All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.jpedal.function.PostscriptFactory Maven / Gradle / Ivy

There is a newer version: 20151002
Show newest version
/*
 * ===========================================
 * Java Pdf Extraction Decoding Access Library
 * ===========================================
 *
 * Project Info:  http://www.idrsolutions.com
 * Help section for developers at http://www.idrsolutions.com/support/
 *
 * (C) Copyright 1997-2016 IDRsolutions and Contributors.
 *
 * This file is part of JPedal/JPDF2HTML5
 *
     This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Lesser General Public
    License as published by the Free Software Foundation; either
    version 2.1 of the License, or (at your option) any later version.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Lesser General Public License for more details.

    You should have received a copy of the GNU Lesser General Public
    License along with this library; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA


 *
 * ---------------
 * PostscriptFactory.java
 * ---------------
 */

package org.jpedal.function;

import java.util.Arrays;
import org.jpedal.io.types.StreamReaderUtils;
import org.jpedal.utils.LogWriter;
import org.jpedal.utils.NumberUtils;


public class PostscriptFactory {

	static final int[] scale={1,26*26,26*26*26,26*26*26*26}; //alphabet so base 26 makes it unique

	static final double toBase10=Math.log(10);
	
	private int level;

	private static final byte START_BRACE = 123;
	private static final byte END_BRACE = 125;

	private final byte[] stream;
	private final int streamLength;
	private int ptr;

	private static final boolean debug = false;

	protected boolean testingFunction;

	protected double[] stack = new double[100];
	private double[] safeStack;
	protected int[] stackType = new int[100];
	private int[] safeStackType;

	protected int stkPtr;
	private int safeStkPtr;
	protected int stkTypePtr;
	private int safeStkTypePrt;
	protected int currentType;
	
	boolean cont;

	/** constant for conversion*/
    static final double radiansToDegrees=180f/Math.PI;

    //value for boolean true
    protected static final double isTrue=1;

	// value for boolean false
    protected static final double isFalse=0;

	// ----- PS types ------
	// PS intger (java int)
    protected static final int PS_INTEGER = 1;

	// PS real (java double)
    protected static final int PS_REAL = 2;

	// PS boolean (java boolean)
    protected static final int PS_BOOLEAN = 3;

	// left in just in case as a safety feature
    protected static final int PS_UNKNOWN = 0;
    

	public PostscriptFactory(final byte[] stream){
		this.stream=stream; //raw data
		streamLength=stream.length;
		
		
		//System.out.println("-> PostScript STREAM data:");
		//System.out.println("");
		//for(int i=0;i4)
				keyLength=4;

			for(int j=0;j4)
				System.out.println("final protected static int PS_"+cmds[i].substring(0,4)+" = "+mappedKey+";");
			else
				System.out.println("final protected static int PS_"+cmds[i]+" = "+mappedKey+";");
		}

		// build cases

		System.out.println("//identify command\nprotected static int getCommandID(int value) {\nint id = -1;\nswitch (value) {");
		for(int i=0;i3)
				keyLength=3;

			for(int j=0;j4){
				System.out.println("case PS_"+cmds[i].substring(0,4)+":");
				System.out.println("id=PS_"+cmds[i].substring(0,4)+";");
			}else{
				System.out.println("case PS_"+cmds[i]+":");
				System.out.println("id=PS_"+cmds[i]+";");
			}
			System.out.println("break;");
		}

		System.out.println("\n}\nreturn id;\n}");


		// build getString

		//System.out.println("//identify command\nprotected static int getCommandID(int value) {\nint id = -1;\nswitch (value) {");
		for(int i=0;i3)
				keyLength=3;

			for(int j=0;j4){
				System.out.println("case PS_"+cmds[i].substring(0,4)+":");
			}else{
				System.out.println("case PS_"+cmds[i]+":");
			}
			System.out.println("str=\""+cmds[i]+"\";");

			System.out.println("break;");
		}

		System.out.println("\n}\nreturn id;\n}");
	}

	/**/

	//unique id for abs
    protected static final int PS_abs = 317044;

	//unique id for add
    protected static final int PS_add = 54756;

	//unique id for atan
    protected static final int PS_atan = 5953532;

	//unique id for ceiling
    protected static final int PS_ceil = 5170050;

