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Shaded fat Jar for pkl-config-java, a Java config library based on the Pkl config language.
/*
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package org.pkl.thirdparty.truffle.api.strings;
import org.pkl.thirdparty.truffle.api.CompilerAsserts;
import org.pkl.thirdparty.truffle.api.CompilerDirectives;
import org.pkl.thirdparty.truffle.api.CompilerDirectives.CompilationFinal;
import org.pkl.thirdparty.truffle.api.CompilerDirectives.TruffleBoundary;
import org.pkl.thirdparty.truffle.api.nodes.Node;
import org.pkl.thirdparty.truffle.api.profiles.InlinedBranchProfile;
import org.pkl.thirdparty.truffle.api.strings.TruffleString.NumberFormatException.Reason;
final class NumberConversion {
private static final byte[] INT_MIN_VALUE_BYTES = {'-', '2', '1', '4', '7', '4', '8', '3', '6', '4', '8'};
private static final byte[] LONG_MIN_VALUE_BYTES = {'-', '9', '2', '2', '3', '3', '7', '2', '0', '3', '6', '8', '5', '4', '7', '7', '5', '8', '0', '8'};
private static final byte[] DIGITS = {
'0', '1', '2', '3', '4', '5',
'6', '7', '8', '9', 'a', 'b',
'c', 'd', 'e', 'f', 'g', 'h',
'i', 'j', 'k', 'l', 'm', 'n',
'o', 'p', 'q', 'r', 's', 't',
'u', 'v', 'w', 'x', 'y', 'z'
};
private static final byte[] DIGIT_TENS = {
'0', '0', '0', '0', '0', '0', '0', '0', '0', '0',
'1', '1', '1', '1', '1', '1', '1', '1', '1', '1',
'2', '2', '2', '2', '2', '2', '2', '2', '2', '2',
'3', '3', '3', '3', '3', '3', '3', '3', '3', '3',
'4', '4', '4', '4', '4', '4', '4', '4', '4', '4',
'5', '5', '5', '5', '5', '5', '5', '5', '5', '5',
'6', '6', '6', '6', '6', '6', '6', '6', '6', '6',
'7', '7', '7', '7', '7', '7', '7', '7', '7', '7',
'8', '8', '8', '8', '8', '8', '8', '8', '8', '8',
'9', '9', '9', '9', '9', '9', '9', '9', '9', '9',
};
private static final byte[] DIGIT_ONES = {
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
};
private static final double MAX_SAFE_INTEGER = Math.pow(2, 53) - 1;
private static final double MIN_SAFE_INTEGER = -MAX_SAFE_INTEGER;
private static final long MAX_SAFE_INTEGER_LONG = (long) Math.pow(2, 53) - 1;
private static final long MIN_SAFE_INTEGER_LONG = (long) MIN_SAFE_INTEGER;
static int parseInt(Node node, TruffleStringIterator it, int radix, InlinedBranchProfile errorProfile,
TruffleStringIterator.InternalNextNode nextNode) throws TruffleString.NumberFormatException {
return (int) parseNum(node, it, radix, errorProfile, Integer.MIN_VALUE, Integer.MAX_VALUE, nextNode);
}
static long parseLong(Node node, TruffleStringIterator it, int radix, InlinedBranchProfile errorProfile,
TruffleStringIterator.InternalNextNode nextNode) throws TruffleString.NumberFormatException {
return parseNum(node, it, radix, errorProfile, Long.MIN_VALUE, Long.MAX_VALUE, nextNode);
}
static int parseInt7Bit(Node node, AbstractTruffleString a, Object ptrA, int stride, int radix, InlinedBranchProfile errorProfile) throws TruffleString.NumberFormatException {
return (int) parseNum7Bit(node, a, ptrA, stride, radix, errorProfile, Integer.MIN_VALUE, Integer.MAX_VALUE);
}
static long parseLong7Bit(Node node, AbstractTruffleString a, Object ptrA, int stride, int radix, InlinedBranchProfile errorProfile) throws TruffleString.NumberFormatException {
