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com.google.gwt.lang.LongLib Maven / Gradle / Ivy

/*
 * Copyright 2008 Google Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not
 * use this file except in compliance with the License. You may obtain a copy of
 * the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
 * License for the specific language governing permissions and limitations under
 * the License.
 */
package com.google.gwt.lang;

/**
 * Implements a Java long in a way that can be translated to
 * JavaScript.
 */
public class LongLib extends LongLibBase {

  static class Const {
    static final LongEmul MAX_VALUE = create(MASK, MASK, MASK_2 >> 1);
    static final LongEmul MIN_VALUE = create(0, 0, SIGN_BIT_VALUE);
    static final LongEmul ONE = fromInt(1);
    static final LongEmul TWO = fromInt(2);
    static final LongEmul ZERO = fromInt(0);
  }

  private static LongEmul[] boxedValues;

  public static LongEmul add(LongEmul a, LongEmul b) {
    int sum0 = getL(a) + getL(b);
    int sum1 = getM(a) + getM(b) + (sum0 >> BITS);
    int sum2 = getH(a) + getH(b) + (sum1 >> BITS);

    return create(sum0 & MASK, sum1 & MASK, sum2 & MASK_2);
  }

  public static LongEmul and(LongEmul a, LongEmul b) {
    return create(getL(a) & getL(b), getM(a) & getM(b), getH(a) & getH(b));
  }

  /**
   * Compare the receiver a to the argument b.
   *
   * @return 0 if they are the same, a positive value if the receiver is
   *         greater, or a negative value if the argument is greater.
   */
  public static int compare(LongEmul a, LongEmul b) {
    int signA = sign(a);
    int signB = sign(b);
    if (signA != signB) {
      return signB - signA;
    }

    int a2 = getH(a);
    int b2 = getH(b);
    if (a2 != b2) {
      return a2 - b2;
    }

    int a1 = getM(a);
    int b1 = getM(b);
    if (a1 != b1) {
      return a1 - b1;
    }

    int a0 = getL(a);
    int b0 = getL(b);
    return a0 - b0;
  }

  public static LongEmul div(LongEmul a, LongEmul b) {
    return divMod(a, b, false);
  }

  public static boolean eq(LongEmul a, LongEmul b) {
    return getL(a) == getL(b) && getM(a) == getM(b) && getH(a) == getH(b);
  }

  public static LongEmul fromDouble(double value) {
    if (Double.isNaN(value)) {
      return Const.ZERO;
    }
    if (value < -TWO_PWR_63_DBL) {
      return Const.MIN_VALUE;
    }
    if (value >= TWO_PWR_63_DBL) {
      return Const.MAX_VALUE;
    }

    boolean negative = false;
    if (value < 0) {
      negative = true;
      value = -value;
    }
    int a2 = 0;
    if (value >= TWO_PWR_44_DBL) {
      a2 = (int) (value / TWO_PWR_44_DBL);
      value -= a2 * TWO_PWR_44_DBL;
    }
    int a1 = 0;
    if (value >= TWO_PWR_22_DBL) {
      a1 = (int) (value / TWO_PWR_22_DBL);
      value -= a1 * TWO_PWR_22_DBL;
    }
    int a0 = (int) value;
    LongEmul result = create(a0, a1, a2);
    if (negative) {
      negate(result);
    }
    return result;
  }

  public static LongEmul fromInt(int value) {
    if (value > -129 && value < 128) {
      int rebase = value + 128;
      if (boxedValues == null) {
        boxedValues = new LongEmul[256];
      }
      LongEmul result = boxedValues[rebase];
      if (result == null) {
        result = boxedValues[rebase] = create(value);
      }
      return result;
    }

    return create(value);
  }

  /**
   * Return a triple of ints { low, middle, high } that concatenate bitwise to
   * the given number.
   */
  public static int[] getAsIntArray(long l) {
    int[] a = new int[3];
    a[0] = (int) (l & MASK);
    a[1] = (int) ((l >> BITS) & MASK);
    a[2] = (int) ((l >> BITS01) & MASK_2);
    return a;
  }

  public static boolean gt(LongEmul a, LongEmul b) {
    int signa = getH(a) >> (BITS2 - 1);
    int signb = getH(b) >> (BITS2 - 1);
    if (signa == 0) {
      if (signb != 0 || getH(a) > getH(b)
          || (getH(a) == getH(b) && getM(a) > getM(b))
          || (getH(a) == getH(b) && getM(a) == getM(b) && getL(a) > getL(b))) {
        return true;
      } else {
        return false;
      }
    } else {
      if (signb == 0 || getH(a) < getH(b)
          || (getH(a) == getH(b) && getM(a) < getM(b))
          || (getH(a) == getH(b) && getM(a) == getM(b) && getL(a) <= getL(b))) {
        return false;
      } else {
        return true;
      }
    }
  }

