katoikia-app/web-ui/web-react/node_modules/@webassemblyjs/leb128/lib/bits.js

156 lines
3.6 KiB
JavaScript

// Copyright 2012 The Obvious Corporation.
/*
* bits: Bitwise buffer utilities. The utilities here treat a buffer
* as a little-endian bigint, so the lowest-order bit is bit #0 of
* `buffer[0]`, and the highest-order bit is bit #7 of
* `buffer[buffer.length - 1]`.
*/
/*
* Modules used
*/
"use strict";
/*
* Exported bindings
*/
/**
* Extracts the given number of bits from the buffer at the indicated
* index, returning a simple number as the result. If bits are requested
* that aren't covered by the buffer, the `defaultBit` is used as their
* value.
*
* The `bitLength` must be no more than 32. The `defaultBit` if not
* specified is taken to be `0`.
*/
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.extract = extract;
exports.inject = inject;
exports.getSign = getSign;
exports.highOrder = highOrder;
function extract(buffer, bitIndex, bitLength, defaultBit) {
if (bitLength < 0 || bitLength > 32) {
throw new Error("Bad value for bitLength.");
}
if (defaultBit === undefined) {
defaultBit = 0;
} else if (defaultBit !== 0 && defaultBit !== 1) {
throw new Error("Bad value for defaultBit.");
}
var defaultByte = defaultBit * 0xff;
var result = 0; // All starts are inclusive. The {endByte, endBit} pair is exclusive, but
// if endBit !== 0, then endByte is inclusive.
var lastBit = bitIndex + bitLength;
var startByte = Math.floor(bitIndex / 8);
var startBit = bitIndex % 8;
var endByte = Math.floor(lastBit / 8);
var endBit = lastBit % 8;
if (endBit !== 0) {
// `(1 << endBit) - 1` is the mask of all bits up to but not including
// the endBit.
result = get(endByte) & (1 << endBit) - 1;
}
while (endByte > startByte) {
endByte--;
result = result << 8 | get(endByte);
}
result >>>= startBit;
return result;
function get(index) {
var result = buffer[index];
return result === undefined ? defaultByte : result;
}
}
/**
* Injects the given bits into the given buffer at the given index. Any
* bits in the value beyond the length to set are ignored.
*/
function inject(buffer, bitIndex, bitLength, value) {
if (bitLength < 0 || bitLength > 32) {
throw new Error("Bad value for bitLength.");
}
var lastByte = Math.floor((bitIndex + bitLength - 1) / 8);
if (bitIndex < 0 || lastByte >= buffer.length) {
throw new Error("Index out of range.");
} // Just keeping it simple, until / unless profiling shows that this
// is a problem.
var atByte = Math.floor(bitIndex / 8);
var atBit = bitIndex % 8;
while (bitLength > 0) {
if (value & 1) {
buffer[atByte] |= 1 << atBit;
} else {
buffer[atByte] &= ~(1 << atBit);
}
value >>= 1;
bitLength--;
atBit = (atBit + 1) % 8;
if (atBit === 0) {
atByte++;
}
}
}
/**
* Gets the sign bit of the given buffer.
*/
function getSign(buffer) {
return buffer[buffer.length - 1] >>> 7;
}
/**
* Gets the zero-based bit number of the highest-order bit with the
* given value in the given buffer.
*
* If the buffer consists entirely of the other bit value, then this returns
* `-1`.
*/
function highOrder(bit, buffer) {
var length = buffer.length;
var fullyWrongByte = (bit ^ 1) * 0xff; // the other-bit extended to a full byte
while (length > 0 && buffer[length - 1] === fullyWrongByte) {
length--;
}
if (length === 0) {
// Degenerate case. The buffer consists entirely of ~bit.
return -1;
}
var byteToCheck = buffer[length - 1];
var result = length * 8 - 1;
for (var i = 7; i > 0; i--) {
if ((byteToCheck >> i & 1) === bit) {
break;
}
result--;
}
return result;
}