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/*
 * Copyright (c) 2012-2016 The ANTLR Project. All rights reserved.
 * Use of this file is governed by the BSD 3-clause license that
 * can be found in the LICENSE.txt file in the project root.
 */
package org.antlr.v4.runtime;

import org.antlr.v4.runtime.misc.Interval;

import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.Reader;
import java.util.Arrays;

/**
 * Vacuum all input from a {@link Reader}/{@link InputStream} and then treat it
 * like a {@code char[]} buffer. Can also pass in a {@link String} or
 * {@code char[]} to use.
 *
 * 

If you need encoding, pass in stream/reader with correct encoding.

*/ public class ANTLRInputStream implements CharStream { public static final int READ_BUFFER_SIZE = 1024; public static final int INITIAL_BUFFER_SIZE = 1024; /** The data being scanned */ protected char[] data; /** How many characters are actually in the buffer */ protected int n; /** 0..n-1 index into string of next char */ protected int p=0; /** What is name or source of this char stream? */ public String name; public ANTLRInputStream() { } /** Copy data in string to a local char array */ public ANTLRInputStream(String input) { this.data = input.toCharArray(); this.n = input.length(); } /** This is the preferred constructor for strings as no data is copied */ public ANTLRInputStream(char[] data, int numberOfActualCharsInArray) { this.data = data; this.n = numberOfActualCharsInArray; } public ANTLRInputStream(Reader r) throws IOException { this(r, INITIAL_BUFFER_SIZE, READ_BUFFER_SIZE); } public ANTLRInputStream(Reader r, int initialSize) throws IOException { this(r, initialSize, READ_BUFFER_SIZE); } public ANTLRInputStream(Reader r, int initialSize, int readChunkSize) throws IOException { load(r, initialSize, readChunkSize); } public ANTLRInputStream(InputStream input) throws IOException { this(new InputStreamReader(input), INITIAL_BUFFER_SIZE); } public ANTLRInputStream(InputStream input, int initialSize) throws IOException { this(new InputStreamReader(input), initialSize); } public ANTLRInputStream(InputStream input, int initialSize, int readChunkSize) throws IOException { this(new InputStreamReader(input), initialSize, readChunkSize); } public void load(Reader r, int size, int readChunkSize) throws IOException { if ( r==null ) { return; } if ( size<=0 ) { size = INITIAL_BUFFER_SIZE; } if ( readChunkSize<=0 ) { readChunkSize = READ_BUFFER_SIZE; } // System.out.println("load "+size+" in chunks of "+readChunkSize); try { // alloc initial buffer size. data = new char[size]; // read all the data in chunks of readChunkSize int numRead=0; int p = 0; do { if ( p+readChunkSize > data.length ) { // overflow? // System.out.println("### overflow p="+p+", data.length="+data.length); data = Arrays.copyOf(data, data.length * 2); } numRead = r.read(data, p, readChunkSize); // System.out.println("read "+numRead+" chars; p was "+p+" is now "+(p+numRead)); p += numRead; } while (numRead!=-1); // while not EOF // set the actual size of the data available; // EOF subtracted one above in p+=numRead; add one back n = p+1; //System.out.println("n="+n); } finally { r.close(); } } /** Reset the stream so that it's in the same state it was * when the object was created *except* the data array is not * touched. */ public void reset() { p = 0; } @Override public void consume() { if (p >= n) { assert LA(1) == IntStream.EOF; throw new IllegalStateException("cannot consume EOF"); } //System.out.println("prev p="+p+", c="+(char)data[p]); if ( p < n ) { p++; //System.out.println("p moves to "+p+" (c='"+(char)data[p]+"')"); } } @Override public int LA(int i) { if ( i==0 ) { return 0; // undefined } if ( i<0 ) { i++; // e.g., translate LA(-1) to use offset i=0; then data[p+0-1] if ( (p+i-1) < 0 ) { return IntStream.EOF; // invalid; no char before first char } } if ( (p+i-1) >= n ) { //System.out.println("char LA("+i+")=EOF; p="+p); return IntStream.EOF; } //System.out.println("char LA("+i+")="+(char)data[p+i-1]+"; p="+p); //System.out.println("LA("+i+"); p="+p+" n="+n+" data.length="+data.length); return data[p+i-1]; } public int LT(int i) { return LA(i); } /** Return the current input symbol index 0..n where n indicates the * last symbol has been read. The index is the index of char to * be returned from LA(1). */ @Override public int index() { return p; } @Override public int size() { return n; } /** mark/release do nothing; we have entire buffer */ @Override public int mark() { return -1; } @Override public void release(int marker) { } /** consume() ahead until p==index; can't just set p=index as we must * update line and charPositionInLine. If we seek backwards, just set p */ @Override public void seek(int index) { if ( index<=p ) { p = index; // just jump; don't update stream state (line, ...) return; } // seek forward, consume until p hits index or n (whichever comes first) index = Math.min(index, n); while ( p= n ) stop = n-1; int count = stop - start + 1; if ( start >= n ) return ""; // System.err.println("data: "+Arrays.toString(data)+", n="+n+ // ", start="+start+ // ", stop="+stop); return new String(data, start, count); } @Override public String getSourceName() { if (name == null || name.isEmpty()) { return UNKNOWN_SOURCE_NAME; } return name; } @Override public String toString() { return new String(data); } }




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