Changed from static to 11ty!

5 files changed, 1572 insertions, 0 deletions

diff --git a/node_modules/minipass/dist/esm/index.d.ts b/node_modules/minipass/dist/esm/index.d.ts
new file mode 100644
index 0000000..6dbfbcf
--- /dev/null
+++ b/node_modules/minipass/dist/esm/index.d.ts
@@ -0,0 +1,549 @@
+/// <reference types="node" resolution-mode="require"/>
+/// <reference types="node" resolution-mode="require"/>
+/// <reference types="node" resolution-mode="require"/>
+/// <reference types="node" resolution-mode="require"/>
+import { EventEmitter } from 'node:events';
+import { StringDecoder } from 'node:string_decoder';
+/**
+ * Same as StringDecoder, but exposing the `lastNeed` flag on the type
+ */
+type SD = StringDecoder & {
+    lastNeed: boolean;
+};
+export type { SD, Pipe, PipeProxyErrors };
+/**
+ * Return true if the argument is a Minipass stream, Node stream, or something
+ * else that Minipass can interact with.
+ */
+export declare const isStream: (s: any) => s is NodeJS.WriteStream | NodeJS.ReadStream | Minipass<any, any, any> | (NodeJS.ReadStream & {
+    fd: number;
+}) | (EventEmitter & {
+    pause(): any;
+    resume(): any;
+    pipe(...destArgs: any[]): any;
+}) | (NodeJS.WriteStream & {
+    fd: number;
+}) | (EventEmitter & {
+    end(): any;
+    write(chunk: any, ...args: any[]): any;
+});
+/**
+ * Return true if the argument is a valid {@link Minipass.Readable}
+ */
+export declare const isReadable: (s: any) => s is Minipass.Readable;
+/**
+ * Return true if the argument is a valid {@link Minipass.Writable}
+ */
+export declare const isWritable: (s: any) => s is Minipass.Readable;
+declare const EOF: unique symbol;
+declare const MAYBE_EMIT_END: unique symbol;
+declare const EMITTED_END: unique symbol;
+declare const EMITTING_END: unique symbol;
+declare const EMITTED_ERROR: unique symbol;
+declare const CLOSED: unique symbol;
+declare const READ: unique symbol;
+declare const FLUSH: unique symbol;
+declare const FLUSHCHUNK: unique symbol;
+declare const ENCODING: unique symbol;
+declare const DECODER: unique symbol;
+declare const FLOWING: unique symbol;
+declare const PAUSED: unique symbol;
+declare const RESUME: unique symbol;
+declare const BUFFER: unique symbol;
+declare const PIPES: unique symbol;
+declare const BUFFERLENGTH: unique symbol;
+declare const BUFFERPUSH: unique symbol;
+declare const BUFFERSHIFT: unique symbol;
+declare const OBJECTMODE: unique symbol;
+declare const DESTROYED: unique symbol;
+declare const ERROR: unique symbol;
+declare const EMITDATA: unique symbol;
+declare const EMITEND: unique symbol;
+declare const EMITEND2: unique symbol;
+declare const ASYNC: unique symbol;
+declare const ABORT: unique symbol;
+declare const ABORTED: unique symbol;
+declare const SIGNAL: unique symbol;
+declare const DATALISTENERS: unique symbol;
+declare const DISCARDED: unique symbol;
+/**
+ * Options that may be passed to stream.pipe()
+ */
+export interface PipeOptions {
+    /**
+     * end the destination stream when the source stream ends
+     */
+    end?: boolean;
+    /**
+     * proxy errors from the source stream to the destination stream
+     */
+    proxyErrors?: boolean;
+}
+/**
+ * Internal class representing a pipe to a destination stream.
+ *
+ * @internal
+ */
+declare class Pipe<T extends unknown> {
+    src: Minipass<T>;
+    dest: Minipass<any, T>;
+    opts: PipeOptions;
+    ondrain: () => any;
+    constructor(src: Minipass<T>, dest: Minipass.Writable, opts: PipeOptions);
+    unpipe(): void;
+    proxyErrors(_er: any): void;
+    end(): void;
+}
+/**
+ * Internal class representing a pipe to a destination stream where
+ * errors are proxied.
+ *
+ * @internal
+ */
+declare class PipeProxyErrors<T> extends Pipe<T> {
+    unpipe(): void;
+    constructor(src: Minipass<T>, dest: Minipass.Writable, opts: PipeOptions);
+}
+export declare namespace Minipass {
+    /**
+     * Encoding used to create a stream that outputs strings rather than
+     * Buffer objects.
+     */
+    export type Encoding = BufferEncoding | 'buffer' | null;
+    /**
+     * Any stream that Minipass can pipe into
+     */
+    export type Writable = Minipass<any, any, any> | NodeJS.WriteStream | (NodeJS.WriteStream & {
+        fd: number;
+    }) | (EventEmitter & {
+        end(): any;
+        write(chunk: any, ...args: any[]): any;
+    });
+    /**
+     * Any stream that can be read from
+     */
+    export type Readable = Minipass<any, any, any> | NodeJS.ReadStream | (NodeJS.ReadStream & {
+        fd: number;
+    }) | (EventEmitter & {
+        pause(): any;
+        resume(): any;
+        pipe(...destArgs: any[]): any;
+    });
+    /**
+     * Utility type that can be iterated sync or async
+     */
+    export type DualIterable<T> = Iterable<T> & AsyncIterable<T>;
+    type EventArguments = Record<string | symbol, unknown[]>;
+    /**
+     * The listing of events that a Minipass class can emit.
+     * Extend this when extending the Minipass class, and pass as
+     * the third template argument.  The key is the name of the event,
+     * and the value is the argument list.
+     *
+     * Any undeclared events will still be allowed, but the handler will get
+     * arguments as `unknown[]`.
+     */
+    export interface Events<RType extends any = Buffer> extends EventArguments {
+        readable: [];
+        data: [chunk: RType];
+        error: [er: unknown];
+        abort: [reason: unknown];
+        drain: [];
+        resume: [];
+        end: [];
+        finish: [];
+        prefinish: [];
+        close: [];
+        [DESTROYED]: [er?: unknown];
+        [ERROR]: [er: unknown];
+    }
+    /**
+     * String or buffer-like data that can be joined and sliced
+     */
+    export type ContiguousData = Buffer | ArrayBufferLike | ArrayBufferView | string;
+    export type BufferOrString = Buffer | string;
+    /**
+     * Options passed to the Minipass constructor.
+     */
+    export type SharedOptions = {
+        /**
+         * Defer all data emission and other events until the end of the
+         * current tick, similar to Node core streams
+         */
+        async?: boolean;
+        /**
+         * A signal which will abort the stream
+         */
+        signal?: AbortSignal;
+        /**
+         * Output string encoding. Set to `null` or `'buffer'` (or omit) to
+         * emit Buffer objects rather than strings.
+         *
+         * Conflicts with `objectMode`
+         */
+        encoding?: BufferEncoding | null | 'buffer';
+        /**
+         * Output data exactly as it was written, supporting non-buffer/string
+         * data (such as arbitrary objects, falsey values, etc.)
+         *
+         * Conflicts with `encoding`
+         */
+        objectMode?: boolean;
+    };
+    /**
+     * Options for a string encoded output
+     */
+    export type EncodingOptions = SharedOptions & {
+        encoding: BufferEncoding;
+        objectMode?: false;
+    };
+    /**
+     * Options for contiguous data buffer output
+     */
+    export type BufferOptions = SharedOptions & {
+        encoding?: null | 'buffer';
+        objectMode?: false;
+    };
+    /**
+     * Options for objectMode arbitrary output
+     */
+    export type ObjectModeOptions = SharedOptions & {
+        objectMode: true;
+        encoding?: null;
+    };
+    /**
+     * Utility type to determine allowed options based on read type
+     */
+    export type Options<T> = ObjectModeOptions | (T extends string ? EncodingOptions : T extends Buffer ? BufferOptions : SharedOptions);
+    export {};
+}
+/**
+ * Main export, the Minipass class
+ *
+ * `RType` is the type of data emitted, defaults to Buffer
+ *
+ * `WType` is the type of data to be written, if RType is buffer or string,
+ * then any {@link Minipass.ContiguousData} is allowed.
+ *
+ * `Events` is the set of event handler signatures that this object
+ * will emit, see {@link Minipass.Events}
+ */
+export declare class Minipass<RType extends unknown = Buffer, WType extends unknown = RType extends Minipass.BufferOrString ? Minipass.ContiguousData : RType, Events extends Minipass.Events<RType> = Minipass.Events<RType>> extends EventEmitter implements Minipass.DualIterable<RType> {
+    [FLOWING]: boolean;
+    [PAUSED]: boolean;
+    [PIPES]: Pipe<RType>[];
+    [BUFFER]: RType[];
+    [OBJECTMODE]: boolean;
+    [ENCODING]: BufferEncoding | null;
+    [ASYNC]: boolean;
+    [DECODER]: SD | null;
+    [EOF]: boolean;
+    [EMITTED_END]: boolean;
+    [EMITTING_END]: boolean;
+    [CLOSED]: boolean;
+    [EMITTED_ERROR]: unknown;
+    [BUFFERLENGTH]: number;
+    [DESTROYED]: boolean;
+    [SIGNAL]?: AbortSignal;
+    [ABORTED]: boolean;
+    [DATALISTENERS]: number;
+    [DISCARDED]: boolean;
+    /**
+     * true if the stream can be written
+     */
+    writable: boolean;
+    /**
+     * true if the stream can be read
+     */
+    readable: boolean;
+    /**
+     * If `RType` is Buffer, then options do not need to be provided.
+     * Otherwise, an options object must be provided to specify either
+     * {@link Minipass.SharedOptions.objectMode} or
+     * {@link Minipass.SharedOptions.encoding}, as appropriate.
+     */
+    constructor(...args: [Minipass.ObjectModeOptions] | (RType extends Buffer ? [] | [Minipass.Options<RType>] : [Minipass.Options<RType>]));
+    /**
+     * The amount of data stored in the buffer waiting to be read.
+     *
+     * For Buffer strings, this will be the total byte length.
+     * For string encoding streams, this will be the string character length,
+     * according to JavaScript's `string.length` logic.
+     * For objectMode streams, this is a count of the items waiting to be
+     * emitted.