	//unique id for cos
    protected static final int PS_cos = 325834;

	//unique id for cvi
    protected static final int PS_cvi = 154806;

	//unique id for cvr
    protected static final int PS_cvr = 312990;

	//unique id for div
    protected static final int PS_div = 374507;

	//unique id for exp
    protected static final int PS_exp = 279192;

	//unique id for floor
    protected static final int PS_floo = 6651169;

	//unique id for idiv
    protected static final int PS_idiv = 9739140;

	//unique id for ln
    protected static final int PS_ln = 8799;

	//unique id for log
    protected static final int PS_log = 114931;

	//unique id for mod
    protected static final int PS_mod = 62204;

	//unique id for mul
    protected static final int PS_mul = 206868;

	//unique id for neg
    protected static final int PS_neg = 108173;

	//unique id for sin
    protected static final int PS_sin = 233914;

	//unique id for sqrt
    protected static final int PS_sqrt = 8992170;

	//unique id for sub
    protected static final int PS_sub = 31114;

	//unique id for round
    protected static final int PS_roun = 6301689;

	//unique id for truncate
    protected static final int PS_trun = 6303719;

	//unique id for and
    protected static final int PS_and = 61516;

	//unique id for bitshift
    protected static final int PS_bits = 8564921;

	//unique id for eq
    protected static final int PS_eq = 10820;

	//unique id for false
    protected static final int PS_fals = 8418909;

	//unique id for ge
    protected static final int PS_ge = 2710;

	//unique id for gt
    protected static final int PS_gt = 12850;

	//unique id for le
    protected static final int PS_le = 2715;

	//unique id for lt
    protected static final int PS_lt = 12855;

	//unique id for ne
    protected static final int PS_ne = 2717;

	//unique id for not
    protected static final int PS_not = 343421;

	//unique id for or
    protected static final int PS_or = 11506;

	//unique id for true
    protected static final int PS_true = 2190935;

	//unique id for xor
    protected static final int PS_xor = 308279;

	//unique id for if
    protected static final int PS_if = 3388;

	//unique id for ifelse
    protected static final int PS_ifel = 5100428;

	//unique id for copy
    protected static final int PS_copy = 11240530;

	//unique id for exch
    protected static final int PS_exch = 3249536;

	//unique id for pop
    protected static final int PS_pop = 273119;

	//unique id for dup
    protected static final int PS_dup = 277163;

	//unique id for index
    protected static final int PS_inde = 1889428;

	//unique id for roll
    protected static final int PS_roll = 5229553;

    //identify command
    protected static int getCommandID(final byte[] cmds) {

        //default no key value
        int id = -1;

        //build key with same formula we used to create Constants (we've checked they are unique)
        int key = 0;
        int keyLength = cmds.length;
        if (keyLength > 4) {
            keyLength = 4;
        }

        for (int j = 0; j < keyLength; j++) {
            key += (cmds[j] - 'a') * scale[j];
        }

        switch (key) {
            case PS_abs:
                id = PS_abs;
                break;
            case PS_add:
                id = PS_add;
                break;
            case PS_atan:
                id = PS_atan;
                break;
            case PS_ceil:
                id = PS_ceil;
                break;
            case PS_cos:
                id = PS_cos;
                break;
            case PS_cvi:
                id = PS_cvi;
                break;
            case PS_cvr:
                id = PS_cvr;
                break;
            case PS_div:
                id = PS_div;
                break;
            case PS_exp:
                id = PS_exp;
                break;
            case PS_floo:
                id = PS_floo;
                break;
            case PS_idiv:
                id = PS_idiv;
                break;
            case PS_ln:
                id = PS_ln;
                break;
            case PS_log:
                id = PS_log;
                break;
            case PS_mod:
                id = PS_mod;
                break;
            case PS_mul:
                id = PS_mul;
                break;
            case PS_neg:
                id = PS_neg;
                break;
            case PS_sin:
                id = PS_sin;
                break;
            case PS_sqrt:
                id = PS_sqrt;
                break;
            case PS_sub:
                id = PS_sub;
                break;
            case PS_roun:
                id = PS_roun;
                break;
            case PS_trun:
                id = PS_trun;
                break;
            case PS_and:
                id = PS_and;
                break;
            case PS_bits:
                id = PS_bits;
                break;
            case PS_eq:
                id = PS_eq;
                break;
            case PS_fals:
                id = PS_fals;
                break;
            case PS_ge:
                id = PS_ge;
                break;
            case PS_gt:
                id = PS_gt;
                break;
            case PS_le:
                id = PS_le;
                break;
            case PS_lt:
                id = PS_lt;
                break;
            case PS_ne:
                id = PS_ne;
                break;
            case PS_not:
                id = PS_not;
                break;
            case PS_or:
                id = PS_or;
                break;
            case PS_true:
                id = PS_true;
                break;
            case PS_xor:
                id = PS_xor;
                break;
            case PS_if:
                id = PS_if;
                break;
            case PS_ifel:
                id = PS_ifel;
                break;
            case PS_copy:
                id = PS_copy;
                break;
            case PS_exch:
                id = PS_exch;
                break;
            case PS_pop:
                id = PS_pop;
                break;
            case PS_dup:
                id = PS_dup;
                break;
            case PS_inde:
                id = PS_inde;
                break;
            case PS_roll:
                id = PS_roll;
                break;

