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denoland-deno/ext/node/polyfills/internal_binding/buffer.ts
Bartek Iwańczuk b40086fd7d
refactor(core): include_js_files! 'dir' option doesn't change specifiers (#18019)
This commit changes "include_js_files!" macro from "deno_core"
in a way that "dir" option doesn't cause specifiers to be rewritten 
to include it.

Example:
```
include_js_files! {
  dir "js",
  "hello.js",
}
```

The above definition required embedders to use:
`import ... from "internal:<ext_name>/js/hello.js"`. 
But with this change, the "js" directory in which the files are stored
is an implementation detail, which for embedders results in: 
`import ... from "internal:<ext_name>/hello.js"`.

The directory the files are stored in, is an implementation detail and 
in some cases might result in a significant size difference for the 
snapshot. As an example, in "deno_node" extension, we store the 
source code in "polyfills" directory; which resulted in each specifier 
to look like "internal:deno_node/polyfills/<module_name>", but with 
this change it's "internal:deno_node/<module_name>". 

Given that "deno_node" has over 100 files, many of them having 
several import specifiers to the same extension, this change removes
10 characters from each import specifier.
2023-03-05 02:31:38 +00:00

160 lines
4 KiB
TypeScript

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
import { Encodings } from "internal:deno_node/internal_binding/_node.ts";
export function indexOfNeedle(
source: Uint8Array,
needle: Uint8Array,
start = 0,
): number {
if (start >= source.length) {
return -1;
}
if (start < 0) {
start = Math.max(0, source.length + start);
}
const s = needle[0];
for (let i = start; i < source.length; i++) {
if (source[i] !== s) continue;
const pin = i;
let matched = 1;
let j = i;
while (matched < needle.length) {
j++;
if (source[j] !== needle[j - pin]) {
break;
}
matched++;
}
if (matched === needle.length) {
return pin;
}
}
return -1;
}
export function numberToBytes(n: number): Uint8Array {
if (n === 0) return new Uint8Array([0]);
const bytes = [];
bytes.unshift(n & 255);
while (n >= 256) {
n = n >>> 8;
bytes.unshift(n & 255);
}
return new Uint8Array(bytes);
}
// TODO(Soremwar)
// Check if offset or buffer can be transform in order to just use std's lastIndexOf directly
// This implementation differs from std's lastIndexOf in the fact that
// it also includes items outside of the offset as long as part of the
// set is contained inside of the offset
// Probably way slower too
function findLastIndex(
targetBuffer: Uint8Array,
buffer: Uint8Array,
offset: number,
) {
offset = offset > targetBuffer.length ? targetBuffer.length : offset;
const searchableBuffer = targetBuffer.slice(0, offset + buffer.length);
const searchableBufferLastIndex = searchableBuffer.length - 1;
const bufferLastIndex = buffer.length - 1;
// Important to keep track of the last match index in order to backtrack after an incomplete match
// Not doing this will cause the search to skip all possible matches that happened in the
// last match range
let lastMatchIndex = -1;
let matches = 0;
let index = -1;
for (let x = 0; x <= searchableBufferLastIndex; x++) {
if (
searchableBuffer[searchableBufferLastIndex - x] ===
buffer[bufferLastIndex - matches]
) {
if (lastMatchIndex === -1) {
lastMatchIndex = x;
}
matches++;
} else {
matches = 0;
if (lastMatchIndex !== -1) {
// Restart the search right after the last index was ignored
x = lastMatchIndex + 1;
lastMatchIndex = -1;
}
continue;
}
if (matches === buffer.length) {
index = x;
break;
}
}
if (index === -1) return index;
return searchableBufferLastIndex - index;
}
// TODO(@bartlomieju):
// Take encoding into account when evaluating index
function indexOfBuffer(
targetBuffer: Uint8Array,
buffer: Uint8Array,
byteOffset: number,
encoding: Encodings,
forwardDirection: boolean,
) {
if (!Encodings[encoding] === undefined) {
throw new Error(`Unknown encoding code ${encoding}`);
}
if (!forwardDirection) {
// If negative the offset is calculated from the end of the buffer
if (byteOffset < 0) {
byteOffset = targetBuffer.length + byteOffset;
}
if (buffer.length === 0) {
return byteOffset <= targetBuffer.length
? byteOffset
: targetBuffer.length;
}
return findLastIndex(targetBuffer, buffer, byteOffset);
}
if (buffer.length === 0) {
return byteOffset <= targetBuffer.length ? byteOffset : targetBuffer.length;
}
return indexOfNeedle(targetBuffer, buffer, byteOffset);
}
// TODO(Soremwar)
// Node's implementation is a very obscure algorithm that I haven't been able to crack just yet
function indexOfNumber(
targetBuffer: Uint8Array,
number: number,
byteOffset: number,
forwardDirection: boolean,
) {
const bytes = numberToBytes(number);
if (bytes.length > 1) {
throw new Error("Multi byte number search is not supported");
}
return indexOfBuffer(
targetBuffer,
numberToBytes(number),
byteOffset,
Encodings.UTF8,
forwardDirection,
);
}
export default { indexOfBuffer, indexOfNumber };
export { indexOfBuffer, indexOfNumber };