+     */
+    get bufferLength(): number;
+    /**
+     * The `BufferEncoding` currently in use, or `null`
+     */
+    get encoding(): BufferEncoding | null;
+    /**
+     * @deprecated - This is a read only property
+     */
+    set encoding(_enc: BufferEncoding | null);
+    /**
+     * @deprecated - Encoding may only be set at instantiation time
+     */
+    setEncoding(_enc: Minipass.Encoding): void;
+    /**
+     * True if this is an objectMode stream
+     */
+    get objectMode(): boolean;
+    /**
+     * @deprecated - This is a read-only property
+     */
+    set objectMode(_om: boolean);
+    /**
+     * true if this is an async stream
+     */
+    get ['async'](): boolean;
+    /**
+     * Set to true to make this stream async.
+     *
+     * Once set, it cannot be unset, as this would potentially cause incorrect
+     * behavior.  Ie, a sync stream can be made async, but an async stream
+     * cannot be safely made sync.
+     */
+    set ['async'](a: boolean);
+    [ABORT](): void;
+    /**
+     * True if the stream has been aborted.
+     */
+    get aborted(): boolean;
+    /**
+     * No-op setter. Stream aborted status is set via the AbortSignal provided
+     * in the constructor options.
+     */
+    set aborted(_: boolean);
+    /**
+     * Write data into the stream
+     *
+     * If the chunk written is a string, and encoding is not specified, then
+     * `utf8` will be assumed. If the stream encoding matches the encoding of
+     * a written string, and the state of the string decoder allows it, then
+     * the string will be passed through to either the output or the internal
+     * buffer without any processing. Otherwise, it will be turned into a
+     * Buffer object for processing into the desired encoding.
+     *
+     * If provided, `cb` function is called immediately before return for
+     * sync streams, or on next tick for async streams, because for this
+     * base class, a chunk is considered "processed" once it is accepted
+     * and either emitted or buffered. That is, the callback does not indicate
+     * that the chunk has been eventually emitted, though of course child
+     * classes can override this function to do whatever processing is required
+     * and call `super.write(...)` only once processing is completed.
+     */
+    write(chunk: WType, cb?: () => void): boolean;
+    write(chunk: WType, encoding?: Minipass.Encoding, cb?: () => void): boolean;
+    /**
+     * Low-level explicit read method.
+     *
+     * In objectMode, the argument is ignored, and one item is returned if
+     * available.
+     *
+     * `n` is the number of bytes (or in the case of encoding streams,
+     * characters) to consume. If `n` is not provided, then the entire buffer
+     * is returned, or `null` is returned if no data is available.
+     *
+     * If `n` is greater that the amount of data in the internal buffer,
+     * then `null` is returned.
+     */
+    read(n?: number | null): RType | null;
+    [READ](n: number | null, chunk: RType): RType;
+    /**
+     * End the stream, optionally providing a final write.
+     *
+     * See {@link Minipass#write} for argument descriptions
+     */
+    end(cb?: () => void): this;
+    end(chunk: WType, cb?: () => void): this;
+    end(chunk: WType, encoding?: Minipass.Encoding, cb?: () => void): this;
+    [RESUME](): void;
+    /**
+     * Resume the stream if it is currently in a paused state
+     *
+     * If called when there are no pipe destinations or `data` event listeners,
+     * this will place the stream in a "discarded" state, where all data will
+     * be thrown away. The discarded state is removed if a pipe destination or
+     * data handler is added, if pause() is called, or if any synchronous or
+     * asynchronous iteration is started.
+     */
+    resume(): void;
+    /**
+     * Pause the stream
+     */
+    pause(): void;
+    /**
+     * true if the stream has been forcibly destroyed
+     */
+    get destroyed(): boolean;
+    /**
+     * true if the stream is currently in a flowing state, meaning that
+     * any writes will be immediately emitted.
+     */
+    get flowing(): boolean;
+    /**
+     * true if the stream is currently in a paused state
+     */
+    get paused(): boolean;
+    [BUFFERPUSH](chunk: RType): void;
+    [BUFFERSHIFT](): RType;
+    [FLUSH](noDrain?: boolean): void;
+    [FLUSHCHUNK](chunk: RType): boolean;
+    /**
+     * Pipe all data emitted by this stream into the destination provided.
+     *
+     * Triggers the flow of data.
+     */
+    pipe<W extends Minipass.Writable>(dest: W, opts?: PipeOptions): W;
+    /**
+     * Fully unhook a piped destination stream.
+     *
+     * If the destination stream was the only consumer of this stream (ie,
+     * there are no other piped destinations or `'data'` event listeners)
+     * then the flow of data will stop until there is another consumer or
+     * {@link Minipass#resume} is explicitly called.
+     */
+    unpipe<W extends Minipass.Writable>(dest: W): void;
+    /**
+     * Alias for {@link Minipass#on}
+     */
+    addListener<Event extends keyof Events>(ev: Event, handler: (...args: Events[Event]) => any): this;
+    /**
+     * Mostly identical to `EventEmitter.on`, with the following
+     * behavior differences to prevent data loss and unnecessary hangs:
+     *
+     * - Adding a 'data' event handler will trigger the flow of data
+     *
+     * - Adding a 'readable' event handler when there is data waiting to be read
+     *   will cause 'readable' to be emitted immediately.
+     *
+     * - Adding an 'endish' event handler ('end', 'finish', etc.) which has
+     *   already passed will cause the event to be emitted immediately and all
+     *   handlers removed.
+     *
+     * - Adding an 'error' event handler after an error has been emitted will
+     *   cause the event to be re-emitted immediately with the error previously
+     *   raised.
+     */
+    on<Event extends keyof Events>(ev: Event, handler: (...args: Events[Event]) => any): this;
+    /**
+     * Alias for {@link Minipass#off}
+     */
+    removeListener<Event extends keyof Events>(ev: Event, handler: (...args: Events[Event]) => any): this;
+    /**
+     * Mostly identical to `EventEmitter.off`
+     *
+     * If a 'data' event handler is removed, and it was the last consumer
+     * (ie, there are no pipe destinations or other 'data' event listeners),
+     * then the flow of data will stop until there is another consumer or
+     * {@link Minipass#resume} is explicitly called.
+     */
+    off<Event extends keyof Events>(ev: Event, handler: (...args: Events[Event]) => any): this;
+    /**
+     * Mostly identical to `EventEmitter.removeAllListeners`
+     *
+     * If all 'data' event handlers are removed, and they were the last consumer
+     * (ie, there are no pipe destinations), then the flow of data will stop
+     * until there is another consumer or {@link Minipass#resume} is explicitly
+     * called.
+     */
+    removeAllListeners<Event extends keyof Events>(ev?: Event): this;
+    /**
+     * true if the 'end' event has been emitted
+     */
+    get emittedEnd(): boolean;
+    [MAYBE_EMIT_END](): void;
+    /**
+     * Mostly identical to `EventEmitter.emit`, with the following
+     * behavior differences to prevent data loss and unnecessary hangs:
+     *
+     * If the stream has been destroyed, and the event is something other
+     * than 'close' or 'error', then `false` is returned and no handlers
+     * are called.
+     *
+     * If the event is 'end', and has already been emitted, then the event
+     * is ignored. If the stream is in a paused or non-flowing state, then
+     * the event will be deferred until data flow resumes. If the stream is
+     * async, then handlers will be called on the next tick rather than
+     * immediately.
+     *
+     * If the event is 'close', and 'end' has not yet been emitted, then
+     * the event will be deferred until after 'end' is emitted.
+     *
+     * If the event is 'error', and an AbortSignal was provided for the stream,
+     * and there are no listeners, then the event is ignored, matching the
+     * behavior of node core streams in the presense of an AbortSignal.
+     *
+     * If the event is 'finish' or 'prefinish', then all listeners will be
+     * removed after emitting the event, to prevent double-firing.
+     */
+    emit<Event extends keyof Events>(ev: Event, ...args: Events[Event]): boolean;
+    [EMITDATA](data: RType): boolean;
+    [EMITEND](): boolean;
+    [EMITEND2](): boolean;
+    /**
+     * Return a Promise that resolves to an array of all emitted data once
+     * the stream ends.
+     */
+    collect(): Promise<RType[] & {
+        dataLength: number;
+    }>;
+    /**
+     * Return a Promise that resolves to the concatenation of all emitted data
+     * once the stream ends.
+     *
+     * Not allowed on objectMode streams.
+     */
+    concat(): Promise<RType>;
+    /**
+     * Return a void Promise that resolves once the stream ends.
+     */
+    promise(): Promise<void>;
+    /**
+     * Asynchronous `for await of` iteration.
+     *
+     * This will continue emitting all chunks until the stream terminates.
+     */
+    [Symbol.asyncIterator](): AsyncGenerator<RType, void, void>;
+    /**
+     * Synchronous `for of` iteration.
+     *
+     * The iteration will terminate when the internal buffer runs out, even
+     * if the stream has not yet terminated.
+     */
+    [Symbol.iterator](): Generator<RType, void, void>;
+    /**
+     * Destroy a stream, preventing it from being used for any further purpose.
+     *
+     * If the stream has a `close()` method, then it will be called on
+     * destruction.
+     *
+     * After destruction, any attempt to write data, read data, or emit most
+     * events will be ignored.
+     *
+     * If an error argument is provided, then it will be emitted in an
+     * 'error' event.
+     */
+    destroy(er?: unknown): this;
+    /**
+     * Alias for {@link isStream}
+     *
+     * Former export location, maintained for backwards compatibility.
+     *
+     * @deprecated
+     */
+    static get isStream(): (s: any) => s is NodeJS.WriteStream | NodeJS.ReadStream | Minipass<any, any, any> | (NodeJS.ReadStream & {
+        fd: number;
+    }) | (EventEmitter & {
+        pause(): any;
+        resume(): any;
+        pipe(...destArgs: any[]): any;
+    }) | (NodeJS.WriteStream & {
+        fd: number;
+    }) | (EventEmitter & {
+        end(): any;
+        write(chunk: any, ...args: any[]): any;
+    });
+}
+//# sourceMappingURL=index.d.ts.map
\ No newline at end of file
diff --git a/node_modules/minipass/dist/esm/index.d.ts.map b/node_modules/minipass/dist/esm/index.d.ts.map
new file mode 100644
index 0000000..cac7e00
--- /dev/null
+++ b/node_modules/minipass/dist/esm/index.d.ts.map
@@ -0,0 +1 @@
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\ No newline at end of file
diff --git a/node_modules/minipass/dist/esm/index.js b/node_modules/minipass/dist/esm/index.js
new file mode 100644
index 0000000..b5fa451
--- /dev/null
+++ b/node_modules/minipass/dist/esm/index.js
@@ -0,0 +1,1018 @@
+const proc = typeof process === 'object' && process
+    ? process
+    : {
+        stdout: null,
+        stderr: null,
+    };
+import { EventEmitter } from 'node:events';
+import Stream from 'node:stream';
+import { StringDecoder } from 'node:string_decoder';
+/**
+ * Return true if the argument is a Minipass stream, Node stream, or something
+ * else that Minipass can interact with.