        }
        return id;
    }

	/**
	 *
	 * @param id
	 *
	 * execute commands or return -1 as error
	 */
	@SuppressWarnings("OverlyLongMethod")
	protected int execute(final int id) {

		//will be reset by default if command unrecognised
		int returnValue=0;

		//code taken from elsewhere so ignore

		// debug data

		int fType = 0;
		int sType = 0;

		int firstInt;

		double first;
		final double second;

		//ADD COMMANDS in AlphaBetical order!!!!
		switch (id) {

		case PostscriptFactory.PS_abs:

			// take val of the top of the stack
			first = pop();


			// put the absolute val back at the top
			if(first<0){
				push(-first,PS_INTEGER);
			} else {
				push(first,PS_INTEGER);
			}

			break;

		case PostscriptFactory.PS_add:

			// simple add

			// check if enough elements on the stack
			if(stack.length<2) {
                throw new RuntimeException("ADD - not enough elements on the stack");
            }
			

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if(fType == PS_REAL || sType == PS_REAL) {
                push(first + second, PS_REAL);
            } else {
                push(first + second, PS_INTEGER);
            }
			break;

		case PostscriptFactory.PS_and:

			//performs a bitwise and on int and booleans

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if(fType == PS_INTEGER && sType == PS_INTEGER) {
                push((int) first & (int) second, PS_INTEGER);
            } else if (fType == PS_BOOLEAN && sType == PS_BOOLEAN) {
                push((int) first & (int) second, PS_BOOLEAN);
            } else if(LogWriter.isRunningFromIDE){
				// should never happend, will exit
				throw new RuntimeException("Critical error in PS_and");
			}

			break;

		case PostscriptFactory.PS_atan:

			calculateAtan();

			break;

		case PostscriptFactory.PS_bits:
			// bit shift operation times shift

			final int shift = popInt();
			fType = currentType;
			firstInt = popInt();
			sType = currentType;

			if(fType!=PS_INTEGER || sType!=PS_INTEGER){
				// should never happend, will exit
                if(LogWriter.isRunningFromIDE){
                    throw new RuntimeException("Critical error in PS_bits");
                }
			}

			if(shift>0) {
                firstInt <<= shift;
            }

			if(shift<0) {
                firstInt >>= -shift;
            }


			push(firstInt, PS_INTEGER);

			break;

		case PostscriptFactory.PS_ceil:
			// get element of the stack

			first = pop();
			fType = currentType;
			// if negative, cast to int will strip the dec part
			if(first<0){
				push((int) first,fType);
			} else {
				final int temp = (int) first;

				// has even the smallest dec part, round the number up
				if(first>temp){
					push(temp+1, fType);
				} else {
					push(first, fType);
				}
			}

			break;

		case PostscriptFactory.PS_copy:
			/*
			 * In PS the function is designed to work with any object or
			 * type. Due to smaller amount of types and procedures implemented
			 * by adobe, we shall only implement one case (when int is a param).
			 */

			firstInt = popInt();
			fType = currentType;

			if(fType==PS_INTEGER && firstInt>0){
                            final double[] items = new double[firstInt];
                            final int[] types = new int[firstInt];

