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Sample JavaScript code to use Apryse SDK for creating and manipulating PDF layers (also known as Optional Content Groups - OCGs). These samples demonstrate how to create and extract layers, as well as to selectively render them (show, hide) in conforming PDF readers or printers. Learn more about our JavaScript PDF Library.
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JavaScript
HTML
//---------------------------------------------------------------------------------------
// Copyright (c) 2001-2023 by Apryse Software Inc. All Rights Reserved.
// Consult legal.txt regarding legal and license information.
//---------------------------------------------------------------------------------------
(exports => {
exports.runPDFLayersTest = () => {
const PDFNet = exports.Core.PDFNet;
// A utility function used to add new Content Groups (Layers) to the document.
const CreateLayer = async (doc, layerName) => {
await PDFNet.startDeallocateStack();
const grp = await PDFNet.OCG.create(doc, layerName);
let cfg = await doc.getOCGConfig();
if (cfg == null) {
cfg = await PDFNet.OCGConfig.create(doc, true);
cfg.setName('Default');
}
// Add the new OCG to the list of layers that should appear in PDF viewer GUI.
let layerOrderArray = await cfg.getOrder();
if (layerOrderArray == null) {
layerOrderArray = await doc.createIndirectArray();
cfg.setOrder(layerOrderArray);
}
const grpSDFObj = await grp.getSDFObj();
layerOrderArray.pushBack(grpSDFObj);
await PDFNet.endDeallocateStack();
return grp;
};
// Creates some content (3 images) and associate them with the image layer
const CreateGroup1 = async (doc, layer) => {
await PDFNet.startDeallocateStack();
const writer = await PDFNet.ElementWriter.create();
writer.begin(doc);
// Create an Image that can be reused in the document or on the same page.
const nullEncoderHints = new PDFNet.Obj('0');
const img = await PDFNet.Image.createFromURL(doc, '../TestFiles/peppers.jpg', nullEncoderHints);
const builder = await PDFNet.ElementBuilder.create();
const imgWidth = await img.getImageWidth();
const imgHeight = await img.getImageHeight();
const imgMatrix = new PDFNet.Matrix2D(imgWidth / 2, -145, 20, imgHeight / 2, 200, 150);
const element = await builder.createImageFromMatrix(img, imgMatrix);
writer.writePlacedElement(element);
const gstate = await element.getGState(); // use the same image (just change its matrix)
gstate.setTransform(200, 0, 0, 300, 50, 450);
writer.writePlacedElement(element);
// use the same image again (just change its matrix).
writer.writePlacedElement(await builder.createImageScaled(img, 300, 600, 200, -150));
const grpObj = await writer.end();
// Indicate that this form (content group) belongs to the given layer (OCG).
grpObj.putName('Subtype', 'Form');
grpObj.put('OC', layer);
grpObj.putRect('BBox', 0, 0, 1000, 1000); // Set the clip box for the content.
await PDFNet.endDeallocateStack();
return grpObj;
};
const CreateGroup2 = async (doc, layer) => {
await PDFNet.startDeallocateStack();
const writer = await PDFNet.ElementWriter.create();
writer.begin(doc);
// Create a path object in the shape of a heart.
const builder = await PDFNet.ElementBuilder.create();
builder.pathBegin(); // start constructing the path
builder.moveTo(306, 396);
builder.curveTo(681, 771, 399.75, 864.75, 306, 771);
builder.curveTo(212.25, 864.75, -69, 771, 306, 396);
builder.closePath();
const element = await builder.pathEnd(); // the path geometry is now specified.
// Set the path FILL color space and color.
element.setPathFill(true);
const gstate = await element.getGState();
const CMYKSpace = await PDFNet.ColorSpace.createDeviceCMYK();
gstate.setFillColorSpace(CMYKSpace);
const cyanColorPt = await PDFNet.ColorPt.init(1, 0, 0, 0); // CMYK
gstate.setFillColorWithColorPt(cyanColorPt); // cyan
// Set the path STROKE color space and color.
element.setPathStroke(true);
const RGBSpace = await PDFNet.ColorSpace.createDeviceRGB();
gstate.setStrokeColorSpace(RGBSpace);
const redColorPt = await PDFNet.ColorPt.init(1, 0, 0); // RGB
gstate.setStrokeColorWithColorPt(redColorPt); // red
gstate.setLineWidth(20);
gstate.setTransform(0.5, 0, 0, 0.5, 280, 300);
writer.writeElement(element);
const grpObj = await writer.end();
// Indicate that this form (content group) belongs to the given layer (OCG).
grpObj.putName('Subtype', 'Form');
grpObj.put('OC', layer);
grpObj.putRect('BBox', 0, 0, 1000, 1000); // Set the clip box for the content.
await PDFNet.endDeallocateStack();
return grpObj;
};
const CreateGroup3 = async (doc, layer) => {
await PDFNet.startDeallocateStack();
const writer = await PDFNet.ElementWriter.create();
writer.begin(doc);
const builder = await PDFNet.ElementBuilder.create();
// Begin writing a block of text
const textFont = await PDFNet.Font.create(doc, PDFNet.Font.StandardType1Font.e_times_roman);
let element = await builder.createTextBeginWithFont(textFont, 120);
writer.writeElement(element);
element = await builder.createNewTextRun('A text layer!');
// Rotate text 45 degrees, than translate 180 pts horizontally and 100 pts vertically.