+ */
+export const isStream = (s) => !!s &&
+    typeof s === 'object' &&
+    (s instanceof Minipass ||
+        s instanceof Stream ||
+        isReadable(s) ||
+        isWritable(s));
+/**
+ * Return true if the argument is a valid {@link Minipass.Readable}
+ */
+export const isReadable = (s) => !!s &&
+    typeof s === 'object' &&
+    s instanceof EventEmitter &&
+    typeof s.pipe === 'function' &&
+    // node core Writable streams have a pipe() method, but it throws
+    s.pipe !== Stream.Writable.prototype.pipe;
+/**
+ * Return true if the argument is a valid {@link Minipass.Writable}
+ */
+export const isWritable = (s) => !!s &&
+    typeof s === 'object' &&
+    s instanceof EventEmitter &&
+    typeof s.write === 'function' &&
+    typeof s.end === 'function';
+const EOF = Symbol('EOF');
+const MAYBE_EMIT_END = Symbol('maybeEmitEnd');
+const EMITTED_END = Symbol('emittedEnd');
+const EMITTING_END = Symbol('emittingEnd');
+const EMITTED_ERROR = Symbol('emittedError');
+const CLOSED = Symbol('closed');
+const READ = Symbol('read');
+const FLUSH = Symbol('flush');
+const FLUSHCHUNK = Symbol('flushChunk');
+const ENCODING = Symbol('encoding');
+const DECODER = Symbol('decoder');
+const FLOWING = Symbol('flowing');
+const PAUSED = Symbol('paused');
+const RESUME = Symbol('resume');
+const BUFFER = Symbol('buffer');
+const PIPES = Symbol('pipes');
+const BUFFERLENGTH = Symbol('bufferLength');
+const BUFFERPUSH = Symbol('bufferPush');
+const BUFFERSHIFT = Symbol('bufferShift');
+const OBJECTMODE = Symbol('objectMode');
+// internal event when stream is destroyed
+const DESTROYED = Symbol('destroyed');
+// internal event when stream has an error
+const ERROR = Symbol('error');
+const EMITDATA = Symbol('emitData');
+const EMITEND = Symbol('emitEnd');
+const EMITEND2 = Symbol('emitEnd2');
+const ASYNC = Symbol('async');
+const ABORT = Symbol('abort');
+const ABORTED = Symbol('aborted');
+const SIGNAL = Symbol('signal');
+const DATALISTENERS = Symbol('dataListeners');
+const DISCARDED = Symbol('discarded');
+const defer = (fn) => Promise.resolve().then(fn);
+const nodefer = (fn) => fn();
+const isEndish = (ev) => ev === 'end' || ev === 'finish' || ev === 'prefinish';
+const isArrayBufferLike = (b) => b instanceof ArrayBuffer ||
+    (!!b &&
+        typeof b === 'object' &&
+        b.constructor &&
+        b.constructor.name === 'ArrayBuffer' &&
+        b.byteLength >= 0);
+const isArrayBufferView = (b) => !Buffer.isBuffer(b) && ArrayBuffer.isView(b);
+/**
+ * Internal class representing a pipe to a destination stream.
+ *
+ * @internal
+ */
+class Pipe {
+    src;
+    dest;
+    opts;
+    ondrain;
+    constructor(src, dest, opts) {
+        this.src = src;
+        this.dest = dest;
+        this.opts = opts;
+        this.ondrain = () => src[RESUME]();
+        this.dest.on('drain', this.ondrain);
+    }
+    unpipe() {
+        this.dest.removeListener('drain', this.ondrain);
+    }
+    // only here for the prototype
+    /* c8 ignore start */
+    proxyErrors(_er) { }
+    /* c8 ignore stop */
+    end() {
+        this.unpipe();
+        if (this.opts.end)
+            this.dest.end();
+    }
+}
+/**
+ * Internal class representing a pipe to a destination stream where
+ * errors are proxied.
+ *
+ * @internal
+ */
+class PipeProxyErrors extends Pipe {
+    unpipe() {
+        this.src.removeListener('error', this.proxyErrors);
+        super.unpipe();
+    }
+    constructor(src, dest, opts) {
+        super(src, dest, opts);
+        this.proxyErrors = er => dest.emit('error', er);
+        src.on('error', this.proxyErrors);
+    }
+}
+const isObjectModeOptions = (o) => !!o.objectMode;
+const isEncodingOptions = (o) => !o.objectMode && !!o.encoding && o.encoding !== 'buffer';
+/**
+ * Main export, the Minipass class
+ *
+ * `RType` is the type of data emitted, defaults to Buffer
+ *
+ * `WType` is the type of data to be written, if RType is buffer or string,
+ * then any {@link Minipass.ContiguousData} is allowed.
+ *
+ * `Events` is the set of event handler signatures that this object
+ * will emit, see {@link Minipass.Events}
+ */
+export class Minipass extends EventEmitter {
+    [FLOWING] = false;
+    [PAUSED] = false;
+    [PIPES] = [];
+    [BUFFER] = [];
+    [OBJECTMODE];
+    [ENCODING];
+    [ASYNC];
+    [DECODER];
+    [EOF] = false;
+    [EMITTED_END] = false;
+    [EMITTING_END] = false;
+    [CLOSED] = false;
+    [EMITTED_ERROR] = null;
+    [BUFFERLENGTH] = 0;
+    [DESTROYED] = false;
+    [SIGNAL];
+    [ABORTED] = false;
+    [DATALISTENERS] = 0;
+    [DISCARDED] = false;
+    /**
+     * true if the stream can be written
+     */
+    writable = true;
+    /**
+     * true if the stream can be read
+     */
+    readable = true;
+    /**
+     * If `RType` is Buffer, then options do not need to be provided.
+     * Otherwise, an options object must be provided to specify either
+     * {@link Minipass.SharedOptions.objectMode} or
+     * {@link Minipass.SharedOptions.encoding}, as appropriate.
+     */
+    constructor(...args) {
+        const options = (args[0] ||
+            {});
+        super();
+        if (options.objectMode && typeof options.encoding === 'string') {
+            throw new TypeError('Encoding and objectMode may not be used together');
+        }
+        if (isObjectModeOptions(options)) {
+            this[OBJECTMODE] = true;
+            this[ENCODING] = null;
+        }
+        else if (isEncodingOptions(options)) {
+            this[ENCODING] = options.encoding;
+            this[OBJECTMODE] = false;
+        }
+        else {
+            this[OBJECTMODE] = false;
+            this[ENCODING] = null;
+        }
+        this[ASYNC] = !!options.async;
+        this[DECODER] = this[ENCODING]
+            ? new StringDecoder(this[ENCODING])
+            : null;
+        //@ts-ignore - private option for debugging and testing
+        if (options && options.debugExposeBuffer === true) {
+            Object.defineProperty(this, 'buffer', { get: () => this[BUFFER] });
+        }
+        //@ts-ignore - private option for debugging and testing
+        if (options && options.debugExposePipes === true) {
+            Object.defineProperty(this, 'pipes', { get: () => this[PIPES] });
+        }
+        const { signal } = options;
+        if (signal) {
+            this[SIGNAL] = signal;
+            if (signal.aborted) {
+                this[ABORT]();
+            }
+            else {
+                signal.addEventListener('abort', () => this[ABORT]());
+            }
+        }
+    }
+    /**
+     * The amount of data stored in the buffer waiting to be read.
+     *
+     * For Buffer strings, this will be the total byte length.
+     * For string encoding streams, this will be the string character length,
+     * according to JavaScript's `string.length` logic.
+     * For objectMode streams, this is a count of the items waiting to be
+     * emitted.
+     */
+    get bufferLength() {
+        return this[BUFFERLENGTH];
+    }
+    /**
+     * The `BufferEncoding` currently in use, or `null`
+     */
+    get encoding() {
+        return this[ENCODING];
+    }
+    /**
+     * @deprecated - This is a read only property
+     */
+    set encoding(_enc) {
+        throw new Error('Encoding must be set at instantiation time');
+    }
+    /**
+     * @deprecated - Encoding may only be set at instantiation time
+     */
+    setEncoding(_enc) {
+        throw new Error('Encoding must be set at instantiation time');
+    }
+    /**
+     * True if this is an objectMode stream
+     */
+    get objectMode() {
+        return this[OBJECTMODE];
+    }
+    /**
+     * @deprecated - This is a read-only property
+     */
+    set objectMode(_om) {
+        throw new Error('objectMode must be set at instantiation time');
+    }
+    /**
+     * true if this is an async stream
+     */
+    get ['async']() {
+        return this[ASYNC];
+    }
+    /**
+     * Set to true to make this stream async.
+     *
+     * Once set, it cannot be unset, as this would potentially cause incorrect
+     * behavior.  Ie, a sync stream can be made async, but an async stream
+     * cannot be safely made sync.
+     */
+    set ['async'](a) {
+        this[ASYNC] = this[ASYNC] || !!a;
+    }
+    // drop everything and get out of the flow completely
+    [ABORT]() {
+        this[ABORTED] = true;
+        this.emit('abort', this[SIGNAL]?.reason);
+        this.destroy(this[SIGNAL]?.reason);
+    }
+    /**
+     * True if the stream has been aborted.
+     */
+    get aborted() {
+        return this[ABORTED];
+    }
+    /**
+     * No-op setter. Stream aborted status is set via the AbortSignal provided
+     * in the constructor options.
