イメージの大きさを取得し、イメージの幅と高さの 0.5 の角を丸くした矩形としてクリッピングパスを作成します。クリッピングパスのサイズと位置に合わせたボックス内にイメージをフィットさせます。
/*
* Image with rounded corners:
* Place an image with rounded corners
*
* Get the dimensions of an image and create a clipping path as a rectangle of
* 0.5 of the width and height of the image and with rounded corners. Fit the
* image into a box with the position and size of the clipping path.
*
* Required software: PDFlib/PDFlib+PDI/PPS 9
* Required data: image file
*/
package com.pdflib.cookbook.pdflib.images;
import com.pdflib.pdflib;
import com.pdflib.PDFlibException;
public class image_rounded_corners
{
public static void main (String argv[])
{
/* This is where the data files are. Adjust as necessary. */
String searchpath = "../input";
String outfile = "image_rounded_corners.pdf";
String title = "Image with Rounded Corners";
pdflib p = null;
int exitcode = 0;
String imagefile = "nesrin.jpg";
int image;
double width, height; // width and height of the image
int radius=50; // radius of the circle describing a rounded corner
int x=20, y=20; // lower left position of the image
try {
p = new pdflib();
p.set_option("searchpath={" + searchpath + "}");
/* This means we must check return values of load_font() etc. */
p.set_option("errorpolicy=return");
if (p.begin_document(outfile, "") == -1)
throw new Exception("Error: " + p.get_errmsg());
p.set_info("Creator", "PDFlib Cookbook");
p.set_info("Title", title);
/* Load image */
image = p.load_image("auto", imagefile, "");
if (image == -1)
throw new Exception("Error: " + p.get_errmsg());
/* Get the width and height of the image */
width = p.info_image(image, "imagewidth", "");
height = p.info_image(image, "imageheight", "");
/* Start a page with the image dimensions */
p.begin_page_ext(width, height, "");
/* Save the current graphics state including the clipping path */
p.save();
/* Define a path as a rectangle of 0.5 of the original width and height
* of the image and with rounded corners
*/
width *= 0.5;
height *= 0.5;
p.moveto(x + radius, y);
p.lineto(x + width - radius, y);
p.arc(x + width - radius, y + radius, radius, 270, 360);
p.lineto(x + width, y + height - radius );
p.arc(x + width - radius, y + height - radius, radius, 0, 90);
p.lineto(x + radius, y + height);
p.arc(x + radius, y + height - radius, radius, 90, 180);
p.lineto(x , y + radius);
p.arc(x + radius, y + radius, radius, 180, 270);
/* Set clipping path to defined path */
p.clip();
/* Load image */
image = p.load_image("auto", imagefile, "");
/* Fit the image into a box with the size and start point (x,y) of the
* clipping path. The image is placed in the center of the box using a
* fit method of "meet" which will scale the image proportionally until
* it completely covers the box */
p.fit_image(image, x, y, "boxsize {" + width + " " + height +
"} position center fitmethod=meet");
/* Close image and restore original clipping (no clipping) */
p.close_image(image);
p.restore();
p.end_page_ext("");
p.end_document("");
} catch (PDFlibException e) {
System.err.println("PDFlib exception occurred:");
System.err.println("[" + e.get_errnum() + "] " + e.get_apiname() +
": " + e.get_errmsg());
exitcode = 1;
} catch (Exception e) {
System.err.println(e);
exitcode = 1;
} finally {
if (p != null) {
p.delete();
}
System.exit(exitcode);
}
}
}
