0
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0000000000 65535 f %Special entry
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0000000015 00000 n %Object 1 is at byte offset 15
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0000000074 00000 n %Object 2 is at byte offset 74
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0000000192 00000 n %etc...
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0000000291 00000 n
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0000000409 00000 n %Object 5 is at byte offset 409
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```
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### Trailer
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The first line of the trailer is just the trailer keyword. This is followed by the trailer dictionary,
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which contains at least the /Size entry (Number of entries in the cross-reference table)
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and the /Root entry (Object number of the document catalog, which is the root element
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of the graph of objects in the body).
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There follows a line with just the startxref keyword, a line with a single number (the byte offset of
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the start of the cross-reference table within the file), and then the line %%EOF, which signals the
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end of the PDF file.
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```
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trailer %Trailer keyword
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<< %The trailer dictinonary
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/Root 5 0 R
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/Size 6
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>>
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startxref %startxref keyword
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459 %Byte offset of cross-reference table
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%%EOF %End-of-file marker
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```
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How a PDF File is Read
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----------------------
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To read a PDF file, converting it from a flat series of bytes into a graph of objects in memory,
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the following steps might typically occur:
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1. Read the PDF header from the beginning of the file, checking that this is, indeed, a PDF
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document and retrieving its version number.
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3. The end-of-file marker is now found, by searching backward from the end of the file.
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The trailer dictionary can now be read, and the byte offset of the start of the cross-reference
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table retrieved.
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5. The cross-reference table can now be read. We now know where each object in the file is.
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6. At this stage, all the objects can be read and parsed, or we can leave this process until each
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object is actually needed, reading it on demand.
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8. We can now use the data, extracting the pages, parsing graphical content, extracting metadata,
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and so on.
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This is not an exhaustive description, since there are many possible complications
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(encryption, linearization, objects, and cross reference streams).
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How a PDF File is Written
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-------------------------
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Writing a PDF document to a series of bytes in a file is much simpler than
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reading it—we don’t need to support all of the PDF format, just the subset
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we intend to use. Writing a PDF file is very fast, since it amounts to little
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more than flattening the object graph to a series of bytes.
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1. Output the header.
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2. Remove any objects which are not referenced by any other object in the
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PDF. This avoids writing objects which are no longer needed.
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3. Renumber the objects so they run from 1 to n where n is the number of
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objects in the file.
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4. Output the objects one by one, starting with object number one,
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recording the byte offset of each for the cross-reference table.
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5. Write the cross-reference table.
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6. Write the trailer, trailer dictionary, and end-of-file marker.
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Reading PDF Files
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-----------------
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You open an existing PDF file using the [`pdfioFileOpen`](@@) function:
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```c
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pdfio_file_t *pdf = pdfioFileOpen("myinputfile.pdf", password_cb, password_data,
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error_cb, error_data);
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```
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where the five arguments to the function are the filename ("myinputfile.pdf"),
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an optional password callback function (`password_cb`) and data pointer value
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(`password_data`), and an optional error callback function (`error_cb`) and data
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pointer value (`error_data`). The password callback is called for encrypted PDF
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files that are not using the default password, for example:
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```c
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const char *
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password_cb(void *data, const char *filename)
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{
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(void)data; // This callback doesn't use the data pointer
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(void)filename; // This callback doesn't use the filename
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// Return a password string for the file...
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return ("Password42");
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}
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```
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The error callback is called for both errors and warnings and accepts the
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`pdfio_file_t` pointer, a message string, and the callback pointer value, for
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example:
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```c
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bool
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error_cb(pdfio_file_t *pdf, const char *message, void *data)
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{
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(void)data; // This callback does not use the data pointer
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fprintf(stderr, "%s: %s\n", pdfioFileGetName(pdf), message);
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// Return false to treat warnings as errors
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return (false);
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}
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```
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The default error callback (`NULL`) does the equivalent of the above.
