A simple Java library to compare two PDF files. Files are rendered and compared pixel by pixel. There is no text comparison.
Just include it as a dependency. Please check for the most current version available:
<dependencies>
<dependency>
<groupId>de.redsix</groupId>
<artifactId>pdfcompare</artifactId>
<version>...</version> <!-- see current version in the maven central tag above -->
</dependency>
</dependencies>
There is a simple interactive UI, when you start the jar file without any additional arguments (which starts the class de.redsix.pdfcompare.Main). It allows you to choose files to compare and also to mark areas to ignore and write those to an ignore-file.
Next to the UI you can provide an expected and actual file and additional parameter via a CLI. To get a help for the CLI use the -h or --help option-.
usage: java -jar pdfcompare-x.x.x-full.jar [EXPECTED] [ACTUAL]
-h,--help Displays this text and exit
...
But the focus of PdfCompare is on embedded usage as a library.
new PdfComparator("expected.pdf", "actual.pdf").compare().writeTo("diffOutput");
This will produce an output PDF which may include markings for differences found. PdfCompare renders a page from the expected.pdf and the same page from the actual.pdf to a bitmap image and compares these two images pixel by pixel. Pixels that are equal are faded a bit. Pixels that differ are marked in red and green. Green for pixels that where in the expected.pdf, but are not present in the actual.pdf. Red for pixels that are present in the actual.pdf, but were not in the expected.pdf. And there are markings at the edge of the paper in magenta to find areas that differ quickly. Ignored Areas are marked with a yellow background. Pages that were expected, but did not come are marked with a red border. Pages that appear, but were not expected are marked with a green border.
The compare-method returns a CompareResult, which can be queried:
final CompareResult result = new PdfComparator("expected.pdf", "actual.pdf").compare();
if (result.isNotEqual()) {
System.out.println("Differences found!");
}
if (result.isEqual()) {
System.out.println("No Differences found!");
}
if (result.hasDifferenceInExclusion()) {
System.out.println("Differences in excluded areas found!");
}
result.getDifferences(); // returns page areas, where differences were found
For convenience, writeTo also returns the equals status:
boolean isEquals = new PdfComparator("expected.pdf", "actual.pdf").compare().writeTo("diffOutput");
if (!isEquals) {
System.out.println("Differences found!");
}
The compare method can be called with filenames as Strings, Files, Paths or InputStreams.
It is also possible to define rectangular areas that are ignored during comparison. For that, a file needs to be created, which defines areas to ignore. The file format is JSON (or actually a superset called HOCON) and has the following form:
exclusions: [
{
page: 2
x1: 300 // entries without a unit are in pixels. Pdfs are rendered by default at 300DPI
y1: 1000
x2: 550
y2: 1300
},
{
// page is optional. When not given, the exclusion applies to all pages.
x1: 130.5mm // entries can also be given in units of cm, mm or pt (DTP-Point defined as 1/72 Inches)
y1: 3.3cm
x2: 190mm
y2: 3.7cm
},
{
page: 7
// coordinates are optional. When not given, the whole page is excluded.
}
]
When the provided exclusion file is not found, it is ignored and the compare is done without the exclusions.
Exclusions are provided in the code as follows:
new PdfComparator("expected.pdf", "actual.pdf").withIgnore("ignore.conf").compare();
Alternatively an Exclusion can be added via the API as follows:
new PdfComparator("expected.pdf", "actual.pdf")
.withIgnore(new PageArea(1, 230, 350, 450, 420))
.withIgnore(new PageArea(2))
.compare();
When you want to compare password protected PDF files, you can give the password to the Comparator through the withExpectedPassword(String password) or withActualPassword(String password) methods respectively.
new PdfComparator("expected.pdf", "actual.pdf")
.withExpectedPassword("somePwd")
.withActualPassword("anotherPwd")
.compare();
PdfCompare can be configured with a config file. The default config file is called "application.conf" and it must be located in the root of the classpath.
PdfCompare uses Lightbend Config (previously called TypeSafe Config) to read its configuration files. If you want to specify another configuration file, you can find out more about that here: https://github.com/lightbend/config#standard-behavior. In particular you can specify a replacement config file with the -Dconfig.file=path/to/file command line argument.
Alternatively you can specify parameters either through a system environment variables or as a Jvm parameter with -DvariableName=
Another way to specify a different config location programmatically is to create a new ConfigFileEnvironment(...) and pass it to PdfCompare.withEnvironment(...).
All the settings, that can be changed through the application.conf file can also be changed programmatically through the API. To do so you can use the following code:
new PdfComparator("expected.pdf", "actual.pdf")
.withEnvironment(new SimpleEnvironment()
.setActualColor(Color.green)
.setExpectedColor(Color.blue))
.compare();
The SimpleEnvironment delegates all settings, that were not assigned, to the default Environment.
Through the environment you can configure the memory settings (see above) and the following settings:
-
DPI=300
Sets the DPI that Pdf pages are rendered with. Default is 300.
