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/*
 * ===========================================
 * Java Pdf Extraction Decoding Access Library
 * ===========================================
 *
 * Project Info:  http://www.idrsolutions.com
 * Help section for developers at http://www.idrsolutions.com/support/
 *
 * (C) Copyright 1997-2017 IDRsolutions and Contributors.
 *
 * This file is part of JPedal/JPDF2HTML5
 *
 @LICENSE@
 *
 * ---------------
 * PDFStitching.java
 * ---------------
 */

package org.jpedal.function;

/**
 * Class to handle Type 3 shading (Stitching) in PDF
 */
public class PDFStitching extends PDFGenericFunction implements PDFFunction {

    /**
     * composed of other Functions
     */
    private PDFFunction[] functions;
    private float[] bounds;

    public PDFStitching(final PDFFunction[] functions, final float[] encode, final float[] bounds, final float[] domain, final float[] range) {

        //setup global values needed
        super(domain, range);

        if (bounds != null) {
            this.bounds = bounds;
        }

        if (encode != null) {
            this.encode = encode;
        }

        if (functions != null) {
            this.functions = functions;
        }

        //n = encode.length/2;
    }

    /**
     * Calculate shading for current location
     *
     * @param values input values for shading calculation
     * @return float[] containing the color values for shading at this point
     */
    @Override
    public float[] compute(final float[] values) {

//        if(functions.length == 1){
//            float x = min(max(values[0],domain[0]),domain[1]);
//            x = encode[0]+(x-domain[0])*(encode[1]-encode[0])/(domain[1]-domain[0]);
//            float[] vv = functions[0].compute(new float[]{x}); 
//            vv[0] = 1-vv[0];
//            return vv;
//        }

        //take raw input number
        final float x = min(max(values[0], domain[0 * 2]), domain[0 * 2 + 1]);

        //hack for error in a PDF
        if (bounds == null) {
            bounds = new float[0];
        }

        //see if value lies outside a boundary
        int subi = bounds.length - 1;
        for (; subi >= 0; subi--) {
            if (x >= bounds[subi]) {
                break;
            }
        }
        subi++;


        //if it does, truncate it
        final float[] subinput = new float[1];
        float xmin = domain[0], xmax = domain[1];
        if (subi > 0) {
            xmin = (bounds[subi - 1]);
        }
        if (subi < bounds.length) {
            xmax = (bounds[subi]);
        }

        final float ymin = encode[subi * 2];
        final float ymax = encode[subi * 2 + 1];
        subinput[0] = interpolate(x, xmin, xmax, ymin, ymax);

        final float[] output = functions[subi].computeStitch(subinput);

        final float[] result = new float[output.length];

        if (range != null) {
            for (int i = 0; i != range.length / 2; i++) {
                result[i] = min(max(output[i], range[i * 2]), range[i * 2 + 1]);
            }
        } else {
            for (int i = 0; i != output.length; i++) {
                result[i] = output[i];
            }
        }

        return result;
    }


    /**
     * Calculate shading for current location (Only used by Stitching)
     *
     * @param values : input values for shading calculation
     * @return float[] containing the color values for shading at this point
     */
    @Override
    public float[] computeStitch(final float[] values) {

        //take raw input number
        final float x = min(max(values[0], domain[0 * 2]), domain[0 * 2 + 1]);

        //see if value lies outside a boundary
        int subi = bounds.length - 1;
        for (; subi >= 0; subi--) {
            if (x >= bounds[subi]) {
                break;
            }
        }
        subi++;

        //if it does, truncate it
        final float[] subinput = new float[1];
        float xmin = domain[0], xmax = domain[1];
        if (subi > 0) {
            xmin = (bounds[subi - 1]);
        }
        if (subi < bounds.length) {
            xmax = (bounds[subi]);
        }

        final float ymin = encode[subi * 2];
        final float ymax = encode[subi * 2 + 1];
        subinput[0] = interpolate(x, xmin, xmax, ymin, ymax);

        final float[] output = functions[subi].compute(subinput);

        final float[] result = new float[output.length];

        for (int i = 0; i != range.length / 2; i++) {
            if (range != null) {
                result[i] = min(max(output[i], range[0 * 2]), range[0 * 2 + 1]);
            } else {
                result[i] = output[i];
            }
        }

        return result;
    }

}




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