+     */
+    set aborted(_) { }
+    write(chunk, encoding, cb) {
+        if (this[ABORTED])
+            return false;
+        if (this[EOF])
+            throw new Error('write after end');
+        if (this[DESTROYED]) {
+            this.emit('error', Object.assign(new Error('Cannot call write after a stream was destroyed'), { code: 'ERR_STREAM_DESTROYED' }));
+            return true;
+        }
+        if (typeof encoding === 'function') {
+            cb = encoding;
+            encoding = 'utf8';
+        }
+        if (!encoding)
+            encoding = 'utf8';
+        const fn = this[ASYNC] ? defer : nodefer;
+        // convert array buffers and typed array views into buffers
+        // at some point in the future, we may want to do the opposite!
+        // leave strings and buffers as-is
+        // anything is only allowed if in object mode, so throw
+        if (!this[OBJECTMODE] && !Buffer.isBuffer(chunk)) {
+            if (isArrayBufferView(chunk)) {
+                //@ts-ignore - sinful unsafe type changing
+                chunk = Buffer.from(chunk.buffer, chunk.byteOffset, chunk.byteLength);
+            }
+            else if (isArrayBufferLike(chunk)) {
+                //@ts-ignore - sinful unsafe type changing
+                chunk = Buffer.from(chunk);
+            }
+            else if (typeof chunk !== 'string') {
+                throw new Error('Non-contiguous data written to non-objectMode stream');
+            }
+        }
+        // handle object mode up front, since it's simpler
+        // this yields better performance, fewer checks later.
+        if (this[OBJECTMODE]) {
+            // maybe impossible?
+            /* c8 ignore start */
+            if (this[FLOWING] && this[BUFFERLENGTH] !== 0)
+                this[FLUSH](true);
+            /* c8 ignore stop */
+            if (this[FLOWING])
+                this.emit('data', chunk);
+            else
+                this[BUFFERPUSH](chunk);
+            if (this[BUFFERLENGTH] !== 0)
+                this.emit('readable');
+            if (cb)
+                fn(cb);
+            return this[FLOWING];
+        }
+        // at this point the chunk is a buffer or string
+        // don't buffer it up or send it to the decoder
+        if (!chunk.length) {
+            if (this[BUFFERLENGTH] !== 0)
+                this.emit('readable');
+            if (cb)
+                fn(cb);
+            return this[FLOWING];
+        }
+        // fast-path writing strings of same encoding to a stream with
+        // an empty buffer, skipping the buffer/decoder dance
+        if (typeof chunk === 'string' &&
+            // unless it is a string already ready for us to use
+            !(encoding === this[ENCODING] && !this[DECODER]?.lastNeed)) {
+            //@ts-ignore - sinful unsafe type change
+            chunk = Buffer.from(chunk, encoding);
+        }
+        if (Buffer.isBuffer(chunk) && this[ENCODING]) {
+            //@ts-ignore - sinful unsafe type change
+            chunk = this[DECODER].write(chunk);
+        }
+        // Note: flushing CAN potentially switch us into not-flowing mode
+        if (this[FLOWING] && this[BUFFERLENGTH] !== 0)
+            this[FLUSH](true);
+        if (this[FLOWING])
+            this.emit('data', chunk);
+        else
+            this[BUFFERPUSH](chunk);
+        if (this[BUFFERLENGTH] !== 0)
+            this.emit('readable');
+        if (cb)
+            fn(cb);
+        return this[FLOWING];
+    }
+    /**
+     * Low-level explicit read method.
+     *
+     * In objectMode, the argument is ignored, and one item is returned if
+     * available.
+     *
+     * `n` is the number of bytes (or in the case of encoding streams,
+     * characters) to consume. If `n` is not provided, then the entire buffer
+     * is returned, or `null` is returned if no data is available.
+     *
+     * If `n` is greater that the amount of data in the internal buffer,
+     * then `null` is returned.
+     */
+    read(n) {
+        if (this[DESTROYED])
+            return null;
+        this[DISCARDED] = false;
+        if (this[BUFFERLENGTH] === 0 ||
+            n === 0 ||
+            (n && n > this[BUFFERLENGTH])) {
+            this[MAYBE_EMIT_END]();
+            return null;
+        }
+        if (this[OBJECTMODE])
+            n = null;
+        if (this[BUFFER].length > 1 && !this[OBJECTMODE]) {
+            // not object mode, so if we have an encoding, then RType is string
+            // otherwise, must be Buffer
+            this[BUFFER] = [
+                (this[ENCODING]
+                    ? this[BUFFER].join('')
+                    : Buffer.concat(this[BUFFER], this[BUFFERLENGTH])),
+            ];
+        }
+        const ret = this[READ](n || null, this[BUFFER][0]);
+        this[MAYBE_EMIT_END]();
+        return ret;
+    }
+    [READ](n, chunk) {
+        if (this[OBJECTMODE])
+            this[BUFFERSHIFT]();
+        else {
+            const c = chunk;
+            if (n === c.length || n === null)
+                this[BUFFERSHIFT]();
+            else if (typeof c === 'string') {
+                this[BUFFER][0] = c.slice(n);
+                chunk = c.slice(0, n);
+                this[BUFFERLENGTH] -= n;
+            }
+            else {
+                this[BUFFER][0] = c.subarray(n);
+                chunk = c.subarray(0, n);
+                this[BUFFERLENGTH] -= n;
+            }
+        }
+        this.emit('data', chunk);
+        if (!this[BUFFER].length && !this[EOF])
+            this.emit('drain');
+        return chunk;
+    }
+    end(chunk, encoding, cb) {
+        if (typeof chunk === 'function') {
+            cb = chunk;
+            chunk = undefined;
+        }
+        if (typeof encoding === 'function') {
+            cb = encoding;
+            encoding = 'utf8';
+        }
+        if (chunk !== undefined)
+            this.write(chunk, encoding);
+        if (cb)
+            this.once('end', cb);
+        this[EOF] = true;
+        this.writable = false;
+        // if we haven't written anything, then go ahead and emit,
+        // even if we're not reading.
+        // we'll re-emit if a new 'end' listener is added anyway.
+        // This makes MP more suitable to write-only use cases.
+        if (this[FLOWING] || !this[PAUSED])
+            this[MAYBE_EMIT_END]();
+        return this;
+    }
+    // don't let the internal resume be overwritten
+    [RESUME]() {
+        if (this[DESTROYED])
+            return;
+        if (!this[DATALISTENERS] && !this[PIPES].length) {
+            this[DISCARDED] = true;
+        }
+        this[PAUSED] = false;
+        this[FLOWING] = true;
+        this.emit('resume');
+        if (this[BUFFER].length)
+            this[FLUSH]();
+        else if (this[EOF])
+            this[MAYBE_EMIT_END]();
+        else
+            this.emit('drain');
+    }
+    /**
+     * Resume the stream if it is currently in a paused state
+     *
+     * If called when there are no pipe destinations or `data` event listeners,
+     * this will place the stream in a "discarded" state, where all data will
+     * be thrown away. The discarded state is removed if a pipe destination or
+     * data handler is added, if pause() is called, or if any synchronous or
+     * asynchronous iteration is started.
+     */
+    resume() {
+        return this[RESUME]();
+    }
+    /**
+     * Pause the stream
+     */
+    pause() {
+        this[FLOWING] = false;
+        this[PAUSED] = true;
+        this[DISCARDED] = false;
+    }
+    /**
+     * true if the stream has been forcibly destroyed
+     */
+    get destroyed() {
+        return this[DESTROYED];
+    }
+    /**
+     * true if the stream is currently in a flowing state, meaning that
+     * any writes will be immediately emitted.
+     */
+    get flowing() {
+        return this[FLOWING];
+    }
+    /**
+     * true if the stream is currently in a paused state
+     */
+    get paused() {
+        return this[PAUSED];
+    }
+    [BUFFERPUSH](chunk) {
+        if (this[OBJECTMODE])
+            this[BUFFERLENGTH] += 1;
+        else
+            this[BUFFERLENGTH] += chunk.length;
+        this[BUFFER].push(chunk);
+    }
+    [BUFFERSHIFT]() {
+        if (this[OBJECTMODE])
+            this[BUFFERLENGTH] -= 1;
+        else
+            this[BUFFERLENGTH] -= this[BUFFER][0].length;
+        return this[BUFFER].shift();
+    }
+    [FLUSH](noDrain = false) {
+        do { } while (this[FLUSHCHUNK](this[BUFFERSHIFT]()) &&
+            this[BUFFER].length);
+        if (!noDrain && !this[BUFFER].length && !this[EOF])
+            this.emit('drain');
+    }
+    [FLUSHCHUNK](chunk) {
+        this.emit('data', chunk);
+        return this[FLOWING];
+    }
+    /**
+     * Pipe all data emitted by this stream into the destination provided.
+     *
+     * Triggers the flow of data.
+     */
+    pipe(dest, opts) {
+        if (this[DESTROYED])
+            return dest;
+        this[DISCARDED] = false;
+        const ended = this[EMITTED_END];
+        opts = opts || {};
+        if (dest === proc.stdout || dest === proc.stderr)
+            opts.end = false;
+        else
+            opts.end = opts.end !== false;
+        opts.proxyErrors = !!opts.proxyErrors;
+        // piping an ended stream ends immediately
+        if (ended) {
+            if (opts.end)
+                dest.end();
+        }
+        else {
+            // "as" here just ignores the WType, which pipes don't care about,
+            // since they're only consuming from us, and writing to the dest
+            this[PIPES].push(!opts.proxyErrors
+                ? new Pipe(this, dest, opts)
+                : new PipeProxyErrors(this, dest, opts));
+            if (this[ASYNC])
+                defer(() => this[RESUME]());
+            else
+                this[RESUME]();
+        }
+        return dest;
+    }
+    /**
+     * Fully unhook a piped destination stream.
+     *
+     * If the destination stream was the only consumer of this stream (ie,
+     * there are no other piped destinations or `'data'` event listeners)
+     * then the flow of data will stop until there is another consumer or
+     * {@link Minipass#resume} is explicitly called.