  public static boolean gte(LongEmul a, LongEmul b) {
    int signa = getH(a) >> (BITS2 - 1);
    int signb = getH(b) >> (BITS2 - 1);
    if (signa == 0) {
      if (signb != 0 || getH(a) > getH(b)
          || (getH(a) == getH(b) && getM(a) > getM(b))
          || (getH(a) == getH(b) && getM(a) == getM(b) && getL(a) >= getL(b))) {
        return true;
      } else {
        return false;
      }
    } else {
      if (signb == 0 || getH(a) < getH(b)
          || (getH(a) == getH(b) && getM(a) < getM(b))
          || (getH(a) == getH(b) && getM(a) == getM(b) && getL(a) < getL(b))) {
        return false;
      } else {
        return true;
      }
    }
  }

  /**
   * Parse a string containing a base-64 encoded version of a long value.
   *
   * Keep this synchronized with the version in Base64Utils.
   */
  public static long longFromBase64(String value) {
    int pos = 0;
    long longVal = base64Value(value.charAt(pos++));
    int len = value.length();
    while (pos < len) {
      longVal <<= 6;
      longVal |= base64Value(value.charAt(pos++));
    }
    return longVal;
  }

  public static boolean lt(LongEmul a, LongEmul b) {
    return !gte(a, b);
  }

  public static boolean lte(LongEmul a, LongEmul b) {
    return !gt(a, b);
  }

  public static LongEmul mod(LongEmul a, LongEmul b) {
    divMod(a, b, true);
    return remainder;
  }

  // Assumes BITS == 22
  public static LongEmul mul(LongEmul a, LongEmul b) {
    // Grab 13-bit chunks
    int a0 = getL(a) & 0x1fff;
    int a1 = (getL(a) >> 13) | ((getM(a) & 0xf) << 9);
    int a2 = (getM(a) >> 4) & 0x1fff;
    int a3 = (getM(a) >> 17) | ((getH(a) & 0xff) << 5);
    int a4 = (getH(a) & 0xfff00) >> 8;

    int b0 = getL(b) & 0x1fff;
    int b1 = (getL(b) >> 13) | ((getM(b) & 0xf) << 9);
    int b2 = (getM(b) >> 4) & 0x1fff;
    int b3 = (getM(b) >> 17) | ((getH(b) & 0xff) << 5);
    int b4 = (getH(b) & 0xfff00) >> 8;

    // Compute partial products
    // Optimization: if b is small, avoid multiplying by parts that are 0
    int p0 = a0 * b0; // << 0
    int p1 = a1 * b0; // << 13
    int p2 = a2 * b0; // << 26
    int p3 = a3 * b0; // << 39
    int p4 = a4 * b0; // << 52

    if (b1 != 0) {
      p1 += a0 * b1;
      p2 += a1 * b1;
      p3 += a2 * b1;
      p4 += a3 * b1;
    }
    if (b2 != 0) {
      p2 += a0 * b2;
      p3 += a1 * b2;
      p4 += a2 * b2;
    }
    if (b3 != 0) {
      p3 += a0 * b3;
      p4 += a1 * b3;
    }
    if (b4 != 0) {
      p4 += a0 * b4;
    }

    // Accumulate into 22-bit chunks:
    // .........................................c10|...................c00|
    // |....................|..................xxxx|xxxxxxxxxxxxxxxxxxxxxx| p0
    // |....................|......................|......................|
    // |....................|...................c11|......c01.............|
    // |....................|....xxxxxxxxxxxxxxxxxx|xxxxxxxxx.............| p1
    // |....................|......................|......................|
    // |.................c22|...............c12....|......................|
    // |..........xxxxxxxxxx|xxxxxxxxxxxxxxxxxx....|......................| p2
    // |....................|......................|......................|
    // |.................c23|..c13.................|......................|
    // |xxxxxxxxxxxxxxxxxxxx|xxxxx.................|......................| p3
    // |....................|......................|......................|
    // |.........c24........|......................|......................|
    // |xxxxxxxxxxxx........|......................|......................| p4

    int c00 = p0 & 0x3fffff;
    int c01 = (p1 & 0x1ff) << 13;
    int c0 = c00 + c01;

    int c10 = p0 >> 22;
    int c11 = p1 >> 9;
    int c12 = (p2 & 0x3ffff) << 4;
    int c13 = (p3 & 0x1f) << 17;
    int c1 = c10 + c11 + c12 + c13;

    int c22 = p2 >> 18;
    int c23 = p3 >> 5;
    int c24 = (p4 & 0xfff) << 8;
    int c2 = c22 + c23 + c24;