                            // take elements off
                            for(int i=0; i< items.length;i++){
                                    items[i] = pop();
                                    types[i] = currentType;
                            }

                            // put them back on (remember about the order)
                            for(int ii=items.length;ii>0 ;ii--){
                                    push(items[ii-1], types[ii-1]);
                            }

                            // and now put the copied ones on top
                            for(int ii=items.length;ii>0 ;ii--){
                                    push(items[ii-1], types[ii-1]);
                            }


			}else if(fType==PS_INTEGER && firstInt==0){
				//no need to do anything
			} else if(LogWriter.isRunningFromIDE){
				// never expected to happend, while dealing with PDF
				throw new RuntimeException("Critical error in PS_copy");
			}


			break;

		case PostscriptFactory.PS_cos:

			// calculates the cos of a given angle (angle given in deg)
			first = pop();

			// calc deg -> rad

			final double rad = (first/radiansToDegrees);

			double angle=Math.cos(rad);

			//allow for rounding error
			if(angle>0 && angle<0.0000001) {
                angle = 0;
            } else if(angle<0 && angle>-0.0000001) {
                angle = 0;
            }

			//push(Math.cos(rad));

			push(angle, PS_REAL);

			break;

		case PostscriptFactory.PS_cvi:
			// convert to integer

			first = pop();

			push((int) first, PS_INTEGER);

			break;

		case PostscriptFactory.PS_cvr:

			 // convert to a double.
			 first = pop();

			 push(first, PS_REAL);

			break;

		case PostscriptFactory.PS_div:

			// dividing, resutlt is a double (has decimal part)
			first = pop();
			second = pop();

			push(second/first,PS_REAL);

			break;

		case PostscriptFactory.PS_dup:

			calculateDup();

			break;

		case PostscriptFactory.PS_eq:
			// pushes true if the objects are equal, and false if they are not
			first = pop();
			second = pop();

			if(first==second){
				push(isTrue, PS_BOOLEAN);
			} else {
				push(isFalse, PS_BOOLEAN);
			}

			break;

		case PostscriptFactory.PS_exch:

			//exchange the top 2 elements

			// check if enough elements on the stack
			if(stack.length<2) {
                          throw new RuntimeException("EXCH - not enough elements on the stack");
                        }
			
			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			push(first, fType);
			push(second, sType);


			break;

		case PostscriptFactory.PS_exp:

			// raises second to the ower of first.
			first = pop();
			second = pop();

			push(Math.pow(second,first), PS_REAL);

			break;

		case PostscriptFactory.PS_fals:

			//puts a false boolean value at the top of the stacks
			push(0,PS_BOOLEAN);

			break;

		case PostscriptFactory.PS_floo:

			// puts the lower value back on to the stack
			// 3.2 -> 3.0 , -4.8 -> -5.0

			first = pop();
			fType = currentType;

			if(first>0){
				push((int) first, fType);
			} else {

				final int temp = (int) first;

				if(temp>first){
					push(temp-1, fType);
				} else {
					push(first, fType);
				}

			}

			break;

		case PostscriptFactory.PS_ge:

			// if the first operand is greater or equal than the other push true else false

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if((fType==PS_INTEGER || fType==PS_REAL) && (sType==PS_INTEGER || sType==PS_REAL)){
				if(second>=first){
					push(1, PS_BOOLEAN);
				}else{
					push(0, PS_BOOLEAN);
				}
			} else if(LogWriter.isRunningFromIDE){
				// should never happend, will exit
				throw new RuntimeException("Critical error in PS_ge");
			}
			break;

		case PostscriptFactory.PS_gt:

			// if the first operand is greater than the other push true else false

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if((fType==PS_INTEGER || fType==PS_REAL) && (sType==PS_INTEGER || sType==PS_REAL)){
				if(second>first){
					push(1, PS_BOOLEAN);
				}else{
					push(0, PS_BOOLEAN);
				}
			} else if(LogWriter.isRunningFromIDE){
				// should never happend, will exit
				throw new RuntimeException("Critical error in PS_gt");
			}
			break;

		case PostscriptFactory.PS_idiv:

			// like div but the result is striped of its dec part
			final int one = popInt();
			final int two = popInt();

			push((two/one), PS_INTEGER);

			break;

		case PostscriptFactory.PS_if:

			/*
			 * No examples found to properly test this method.
			 * According to doc first would recieve a instruction
			 * set, which execution depends on second being true(exec)
			 * or false(do not exec).
			 */

			if(!cont){
				System.arraycopy(safeStack, 0, stack, 0, 100);
				System.arraycopy(safeStackType, 0, stackType, 0, 100);
				this.stkPtr= safeStkPtr;
				this.stkTypePtr = safeStkTypePrt;
				
			}
			
			cont = false;

			break;

		case PostscriptFactory.PS_inde:

			calculateIndex();

			break;

		case PostscriptFactory.PS_le:

			// if the first operand is less or equal than the other push true else false

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if((fType==PS_INTEGER || fType==PS_REAL) && (sType==PS_INTEGER || sType==PS_REAL)){
				if(second<=first){
					push(1, PS_BOOLEAN);
				}else{
					push(0, PS_BOOLEAN);
				}
			} else if(LogWriter.isRunningFromIDE){
				// should never happend, will exit
				throw new RuntimeException("Critical error in PS_le");
			}
			break;

		case PostscriptFactory.PS_lt:
			// if the first operand is less than the other push true else false

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if((fType==PS_INTEGER || fType==PS_REAL) && (sType==PS_INTEGER || sType==PS_REAL)){
				if(second0){
				push((int) first, fType);
			} else {

				final int tem = (int) first;

				if(tem>first){
					push((tem-1), fType);
				} else {
					push((int) first, fType);
				}

			}



			break;

		case PostscriptFactory.PS_sin:

			// calc sin of a given angle
			first = pop();

			push(Math.sin(first/PostscriptFactory.radiansToDegrees), PS_REAL);

			break;

		case PostscriptFactory.PS_sqrt:

			first = pop();

			// make sure the number is not negative
			if(first>=0){
				push(Math.sqrt(first), PS_REAL);
			} else {
				System.err.println("SQRT - cant sqrt a negative number!");
			}

			break;

		case PostscriptFactory.PS_sub:

			// subtract the element at the top of the
			// stack form the one blow it.

			// check if enough elements on the stack
			if(stack.length<2) {
                            throw new RuntimeException("SUB - not enough elements on the stack");
                        }
				

			first = pop();
			fType = currentType;
			second = pop();
			sType = currentType;

			if(fType == PS_REAL || sType == PS_REAL) {
                            push(second - first, PS_REAL);
                        } else {
                            push(second - first, PS_INTEGER);
                        }

			/*
			 *  If the result would happend to be outside of integer range
			 *  the PS_type should be set to real, for the time being I am leaving
			 *  it as integer though as the other situation is quite unliekly to
			 *  happend.
			 */

			break;

		case PostscriptFactory.PS_trun:

			// strip the decimal part so
			// 3.2 -> 3.0  , -4.8 -> -4.0
			first = pop();
			fType = currentType;

			push((int) first, fType);

			break;

		case PostscriptFactory.PS_true:

			// puts a true boolean val at the top of the stack
			push(1,PS_BOOLEAN);

			break;

		case PostscriptFactory.PS_xor:

			firstInt = popInt();
			fType = currentType;
			final int secondInt = popInt();
			sType = currentType;

			if(fType == PS_BOOLEAN && sType == PS_BOOLEAN){
				push((firstInt^secondInt),PS_BOOLEAN);
			} else if (fType == PS_INTEGER && sType == PS_INTEGER){
				push((firstInt^secondInt),PS_INTEGER);
			} else if(LogWriter.isRunningFromIDE){
				// should never happend, will exit
				throw new RuntimeException("Critical error in PS_xor");
			}

			break;

		//==============================
			//flag error
		default:
			returnValue=-1;
		break;

		}

		return returnValue;

	}


	private void calculateAtan() {
		final double first;
		final double second;
		first = pop();
		second = pop();

		// both params cant be zero!
		if(first==0 && second==0){
			System.err.println("ATAN - invalid parameters");
		}

		// calc the tangent
		final double tangent = second/first;