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Each PDF file contains one or more pages. The [`pdfioFileGetNumPages`](@@)
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function returns the number of pages in the file while the
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[`pdfioFileGetPage`](@@) function gets the specified page in the PDF file:
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```c
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pdfio_file_t *pdf; // PDF file
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size_t i; // Looping var
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size_t count; // Number of pages
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pdfio_obj_t *page; // Current page
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// Iterate the pages in the PDF file
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for (i = 0, count = pdfioFileGetNumPages(pdf); i < count; i ++)
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{
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page = pdfioFileGetPage(pdf, i);
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// do something with page
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}
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```
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Each page is represented by a "page tree" object (what [`pdfioFileGetPage`](@@)
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returns) that specifies information about the page and one or more "content"
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objects that contain the images, fonts, text, and graphics that appear on the
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page. Use the [`pdfioPageGetNumStreams`](@@) and [`pdfioPageOpenStream`](@@)
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functions to access the content streams for each page, and
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[`pdfioObjGetDict`](@@) to get the associated page object dictionary. For
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example, if you want to display the media and crop boxes for a given page:
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```c
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pdfio_file_t *pdf; // PDF file
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size_t i; // Looping var
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size_t count; // Number of pages
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pdfio_obj_t *page; // Current page
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pdfio_dict_t *dict; // Current page dictionary
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pdfio_array_t *media_box; // MediaBox array
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double media_values[4]; // MediaBox values
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pdfio_array_t *crop_box; // CropBox array
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double crop_values[4]; // CropBox values
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// Iterate the pages in the PDF file
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for (i = 0, count = pdfioFileGetNumPages(pdf); i < count; i ++)
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{
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page = pdfioFileGetPage(pdf, i);
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dict = pdfioObjGetDict(page);
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media_box = pdfioDictGetArray(dict, "MediaBox");
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media_values[0] = pdfioArrayGetNumber(media_box, 0);
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media_values[1] = pdfioArrayGetNumber(media_box, 1);
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media_values[2] = pdfioArrayGetNumber(media_box, 2);
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media_values[3] = pdfioArrayGetNumber(media_box, 3);
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crop_box = pdfioDictGetArray(dict, "CropBox");
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crop_values[0] = pdfioArrayGetNumber(crop_box, 0);
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crop_values[1] = pdfioArrayGetNumber(crop_box, 1);
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crop_values[2] = pdfioArrayGetNumber(crop_box, 2);
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crop_values[3] = pdfioArrayGetNumber(crop_box, 3);
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printf("Page %u: MediaBox=[%g %g %g %g], CropBox=[%g %g %g %g]\n",
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(unsigned)(i + 1),
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media_values[0], media_values[1], media_values[2], media_values[3],
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crop_values[0], crop_values[1], crop_values[2], crop_values[3]);
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}
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```
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Page object dictionaries have several (mostly optional) key/value pairs,
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including:
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- "Annots": An array of annotation dictionaries for the page; use
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[`pdfioDictGetArray`](@@) to get the array
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- "CropBox": The crop box as an array of four numbers for the left, bottom,
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right, and top coordinates of the target media; use [`pdfioDictGetArray`](@@)
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to get a pointer to the array of numbers
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- "Dur": The number of seconds the page should be displayed; use
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[`pdfioDictGetNumber`](@@) to get the page duration value
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- "Group": The dictionary of transparency group values for the page; use
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[`pdfioDictGetDict`](@@) to get a pointer to the resources dictionary
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- "LastModified": The date and time when this page was last modified; use
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[`pdfioDictGetDate`](@@) to get the Unix `time_t` value
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- "Parent": The parent page tree node object for this page; use
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[`pdfioDictGetObj`](@@) to get a pointer to the object
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- "MediaBox": The media box as an array of four numbers for the left, bottom,
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right, and top coordinates of the target media; use [`pdfioDictGetArray`](@@)
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to get a pointer to the array of numbers
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- "Resources": The dictionary of resources for the page; use
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[`pdfioDictGetDict`](@@) to get a pointer to the resources dictionary
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- "Rotate": A number indicating the number of degrees of counter-clockwise
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rotation to apply to the page when viewing; use [`pdfioDictGetNumber`](@@)
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to get the rotation angle
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- "Thumb": A thumbnail image object for the page; use [`pdfioDictGetObj`](@@)
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to get a pointer to the thumbnail image object
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- "Trans": The page transition dictionary; use [`pdfioDictGetDict`](@@) to get
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a pointer to the dictionary
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The [`pdfioFileClose`](@@) function closes a PDF file and frees all memory that
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was used for it:
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```c
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pdfioFileClose(pdf);
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```
|
||
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||
|
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Writing PDF Files
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||
-----------------
|
||
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You create a new PDF file using the [`pdfioFileCreate`](@@) function:
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||
|
||
```c
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pdfio_rect_t media_box = { 0.0, 0.0, 612.0, 792.0 }; // US Letter
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pdfio_rect_t crop_box = { 36.0, 36.0, 576.0, 756.0 }; // w/0.5" margins
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pdfio_file_t *pdf = pdfioFileCreate("myoutputfile.pdf", "2.0", &media_box, &crop_box, error_cb, error_data);
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```
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where the six arguments to the function are the filename ("myoutputfile.pdf"),
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PDF version ("2.0"), media box (`media_box`), crop box (`crop_box`), an optional
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error callback function (`error_cb`), and an optional pointer value for the
|
||
error callback function (`error_data`). The units for the media and crop boxes
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||
are points (1/72nd of an inch).