    // Propagate high bits from c0 -> c1, c1 -> c2
    c1 += c0 >> BITS;
    c0 &= MASK;
    c2 += c1 >> BITS;
    c1 &= MASK;
    c2 &= MASK_2;

    return create(c0, c1, c2);
  }

  public static LongEmul neg(LongEmul a) {
    int neg0 = (~getL(a) + 1) & MASK;
    int neg1 = (~getM(a) + (neg0 == 0 ? 1 : 0)) & MASK;
    int neg2 = (~getH(a) + ((neg0 == 0 && neg1 == 0) ? 1 : 0)) & MASK_2;

    return create(neg0, neg1, neg2);
  }

  public static boolean neq(LongEmul a, LongEmul b) {
    return getL(a) != getL(b) || getM(a) != getM(b) || getH(a) != getH(b);
  }

  public static LongEmul not(LongEmul a) {
    return create((~getL(a)) & MASK, (~getM(a)) & MASK, (~getH(a)) & MASK_2);
  }

  public static LongEmul or(LongEmul a, LongEmul b) {
    return create(getL(a) | getL(b), getM(a) | getM(b), getH(a) | getH(b));
  }

  public static LongEmul shl(LongEmul a, int n) {
    n &= 63;

    int res0, res1, res2;
    if (n < BITS) {
      res0 = getL(a) << n;
      res1 = (getM(a) << n) | (getL(a) >> (BITS - n));
      res2 = (getH(a) << n) | (getM(a) >> (BITS - n));
    } else if (n < BITS01) {
      res0 = 0;
      res1 = getL(a) << (n - BITS);
      res2 = (getM(a) << (n - BITS)) | (getL(a) >> (BITS01 - n));
    } else {
      res0 = 0;
      res1 = 0;
      res2 = getL(a) << (n - BITS01);
    }

    return create(res0 & MASK, res1 & MASK, res2 & MASK_2);
  }

  public static LongEmul shr(LongEmul a, int n) {
    n &= 63;

    int res0, res1, res2;

    // Sign extend h(a)
    int a2 = getH(a);
    boolean negative = (a2 & SIGN_BIT_VALUE) != 0;
    if (negative) {
      a2 |= ~MASK_2;
    }

    if (n < BITS) {
      res2 = a2 >> n;
      res1 = (getM(a) >> n) | (a2 << (BITS - n));
      res0 = (getL(a) >> n) | (getM(a) << (BITS - n));
    } else if (n < BITS01) {
      res2 = negative ? MASK_2 : 0;
      res1 = a2 >> (n - BITS);
      res0 = (getM(a) >> (n - BITS)) | (a2 << (BITS01 - n));
    } else {
      res2 = negative ? MASK_2 : 0;
      res1 = negative ? MASK : 0;
      res0 = a2 >> (n - BITS01);
    }

    return create(res0 & MASK, res1 & MASK, res2 & MASK_2);
  }

  /**
   * Logical right shift. It does not preserve the sign of the input.
   */
  public static LongEmul shru(LongEmul a, int n) {
    n &= 63;

    int res0, res1, res2;
    int a2 = getH(a) & MASK_2;
    if (n < BITS) {
      res2 = a2 >>> n;
      res1 = (getM(a) >> n) | (a2 << (BITS - n));
      res0 = (getL(a) >> n) | (getM(a) << (BITS - n));
    } else if (n < BITS01) {
      res2 = 0;
      res1 = a2 >>> (n - BITS);
      res0 = (getM(a) >> (n - BITS)) | (getH(a) << (BITS01 - n));
    } else {
      res2 = 0;
      res1 = 0;
      res0 = a2 >>> (n - BITS01);
    }

    return create(res0 & MASK, res1 & MASK, res2 & MASK_2);
  }

  public static LongEmul sub(LongEmul a, LongEmul b) {
    int sum0 = getL(a) - getL(b);
    int sum1 = getM(a) - getM(b) + (sum0 >> BITS);
    int sum2 = getH(a) - getH(b) + (sum1 >> BITS);

    return create(sum0 & MASK, sum1 & MASK, sum2 & MASK_2);
  }

  /**
   * Return an optionally single-quoted string containing a base-64 encoded
   * version of the given long value.
   *
   * Keep this synchronized with the version in Base64Utils.
   */
  public static String toBase64(long value) {
    // Convert to ints early to avoid need for long ops
    int low = (int) (value & 0xffffffff);
    int high = (int) (value >> 32);