+     */
+    unpipe(dest) {
+        const p = this[PIPES].find(p => p.dest === dest);
+        if (p) {
+            if (this[PIPES].length === 1) {
+                if (this[FLOWING] && this[DATALISTENERS] === 0) {
+                    this[FLOWING] = false;
+                }
+                this[PIPES] = [];
+            }
+            else
+                this[PIPES].splice(this[PIPES].indexOf(p), 1);
+            p.unpipe();
+        }
+    }
+    /**
+     * Alias for {@link Minipass#on}
+     */
+    addListener(ev, handler) {
+        return this.on(ev, handler);
+    }
+    /**
+     * Mostly identical to `EventEmitter.on`, with the following
+     * behavior differences to prevent data loss and unnecessary hangs:
+     *
+     * - Adding a 'data' event handler will trigger the flow of data
+     *
+     * - Adding a 'readable' event handler when there is data waiting to be read
+     *   will cause 'readable' to be emitted immediately.
+     *
+     * - Adding an 'endish' event handler ('end', 'finish', etc.) which has
+     *   already passed will cause the event to be emitted immediately and all
+     *   handlers removed.
+     *
+     * - Adding an 'error' event handler after an error has been emitted will
+     *   cause the event to be re-emitted immediately with the error previously
+     *   raised.
+     */
+    on(ev, handler) {
+        const ret = super.on(ev, handler);
+        if (ev === 'data') {
+            this[DISCARDED] = false;
+            this[DATALISTENERS]++;
+            if (!this[PIPES].length && !this[FLOWING]) {
+                this[RESUME]();
+            }
+        }
+        else if (ev === 'readable' && this[BUFFERLENGTH] !== 0) {
+            super.emit('readable');
+        }
+        else if (isEndish(ev) && this[EMITTED_END]) {
+            super.emit(ev);
+            this.removeAllListeners(ev);
+        }
+        else if (ev === 'error' && this[EMITTED_ERROR]) {
+            const h = handler;
+            if (this[ASYNC])
+                defer(() => h.call(this, this[EMITTED_ERROR]));
+            else
+                h.call(this, this[EMITTED_ERROR]);
+        }
+        return ret;
+    }
+    /**
+     * Alias for {@link Minipass#off}
+     */
+    removeListener(ev, handler) {
+        return this.off(ev, handler);
+    }
+    /**
+     * Mostly identical to `EventEmitter.off`
+     *
+     * If a 'data' event handler is removed, and it was the last consumer
+     * (ie, there are no pipe destinations or other 'data' event listeners),
+     * then the flow of data will stop until there is another consumer or
+     * {@link Minipass#resume} is explicitly called.
+     */
+    off(ev, handler) {
+        const ret = super.off(ev, handler);
+        // if we previously had listeners, and now we don't, and we don't
+        // have any pipes, then stop the flow, unless it's been explicitly
+        // put in a discarded flowing state via stream.resume().
+        if (ev === 'data') {
+            this[DATALISTENERS] = this.listeners('data').length;
+            if (this[DATALISTENERS] === 0 &&
+                !this[DISCARDED] &&
+                !this[PIPES].length) {
+                this[FLOWING] = false;
+            }
+        }
+        return ret;
+    }
+    /**
+     * Mostly identical to `EventEmitter.removeAllListeners`
+     *
+     * If all 'data' event handlers are removed, and they were the last consumer
+     * (ie, there are no pipe destinations), then the flow of data will stop
+     * until there is another consumer or {@link Minipass#resume} is explicitly
+     * called.
+     */
+    removeAllListeners(ev) {
+        const ret = super.removeAllListeners(ev);
+        if (ev === 'data' || ev === undefined) {
+            this[DATALISTENERS] = 0;
+            if (!this[DISCARDED] && !this[PIPES].length) {
+                this[FLOWING] = false;
+            }
+        }
+        return ret;
+    }
+    /**
+     * true if the 'end' event has been emitted
+     */
+    get emittedEnd() {
+        return this[EMITTED_END];
+    }
+    [MAYBE_EMIT_END]() {
+        if (!this[EMITTING_END] &&
+            !this[EMITTED_END] &&
+            !this[DESTROYED] &&
+            this[BUFFER].length === 0 &&
+            this[EOF]) {
+            this[EMITTING_END] = true;
+            this.emit('end');
+            this.emit('prefinish');
+            this.emit('finish');
+            if (this[CLOSED])
+                this.emit('close');
+            this[EMITTING_END] = false;
+        }
+    }
+    /**
+     * Mostly identical to `EventEmitter.emit`, with the following
+     * behavior differences to prevent data loss and unnecessary hangs:
+     *
+     * If the stream has been destroyed, and the event is something other
+     * than 'close' or 'error', then `false` is returned and no handlers
+     * are called.
+     *
+     * If the event is 'end', and has already been emitted, then the event
+     * is ignored. If the stream is in a paused or non-flowing state, then
+     * the event will be deferred until data flow resumes. If the stream is
+     * async, then handlers will be called on the next tick rather than
+     * immediately.
+     *
+     * If the event is 'close', and 'end' has not yet been emitted, then
+     * the event will be deferred until after 'end' is emitted.
+     *
+     * If the event is 'error', and an AbortSignal was provided for the stream,
+     * and there are no listeners, then the event is ignored, matching the
+     * behavior of node core streams in the presense of an AbortSignal.
+     *
+     * If the event is 'finish' or 'prefinish', then all listeners will be
+     * removed after emitting the event, to prevent double-firing.
+     */
+    emit(ev, ...args) {
+        const data = args[0];
+        // error and close are only events allowed after calling destroy()
+        if (ev !== 'error' &&
+            ev !== 'close' &&
+            ev !== DESTROYED &&
+            this[DESTROYED]) {
+            return false;
+        }
+        else if (ev === 'data') {
+            return !this[OBJECTMODE] && !data
+                ? false
+                : this[ASYNC]
+                    ? (defer(() => this[EMITDATA](data)), true)
+                    : this[EMITDATA](data);
+        }
+        else if (ev === 'end') {
+            return this[EMITEND]();
+        }
+        else if (ev === 'close') {
+            this[CLOSED] = true;
+            // don't emit close before 'end' and 'finish'
+            if (!this[EMITTED_END] && !this[DESTROYED])
+                return false;
+            const ret = super.emit('close');
+            this.removeAllListeners('close');
+            return ret;
+        }
+        else if (ev === 'error') {
+            this[EMITTED_ERROR] = data;
+            super.emit(ERROR, data);
+            const ret = !this[SIGNAL] || this.listeners('error').length
+                ? super.emit('error', data)
+                : false;
+            this[MAYBE_EMIT_END]();
+            return ret;
+        }
+        else if (ev === 'resume') {
+            const ret = super.emit('resume');
+            this[MAYBE_EMIT_END]();
+            return ret;
+        }
+        else if (ev === 'finish' || ev === 'prefinish') {
+            const ret = super.emit(ev);
+            this.removeAllListeners(ev);
+            return ret;
+        }
+        // Some other unknown event
+        const ret = super.emit(ev, ...args);
+        this[MAYBE_EMIT_END]();
+        return ret;
+    }
+    [EMITDATA](data) {
+        for (const p of this[PIPES]) {
+            if (p.dest.write(data) === false)
+                this.pause();
+        }
+        const ret = this[DISCARDED] ? false : super.emit('data', data);
+        this[MAYBE_EMIT_END]();
+        return ret;
+    }
+    [EMITEND]() {
+        if (this[EMITTED_END])
+            return false;
+        this[EMITTED_END] = true;
+        this.readable = false;
+        return this[ASYNC]
+            ? (defer(() => this[EMITEND2]()), true)
+            : this[EMITEND2]();
+    }
+    [EMITEND2]() {
+        if (this[DECODER]) {
+            const data = this[DECODER].end();
+            if (data) {
+                for (const p of this[PIPES]) {
+                    p.dest.write(data);
+                }
+                if (!this[DISCARDED])
+                    super.emit('data', data);
+            }
+        }
+        for (const p of this[PIPES]) {
+            p.end();
+        }
+        const ret = super.emit('end');
+        this.removeAllListeners('end');
+        return ret;
+    }
+    /**
+     * Return a Promise that resolves to an array of all emitted data once
+     * the stream ends.
+     */
+    async collect() {
+        const buf = Object.assign([], {
+            dataLength: 0,
+        });
+        if (!this[OBJECTMODE])
+            buf.dataLength = 0;
+        // set the promise first, in case an error is raised
+        // by triggering the flow here.
+        const p = this.promise();
+        this.on('data', c => {
+            buf.push(c);
+            if (!this[OBJECTMODE])
+                buf.dataLength += c.length;
+        });
+        await p;
+        return buf;
+    }
+    /**
+     * Return a Promise that resolves to the concatenation of all emitted data
+     * once the stream ends.
+     *
+     * Not allowed on objectMode streams.
+     */
+    async concat() {
+        if (this[OBJECTMODE]) {
+            throw new Error('cannot concat in objectMode');
+        }
+        const buf = await this.collect();
+        return (this[ENCODING]
+            ? buf.join('')
+            : Buffer.concat(buf, buf.dataLength));
+    }
+    /**
+     * Return a void Promise that resolves once the stream ends.
+     */
+    async promise() {
+        return new Promise((resolve, reject) => {
+            this.on(DESTROYED, () => reject(new Error('stream destroyed')));
+            this.on('error', er => reject(er));
+            this.on('end', () => resolve());
+        });
+    }
+    /**
+     * Asynchronous `for await of` iteration.
+     *
+     * This will continue emitting all chunks until the stream terminates.
+     */
+    [Symbol.asyncIterator]() {
+        // set this up front, in case the consumer doesn't call next()
+        // right away.
+        this[DISCARDED] = false;
+        let stopped = false;
+        const stop = async () => {
+            this.pause();
+            stopped = true;
+            return { value: undefined, done: true };
+        };
+        const next = () => {
+            if (stopped)
+                return stop();
+            const res = this.read();
+            if (res !== null)
+                return Promise.resolve({ done: false, value: res });
+            if (this[EOF])
+                return stop();
+            let resolve;
+            let reject;
+            const onerr = (er) => {
+                this.off('data', ondata);
+                this.off('end', onend);
+                this.off(DESTROYED, ondestroy);
+                stop();
+                reject(er);
+            };
+            const ondata = (value) => {
+                this.off('error', onerr);
+                this.off('end', onend);
+                this.off(DESTROYED, ondestroy);
+                this.pause();
+                resolve({ value, done: !!this[EOF] });
+            };
+            const onend = () => {
+                this.off('error', onerr);
+                this.off('data', ondata);
+                this.off(DESTROYED, ondestroy);
+                stop();
+                resolve({ done: true, value: undefined });
+            };
+            const ondestroy = () => onerr(new Error('stream destroyed'));
+            return new Promise((res, rej) => {
+                reject = rej;
+                resolve = res;
+                this.once(DESTROYED, ondestroy);
+                this.once('error', onerr);
+                this.once('end', onend);
+                this.once('data', ondata);
+            });
+        };
+        return {
+            next,
+            throw: stop,
+            return: stop,
+            [Symbol.asyncIterator]() {
+                return this;
+            },
+        };
+    }
+    /**
+     * Synchronous `for of` iteration.
