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JVM AOT compiler currently generating JavaScript, C++, Haxe, with initial focus on Kotlin and games.

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/**
 * Copyright (c) 2001, Sergey A. Samokhodkin
 * All rights reserved.
 * 
* Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: *
* - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - Redistributions in binary form * must reproduce the above copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided with the distribution. * - Neither the name of jregex nor the names of its contributors may be used * to endorse or promote products derived from this software without specific prior * written permission. *
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY * WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * @version 1.2_01 */ package regexodus; import com.jtransc.annotation.JTranscInvisible; import regexodus.ds.IntBitSet; import java.util.Arrays; @JTranscInvisible class BlockSet implements UnicodeConstants { /* private static final Block[][] categoryBits = new Block[CATEGORY_COUNT][BLOCK_COUNT]; static { for (int i = Character.MIN_VALUE; i <= Character.MAX_VALUE; i++) { int cat = Character.getType((char) i); int blockNo = (i >> 8) & 0xff; Block b = categoryBits[cat][blockNo]; if (b == null) categoryBits[cat][blockNo] = b = new Block(); b.set(i & 0xff); } }*/ private boolean positive = true; private boolean isLarge = false; private IntBitSet block0 = new IntBitSet(); //1-byte bit set private static final IntBitSet emptyBlock0 = new IntBitSet(); private Block[] blocks; //2-byte bit set private int weight; final void reset() { positive = true; block0 = null; blocks = null; isLarge = false; weight = 0; } static void unify(BlockSet bs, Term term) { if (bs.isLarge) { term.type = Term.BITSET2; term.bitset2 = Block.toBitset2(bs.blocks); } else { term.type = Term.BITSET; term.bitset = bs.block0 == null ? emptyBlock0 : bs.block0; } term.inverse = !bs.positive; term.weight = bs.positive ? bs.weight : MAX_WEIGHT - bs.weight; } final void setPositive(boolean b) { positive = b; } final boolean isPositive() { return positive; } final boolean isLarge() { return isLarge; } private void enableLargeMode() { if (isLarge) return; Block[] blocks = new Block[BLOCK_COUNT]; this.blocks = blocks; if (block0 != null) { blocks[0] = new Block(block0); } isLarge = true; } private int getWeight() { return positive ? weight : MAX_WEIGHT - weight; } final void setWordChar(boolean unicode) { if (unicode) { if (!isLarge) enableLargeMode(); weight += Block.add(this.blocks, Category.Word.blocks, 0, BLOCK_COUNT - 1, false); /* setCategory("Lu"); setCategory("Ll"); setCategory("Lt"); setCategory("Lo"); setCategory("Nd"); setChar('_');*/ } else { setRange('a', 'z'); setRange('A', 'Z'); setRange('0', '9'); setChar('_'); } } final void setDigit(boolean unicode) { if (unicode) { setCategory("Nd"); } else { setRange('0', '9'); } } final void setSpace(boolean unicode) { if (unicode) { setCategory("Zs"); setCategory("Zp"); setCategory("Zl"); } else { setChar(' '); setChar('\r'); setChar('\n'); setChar('\t'); setChar('\f'); } } final void setHorizontalSpace(boolean unicode) { if (unicode) { setCategory("Zh"); } else { setChar(' '); setChar('\t'); } } final void setVerticalSpace(boolean unicode) { if (unicode) { setCategory("Zv"); } else { setChar('\n'); setChar('\r'); setChar('\f'); setChar('\u000B'); } } final void setCategory(String c) { if (!isLarge) enableLargeMode(); Block[] catBits = Category.categories.get(c).blocks; weight += Block.add(this.blocks, catBits, 0, BLOCK_COUNT - 1, false); //System.out.println("["+this+"].setCategory("+c+"): weight="+weight); } final void setChars(String chars) { for (int i = chars.length() - 1; i >= 0; i--) setChar(chars.charAt(i)); } final void setChar(char c) { setRange(c, c); } final void setRange(char c1, char c2) { //System.out.println("["+this+"].setRange("+c1+","+c2+"):"); //if(c1>31 && c1<=126 && c2>31 && c2<=126) System.out.println("setRange('"+c1+"','"+c2+"'):"); //else System.out.println("setRange(["+Integer.toHexString(c1)+"],["+Integer.toHexString(c2)+"]):"); if (c2 >= 256 || isLarge) { int s = 0; if (!isLarge) { enableLargeMode(); } Block[] blocks = this.blocks; for (int c = c1; c <= c2; c++) { int i2 = (c >> 8) & 0xff; int i = c & 0xff; Block block = blocks[i2]; if (block == null) { blocks[i2] = block = new Block(); } if (block.set(i)) s++; } weight += s; } else { IntBitSet block0 = this.block0; if (block0 == null) { this.block0 = block0 = new IntBitSet(BLOCK_SIZE); } weight += set(block0, c1, c2); } } final void add(BlockSet bs) { add(bs, false); } final void add(BlockSet bs, boolean inverse) { weight += addImpl(this, bs, !bs.positive ^ inverse); } private static int addImpl(BlockSet bs1, BlockSet bs2, boolean inv) { int s = 0; if (!bs1.isLarge && !bs2.isLarge && !inv) { if (bs2.block0 != null) { IntBitSet bits = bs1.block0; if (bits == null) bs1.block0 = bits = new IntBitSet(BLOCK_SIZE); s += add(bits, bs2.block0, 0, BLOCK_SIZE - 1, false); } } else { if (!bs1.isLarge) bs1.enableLargeMode(); if (!bs2.isLarge) bs2.enableLargeMode(); s += Block.add(bs1.blocks, bs2.blocks, 0, BLOCK_COUNT - 1, inv); } return s; } final void subtract(BlockSet bs) { subtract(bs, false); } private void subtract(BlockSet bs, boolean inverse) { //System.out.println("["+this+"].subtract(["+bs+"],"+inverse+"):"); weight += subtractImpl(this, bs, !bs.positive ^ inverse); } private static int subtractImpl(BlockSet bs1, BlockSet bs2, boolean inv) { int s = 0; if (!bs1.isLarge && !bs2.isLarge && !inv) { IntBitSet bits1, bits2; if ((bits2 = bs2.block0) != null) { bits1 = bs1.block0; if (bits1 == null) return 0; s += subtract(bits1, bits2, false); } } else { if (!bs1.isLarge) bs1.enableLargeMode(); if (!bs2.isLarge) bs2.enableLargeMode(); s += Block.subtract(bs1.blocks, bs2.blocks, 0, BLOCK_COUNT - 1, inv); } return s; } final void intersect(BlockSet bs) { intersect(bs, false); } private void intersect(BlockSet bs, boolean inverse) { //System.out.println("["+this+"].intersect(["+bs+"],"+inverse+"):"); subtract(bs, !inverse); } static int add(IntBitSet bs1, IntBitSet bs2, int from, int to, boolean inv) { int s = bs1.cardinality(); if (inv) bs1.or(bs2.clone().negate()); else bs1.or(bs2); return bs1.cardinality() - s; } static int subtract(IntBitSet bs1, IntBitSet bs2, boolean inv) { int s = -bs1.cardinality(); if(inv) bs1.andNot(bs2.clone().negate()); else bs1.andNot(bs2); return s + bs1.cardinality(); } private static int set(IntBitSet arr, int from, int to) { int s = arr.cardinality(); arr.set(from, to); return arr.cardinality() - s; } public String toString() { StringBuilder sb = new StringBuilder(); if (!positive) sb.append('^'); if (isLarge) sb.append(CharacterClass.stringValue2(Block.toBitset2(blocks))); else if (block0 != null) sb.append(CharacterClass.stringValue0(block0)); sb.append('('); sb.append(getWeight()); sb.append(')'); return sb.toString(); } @Override public boolean equals(Object o) { if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; BlockSet blockSet = (BlockSet) o; if (positive != blockSet.positive) return false; if (isLarge != blockSet.isLarge) return false; if (weight != blockSet.weight) return false; if (block0 != null ? !block0.equals(blockSet.block0) : blockSet.block0 != null) return false; // Probably incorrect - comparing Object[] arrays with Arrays.equals return Arrays.equals(blocks, blockSet.blocks); } @Override public int hashCode() { int result = (positive ? 