    StringBuilder sb = new StringBuilder();
    boolean haveNonZero = base64Append(sb, (high >> 28) & 0xf, false);
    haveNonZero = base64Append(sb, (high >> 22) & 0x3f, haveNonZero);
    haveNonZero = base64Append(sb, (high >> 16) & 0x3f, haveNonZero);
    haveNonZero = base64Append(sb, (high >> 10) & 0x3f, haveNonZero);
    haveNonZero = base64Append(sb, (high >> 4) & 0x3f, haveNonZero);
    int v = ((high & 0xf) << 2) | ((low >> 30) & 0x3);
    haveNonZero = base64Append(sb, v, haveNonZero);
    haveNonZero = base64Append(sb, (low >> 24) & 0x3f, haveNonZero);
    haveNonZero = base64Append(sb, (low >> 18) & 0x3f, haveNonZero);
    haveNonZero = base64Append(sb, (low >> 12) & 0x3f, haveNonZero);
    base64Append(sb, (low >> 6) & 0x3f, haveNonZero);
    base64Append(sb, low & 0x3f, true);

    return sb.toString();
  }

  public static double toDouble(LongEmul a) {
    if (LongLib.eq(a, Const.MIN_VALUE)) {
      return -9223372036854775808.0;
    }
    if (LongLib.lt(a, Const.ZERO)) {
      return -toDoubleHelper(LongLib.neg(a));
    }
    return toDoubleHelper(a);
  }

  // Assumes Integer.MIN_VALUE <= a <= Integer.MAX_VALUE
  public static int toInt(LongEmul a) {
    return getL(a) | (getM(a) << BITS);
  }

  public static String toString(LongEmul a) {
    if (LongLibBase.isZero(a)) {
      return "0";
    }

    if (LongLibBase.isMinValue(a)) {
      // Special-case MIN_VALUE because neg(MIN_VALUE) == MIN_VALUE
      return "-9223372036854775808";
    }

    if (LongLibBase.isNegative(a)) {
      return "-" + toString(neg(a));
    }

    LongEmul rem = a;
    String res = "";

    while (!LongLibBase.isZero(rem)) {
      // Do several digits each time through the loop, so as to
      // minimize the calls to the very expensive emulated div.
      final int tenPowerZeroes = 9;
      final int tenPower = 1000000000;
      LongEmul tenPowerLong = fromInt(tenPower);

      rem = LongLibBase.divMod(rem, tenPowerLong, true);
      String digits = "" + toInt(LongLibBase.remainder);

      if (!LongLibBase.isZero(rem)) {
        int zeroesNeeded = tenPowerZeroes - digits.length();
        for (; zeroesNeeded > 0; zeroesNeeded--) {
          digits = "0" + digits;
        }
      }

      res = digits + res;
    }

    return res;
  }

  public static LongEmul xor(LongEmul a, LongEmul b) {
    return create(getL(a) ^ getL(b), getM(a) ^ getM(b), getH(a) ^ getH(b));
  }

  private static boolean base64Append(StringBuilder sb, int digit,
      boolean haveNonZero) {
    if (digit > 0) {
      haveNonZero = true;
    }
    if (haveNonZero) {
      int c;
      if (digit < 26) {
        c = 'A' + digit;
      } else if (digit < 52) {
        c = 'a' + digit - 26;
      } else if (digit < 62) {
        c = '0' + digit - 52;
      } else if (digit == 62) {
        c = '$';
      } else {
        c = '_';
      }
      sb.append((char) c);
    }
    return haveNonZero;
  }

  // Assume digit is one of [A-Za-z0-9$_]
  private static int base64Value(char digit) {
    if (digit >= 'A' && digit <= 'Z') {
      return digit - 'A';
    }
    // No need to check digit <= 'z'
    if (digit >= 'a') {
      return digit - 'a' + 26;
    }
    if (digit >= '0' && digit <= '9') {
      return digit - '0' + 52;
    }
    if (digit == '$') {
      return 62;
    }
    // digit == '_'
    return 63;
  }

  /**
   * Not instantiable.
   */
  private LongLib() {
  }
}




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