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|
||
Alternately you can stream a PDF file using the [`pdfioFileCreateOutput`](@@)
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function:
|
||
|
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```c
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pdfio_rect_t media_box = { 0.0, 0.0, 612.0, 792.0 }; // US Letter
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pdfio_rect_t crop_box = { 36.0, 36.0, 576.0, 756.0 }; // w/0.5" margins
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pdfio_file_t *pdf = pdfioFileCreateOutput(output_cb, output_ctx, "2.0", &media_box, &crop_box, error_cb, error_data);
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```
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||
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||
Once the file is created, use the [`pdfioFileCreateObj`](@@),
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||
[`pdfioFileCreatePage`](@@), and [`pdfioPageCopy`](@@) functions to create
|
||
objects and pages in the file.
|
||
|
||
Finally, the [`pdfioFileClose`](@@) function writes the PDF cross-reference and
|
||
"trailer" information, closes the file, and frees all memory that was used for
|
||
it.
|
||
|
||
|
||
PDF Objects
|
||
-----------
|
||
|
||
PDF objects are identified using two numbers - the object number (1 to N) and
|
||
the object generation (0 to 65535) that specifies a particular version of an
|
||
object. An object's numbers are returned by the [`pdfioObjGetNumber`](@@) and
|
||
[`pdfioObjGetGeneration`](@@) functions. You can find a numbered object using
|
||
the [`pdfioFileFindObj`](@@) function.
|
||
|
||
Objects contain values (typically dictionaries) and usually an associated data
|
||
stream containing images, fonts, ICC profiles, and page content. PDFio provides several accessor functions to get the value(s) associated with an object:
|
||
|
||
- [`pdfioObjGetArray`](@@) returns an object's array value, if any
|
||
- [`pdfioObjGetDict`](@@) returns an object's dictionary value, if any
|
||
- [`pdfioObjGetLength`](@@) returns the length of the data stream, if any
|
||
- [`pdfioObjGetSubtype`](@@) returns the sub-type name of the object, for
|
||
example "Image" for an image object.
|
||
- [`pdfioObjGetType`](@@) returns the type name of the object, for example
|
||
"XObject" for an image object.
|
||
|
||
|
||
PDF Streams
|
||
-----------
|
||
|
||
Some PDF objects have an associated data stream, such as for pages, images, ICC
|
||
color profiles, and fonts. You access the stream for an existing object using
|
||
the [`pdfioObjOpenStream`](@@) function:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileOpen(...);
|
||
pdfio_obj_t *obj = pdfioFileFindObj(pdf, number);
|
||
pdfio_stream_t *st = pdfioObjOpenStream(obj, true);
|
||
```
|
||
|
||
The first argument is the object pointer. The second argument is a boolean
|
||
value that specifies whether you want to decode (typically decompress) the
|
||
stream data or return it as-is.
