printpdf 0.3.4

Rust library for writing PDF files
Documentation

printpdf

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printpdf is a library designed for creating printable PDF documents.

Crates.io | Documentation

[dependencies]
printpdf = "0.3.2"

Features

Currently, printpdf can only create new documents and write them, it cannot load existing documents yet.

  • Page generation
  • Layers (Illustrator like layers)
  • Graphics (lines, shapes, bezier curves)
  • Images (currently BMP/JPG/PNG only or generate your own images)
  • Embedded fonts (TTF and OTF) with Unicode support
  • Advanced graphics - overprint control, blending modes, etc.
  • Advanced typography - character scaling, character spacing, superscript, subscript, outlining, etc.
  • PDF layers (you should be able to open the PDF in Illustrator and have the layers appear)

Getting started

Writing PDF

Simple page

use printpdf::*;
use std::fs::File;
use std::io::BufWriter;

let (doc, page1, layer1) = PdfDocument::new("PDF_Document_title", Mm(247.0), Mm(210.0), "Layer 1");
let (page2, layer1) = doc.add_page(Mm(10.0), Mm(250.0),"Page 2, Layer 1");

doc.save(&mut BufWriter::new(File::create("test_working.pdf").unwrap())).unwrap();

Adding graphical shapes

use printpdf::*;
use std::fs::File;
use std::io::BufWriter;
use std::iter::FromIterator;

let (doc, page1, layer1) = PdfDocument::new("printpdf graphics test", Mm(297.0), Mm(210.0), "Layer 1");
let current_layer = doc.get_page(page1).get_layer(layer1);

// Quadratic shape. The "false" determines if the next (following)
// point is a bezier handle (for curves)
// If you want holes, simply reorder the winding of the points to be
// counterclockwise instead of clockwise.
let points1 = vec![(Point::new(Mm(100.0), Mm(100.0)), false),
                   (Point::new(Mm(100.0), Mm(200.0)), false),
                   (Point::new(Mm(300.0), Mm(200.0)), false),
                   (Point::new(Mm(300.0), Mm(100.0)), false)];

// Is the shape stroked? Is the shape closed? Is the shape filled?
let line1 = Line {
    points: points1,
    is_closed: true,
    has_fill: true,
    has_stroke: true,
    is_clipping_path: false,
};

// Triangle shape
// Note: Line is invisible by default, the previous method of
// constructing a line is recommended!
let mut line2 = Line::from_iter(vec![
    (Point::new(Mm(150.0), Mm(150.0)), false),
    (Point::new(Mm(150.0), Mm(250.0)), false),
    (Point::new(Mm(350.0), Mm(250.0)), false)]);

line2.set_stroke(true);
line2.set_closed(false);
line2.set_fill(false);
line2.set_as_clipping_path(false);

let fill_color = Color::Cmyk(Cmyk::new(0.0, 0.23, 0.0, 0.0, None));
let outline_color = Color::Rgb(Rgb::new(0.75, 1.0, 0.64, None));
let mut dash_pattern = LineDashPattern::default();
dash_pattern.dash_1 = Some(20);

current_layer.set_fill_color(fill_color);
current_layer.set_outline_color(outline_color);
current_layer.set_outline_thickness(10.0);

// Draw first line
current_layer.add_shape(line1);

let fill_color_2 = Color::Cmyk(Cmyk::new(0.0, 0.0, 0.0, 0.0, None));
let outline_color_2 = Color::Greyscale(Greyscale::new(0.45, None));

// More advanced graphical options
current_layer.set_overprint_stroke(true);
current_layer.set_blend_mode(BlendMode::Seperable(SeperableBlendMode::Multiply));
current_layer.set_line_dash_pattern(dash_pattern);
current_layer.set_line_cap_style(LineCapStyle::Round);

current_layer.set_fill_color(fill_color_2);
current_layer.set_outline_color(outline_color_2);
current_layer.set_outline_thickness(15.0);

// draw second line
current_layer.add_shape(line2);

Adding images

Note: Images only get compressed in release mode. You might get huge PDFs (6 or more MB) in debug mode. In release mode, the compression makes these files much smaller (~ 100 - 200 KB).

To make this process faster, use BufReader instead of directly reading from the file. Images are currently not a top priority.

Scaling of images is implicitly done to fit one pixel = one dot at 300 dpi.

extern crate printpdf;

// imports the `image` library with the exact version that we are using
use printpdf::*;

use std::convert::From;
use std::fs::File;

fn main() {
    let (doc, page1, layer1) = PdfDocument::new("PDF_Document_title", Mm(247.0), Mm(210.0), "Layer 1");
    let current_layer = doc.get_page(page1).get_layer(layer1);

    // currently, the only reliable file formats are bmp/jpeg/png
    // this is an issue of the image library, not a fault of printpdf
    let mut image_file = File::open("assets/img/BMP_test.bmp").unwrap();
    let image = Image::try_from(image::bmp::BmpDecoder::new(&mut image_file).unwrap()).unwrap();

    // translate x, translate y, rotate, scale x, scale y
    // by default, an image is optimized to 300 DPI (if scale is None)
    // rotations and translations are always in relation to the lower left corner
    image.add_to_layer(current_layer.clone(), None, None, None, None, None, None);

    // you can also construct images manually from your data:
    let mut image_file_2 = ImageXObject {
        width: Px(200),
        height: Px(200),
        color_space: ColorSpace::Greyscale,
        bits_per_component: ColorBits::Bit8,
        interpolate: true,
        /* put your bytes here. Make sure the total number of bytes =
           width * height * (bytes per component * number of components)
           (e.g. 2 (bytes) x 3 (colors) for RGB 16bit) */
        image_data: Vec::new(),
        image_filter: None, /* does not work yet */
        clipping_bbox: None, /* doesn't work either, untested */
    };

    let image2 = Image::from(image_file_2);
}

Adding fonts

Note: Fonts are shared between pages. This means that they are added to the document first and then a reference to this one object can be passed to multiple pages. This is different to images, for example, which can only be used once on the page they are created on (since that's the most common use-case).