const transform = await PDFNet.Matrix2D.createRotationMatrix(-45 * (3.1415 / 180.0));
await transform.concat(1, 0, 0, 1, 180, 100);
await element.setTextMatrix(transform);
await writer.writeElement(element);
await writer.writeElement(await builder.createTextEnd());
const grpObj = await writer.end();
// Indicate that this form (content group) belongs to the given layer (OCG).
grpObj.putName('Subtype', 'Form');
grpObj.put('OC', layer);
grpObj.putRect('BBox', 0, 0, 1000, 1000); // Set the clip box for the content.
await PDFNet.endDeallocateStack();
return grpObj;
};
const main = async () => {
console.log('Beginning Test');
let doc = null;
// Here we output a pdf document with layers.
try {
doc = await PDFNet.PDFDoc.create();
doc.initSecurityHandler();
doc.lock();
console.log('PDFNet and PDF document initialized and locked');
const imageLayer = await CreateLayer(doc, 'Image Layer');
const textLayer = await CreateLayer(doc, 'Text Layer');
const vectorLayer = await CreateLayer(doc, 'Vector Layer');
const page = await doc.pageCreate();
const builder = await PDFNet.ElementBuilder.create();
const writer = await PDFNet.ElementWriter.create();
writer.beginOnPage(page);
const groupObj = await CreateGroup1(doc, await imageLayer.getSDFObj());
let element = await builder.createFormFromStream(groupObj);
writer.writeElement(element);
const groupObj2 = await CreateGroup2(doc, await vectorLayer.getSDFObj());
element = await builder.createFormFromStream(groupObj2);
writer.writeElement(element);
// eslint-disable-next-line no-constant-condition
if (false) {
// A bit more advanced example of how to create an OCMD text layer that
// is visible only if text, image and path layers are all 'ON'.
// An example of how to set 'Visibility Policy' in OCMD.
const ocgs = doc.createIndirectArray();
ocgs.pushBack(await imageLayer.getSDFObj());
ocgs.pushBack(await vectorLayer.getSDFObj());
ocgs.PushBack(await textLayer.getSDFObj());
const textOcmd = await PDFNet.OCMD.create(doc, ocgs, PDFNet.OCMD.VisibilityPolicyType.e_AllOn);
element = await builder.createFormFromStream(await CreateGroup3(doc, await textOcmd.getSDFObj()));
} else {
// let SDFObj = await textLayer.getSDFObj();
element = await builder.createFormFromStream(await CreateGroup3(doc, await textLayer.getSDFObj()));
}
writer.writeElement(element);
// Add some content to the page that does not belong to any layer...
// In this case this is a rectangle representing the page border.
element = await builder.createRect(0, 0, await page.getPageWidth(), await page.getPageHeight());
element.setPathFill(false);
element.setPathStroke(true);
const elementGState = await element.getGState();
elementGState.setLineWidth(40);
writer.writeElement(element);
writer.end(); // save changes to the current page
doc.pagePushBack(page);
// Set the default viewing preference to display 'Layer' tab.
const prefs = await doc.getViewPrefs();
prefs.setPageMode(PDFNet.PDFDocViewPrefs.PageMode.e_UseOC);
const docbuf = await doc.saveMemoryBuffer(PDFNet.SDFDoc.SaveOptions.e_linearized);
saveBufferAsPDFDoc(docbuf, 'pdf_layers.pdf');
console.log('done example 1');
} catch (err) {
console.log(err.stack);
}
// Here we output the individual layers as png files.
try {
// we are still using the doc from the previous section.
if (!(await doc.hasOC())) {
console.log("The document does not contain 'Optional Content'");
} else {
const initCfg = await doc.getOCGConfig();
const ctx = await PDFNet.OCGContext.createFromConfig(initCfg);
const pdfdraw = await PDFNet.PDFDraw.create();
pdfdraw.setImageSize(1000, 1000);
pdfdraw.setOCGContext(ctx);
const page = await doc.getPage(1);
const firstPageBuffer = await pdfdraw.exportStream(page);
saveBufferAsPNG(firstPageBuffer, 'pdf_layers_default.png');
ctx.setNonOCDrawing(false);
const ocgs = await doc.getOCGs();
if (ocgs !== null) {
let i;
const sz = await ocgs.size();
for (i = 0; i < sz; ++i) {
const ocg = await PDFNet.OCG.createFromObj(await ocgs.getAt(i));
ctx.resetStates(false);
ctx.setState(ocg, true);
let fname = 'pdf_layers_';
fname += await ocg.getName();
fname += '.png';
const pageBuffer = await pdfdraw.exportStream(page);
saveBufferAsPNG(pageBuffer, fname);
}
}
// Now draw content that is not part of any layer...
ctx.setNonOCDrawing(true);
ctx.setOCDrawMode(PDFNet.OCGContext.OCDrawMode.e_NoOC);
const nonLayerBuffer = await pdfdraw.exportStream(page);
saveBufferAsPNG(nonLayerBuffer, 'pdf_layers_non_oc.png');
}
console.log('done');
} catch (err) {
console.log(err.stack);
}
};
// add your own license key as the second parameter, e.g. PDFNet.runWithCleanup(main, 'YOUR_LICENSE_KEY')
PDFNet.runWithCleanup(main);
};
})(window);
// eslint-disable-next-line spaced-comment
//# sourceURL=PDFLayersTest.js