|
||
|
||
When reading a page stream you'll use the [`pdfioPageOpenStream`](@@) function
|
||
instead:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileOpen(...);
|
||
pdfio_obj_t *obj = pdfioFileGetPage(pdf, number);
|
||
pdfio_stream_t *st = pdfioPageOpenStream(obj, 0, true);
|
||
```
|
||
|
||
Once you have the stream open, you can use one of several functions to read
|
||
from it:
|
||
|
||
- [`pdfioStreamConsume`](@@) reads and discards a number of bytes in the stream
|
||
- [`pdfioStreamGetToken`](@@) reads a PDF token from the stream
|
||
- [`pdfioStreamPeek`](@@) peeks at the next stream data without advancing or
|
||
"consuming" it
|
||
- [`pdfioStreamRead`](@@) reads a buffer of data
|
||
|
||
When you are done reading from the stream, call the [`pdfioStreamClose`](@@)
|
||
function:
|
||
|
||
```c
|
||
pdfioStreamClose(st);
|
||
```
|
||
|
||
To create a stream for a new object, call the [`pdfioObjCreateStream`](@@)
|
||
function:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
pdfio_obj_t *obj = pdfioFileCreateObj(pdf, ...);
|
||
pdfio_stream_t *st = pdfioObjCreateStream(obj, PDFIO_FILTER_FLATE);
|
||
```
|
||
|
||
The first argument is the newly created object. The second argument is either
|
||
`PDFIO_FILTER_NONE` to specify that any encoding is done by your program or
|
||
`PDFIO_FILTER_FLATE` to specify that PDFio should Flate compress the stream.
|
||
|
||
To create a page content stream call the [`pdfioFileCreatePage`](@@) function:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
pdfio_dict_t *dict = pdfioDictCreate(pdf);
|
||
... set page dictionary keys and values ...
|
||
pdfio_stream_t *st = pdfioFileCreatePage(pdf, dict);
|
||
```
|
||
|
||
Once you have created the stream, use any of the following functions to write
|
||
to the stream:
|
||
|
||
- [`pdfioStreamPrintf`](@@) writes a formatted string to the stream
|
||
- [`pdfioStreamPutChar`](@@) writes a single character to the stream
|
||
- [`pdfioStreamPuts`](@@) writes a C string to the stream
|
||
- [`pdfioStreamWrite`](@@) writes a buffer of data to the stream
|
||
|
||
The [PDF content helper functions](@) provide additional functions for writing
|
||
specific PDF page stream commands.
|
||
|
||
When you are done writing the stream, call [`pdfioStreamClose`](@@) to close
|
||
both the stream and the object.
|
||
|
||
|
||
PDF Content Helper Functions
|
||
----------------------------
|
||
|
||
PDFio includes many helper functions for embedding or writing specific kinds of
|
||
content to a PDF file. These functions can be roughly grouped into five
|
||
categories:
|
||
|
||
- [Color Space Functions](@)
|
||
- [Font Object Functions](@)
|
||
- [Image Object Functions](@)
|
||
- [Page Stream Functions](@)
|
||
- [Page Dictionary Functions](@)
|
||
|
||
|
||
### Color Space Functions
|
||
|
||
PDF color spaces are specified using well-known names like "DeviceCMYK",
|
||
"DeviceGray", and "DeviceRGB" or using arrays that define so-called calibrated
|
||
color spaces. PDFio provides several functions for embedding ICC profiles and
|
||
creating color space arrays:
|
||
|
||
- [`pdfioArrayCreateColorFromICCObj`](@@) creates a color array for an ICC color profile object
|
||
- [`pdfioArrayCreateColorFromMatrix`](@@) creates a color array using a CIE XYZ color transform matrix, a gamma value, and a CIE XYZ white point
|
||
- [`pdfioArrayCreateColorFromPalette`](@@) creates an indexed color array from an array of sRGB values
|
||
- [`pdfioArrayCreateColorFromPrimaries`](@@) creates a color array using CIE XYZ primaries and a gamma value
|
||
- [`pdfioArrayCreateColorFromStandard`](@@) creates a color array for a standard color space
|
||
|
||
You can embed an ICC color profile using the
|
||
[`pdfioFileCreateICCObjFromFile`](@@) function:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
pdfio_obj_t *icc = pdfioFileCreateICCObjFromFile(pdf, "filename.icc");
|
||
```
|
||
|
||
where the first argument is the PDF file and the second argument is the filename
|
||
of the ICC color profile.