return parseNum7Bit(node, a, ptrA, stride, radix, errorProfile, Long.MIN_VALUE, Long.MAX_VALUE);
}
static boolean isSafeInteger(long value) {
return MIN_SAFE_INTEGER_LONG <= value && value <= MAX_SAFE_INTEGER_LONG;
}
private static long parseNum(Node node, TruffleStringIterator it, int radix, InlinedBranchProfile errorProfile, long min, long max,
TruffleStringIterator.InternalNextNode nextNode) throws TruffleString.NumberFormatException {
checkArgs(node, it, radix, errorProfile);
long result = 0;
boolean negative = false;
long limit = -max;
if (it.hasNext()) {
int firstChar = nextNode.execute(node, it);
if (firstChar < '0') { // Possible leading "+" or "-"
if (firstChar == '-') {
negative = true;
limit = min;
} else if (firstChar != '+') {
errorProfile.enter(node);
throw numberFormatException(it, Reason.INVALID_CODEPOINT);
}
if (!it.hasNext()) { // Cannot have lone "+" or "-"
errorProfile.enter(node);
throw numberFormatException(it, Reason.LONE_SIGN);
}
} else {
int digit = Character.digit(firstChar, radix);
if (digit < 0) {
errorProfile.enter(node);
throw numberFormatException(it, Reason.INVALID_CODEPOINT);
}
assert result >= limit + digit;
result -= digit;
}
long multmin = limit / radix;
while (it.hasNext()) {
// Accumulating negatively avoids surprises near MAX_VALUE
int digit = Character.digit(nextNode.execute(node, it), radix);
if (digit < 0) {
errorProfile.enter(node);
throw numberFormatException(it, Reason.INVALID_CODEPOINT);
}
if (result < multmin) {
errorProfile.enter(node);
throw numberFormatException(it, Reason.OVERFLOW);
}
result *= radix;
if (result < limit + digit) {
errorProfile.enter(node);
throw numberFormatException(it, Reason.OVERFLOW);
}
result -= digit;
}
} else {
errorProfile.enter(node);
throw numberFormatException(it, Reason.EMPTY);
}
return negative ? result : -result;
}
private static long parseNum7Bit(Node node, AbstractTruffleString a, Object arrayA, int stride, int radix, InlinedBranchProfile errorProfile, long min, long max)
throws TruffleString.NumberFormatException {
CompilerAsserts.partialEvaluationConstant(stride);
assert TStringGuards.is7Bit(a.codeRange());
checkRadix(node, a, radix, errorProfile);
checkEmptyStr(node, a, errorProfile);
long result = 0;
boolean negative = false;
long limit = -max;
int i = 0;
int firstChar = TStringOps.readValue(a, arrayA, stride, i);
if (firstChar < '0') { // Possible leading "+" or "-"
if (firstChar == '-') {
negative = true;
limit = min;
} else if (firstChar != '+') {
errorProfile.enter(node);
throw numberFormatException(a, i, Reason.INVALID_CODEPOINT);
}
if (a.length() == 1) { // Cannot have lone "+" or "-"
errorProfile.enter(node);
throw numberFormatException(a, i, Reason.LONE_SIGN);
}
i++;
}
long multmin = limit / radix;
while (i < a.length()) {
// Accumulating negatively avoids surprises near MAX_VALUE
int c = TStringOps.readValue(a, arrayA, stride, i++);
final int digit = parseDigit7Bit(node, a, i, radix, errorProfile, c);
if (result < multmin) {
errorProfile.enter(node);
throw numberFormatException(a, i, Reason.OVERFLOW);
}
result *= radix;