-
expectedColor=00B400 (GREEN)
The expected color is the color that is used for pixels that were expected, but are not there. The colors are specified in HTML-Stlye format (without a leading '#'): The first two characters define the red-portion of the color in hexadecimal. The next two characters define the green-portion of the color. The last two characters define the blue-portion of the color to use.
-
actualColor=D20000 (RED)
The actual color is the color that is used for pixels that are there, but were not expected. The colors are specified in HTML-Stlye format (without a leading '#'): The first two characters define the red-portion of the color in hexadecimal. The next two characters define the green-portion of the color. The last two characters define the blue-portion of the color to use.
-
tempDir=System.property("java.io.tmpdir")
Sets the directory where to write temporary files. Defaults to the java default for java.io.tmpdir, which usually determines a system specific default, like /tmp on most unix systems.
-
allowedDifferenceInPercentPerPage=0.2
Percent of pixels that may differ per page. Default is 0. If for some reason your rendering is a little off or you allow for some error margin, you can configure a percentage of pixels that are ignored during comparison. That way a difference is only reported, when more than the given percentage of pixels differ. The percentage is calculated per page. Not that the differences are still marked in the output file, when you addEqualPagesToResult.
-
parallelProcessing=true
When set to false, disables all parallel processing and process everything in a single thread.
-
addEqualPagesToResult=true
When set to false, only pages with differences are added to the result and this the resulting difference PDF document.
-
failOnMissingIgnoreFile=false
When set to true, a missing ignore file leads to an exception. Otherwise it is ignored and only an info level log messages is written.
There are a few different Implementations of CompareResults with different characteristics. The can be used to control certain aspects of the system behaviour, in particular memory consumption.
It is good to know a few internals, when using the PdfCompare. Here is in a nutshell, what PdfCompare does, when it compares two PDFs.
PdfCompare uses the Apache PdfBox Library to read and write Pdfs.
- The Two Pdfs to compare are opened with PdfBox.
- A page from each Pdf is read and rendered into a BufferedImage by default at 300dpi.
- A new empty BufferedImage is created to take the result of the comparison. It has the maximum size of the expected and the actual image.
- When the comparison is finished, the new BufferedImage, which holds the result of the comparison, is kept in memory in a CompareResult object. Holding on to the CompareResult means, that the images are also kept in memory. If memory consumption is a problem, a CompareResultWithPageOverflow or a CompareResultWithMemoryOverflow can be used. Those classes store images to a temporary folder on disk, when certain thresholds are reached.
- After all pages are compared, a new Pdf is created and the images are written page by page into the new Pdf.
So comparing large Pdfs can use up a lot of memory. I didn't yet find a way to write the difference Pdf page by page incrementally with PdfBox, but there are some workarounds.
There are currently two different CompareResults, that have different strategies for swapping pages to disk and thereby limiting memory consumption.
- CompareResultWithPageOverflow - stores a bunch of pages into a partial Pdf and merges the resulting Pdfs in the end. The default is to swap every 10 pages, which is a good balance between memory usage and performance.
- CompareResultWithMemoryOverflow - tries to keep as many images in memory as possible and swaps, when a critical amount of memory is consumed by the JVM. As a default, pages are swapped, when 70% of the maximum available heap is filled.
A different CompareResult implementation can be used as follows:
new PdfComparator("expected.pdf", "actual.pdf", new CompareResultWithPageOverflow()).compare();
Also there are some internal settings for memory limits, that can be changed. Just add a file called "application.conf" to the root of the classpath. This file can have some or all of the following settings to overwrite the defaults given here:
-
imageCacheSizeCount=30
How many images are cached by PdfBox
-
maxImageSizeInCache=100000
A rough maximum size of images that are cached, to prevent very big images from being cached
-
mergeCacheSizeMB=100
When Pdfs are partially written and later merged, this is the memory cache that is configured for the PdfBox instance that does the merge.
-
swapCacheSizeMB=100
When Pdfs are partially written, this is the memory cache that is configured for the PdfBox instance that does the partial writes.
-
documentCacheSizeMB=200
This is the cache size configured for the PdfBox instance, that loads the documents that are compared.
-
parallelProcessing=true
When set to false, disables all parallel processing and process everything in a single thread.
-
overallTimeoutInMinutes=15
Set the overall timeout. This is a safety measure to detect possible deadlocks. Complex comparisons might take longer, so this value might have to be increased.
-
executorTimeoutInSeconds=60
Sets the timeout to wait for the executors to finish after the overallTimeout was reached. It's unlikely that you ever need to change this.
So in this default configuration, PdfBox should use up to 400MB of Ram for it's caches, before swapping to disk. I have good experience with granting a 2GB heap space to the JVM.
Big thanks to Chethan Rao meetchethan@gmail.com for helping me diagnose out of memory problems and providing the idea of partial writes and merging of the generated PDFs.