|
||
|
||
PDFio also includes predefined constants for creating a few standard color
|
||
spaces:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
|
||
// Create an AdobeRGB color array
|
||
pdfio_array_t *adobe_rgb = pdfioArrayCreateColorFromStandard(pdf, 3, PDFIO_CS_ADOBE);
|
||
|
||
// Create an Display P3 color array
|
||
pdfio_array_t *display_p3 = pdfioArrayCreateColorFromStandard(pdf, 3, PDFIO_CS_P3_D65);
|
||
|
||
// Create an sRGB color array
|
||
pdfio_array_t *srgb = pdfioArrayCreateColorFromStandard(pdf, 3, PDFIO_CS_SRGB);
|
||
```
|
||
|
||
|
||
### Font Object Functions
|
||
|
||
PDF supports many kinds of fonts, including PostScript Type1, PDF Type3,
|
||
TrueType/OpenType, and CID. PDFio provides two functions for creating font
|
||
objects. The first is [`pdfioFileCreateFontObjFromBase`](@@) which creates a
|
||
font object for one of the base PDF fonts:
|
||
|
||
- "Courier"
|
||
- "Courier-Bold"
|
||
- "Courier-BoldItalic"
|
||
- "Courier-Italic"
|
||
- "Helvetica"
|
||
- "Helvetica-Bold"
|
||
- "Helvetica-BoldOblique"
|
||
- "Helvetica-Oblique"
|
||
- "Symbol"
|
||
- "Times-Bold"
|
||
- "Times-BoldItalic"
|
||
- "Times-Italic"
|
||
- "Times-Roman"
|
||
- "ZapfDingbats"
|
||
|
||
PDFio always uses the Windows CP1252 subset of Unicode for these fonts.
|
||
|
||
The second function is [`pdfioFileCreateFontObjFromFile`](@@) which creates a
|
||
font object from a TrueType/OpenType font file, for example:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
pdfio_obj_t *arial = pdfioFileCreateFontObjFromFile(pdf, "OpenSans-Regular.ttf", false);
|
||
```
|
||
|
||
will embed an OpenSans Regular TrueType font using the Windows CP1252 subset of
|
||
Unicode. Pass `true` for the third argument to embed it as a Unicode CID font
|
||
instead, for example:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
pdfio_obj_t *arial = pdfioFileCreateFontObjFromFile(pdf, "NotoSansJP-Regular.otf", true);
|
||
```
|
||
|
||
will embed the NotoSansJP Regular OpenType font with full support for Unicode.
|
||
|
||
> Note: Not all fonts support Unicode.
|
||
|
||
|
||
### Image Object Functions
|
||
|
||
PDF supports images with many different color spaces and bit depths with
|
||
optional transparency. PDFio provides two helper functions for creating image
|
||
objects that can be referenced in page streams. The first function is
|
||
[`pdfioFileCreateImageObjFromData`](@@) which creates an image object from data
|
||
in memory, for example:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
unsigned char data[1024 * 1024 * 4]; // 1024x1024 RGBA image data
|
||
pdfio_obj_t *img = pdfioFileCreateImageObjFromData(pdf, data, /*width*/1024, /*height*/1024, /*num_colors*/3, /*color_data*/NULL, /*alpha*/true, /*interpolate*/false);
|
||
```
|
||
|
||
will create an object for a 1024x1024 RGBA image in memory, using the default
|
||
color space for 3 colors ("DeviceRGB"). We can use one of the
|
||
[color space functions](@) to use a specific color space for this image, for
|
||
example:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
|
||
// Create an AdobeRGB color array
|
||
pdfio_array_t *adobe_rgb = pdfioArrayCreateColorFromMatrix(pdf, 3, pdfioAdobeRGBGamma, pdfioAdobeRGBMatrix, pdfioAdobeRGBWhitePoint);
|
||
|
||
// Create a 1024x1024 RGBA image using AdobeRGB
|
||
unsigned char data[1024 * 1024 * 4]; // 1024x1024 RGBA image data
|
||
pdfio_obj_t *img = pdfioFileCreateImageObjFromData(pdf, data, /*width*/1024, /*height*/1024, /*num_colors*/3, /*color_data*/adobe_rgb, /*alpha*/true, /*interpolate*/false);
|
||
```
|
||
|
||
The "interpolate" argument specifies whether the colors in the image should be
|
||
smoothed/interpolated when scaling. This is most useful for photographs but
|
||
should be `false` for screenshot and barcode images.