+     *
+     * The iteration will terminate when the internal buffer runs out, even
+     * if the stream has not yet terminated.
+     */
+    [Symbol.iterator]() {
+        // set this up front, in case the consumer doesn't call next()
+        // right away.
+        this[DISCARDED] = false;
+        let stopped = false;
+        const stop = () => {
+            this.pause();
+            this.off(ERROR, stop);
+            this.off(DESTROYED, stop);
+            this.off('end', stop);
+            stopped = true;
+            return { done: true, value: undefined };
+        };
+        const next = () => {
+            if (stopped)
+                return stop();
+            const value = this.read();
+            return value === null ? stop() : { done: false, value };
+        };
+        this.once('end', stop);
+        this.once(ERROR, stop);
+        this.once(DESTROYED, stop);
+        return {
+            next,
+            throw: stop,
+            return: stop,
+            [Symbol.iterator]() {
+                return this;
+            },
+        };
+    }
+    /**
+     * Destroy a stream, preventing it from being used for any further purpose.
+     *
+     * If the stream has a `close()` method, then it will be called on
+     * destruction.
+     *
+     * After destruction, any attempt to write data, read data, or emit most
+     * events will be ignored.
+     *
+     * If an error argument is provided, then it will be emitted in an
+     * 'error' event.
+     */
+    destroy(er) {
+        if (this[DESTROYED]) {
+            if (er)
+                this.emit('error', er);
+            else
+                this.emit(DESTROYED);
+            return this;
+        }
+        this[DESTROYED] = true;
+        this[DISCARDED] = true;
+        // throw away all buffered data, it's never coming out
+        this[BUFFER].length = 0;
+        this[BUFFERLENGTH] = 0;
+        const wc = this;
+        if (typeof wc.close === 'function' && !this[CLOSED])
+            wc.close();
+        if (er)
+            this.emit('error', er);
+        // if no error to emit, still reject pending promises
+        else
+            this.emit(DESTROYED);
+        return this;
+    }
+    /**
+     * Alias for {@link isStream}
+     *
+     * Former export location, maintained for backwards compatibility.
+     *
+     * @deprecated
+     */
+    static get isStream() {
+        return isStream;
+    }
+}
+//# sourceMappingURL=index.js.map
\ No newline at end of file
diff --git a/node_modules/minipass/dist/esm/index.js.map b/node_modules/minipass/dist/esm/index.js.map
new file mode 100644
index 0000000..741425a
--- /dev/null
+++ b/node_modules/minipass/dist/esm/index.js.map
@@ -0,0 +1 @@
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proc =\n  typeof process === 'object' && process\n    ? process\n    : {\n        stdout: null,\n        stderr: null,\n      }\nimport { EventEmitter } from 'node:events'\nimport Stream from 'node:stream'\nimport { StringDecoder } from 'node:string_decoder'\n\n/**\n * Same as StringDecoder, but exposing the `lastNeed` flag on the type\n */\ntype SD = StringDecoder & { lastNeed: boolean }\n\nexport type { SD, Pipe, PipeProxyErrors }\n\n/**\n * Return true if the argument is a Minipass stream, Node stream, or something\n * else that Minipass can interact with.\n */\nexport const isStream = (\n  s: any\n): s is Minipass.Readable | Minipass.Writable =>\n  !!s &&\n  typeof s === 'object' &&\n  (s instanceof Minipass ||\n    s instanceof Stream ||\n    isReadable(s) ||\n    isWritable(s))\n\n/**\n * Return true if the argument is a valid {@link Minipass.Readable}\n */\nexport const isReadable = (s: any): s is Minipass.Readable =>\n  !!s &&\n  typeof s === 'object' &&\n  s instanceof EventEmitter &&\n  typeof (s as Minipass.Readable).pipe === 'function' &&\n  // node core Writable streams have a pipe() method, but it throws\n  (s as Minipass.Readable).pipe !== Stream.Writable.prototype.pipe\n\n/**\n * Return true if the argument is a valid {@link Minipass.Writable}\n */\nexport const isWritable = (s: any): s is Minipass.Readable =>\n  !!s &&\n  typeof s === 'object' &&\n  s instanceof EventEmitter &&\n  typeof (s as Minipass.Writable).write === 'function' &&\n  typeof (s as Minipass.Writable).end === 'function'\n\nconst EOF = Symbol('EOF')\nconst MAYBE_EMIT_END = Symbol('maybeEmitEnd')\nconst EMITTED_END = Symbol('emittedEnd')\nconst EMITTING_END = Symbol('emittingEnd')\nconst EMITTED_ERROR = Symbol('emittedError')\nconst CLOSED = Symbol('closed')\nconst READ = Symbol('read')\nconst FLUSH = Symbol('flush')\nconst FLUSHCHUNK = Symbol('flushChunk')\nconst ENCODING = Symbol('encoding')\nconst DECODER = Symbol('decoder')\nconst FLOWING = Symbol('flowing')\nconst PAUSED = Symbol('paused')\nconst RESUME = Symbol('resume')\nconst BUFFER = Symbol('buffer')\nconst PIPES = Symbol('pipes')\nconst BUFFERLENGTH = Symbol('bufferLength')\nconst BUFFERPUSH = Symbol('bufferPush')\nconst BUFFERSHIFT = Symbol('bufferShift')\nconst OBJECTMODE = Symbol('objectMode')\n// internal event when stream is destroyed\nconst DESTROYED = Symbol('destroyed')\n// internal event when stream has an error\nconst ERROR = Symbol('error')\nconst EMITDATA = Symbol('emitData')\nconst EMITEND = Symbol('emitEnd')\nconst EMITEND2 = Symbol('emitEnd2')\nconst ASYNC = Symbol('async')\nconst ABORT = Symbol('abort')\nconst ABORTED = Symbol('aborted')\nconst SIGNAL = Symbol('signal')\nconst DATALISTENERS = Symbol('dataListeners')\nconst DISCARDED = Symbol('discarded')\n\nconst defer = (fn: (...a: any[]) => any) => Promise.resolve().then(fn)\nconst nodefer = (fn: (...a: any[]) => any) => fn()\n\n// events that mean 'the stream is over'\n// these are treated specially, and re-emitted\n// if they are listened for after emitting.\ntype EndishEvent = 'end' | 'finish' | 'prefinish'\nconst isEndish = (ev: any): ev is EndishEvent =>\n  ev === 'end' || ev === 'finish' || ev === 'prefinish'\n\nconst isArrayBufferLike = (b: any): b is ArrayBufferLike =>\n  b instanceof ArrayBuffer ||\n  (!!b &&\n    typeof b === 'object' &&\n    b.constructor &&\n    b.constructor.name === 'ArrayBuffer' &&\n    b.byteLength >= 0)\n\nconst isArrayBufferView = (b: any): b is ArrayBufferView =>\n  !Buffer.isBuffer(b) && ArrayBuffer.isView(b)\n\n/**\n * Options that may be passed to stream.pipe()\n */\nexport interface PipeOptions {\n  /**\n   * end the destination stream when the source stream ends\n   */\n  end?: boolean\n  /**\n   * proxy errors from the source stream to the destination stream\n   */\n  proxyErrors?: boolean\n}\n\n/**\n * Internal class representing a pipe to a destination stream.\n *\n * @internal\n */\nclass Pipe<T extends unknown> {\n  src: Minipass<T>\n  dest: Minipass<any, T>\n  opts: PipeOptions\n  ondrain: () => any\n  constructor(\n    src: Minipass<T>,\n    dest: Minipass.Writable,\n    opts: PipeOptions\n  ) {\n    this.src = src\n    this.dest = dest as Minipass<any, T>\n    this.opts = opts\n    this.ondrain = () => src[RESUME]()\n    this.dest.on('drain', this.ondrain)\n  }\n  unpipe() {\n    this.dest.removeListener('drain', this.ondrain)\n  }\n  // only here for the prototype\n  /* c8 ignore start */\n  proxyErrors(_er: any) {}\n  /* c8 ignore stop */\n  end() {\n    this.unpipe()\n    if (this.opts.end) this.dest.end()\n  }\n}\n\n/**\n * Internal class representing a pipe to a destination stream where\n * errors are proxied.\n *\n * @internal\n */\nclass PipeProxyErrors<T> extends Pipe<T> {\n  unpipe() {\n    this.src.removeListener('error', this.proxyErrors)\n    super.unpipe()\n  }\n  constructor(\n    src: Minipass<T>,\n    dest: Minipass.Writable,\n    opts: PipeOptions\n  ) {\n    super(src, dest, opts)\n    this.proxyErrors = er => dest.emit('error', er)\n    src.on('error', this.proxyErrors)\n  }\n}\n\nexport namespace Minipass {\n  /**\n   * Encoding used to create a stream that outputs strings rather than\n   * Buffer objects.\n   */\n  export type Encoding = BufferEncoding | 'buffer' | null\n\n  /**\n   * Any stream that Minipass can pipe into\n   */\n  export type Writable =\n    | Minipass<any, any, any>\n    | NodeJS.WriteStream\n    | (NodeJS.WriteStream & { fd: number })\n    | (EventEmitter & {\n        end(): any\n        write(chunk: any, ...args: any[]): any\n      })\n\n  /**\n   * Any stream that can be read from\n   */\n  export type Readable =\n    | Minipass<any, any, any>\n    | NodeJS.ReadStream\n    | (NodeJS.ReadStream & { fd: number })\n    | (EventEmitter & {\n        pause(): any\n        resume(): any\n        pipe(...destArgs: any[]): any\n      })\n\n  /**\n   * Utility type that can be iterated sync or async\n   */\n  export type DualIterable<T> = Iterable<T> & AsyncIterable<T>\n\n  type EventArguments = Record<string | symbol, unknown[]>\n\n  /**\n   * The listing of events that a Minipass class can emit.\n   * Extend this when extending the Minipass class, and pass as\n   * the third template argument.  The key is the name of the event,\n   * and the value is the argument list.\n   *\n   * Any undeclared events will still be allowed, but the handler will get\n   * arguments as `unknown[]`.