if (result < limit + digit) {
errorProfile.enter(node);
throw numberFormatException(a, i, Reason.OVERFLOW);
}
result -= digit;
}
return negative ? result : -result;
}
private static int parseDigit7Bit(Node node, AbstractTruffleString a, int i, int radix, InlinedBranchProfile errorProfile, int c) throws TruffleString.NumberFormatException {
if ('0' <= c && c <= Math.min((radix - 1) + '0', '9')) {
return c & 0xf;
} else if (radix > 10) {
int lc = c | 0x20; // lowercase
if ('a' <= lc && lc <= (radix - 11) + 'a') {
return lc - ('a' - 10);
}
}
errorProfile.enter(node);
throw numberFormatException(a, i, Reason.INVALID_CODEPOINT);
}
private static void checkArgs(Node node, TruffleStringIterator it, int radix, InlinedBranchProfile errorProfile) throws TruffleString.NumberFormatException {
assert it != null;
checkRadix(node, it.a, radix, errorProfile);
}
private static void checkRadix(Node node, AbstractTruffleString a, int radix, InlinedBranchProfile errorProfile) throws TruffleString.NumberFormatException {
if (radix < Character.MIN_RADIX || radix > Character.MAX_RADIX) {
errorProfile.enter(node);
throw numberFormatException(a, Reason.UNSUPPORTED_RADIX);
}
}
private static void checkEmptyStr(Node node, AbstractTruffleString a, InlinedBranchProfile errorProfile) throws TruffleString.NumberFormatException {
if (a.isEmpty()) {
errorProfile.enter(node);
throw numberFormatException(a, Reason.EMPTY);
}
}
@TruffleBoundary
static TruffleString.NumberFormatException numberFormatException(AbstractTruffleString a, Reason msg) {
return new TruffleString.NumberFormatException(a, msg);
}
@TruffleBoundary
static TruffleString.NumberFormatException numberFormatException(TruffleStringIterator it, Reason msg) {
return new TruffleString.NumberFormatException(it.a, it.getRawIndex(), 1, msg);
}
@TruffleBoundary
static TruffleString.NumberFormatException numberFormatException(AbstractTruffleString a, int regionOffset, Reason msg) {
return new TruffleString.NumberFormatException(a, regionOffset, 1, msg);
}
@TruffleBoundary
static TruffleString.NumberFormatException numberFormatException(AbstractTruffleString a, int regionOffset, int regionLength, Reason msg) {
return new TruffleString.NumberFormatException(a, regionOffset, regionLength, msg);
}
static byte[] longToString(long i, int length) {
if (i == Long.MIN_VALUE) {
return LONG_MIN_VALUE_BYTES;
}
byte[] buf = new byte[length];
writeLongToBytesIntl(i, length, buf, 0);
return buf;
}
/**
* Pre-calculated table of the following expression.
*
*
* {@code
* digits = ceil(log10(2 ** i))
* table[i] = ((digits + 1) << 52) - ((10 ** digits) >> (i >> 2))
* }
*
*/
@CompilationFinal(dimensions = 1) private static final long[] LONG_LENGTH_TABLE = {
0x001ffffffffffff6L, 0x001ffffffffffff6L, 0x001ffffffffffff6L, 0x001ffffffffffff6L, 0x002fffffffffffceL, 0x002fffffffffffceL, 0x002fffffffffffceL, 0x003ffffffffffe0cL,
0x003fffffffffff06L, 0x003fffffffffff06L, 0x004ffffffffff63cL, 0x004ffffffffff63cL, 0x004ffffffffffb1eL, 0x004ffffffffffb1eL, 0x005fffffffffcf2cL, 0x005fffffffffcf2cL,
0x005fffffffffe796L, 0x006fffffffff0bdcL, 0x006fffffffff0bdcL, 0x006fffffffff0bdcL, 0x007ffffffffb3b4cL, 0x007ffffffffb3b4cL, 0x007ffffffffb3b4cL, 0x007ffffffffb3b4cL,