|
||
|
||
If you have a JPEG or PNG file, use the [`pdfioFileCreateImageObjFromFile`](@@)
|
||
function to copy the image into a PDF image object, for example:
|
||
|
||
```c
|
||
pdfio_file_t *pdf = pdfioFileCreate(...);
|
||
pdfio_obj_t *img = pdfioFileCreateImageObjFromFile(pdf, "myphoto.jpg", /*interpolate*/true);
|
||
```
|
||
|
||
|
||
### Page Dictionary Functions
|
||
|
||
PDF pages each have an associated dictionary to specify the images, fonts, and color spaces used by the page. PDFio provides functions to add these resources
|
||
to the dictionary:
|
||
|
||
- [`pdfioPageDictAddColorSpace`](@@) adds a named color space to the page dictionary
|
||
- [`pdfioPageDictAddFont`](@@) adds a named font to the page dictionary
|
||
- [`pdfioPageDictAddImage`](@@) adds a named image to the page dictionary
|
||
|
||
|
||
### Page Stream Functions
|
||
|
||
PDF page streams contain textual commands for drawing on the page. PDFio
|
||
provides many functions for writing these commands with the correct format and
|
||
escaping, as needed:
|
||
|
||
- [`pdfioContentClip`](@@) clips future drawing to the current path
|
||
- [`pdfioContentDrawImage`](@@) draws an image object
|
||
- [`pdfioContentFill`](@@) fills the current path
|
||
- [`pdfioContentFillAndStroke`](@@) fills and strokes the current path
|
||
- [`pdfioContentMatrixConcat`](@@) concatenates a matrix with the current
|
||
transform matrix
|
||
- [`pdfioContentMatrixRotate`](@@) concatenates a rotation matrix with the
|
||
current transform matrix
|
||
- [`pdfioContentMatrixScale`](@@) concatenates a scaling matrix with the
|
||
current transform matrix
|
||
- [`pdfioContentMatrixTranslate`](@@) concatenates a translation matrix with the
|
||
current transform matrix
|
||
- [`pdfioContentPathClose`](@@) closes the current path
|
||
- [`pdfioContentPathCurve`](@@) appends a Bezier curve to the current path
|
||
- [`pdfioContentPathCurve13`](@@) appends a Bezier curve with 2 control points
|
||
to the current path
|
||
- [`pdfioContentPathCurve23`](@@) appends a Bezier curve with 2 control points
|
||
to the current path
|
||
- [`pdfioContentPathLineTo`](@@) appends a line to the current path
|
||
- [`pdfioContentPathMoveTo`](@@) moves the current point in the current path
|
||
- [`pdfioContentPathRect`](@@) appends a rectangle to the current path
|
||
- [`pdfioContentRestore`](@@) restores a previous graphics state
|
||
- [`pdfioContentSave`](@@) saves the current graphics state
|
||
- [`pdfioContentSetDashPattern`](@@) sets the line dash pattern
|
||
- [`pdfioContentSetFillColorDeviceCMYK`](@@) sets the current fill color using a
|
||
device CMYK color
|
||
- [`pdfioContentSetFillColorDeviceGray`](@@) sets the current fill color using a
|
||
device gray color
|
||
- [`pdfioContentSetFillColorDeviceRGB`](@@) sets the current fill color using a
|
||
device RGB color
|
||
- [`pdfioContentSetFillColorGray`](@@) sets the current fill color using a
|
||
calibrated gray color
|
||
- [`pdfioContentSetFillColorRGB`](@@) sets the current fill color using a
|
||
calibrated RGB color
|
||
- [`pdfioContentSetFillColorSpace`](@@) sets the current fill color space
|
||
- [`pdfioContentSetFlatness`](@@) sets the flatness for curves
|
||
- [`pdfioContentSetLineCap`](@@) sets how the ends of lines are stroked
|
||
- [`pdfioContentSetLineJoin`](@@) sets how connections between lines are stroked
|
||