\n   */\n  export interface Events<RType extends any = Buffer>\n    extends EventArguments {\n    readable: []\n    data: [chunk: RType]\n    error: [er: unknown]\n    abort: [reason: unknown]\n    drain: []\n    resume: []\n    end: []\n    finish: []\n    prefinish: []\n    close: []\n    [DESTROYED]: [er?: unknown]\n    [ERROR]: [er: unknown]\n  }\n\n  /**\n   * String or buffer-like data that can be joined and sliced\n   */\n  export type ContiguousData =\n    | Buffer\n    | ArrayBufferLike\n    | ArrayBufferView\n    | string\n  export type BufferOrString = Buffer | string\n\n  /**\n   * Options passed to the Minipass constructor.\n   */\n  export type SharedOptions = {\n    /**\n     * Defer all data emission and other events until the end of the\n     * current tick, similar to Node core streams\n     */\n    async?: boolean\n    /**\n     * A signal which will abort the stream\n     */\n    signal?: AbortSignal\n    /**\n     * Output string encoding. Set to `null` or `'buffer'` (or omit) to\n     * emit Buffer objects rather than strings.\n     *\n     * Conflicts with `objectMode`\n     */\n    encoding?: BufferEncoding | null | 'buffer'\n    /**\n     * Output data exactly as it was written, supporting non-buffer/string\n     * data (such as arbitrary objects, falsey values, etc.)\n     *\n     * Conflicts with `encoding`\n     */\n    objectMode?: boolean\n  }\n\n  /**\n   * Options for a string encoded output\n   */\n  export type EncodingOptions = SharedOptions & {\n    encoding: BufferEncoding\n    objectMode?: false\n  }\n\n  /**\n   * Options for contiguous data buffer output\n   */\n  export type BufferOptions = SharedOptions & {\n    encoding?: null | 'buffer'\n    objectMode?: false\n  }\n\n  /**\n   * Options for objectMode arbitrary output\n   */\n  export type ObjectModeOptions = SharedOptions & {\n    objectMode: true\n    encoding?: null\n  }\n\n  /**\n   * Utility type to determine allowed options based on read type\n   */\n  export type Options<T> =\n    | ObjectModeOptions\n    | (T extends string\n        ? EncodingOptions\n        : T extends Buffer\n        ? BufferOptions\n        : SharedOptions)\n}\n\nconst isObjectModeOptions = (\n  o: Minipass.SharedOptions\n): o is Minipass.ObjectModeOptions => !!o.objectMode\n\nconst isEncodingOptions = (\n  o: Minipass.SharedOptions\n): o is Minipass.EncodingOptions =>\n  !o.objectMode && !!o.encoding && o.encoding !== 'buffer'\n\n/**\n * Main export, the Minipass class\n *\n * `RType` is the type of data emitted, defaults to Buffer\n *\n * `WType` is the type of data to be written, if RType is buffer or string,\n * then any {@link Minipass.ContiguousData} is allowed.\n *\n * `Events` is the set of event handler signatures that this object\n * will emit, see {@link Minipass.Events}\n */\nexport class Minipass<\n    RType extends unknown = Buffer,\n    WType extends unknown = RType extends Minipass.BufferOrString\n      ? Minipass.ContiguousData\n      : RType,\n    Events extends Minipass.Events<RType> = Minipass.Events<RType>\n  >\n  extends EventEmitter\n  implements Minipass.DualIterable<RType>\n{\n  [FLOWING]: boolean = false;\n  [PAUSED]: boolean = false;\n  [PIPES]: Pipe<RType>[] = [];\n  [BUFFER]: RType[] = [];\n  [OBJECTMODE]: boolean;\n  [ENCODING]: BufferEncoding | null;\n  [ASYNC]: boolean;\n  [DECODER]: SD | null;\n  [EOF]: boolean = false;\n  [EMITTED_END]: boolean = false;\n  [EMITTING_END]: boolean = false;\n  [CLOSED]: boolean = false;\n  [EMITTED_ERROR]: unknown = null;\n  [BUFFERLENGTH]: number = 0;\n  [DESTROYED]: boolean = false;\n  [SIGNAL]?: AbortSignal;\n  [ABORTED]: boolean = false;\n  [DATALISTENERS]: number = 0;\n  [DISCARDED]: boolean = false\n\n  /**\n   * true if the stream can be written\n   */\n  writable: boolean = true\n  /**\n   * true if the stream can be read\n   */\n  readable: boolean = true\n\n  /**\n   * If `RType` is Buffer, then options do not need to be provided.\n   * Otherwise, an options object must be provided to specify either\n   * {@link Minipass.SharedOptions.objectMode} or\n   * {@link Minipass.SharedOptions.encoding}, as appropriate.\n   */\n  constructor(\n    ...args:\n      | [Minipass.ObjectModeOptions]\n      | (RType extends Buffer\n          ? [] | [Minipass.Options<RType>]\n          : [Minipass.Options<RType>])\n  ) {\n    const options: Minipass.Options<RType> = (args[0] ||\n      {}) as Minipass.Options<RType>\n    super()\n    if (options.objectMode && typeof options.encoding === 'string') {\n      throw new TypeError(\n        'Encoding and objectMode may not be used together'\n      )\n    }\n    if (isObjectModeOptions(options)) {\n      this[OBJECTMODE] = true\n      this[ENCODING] = null\n    } else if (isEncodingOptions(options)) {\n      this[ENCODING] = options.encoding\n      this[OBJECTMODE] = false\n    } else {\n      this[OBJECTMODE] = false\n      this[ENCODING] = null\n    }\n    this[ASYNC] = !!options.async\n    this[DECODER] = this[ENCODING]\n      ? (new StringDecoder(this[ENCODING]) as SD)\n      : null\n\n    //@ts-ignore - private option for debugging and testing\n    if (options && options.debugExposeBuffer === true) {\n      Object.defineProperty(this, 'buffer', { get: () => this[BUFFER] })\n    }\n    //@ts-ignore - private option for debugging and testing\n    if (options && options.debugExposePipes === true) {\n      Object.defineProperty(this, 'pipes', { get: () => this[PIPES] })\n    }\n\n    const { signal } = options\n    if (signal) {\n      this[SIGNAL] = signal\n      if (signal.aborted) {\n        this[ABORT]()\n      } else {\n        signal.addEventListener('abort', () => this[ABORT]())\n      }\n    }\n  }\n\n  /**\n   * The amount of data stored in the buffer waiting to be read.\n   *\n   * For Buffer strings, this will be the total byte length.\n   * For string encoding streams, this will be the string character length,\n   * according to JavaScript's `string.length` logic.\n   * For objectMode streams, this is a count of the items waiting to be\n   * emitted.\n   */\n  get bufferLength() {\n    return this[BUFFERLENGTH]\n  }\n\n  /**\n   * The `BufferEncoding` currently in use, or `null`\n   */\n  get encoding() {\n    return this[ENCODING]\n  }\n\n  /**\n   * @deprecated - This is a read only property\n   */\n  set encoding(_enc) {\n    throw new Error('Encoding must be set at instantiation time')\n  }\n\n  /**\n   * @deprecated - Encoding may only be set at instantiation time\n   */\n  setEncoding(_enc: Minipass.Encoding) {\n    throw new Error('Encoding must be set at instantiation time')\n  }\n\n  /**\n   * True if this is an objectMode stream\n   */\n  get objectMode() {\n    return this[OBJECTMODE]\n  }\n\n  /**\n   * @deprecated - This is a read-only property\n   */\n  set objectMode(_om) {\n    throw new Error('objectMode must be set at instantiation time')\n  }\n\n  /**\n   * true if this is an async stream\n   */\n  get ['async'](): boolean {\n    return this[ASYNC]\n  }\n  /**\n   * Set to true to make this stream async.\n   *\n   * Once set, it cannot be unset, as this would potentially cause incorrect\n   * behavior.  Ie, a sync stream can be made async, but an async stream\n   * cannot be safely made sync.\n   */\n  set ['async'](a: boolean) {\n    this[ASYNC] = this[ASYNC] || !!a\n  }\n\n  // drop everything and get out of the flow completely\n  [ABORT]() {\n    this[ABORTED] = true\n    this.emit('abort', this[SIGNAL]?.reason)\n    this.destroy(this[SIGNAL]?.reason)\n  }\n\n  /**\n   * True if the stream has been aborted.\n   */\n  get aborted() {\n    return this[ABORTED]\n  }\n  /**\n   * No-op setter. Stream aborted status is set via the AbortSignal provided\n   * in the constructor options.\n   */\n  set aborted(_) {}\n\n  /**\n   * Write data into the stream\n   *\n   * If the chunk written is a string, and encoding is not specified, then\n   * `utf8` will be assumed. If the stream encoding matches the encoding of\n   * a written string, and the state of the string decoder allows it, then\n   * the string will be passed through to either the output or the internal\n   * buffer without any processing. Otherwise, it will be turned into a\n   * Buffer object for processing into the desired encoding.\n   *\n   * If provided, `cb` function is called immediately before return for\n   * sync streams, or on next tick for async streams, because for this\n   * base class, a chunk is considered \"processed\" once it is accepted\n   * and either emitted or buffered. That is, the callback does not indicate\n   * that the chunk has been eventually emitted, though of course child\n   * classes can override this function to do whatever processing is required\n   * and call `super.write(...)` only once processing is completed.\n   */\n  write(chunk: WType, cb?: () => void): boolean\n  write(\n    chunk: WType,\n    encoding?: Minipass.Encoding,\n    cb?: () => void\n  ): boolean\n  write(\n    chunk: WType,\n    encoding?: Minipass.Encoding | (() => void),\n    cb?: () => void\n  ): boolean {\n    if (this[ABORTED]) return false\n    if (this[EOF]) throw new Error('write after end')\n\n    if (this[DESTROYED]) {\n      this.emit(\n        'error',\n        Object.assign(\n          new Error('Cannot call write after a stream was destroyed'),\n          { code: 'ERR_STREAM_DESTROYED' }\n        )\n      )\n      return true\n    }\n\n    if (typeof encoding === 'function') {\n      cb = encoding\n      encoding = 'utf8'\n    }\n\n    if (!encoding) encoding = 'utf8'\n\n    const fn = this[ASYNC] ? defer : nodefer\n\n    // convert array buffers and typed array views into buffers\n    // at some point in the future, we may want to do the opposite!