use printpdf::*;
use std::fs::File;

let (doc, page1, layer1) = PdfDocument::new("PDF_Document_title", Mm(247.0), Mm(210.0), "Layer 1");
let current_layer = doc.get_page(page1).get_layer(layer1);

let text = "Lorem ipsum";
let text2 = "unicode: стуфхfцчшщъыьэюя";

let font = doc.add_external_font(File::open("assets/fonts/RobotoMedium.ttf").unwrap()).unwrap();
let font2 = doc.add_external_font(File::open("assets/fonts/RobotoMedium.ttf").unwrap()).unwrap();

// text, font size, x from left edge, y from bottom edge, font
current_layer.use_text(text, 48, Mm(200.0), Mm(200.0), &font);

// For more complex layout of text, you can use functions
// defined on the PdfLayerReference
// Make sure to wrap your commands
// in a `begin_text_section()` and `end_text_section()` wrapper
current_layer.begin_text_section();

    // setup the general fonts.
    // see the docs for these functions for details
    current_layer.set_font(&font2, 33);
    current_layer.set_text_cursor(Mm(10.0), Mm(10.0));
    current_layer.set_line_height(33);
    current_layer.set_word_spacing(3000);
    current_layer.set_character_spacing(10);
    current_layer.set_text_rendering_mode(TextRenderingMode::Stroke);

    // write two lines (one line break)
    current_layer.write_text(text.clone(), &font2);
    current_layer.add_line_break();
    current_layer.write_text(text2.clone(), &font2);
    current_layer.add_line_break();

    // write one line, but write text2 in superscript
    current_layer.write_text(text.clone(), &font2);
    current_layer.set_line_offset(10);
    current_layer.write_text(text2.clone(), &font2);

current_layer.end_text_section();

Optimiziation

Minimizing the size of generated PDFs

  • By default, the PDF adherese to a "PDF conformance level", usually the PDF-X 1.4 Standard. This means that the PDF includes a full ICC profile file (which is around 500KB large). To turn it off, see the no_icc example:
let (mut doc, _page1, _layer1) = PdfDocument::new("printpdf no_icc test", Mm(297.0), Mm(210.0), "Layer 1");
doc = doc.with_conformance(PdfConformance::Custom(CustomPdfConformance {
  requires_icc_profile: false,
  requires_xmp_metadata: false,
    .. Default::default()
}));
  • In debug mode, the images, streams and fonts are not compressed for easier debugging. Try building in release mode to optimize the size further.

Changelog

See the CHANGELOG.md file.

Further reading

The PdfDocument is hidden behind a PdfDocumentReference, which locks the things you can do behind a facade. Pretty much all functions operate on a PdfLayerReference, so that would be where to look for existing functions or where to implement new functions. The PdfDocumentReference is a reference-counted document. It uses the pages and layers for inner mutablility, because I ran into borrowing issues with the document. IMPORTANT: All functions that mutate the state of the document, "borrow" the document mutably for the duration of the function. It is important that you don't borrow the document twice (your program will crash if you do so). I have prevented this wherever possible, by making the document only public to the crate so you cannot lock it from outside of this library.

Images have to be added to the pages resources before using them. Meaning, you can only use an image on the page that you added it to. Otherwise, you may end up with a corrupt PDF.

Fonts are embedded using freetype. There is a rusttype branch in this repository, but rusttype does fails to get the height of an unscaled font correctly, so that's why you currently have to use freetype

Please report issues if you have any, especially if you see BorrowMut errors (they should not happen). Kerning is currently not done, because neither freetype nor rusttype can reliably read kerning data. However, "correct" kerning / placement requires a full font shaping engine, etc. This would be a completely different project.

For learning how a PDF is actually made, please read the wiki (currently not completely finished). When I began making this library, these resources were not available anywhere, so I hope to help other people with these topics. Reading the wiki is essential if you want to contribute to this library.

Goals and Roadmap

The goal of printpdf is to be a general-use PDF library, such as libharu or similar. PDFs generated by printpdf should always adhere to a PDF standard, except if you turn it off. Currently, only the standard PDF/X-3:2002 is covered (i.e. valid PDF according to Adobe Acrobat). Over time, there will be more standards supported. Checking a PDF for errors is currently only a stub.

Planned features / Not done yet

The following features aren't implemented yet, most

  • Clipping
  • Aligning / layouting text
  • Open Prepress Interface
  • Halftoning images, Gradients, Patterns
  • SVG / instantiated content
  • Forms, annotations
  • Bookmarks / Table of contents
  • Conformance / error checking for various PDF standards
  • Embedded Javascript
  • Reading PDF
  • Completion of printpdf wiki

Testing

Currently the testing is pretty much non-existent, because PDF is very hard to test. This should change over time: Testing should be done in two stages. First, test the individual PDF objects, if the conversion into a PDF object is done correctly. The second stage is manual inspection of PDF objects via Adobe Preflight.

Put the tests of the first stage in /tests/mod.rs. The second stage tests are better to be handled inside the plugins' mod.rs file. printpdf depends highly on lopdf, so you can either construct your test object against a real type or a debug string of your serialized type. Either way is fine - you just have to check that the test object is conform to what PDF expects.

Useful links

Here are some resources I found while working on this library:

PDFXPlorer, shows the DOM tree of a PDF, needs .NET 2.0

Official PDF 1.7 reference

[GERMAN] How to embed unicode fonts in PDF

PDF X/1-a Validator

PDF X/3 technical notes