		// depending on which quardrant in the x,y space we end up in
		//
		if(first>=0 && second>=0){
			// 0 to 90 - 1st quadrant
			push(Math.toDegrees(Math.atan(tangent)), PS_REAL);
		} else if (first>0 && second<=0){
			// 90 to 180 - 2nd quadrant
			double tmp = Math.toDegrees(Math.atan(tangent));

			if(tmp<0) {
                            tmp = -tmp;
                        }

			push(tmp+90, PS_REAL);
		} else if (first<=0 && second<=0){
			// 180 to 270 - 3rd quadrant
			double tmp = Math.toDegrees(Math.atan(tangent));

			if(tmp<0) {
                            tmp = -tmp;
                        }

			push(tmp+180, PS_REAL);
		} else if (first<=0 && second>=0){
			// 270 to 360 - 4th quadrant
			double tmp = Math.toDegrees(Math.atan(tangent));

			if(tmp<0) {
                           tmp = -tmp;
                        }

			push(tmp+270, PS_REAL);
		}
	}

	private void calculateDup() {
		// get duplicate and place it on the stack

		final double value=pop();
		final int type = currentType;
		push(value, type);
		push(value, type);
	}

	private void calculateIndex() {
		// get the n element
		final int n = popInt();

		if(n==0){
			calculateDup();
		} else if (n>0) {

			final double[] temp;
			final int [] types;

			temp = new double[n];
			types = new int[n];

			// take n elements of the stack
			for(int i=0; i< temp.length;i++){
				temp[i] = pop();
				types[i] = currentType;
			}

			// copy the remaining one

			final double val=pop();
			final int fType = currentType;
			push(val, fType);

			//put rest back (allow for reverse order)
			for(int ii=temp.length;ii>0 ;ii--){
				push(temp[ii-1], types[ii-1]);
			}

			// put the copied one on top of the stack
			push(val, fType);

		} else if (n<0) {
			System.err.println("-> Index : critical error, n has to be nonnegative");
		}
	}

	private void calculateRoll() {

		int amount=popInt();
		int numberOfElements=popInt();

		if(numberOfElements<0 && LogWriter.isRunningFromIDE){
			throw new RuntimeException("-> Roll : critical error");
		}
		
		// allow for case when rolling over a larger number than elements on stack
		if(numberOfElements>stkPtr){
			numberOfElements=stkPtr;
		}

                if(amount>0){
			// top elements
        	
			final double[] topTemp = new double[amount];
			final int[] topTypes = new int[amount];
			
			if(numberOfElements-amount<=0){
				return;
			}

			// bottom elements
			final double[] bottomTemp = new double[numberOfElements-amount];
			final int[] bottomTypes = new int[numberOfElements-amount];

			// take top elements off
			for(int i =0;i0 ;ii--){
				push(topTemp[ii-1], topTypes[ii-1]);
			}

			// put whats left back on top of the stk
			for(int yy=bottomTemp.length;yy>0 ;yy--){
				push(bottomTemp[yy-1], bottomTypes[yy-1]);
			}

		} else if(amount<0){
        	
                    amount=-amount;

            // top elements
			final double[] topTemp = new double[numberOfElements-amount];
			final int[] topTypes = new int[numberOfElements-amount];

			// bottom elements
			final double[] bottomTemp = new double[amount];
			final int[] bottomTypes = new int[amount];

			// take top elements off
			for(int i =0;i0 ;ii--){
				push(topTemp[ii-1], topTypes[ii-1]);
			}

			// put whats left back on top of the stk
			for(int yy=bottomTemp.length;yy>0 ;yy--){
				push(bottomTemp[yy-1], bottomTypes[yy-1]);
			}
        }

    }

	/**
	 * work through Postscript stream reading commands and executing
	 */
	public double[] executePostscript() {
		boolean firstBracket = false;

		//reset pointer to start in stream
		this.ptr=0;

		if(debug){
			System.out.println("-----stream data--------\n");
			for(int aa=0;aa0){
								cont = true;
							}
						}else {
                            throw new RuntimeException("Possible syntax error in PostScript stream!");
                        }
											
					}
					firstBracket = true;
					
				}else{
	
					final int ID=getCommandID(nextVal);

					if(ID==-1){ //read parameter and put on stack

						try{
						final double number=convertToDouble(nextVal);

						if(debug) {
                            System.out.println("number=" + number);
                        }

						//determine if it is a double or int
						final int numberInt = (int) number;

						if(numberInt == number) {
                            push(number, PS_INTEGER);
                        } else {
                            push(number, PS_REAL);
                        }