0x008fffffffe8287cL, 0x008fffffffe8287cL, 0x008fffffffe8287cL, 0x009fffffff1194d8L, 0x009fffffff88ca6cL, 0x009fffffff88ca6cL, 0x00affffffb57e838L, 0x00affffffb57e838L,
0x00affffffdabf41cL, 0x00affffffdabf41cL, 0x00bfffffe8b78918L, 0x00bfffffe8b78918L, 0x00bffffff45bc48cL, 0x00cfffff8b95ad78L, 0x00cfffff8b95ad78L, 0x00cfffff8b95ad78L,
0x00dffffdb9ec6358L, 0x00dffffdb9ec6358L, 0x00dffffdb9ec6358L, 0x00dffffdb9ec6358L, 0x00effff4a19df0b8L, 0x00effff4a19df0b8L, 0x00effff4a19df0b8L, 0x00ffff8e502b6730L,
0x00ffffc72815b398L, 0x00ffffc72815b398L, 0x010ffdc790d903f0L, 0x010ffdc790d903f0L, 0x010ffee3c86c81f8L, 0x010ffee3c86c81f8L, 0x011ff4e5d43d13b0L, 0x011ff4e5d43d13b0L,
0x011ffa72ea1e89d8L, 0x012fc87d25316270L, 0x012fc87d25316270L, 0x012fc87d25316270L, 0x013eea71b9f6ec30L, 0x013eea71b9f6ec30L, 0x013eea71b9f6ec30L, 0x013eea71b9f6ec30L};
/**
* Pre-calculated table of the following expression.
*
*
* {@code
* digits = ceil(log10(2 ** i))
* table[i] = (1 << 32) - (10 ** digits) + (digits << 32))
* }
*
*/
@CompilationFinal(dimensions = 1) private static final long[] INT_LENGTH_TABLE = {
0x100000000L, 0x1FFFFFFF6L, 0x1FFFFFFF6L, 0x1FFFFFFF6L, 0x2FFFFFF9CL, 0x2FFFFFF9CL, 0x2FFFFFF9CL, 0x3FFFFFC18L, 0x3FFFFFC18L, 0x3FFFFFC18L, 0x4FFFFD8F0L, 0x4FFFFD8F0L,
0x4FFFFD8F0L, 0x4FFFFD8F0L, 0x5FFFE7960L, 0x5FFFE7960L, 0x5FFFE7960L, 0x6FFF0BDC0L, 0x6FFF0BDC0L, 0x6FFF0BDC0L, 0x7FF676980L, 0x7FF676980L, 0x7FF676980L, 0x7FF676980L,
0x8FA0A1F00L, 0x8FA0A1F00L, 0x8FA0A1F00L, 0x9C4653600L, 0x9C4653600L, 0x9C4653600L, 0xA00000000L, 0xA00000000L
};
private static int floorLog2(long n) {
return 63 ^ Long.numberOfLeadingZeros(n | 1);
}
// From
// https://lemire.me/blog/2021/06/03/computing-the-number-of-digits-of-an-integer-even-faster/
// and
// https://github.com/lemire/Code-used-on-Daniel-Lemire-s-blog/blob/4e6e171a7d/2021/06/03/digitcount.c
// (license: public domain)
static int stringLengthInt(long intValue) {
assert Integer.MIN_VALUE <= intValue && intValue <= Integer.MAX_VALUE;
long n = intValue;
final int sign;
if (CompilerDirectives.injectBranchProbability(CompilerDirectives.UNLIKELY_PROBABILITY, n < 0)) {
sign = 1;
n = -n;
} else {
sign = 0;
}
final int digits = (int) ((n + INT_LENGTH_TABLE[floorLog2(n)]) >>> 32);
return sign + digits;
}
static int stringLengthLong(long longValue) {
if (longValue == Long.MIN_VALUE) {
return LONG_MIN_VALUE_BYTES.length;
}
long n = longValue;
final int sign;
if (CompilerDirectives.injectBranchProbability(CompilerDirectives.UNLIKELY_PROBABILITY, n < 0)) {
sign = 1;
n = -n;
} else {
sign = 0;
}
final int bits = floorLog2(n);
final int digits = (int) ((LONG_LENGTH_TABLE[bits] + (n >> (bits >> 2))) >> 52);
return sign + digits;
}
static void writeLongToBytes(Node location, long i, byte[] buf, int stride, int fromIndex, int length) {
if (i == Long.MIN_VALUE) {
TStringOps.arraycopyWithStride(location,
LONG_MIN_VALUE_BYTES, 0, 0, 0,
buf, 0, stride, fromIndex, LONG_MIN_VALUE_BYTES.length);
} else {
writeLongToBytesIntl(i, fromIndex + length, buf, stride);
}
}
/**
* Copied from {@link Long}, adapted for {@code byte[]}.