- [`pdfioContentSetLineWidth`](@@) sets the width of stroked lines
|
||
- [`pdfioContentSetMiterLimit`](@@) sets the miter limit for stroked lines
|
||
- [`pdfioContentSetStrokeColorDeviceCMYK`](@@) sets the current stroke color
|
||
using a device CMYK color
|
||
- [`pdfioContentSetStrokeColorDeviceGray`](@@) sets the current stroke color
|
||
using a device gray color
|
||
- [`pdfioContentSetStrokeColorDeviceRGB`](@@) sets the current stroke color
|
||
using a device RGB color
|
||
- [`pdfioContentSetStrokeColorGray`](@@) sets the current stroke color
|
||
using a calibrated gray color
|
||
- [`pdfioContentSetStrokeColorRGB`](@@) sets the current stroke color
|
||
using a calibrated RGB color
|
||
- [`pdfioContentSetStrokeColorSpace`](@@) sets the current stroke color space
|
||
- [`pdfioContentSetTextCharacterSpacing`](@@) sets the spacing between
|
||
characters for text
|
||
- [`pdfioContentSetTextFont`](@@) sets the font and size for text
|
||
- [`pdfioContentSetTextLeading`](@@) sets the line height for text
|
||
- [`pdfioContentSetTextMatrix`](@@) concatenates a matrix with the current text
|
||
matrix
|
||
- [`pdfioContentSetTextRenderingMode`](@@) sets the text rendering mode
|
||
- [`pdfioContentSetTextRise`](@@) adjusts the baseline for text
|
||
- [`pdfioContentSetTextWordSpacing`](@@) sets the spacing between words for text
|
||
- [`pdfioContentSetTextXScaling`](@@) sets the horizontal scaling for text
|
||
- [`pdfioContentStroke`](@@) strokes the current path
|
||
- [`pdfioContentTextBegin`](@@) begins a block of text
|
||
- [`pdfioContentTextEnd`](@@) ends a block of text
|
||
- [`pdfioContentTextMoveLine`](@@) moves to the next line with an offset in a
|
||
text block
|
||
- [`pdfioContentTextMoveTo`](@@) moves within the current line in a text block
|
||
- [`pdfioContentTextNewLine`](@@) moves to the beginning of the next line in a
|
||
text block
|
||
- [`pdfioContentTextNewLineShow`](@@) moves to the beginning of the next line in a
|
||
text block and shows literal text with optional word and character spacing
|
||
- [`pdfioContentTextNewLineShowf`](@@) moves to the beginning of the next line in a
|
||
text block and shows formatted text with optional word and character spacing
|
||
- [`pdfioContentTextShow`](@@) draws a literal string in a text block
|
||
- [`pdfioContentTextShowf`](@@) draws a formatted string in a text block
|
||
- [`pdfioContentTextShowJustified`](@@) draws an array of literal strings with
|
||
offsets between them
|
||
|
||
|
||
Examples
|
||
========
|
||
|
||
Read PDF Metadata
|
||
-----------------
|
||
|
||
The following example function will open a PDF file and print the title, author,
|
||
creation date, and number of pages:
|
||
|
||
```c
|
||
#include <pdfio.h>
|
||
#include <time.h>
|
||
|
||
|
||
void
|
||
show_pdf_info(const char *filename)
|
||
{
|
||
pdfio_file_t *pdf;
|
||
time_t creation_date;
|
||
struct tm *creation_tm;
|
||
char creation_text[256];
|
||
|
||
|
||
// Open the PDF file with the default callbacks...
|
||
pdf = pdfioFileOpen(filename, /*password_cb*/NULL, /*password_cbdata*/NULL, /*error_cb*/NULL, /*error_cbdata*/NULL);
|
||
if (pdf == NULL)
|
||
return;
|
||
|
||
// Get the creation date and convert to a string...
|
||
creation_date = pdfioFileGetCreationDate(pdf);
|
||
creation_tm = localtime(&creation_date);
|
||
strftime(creation_text, sizeof(creation_text), "%c", &creation_tm);
|
||
|
||
// Print file information to stdout...