						}catch(final Exception e){
                            LogWriter.writeLog("Exception " + e);
						}
					}else{ //execute commands
						//System.out.println(" ID value : " + ID);
						final int result=execute(ID);

						if(result==-1 && LogWriter.isRunningFromIDE){
							throw new RuntimeException("Unsupported command with value "+PostscriptUtils.toString(ID));
						}
					}

                    //show stack
                    if(debug) {
                        final StringBuilder str=new StringBuilder("Stack now ");
                        for(int ii=0;ii=streamLength) {
                break;
            }

		}

		return stack;
		
	}

	/**
	 * put number on stack
	 * @param number
	 */
	private void push(final double number, final int type) {

		if(stkPtr>99 || stkTypePtr>99){ //error
			if(LogWriter.isRunningFromIDE){
                throw new RuntimeException("Stack or stackType overflow");
            }
		}else{
			stack[stkPtr]=number;
			stackType[stkTypePtr] = type;
		}

		stkPtr++;
		stkTypePtr++;

	}

	/**
	 * take number from stack
	 */
	@SuppressWarnings("UnusedAssignment")
    private double pop() {

		double value=0;


		stkPtr--;

		stkTypePtr--;

		if(stkTypePtr<0){
            if(LogWriter.isRunningFromIDE){ //error
                throw new RuntimeException("Stack type underflow");
            }
		} else {
            currentType = stackType[stkTypePtr];
        }

		if(stkPtr<0 ){ //error
			if(LogWriter.isRunningFromIDE){
                throw new RuntimeException("Stack underflow");
            }

		}else {
            value = stack[stkPtr];
        }


		return value;

	}


	/**
	 * take number from stack
	 */
	private int popInt() {
		return (int)pop();
	}

	/**
	 * convert byteStream to double primitive
	 * @return
	 */
	private static double convertToDouble(final byte[] stream) {

		final double d;

        final int start=0;
		final int charCount=stream.length;

		int ptr=charCount;
		int intStart=0;
		boolean isMinus=false;
		//hand optimised float code
		//find decimal point
		for(int j=charCount-1;j>-1;j--){
			if(stream[start+j]==46){ //'.'=46
				ptr=j;
				break;
			}
		}

		int intChars=ptr;
		//allow for minus
		if(stream[start]==43){ //'+'=43
			intChars--;
			intStart++;
		}else if(stream[start]==45){ //'-'=45
			//intChars--;
			intStart++;
			isMinus=true;
		}

		//optimisations
		final int intNumbers=intChars-intStart;
		int decNumbers=charCount-ptr;

		if((intNumbers>3)){ //non-optimised to cover others
			isMinus=false;
			
			d=Double.parseDouble(new String(stream));
			
		}else{

			if(decNumbers>6){ //old code used this accuracy so kept to avoid lots of minor changes
				decNumbers=6;
			}

			d = NumberUtils.convertStreamFromDouble(stream, start + intStart, start + ptr, intNumbers, decNumbers);
		}

		if(isMinus) {
                    return -d;
                } else {
                     return d;
                }
	}

	private byte[] getNextValue() {

            final int start;
            int end;
            int next;
            byte[] returnValue=null;

            ptr = StreamReaderUtils.skipSpaces(stream, ptr);

		//log start
            start=ptr;

		//find end
		while(ptr=streamLength) {
                            break;
                        }

			next=stream[ptr];

			if(next==32 || next ==13 || next==10 || next==START_BRACE || next==END_BRACE) {
                            break;
                        }

		}

		//track level of recusrion and increment on start to make loop roll on
		if(stream[start]==START_BRACE){
			ptr++;
			level++;
		}else if(stream[start]==END_BRACE){
			level--;
		}

		end=ptr;

		//put value into array to return for further processing
		if(end>=start){

			//strip and excess zeros from numbers (ie 1.00000000000 becomes 1)
//			while(end-start>1 && (stream[end-1]=='0' || stream[end-1]=='.')) {
//                end--;
//            }

			final int len=end-start;
			returnValue=new byte[len];
                        System.arraycopy(stream, start, returnValue, start - start, end - start);

		}

		if(debug){
			System.out.print(">>>>>>>> ");
			for(int aa=start;aa© 2015 - 2024 Weber Informatics LLC | Privacy Policy