*/
private static void writeLongToBytesIntl(long value, int index, byte[] buf, int stride) {
long i = value;
long q;
int r;
int bytePos = index;
byte sign = 0;
if (i < 0) {
sign = '-';
i = -i;
}
// Get 2 digits/iteration using longs until quotient fits into an int
while (i > Integer.MAX_VALUE) {
q = i / 100;
// really: r = i - (q * 100);
r = (int) (i - ((q << 6) + (q << 5) + (q << 2)));
i = q;
writeInt(buf, stride, --bytePos, DIGIT_ONES[r]);
writeInt(buf, stride, --bytePos, DIGIT_TENS[r]);
}
// Get 2 digits/iteration using ints
int q2;
int i2 = (int) i;
while (i2 >= 65536) {
q2 = i2 / 100;
// really: r = i2 - (q * 100);
r = i2 - ((q2 << 6) + (q2 << 5) + (q2 << 2));
i2 = q2;
writeInt(buf, stride, --bytePos, DIGIT_ONES[r]);
writeInt(buf, stride, --bytePos, DIGIT_TENS[r]);
}
// Fall thru to fast mode for smaller numbers
// assert(i2 <= 65536, i2);
do {
q2 = (i2 * 52429) >>> (16 + 3);
r = i2 - ((q2 << 3) + (q2 << 1)); // r = i2-(q2*10) ...
writeInt(buf, stride, --bytePos, DIGITS[r]);
i2 = q2;
} while (i2 != 0);
if (sign != 0) {
writeInt(buf, stride, --bytePos, sign);
}
}
static void writeIntToBytes(Node location, int i, byte[] buf, int stride, int fromIndex, int length) {
if (i == Integer.MIN_VALUE) {
TStringOps.arraycopyWithStride(location,
INT_MIN_VALUE_BYTES, 0, 0, 0,
buf, 0, stride, fromIndex, INT_MIN_VALUE_BYTES.length);
} else {
writeIntToBytesIntl(i, fromIndex + length, buf, stride);
}
}
/**
* Copied from {@link Integer}, adapted for {@code byte[]}.
*
* Places characters representing the integer i into the character array buf. The characters are
* placed into the buffer backwards starting with the least significant digit at the specified
* index (exclusive), and working backwards from there.
*
* Will fail if i == Integer.MIN_VALUE
*/
private static void writeIntToBytesIntl(int value, int index, byte[] buf, int stride) {
int i = value;
int q;
int r;
int bytePos = index;
byte sign = 0;
if (i < 0) {
sign = '-';
i = -i;
}
// Generate two digits per iteration
while (i >= 65536) {
q = i / 100;
// really: r = i - (q * 100);
r = i - ((q << 6) + (q << 5) + (q << 2));
i = q;
writeInt(buf, stride, --bytePos, DIGIT_ONES[r]);
writeInt(buf, stride, --bytePos, DIGIT_TENS[r]);
}
// Fall thru to fast mode for smaller numbers
// assert(i <= 65536, i);
do {
q = (i * 52429) >>> (16 + 3);
r = i - ((q << 3) + (q << 1)); // r = i-(q*10) ...
writeInt(buf, stride, --bytePos, DIGITS[r]);
i = q;
} while (i != 0);
if (sign != 0) {
writeInt(buf, stride, --bytePos, sign);
}
}
private static void writeInt(byte[] buf, int stride, int bytePos, byte value) {
TStringOps.writeToByteArray(buf, stride, bytePos, value);
}
}
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