|
||
printf("%s:\n", filename);
|
||
printf(" Title: %s\n", pdfioFileGetTitle(pdf));
|
||
printf(" Author: %s\n", pdfioFileGetAuthor(pdf));
|
||
printf(" Created On: %s\n", creation_text);
|
||
printf(" Number Pages: %u\n", (unsigned)pdfioFileGetNumPages(pdf));
|
||
|
||
// Close the PDF file...
|
||
pdfioFileClose(pdf);
|
||
}
|
||
```
|
||
|
||
|
||
Create PDF File With Text and Image
|
||
-----------------------------------
|
||
|
||
The following example function will create a PDF file, embed a base font and the
|
||
named JPEG or PNG image file, and then creates a page with the image centered on
|
||
the page with the text centered below:
|
||
|
||
```c
|
||
#include <pdfio.h>
|
||
#include <pdfio-content.h>
|
||
#include <string.h>
|
||
|
||
|
||
void
|
||
create_pdf_image_file(const char *pdfname, const char *imagename, const char *caption)
|
||
{
|
||
pdfio_file_t *pdf;
|
||
pdfio_obj_t *font;
|
||
pdfio_obj_t *image;
|
||
pdfio_dict_t *dict;
|
||
pdfio_stream_t *page;
|
||
double width, height;
|
||
double swidth, sheight;
|
||
double tx, ty;
|
||
|
||
|
||
// Create the PDF file...
|
||
pdf = pdfioFileCreate(pdfname, /*version*/NULL, /*media_box*/NULL, /*crop_box*/NULL, /*error_cb*/NULL, /*error_cbdata*/NULL);
|
||
|
||
// Create a Courier base font for the caption
|
||
font = pdfioFileCreateFontObjFromBase(pdf, "Courier");
|
||
|
||
// Create an image object from the JPEG/PNG image file...
|
||
image = pdfioFileCreateImageObjFromFile(pdf, imagename, true);
|
||
|
||
// Create a page dictionary with the font and image...
|
||
dict = pdfioDictCreate(pdf);
|
||
pdfioPageDictAddFont(dict, "F1", font);
|
||
pdfioPageDictAddImage(dict, "IM1", image);
|
||
|
||
// Create the page and its content stream...
|
||
page = pdfioFileCreatePage(pdf, dict);
|
||
|
||
// Position and scale the image on the page...
|
||
width = pdfioImageGetWidth(image);
|
||
height = pdfioImageGetHeight(image);
|
||
|
||
// Default media_box is "universal" 595.28x792 points (8.27x11in or 210x279mm)
|
||
// Use margins of 36 points (0.5in or 12.7mm) with another 36 points for the
|
||
// caption underneath...
|
||
swidth = 595.28 - 72.0;
|
||
sheight = swidth * height / width;
|
||
if (sheight > (792.0 - 36.0 - 72.0))
|
||
{
|
||
sheight = 792.0 - 36.0 - 72.0;
|
||
swidth = sheight * width / height;
|
||
}
|
||
|
||
tx = 0.5 * (595.28 - swidth);
|
||
ty = 0.5 * (792 - 36 - sheight);
|
||
|
||
pdfioContentDrawImage(page, "IM1", tx, ty + 36.0, swidth, sheight);
|
||
|
||
// Draw the caption in black...
|
||
pdfioContentSetFillColorDeviceGray(page, 0.0);
|
||
|
||
// Compute the starting point for the text - Courier is monospaced with a
|
||
// nominal width of 0.6 times the text height...
|
||
tx = 0.5 * (595.28 - 18.0 * 0.6 * strlen(caption));
|
||
|
||
// Position and draw the caption underneath...
|
||
pdfioContentTextBegin(page);
|
||
pdfioContentSetTextFont(page, "F1", 18.0);
|
||
pdfioContentTextMoveTo(page, tx, ty);
|
||
pdfioContentTextShow(page, /*unicode*/false, caption);
|
||
pdfioContentTextEnd(page);
|
||
|
||
// Close the page stream and the PDF file...
|
||
pdfioStreamClose(page);
|
||
pdfioFileClose(pdf);
|
||
}
|
||
```
|