1 : 0); result = 31 * result + (isLarge ? 1 : 0); result = 31 * result + (block0 != null ? block0.hashCode() : 0); result = 31 * result + Arrays.hashCode(blocks); result = 31 * result + weight; return result; } /* public static void main(String[] args){ //System.out.print("blocks(Lu)="); //System.out.println(CharacterClass.stringValue2(Block.toBitset2(categoryBits[Lu]))); //System.out.println("[1][0].get('a')="+categoryBits[1][0].get('a')); //System.out.println("[1][0].get('A')="+categoryBits[1][0].get('A')); //System.out.println("[1][0].get(65)="+categoryBits[1][0].get(65)); //System.out.println(""+categoryBits[1][0].get('A')); BlockSet b1=new BlockSet(); //b1.setCategory(Lu); //b1.enableLargeMode(); b1.setRange('a','z'); b1.setRange('\u00E0','\u00FF'); BlockSet b2=new BlockSet(); //b2.setCategory(Ll); //b2.enableLargeMode(); b2.setRange('A','Z'); b2.setRange('\u00C0','\u00DF'); BlockSet b=new BlockSet(); //bs.setRange('a','z'); //bs.setRange('A','Z'); b.add(b1); b.add(b2,true); System.out.println("b1="+b1); System.out.println("b2="+b2); System.out.println("b=b1+^b2="+b); b.subtract(b1,true); System.out.println("(b1+^b2)-^b1="+b); } */ } @JTranscInvisible class Block implements UnicodeConstants { private boolean isFull; //private boolean[] bits; private IntBitSet bits; private boolean shared = false; Block() { } Block(IntBitSet bits) { this.bits = bits; shared = true; } final boolean set(int c) { //System.out.println("Block.add("+CharacterClass.stringValue2(toBitset2(targets))+","+CharacterClass.stringValue2(toBitset2(addends))+","+from*BLOCK_SIZE+","+to*BLOCK_SIZE+","+inv+"):"); if (isFull) return false; IntBitSet bits = this.bits; if (bits == null) { this.bits = bits = new IntBitSet(BLOCK_SIZE); shared = false; bits.set(c); return true; } if (bits.get(c)) return false; if (shared) bits = copyBits(this); bits.set(c); return true; } final boolean get(int c) { return isFull || (bits != null && bits.get(c)); } static int add(Block[] targets, Block[] addends, int from, int to, boolean inv) { int s = 0; for (int i = from; i <= to; i++) { Block addend = addends[i]; if (addend == null) { if (!inv) continue; } else if (addend.isFull && inv) continue; Block target = targets[i]; if (target == null) targets[i] = target = new Block(); else if (target.isFull) continue; s += add(target, addend, inv); } return s; } private static int add(Block target, Block addend, boolean inv) { //there is provided that !target.isFull IntBitSet targetbits, addbits; if (addend == null) { if (!inv) return 0; int s = BLOCK_SIZE; if ((targetbits = target.bits) != null) { s -= count(targetbits, 0, BLOCK_SIZE - 1); } target.isFull = true; target.bits = null; target.shared = false; return s; } else if (addend.isFull) { if (inv) return 0; int s = BLOCK_SIZE; if ((targetbits = target.bits) != null) { s -= count(targetbits, 0, BLOCK_SIZE - 1); } target.isFull = true; target.bits = null; target.shared = false; return s; } else if ((addbits = addend.bits) == null) { if (!inv) return 0; int s = BLOCK_SIZE; if ((targetbits = target.bits) != null) { s -= count(targetbits, 0, BLOCK_SIZE - 1); } target.isFull = true; target.bits = null; target.shared = false; return s; } else { if ((targetbits = target.bits) == null) { if (!inv) { target.bits = addbits; target.shared = true; return count(addbits, 0, BLOCK_SIZE - 1); } else { target.bits = targetbits = emptyBits(null); target.shared = false; return BlockSet.add(targetbits, addbits, 0, BLOCK_SIZE - 1, inv); } } else { if (target.shared) targetbits = copyBits(target); return BlockSet.add(targetbits, addbits, 0, BLOCK_SIZE - 1, inv); } } } static int subtract(Block[] targets, Block[] subtrahends, int from, int to, boolean inv) { int s = 0; for (int i = from; i <= to; i++) { Block target = targets[i]; if (target == null || (!target.isFull && target.bits == null)) continue; Block subtrahend = subtrahends[i]; if (subtrahend == null) { if (inv) { if (target.isFull) { s -= BLOCK_SIZE; } else { s -= count(target.bits, 0, BLOCK_SIZE - 1); } target.isFull = false; target.bits = null; target.shared = false; } } else { s += subtract(target, subtrahend, inv); } } return s; } private static int subtract(Block target, Block subtrahend, boolean inv) { IntBitSet targetbits, subbits; //there is provided that target.isFull or target.bits!=null if (subtrahend.isFull) { if (inv) return 0; int s = 0; if (target.isFull) { s = BLOCK_SIZE; } else { s = target.bits.cardinality(); } target.isFull = false; target.bits = null; target.shared = false; return s; } else if ((subbits = subtrahend.bits) == null) { if (!inv) return 0; int s = 0; if (target.isFull) { s = BLOCK_SIZE; } else { s = target.bits.cardinality(); } target.isFull = false; target.bits = null; target.shared = false; return s; } else { if (target.isFull) { IntBitSet bits = fullBits(target.bits); int s = BlockSet.subtract(bits, subbits, inv); target.isFull = false; target.shared = false; target.bits = bits; return s; } else { if (target.shared) targetbits = copyBits(target); else targetbits = target.bits; return BlockSet.subtract(targetbits, subbits, inv); } } } private static IntBitSet copyBits(Block block) { IntBitSet bits = block.bits.clone(); block.bits = bits; block.shared = false; return bits; } private static IntBitSet fullBits(IntBitSet bits) { if (bits == null) bits = new IntBitSet(BLOCK_SIZE); bits.set(0, BLOCK_SIZE); return bits; } private static IntBitSet emptyBits(IntBitSet bits) { if (bits == null) bits = new IntBitSet(BLOCK_SIZE); else bits.clear(); return bits; } private static int count(IntBitSet arr, int from, int to) { int s = 0; for (int i = from; i <= to; i++) { if (arr.get(i)) s++; } return s; } static IntBitSet[] toBitset2(Block[] blocks) { int len = blocks.length; IntBitSet[] result = new IntBitSet[len]; for (int i = 0; i < len; i++) { Block block = blocks[i]; if (block == null) continue; if (block.isFull) { result[i] = FULL_BITS; } else result[i] = block.bits; } return result; } private final static IntBitSet EMPTY_BITS = new IntBitSet(BLOCK_SIZE); private final static IntBitSet FULL_BITS = new IntBitSet(BLOCK_SIZE); @Override public boolean equals(Object o) { if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; Block block = (Block) o; if (isFull != block.isFull) return false; if (shared != block.shared) return false; return bits != null ? bits.equals(block.bits) : block.bits == null; } @Override public int hashCode() { int result = (isFull ? 1 : 0); result = 31 * result + (bits != null ? bits.hashCode() : 0); result = 31 * result + (shared ? 1 : 0); return result; } @Override public String toString() { return "Block{" + "isFull=" + isFull + ", bits=" + bits + ", shared=" + shared + '}'; } static { FULL_BITS.set(0, BLOCK_SIZE-1); } }




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