\n    // leave strings and buffers as-is\n    // anything is only allowed if in object mode, so throw\n    if (!this[OBJECTMODE] && !Buffer.isBuffer(chunk)) {\n      if (isArrayBufferView(chunk)) {\n        //@ts-ignore - sinful unsafe type changing\n        chunk = Buffer.from(\n          chunk.buffer,\n          chunk.byteOffset,\n          chunk.byteLength\n        )\n      } else if (isArrayBufferLike(chunk)) {\n        //@ts-ignore - sinful unsafe type changing\n        chunk = Buffer.from(chunk)\n      } else if (typeof chunk !== 'string') {\n        throw new Error(\n          'Non-contiguous data written to non-objectMode stream'\n        )\n      }\n    }\n\n    // handle object mode up front, since it's simpler\n    // this yields better performance, fewer checks later.\n    if (this[OBJECTMODE]) {\n      // maybe impossible?\n      /* c8 ignore start */\n      if (this[FLOWING] && this[BUFFERLENGTH] !== 0) this[FLUSH](true)\n      /* c8 ignore stop */\n\n      if (this[FLOWING]) this.emit('data', chunk as unknown as RType)\n      else this[BUFFERPUSH](chunk as unknown as RType)\n\n      if (this[BUFFERLENGTH] !== 0) this.emit('readable')\n\n      if (cb) fn(cb)\n\n      return this[FLOWING]\n    }\n\n    // at this point the chunk is a buffer or string\n    // don't buffer it up or send it to the decoder\n    if (!(chunk as Minipass.BufferOrString).length) {\n      if (this[BUFFERLENGTH] !== 0) this.emit('readable')\n      if (cb) fn(cb)\n      return this[FLOWING]\n    }\n\n    // fast-path writing strings of same encoding to a stream with\n    // an empty buffer, skipping the buffer/decoder dance\n    if (\n      typeof chunk === 'string' &&\n      // unless it is a string already ready for us to use\n      !(encoding === this[ENCODING] && !this[DECODER]?.lastNeed)\n    ) {\n      //@ts-ignore - sinful unsafe type change\n      chunk = Buffer.from(chunk, encoding)\n    }\n\n    if (Buffer.isBuffer(chunk) && this[ENCODING]) {\n      //@ts-ignore - sinful unsafe type change\n      chunk = this[DECODER].write(chunk)\n    }\n\n    // Note: flushing CAN potentially switch us into not-flowing mode\n    if (this[FLOWING] && this[BUFFERLENGTH] !== 0) this[FLUSH](true)\n\n    if (this[FLOWING]) this.emit('data', chunk as unknown as RType)\n    else this[BUFFERPUSH](chunk as unknown as RType)\n\n    if (this[BUFFERLENGTH] !== 0) this.emit('readable')\n\n    if (cb) fn(cb)\n\n    return this[FLOWING]\n  }\n\n  /**\n   * Low-level explicit read method.\n   *\n   * In objectMode, the argument is ignored, and one item is returned if\n   * available.\n   *\n   * `n` is the number of bytes (or in the case of encoding streams,\n   * characters) to consume. If `n` is not provided, then the entire buffer\n   * is returned, or `null` is returned if no data is available.\n   *\n   * If `n` is greater that the amount of data in the internal buffer,\n   * then `null` is returned.\n   */\n  read(n?: number | null): RType | null {\n    if (this[DESTROYED]) return null\n    this[DISCARDED] = false\n\n    if (\n      this[BUFFERLENGTH] === 0 ||\n      n === 0 ||\n      (n && n > this[BUFFERLENGTH])\n    ) {\n      this[MAYBE_EMIT_END]()\n      return null\n    }\n\n    if (this[OBJECTMODE]) n = null\n\n    if (this[BUFFER].length > 1 && !this[OBJECTMODE]) {\n      // not object mode, so if we have an encoding, then RType is string\n      // otherwise, must be Buffer\n      this[BUFFER] = [\n        (this[ENCODING]\n          ? this[BUFFER].join('')\n          : Buffer.concat(\n              this[BUFFER] as Buffer[],\n              this[BUFFERLENGTH]\n            )) as RType,\n      ]\n    }\n\n    const ret = this[READ](n || null, this[BUFFER][0] as RType)\n    this[MAYBE_EMIT_END]()\n    return ret\n  }\n\n  [READ](n: number | null, chunk: RType) {\n    if (this[OBJECTMODE]) this[BUFFERSHIFT]()\n    else {\n      const c = chunk as Minipass.BufferOrString\n      if (n === c.length || n === null) this[BUFFERSHIFT]()\n      else if (typeof c === 'string') {\n        this[BUFFER][0] = c.slice(n) as RType\n        chunk = c.slice(0, n) as RType\n        this[BUFFERLENGTH] -= n\n      } else {\n        this[BUFFER][0] = c.subarray(n) as RType\n        chunk = c.subarray(0, n) as RType\n        this[BUFFERLENGTH] -= n\n      }\n    }\n\n    this.emit('data', chunk)\n\n    if (!this[BUFFER].length && !this[EOF]) this.emit('drain')\n\n    return chunk\n  }\n\n  /**\n   * End the stream, optionally providing a final write.\n   *\n   * See {@link Minipass#write} for argument descriptions\n   */\n  end(cb?: () => void): this\n  end(chunk: WType, cb?: () => void): this\n  end(chunk: WType, encoding?: Minipass.Encoding, cb?: () => void): this\n  end(\n    chunk?: WType | (() => void),\n    encoding?: Minipass.Encoding | (() => void),\n    cb?: () => void\n  ): this {\n    if (typeof chunk === 'function') {\n      cb = chunk as () => void\n      chunk = undefined\n    }\n    if (typeof encoding === 'function') {\n      cb = encoding\n      encoding = 'utf8'\n    }\n    if (chunk !== undefined) this.write(chunk, encoding)\n    if (cb) this.once('end', cb)\n    this[EOF] = true\n    this.writable = false\n\n    // if we haven't written anything, then go ahead and emit,\n    // even if we're not reading.\n    // we'll re-emit if a new 'end' listener is added anyway.\n    // This makes MP more suitable to write-only use cases.\n    if (this[FLOWING] || !this[PAUSED]) this[MAYBE_EMIT_END]()\n    return this\n  }\n\n  // don't let the internal resume be overwritten\n  [RESUME]() {\n    if (this[DESTROYED]) return\n\n    if (!this[DATALISTENERS] && !this[PIPES].length) {\n      this[DISCARDED] = true\n    }\n    this[PAUSED] = false\n    this[FLOWING] = true\n    this.emit('resume')\n    if (this[BUFFER].length) this[FLUSH]()\n    else if (this[EOF]) this[MAYBE_EMIT_END]()\n    else this.emit('drain')\n  }\n\n  /**\n   * Resume the stream if it is currently in a paused state\n   *\n   * If called when there are no pipe destinations or `data` event listeners,\n   * this will place the stream in a \"discarded\" state, where all data will\n   * be thrown away. The discarded state is removed if a pipe destination or\n   * data handler is added, if pause() is called, or if any synchronous or\n   * asynchronous iteration is started.\n   */\n  resume() {\n    return this[RESUME]()\n  }\n\n  /**\n   * Pause the stream\n   */\n  pause() {\n    this[FLOWING] = false\n    this[PAUSED] = true\n    this[DISCARDED] = false\n  }\n\n  /**\n   * true if the stream has been forcibly destroyed\n   */\n  get destroyed() {\n    return this[DESTROYED]\n  }\n\n  /**\n   * true if the stream is currently in a flowing state, meaning that\n   * any writes will be immediately emitted.\n   */\n  get flowing() {\n    return this[FLOWING]\n  }\n\n  /**\n   * true if the stream is currently in a paused state\n   */\n  get paused() {\n    return this[PAUSED]\n  }\n\n  [BUFFERPUSH](chunk: RType) {\n    if (this[OBJECTMODE]) this[BUFFERLENGTH] += 1\n    else this[BUFFERLENGTH] += (chunk as Minipass.BufferOrString).length\n    this[BUFFER].push(chunk)\n  }\n\n  [BUFFERSHIFT](): RType {\n    if (this[OBJECTMODE]) this[BUFFERLENGTH] -= 1\n    else\n      this[BUFFERLENGTH] -= (\n        this[BUFFER][0] as Minipass.BufferOrString\n      ).length\n    return this[BUFFER].shift() as RType\n  }\n\n  [FLUSH](noDrain: boolean = false) {\n    do {} while (\n      this[FLUSHCHUNK](this[BUFFERSHIFT]()) &&\n      this[BUFFER].length\n    )\n\n    if (!noDrain && !this[BUFFER].length && !this[EOF]) this.emit('drain')\n  }\n\n  [FLUSHCHUNK](chunk: RType) {\n    this.emit('data', chunk)\n    return this[FLOWING]\n  }\n\n  /**\n   * Pipe all data emitted by this stream into the destination provided.\n   *\n   * Triggers the flow of data.\n   */\n  pipe<W extends Minipass.Writable>(dest: W, opts?: PipeOptions): W {\n    if (this[DESTROYED]) return dest\n    this[DISCARDED] = false\n\n    const ended = this[EMITTED_END]\n    opts = opts || {}\n    if (dest === proc.stdout || dest === proc.stderr) opts.end = false\n    else opts.end = opts.end !== false\n    opts.proxyErrors = !!opts.proxyErrors\n\n    // piping an ended stream ends immediately\n    if (ended) {\n      if (opts.end) dest.end()\n    } else {\n      // \"as\" here just ignores the WType, which pipes don't care about,\n      // since they're only consuming from us, and writing to the dest\n      this[PIPES].push(\n        !opts.proxyErrors\n          ? new Pipe<RType>(this as Minipass<RType>, dest, opts)\n          : new PipeProxyErrors<RType>(this as Minipass<RType>, dest, opts)\n      )\n      if (this[ASYNC]) defer(() => this[RESUME]())\n      else this[RESUME]()\n    }\n\n    return dest\n  }\n\n  /**\n   * Fully unhook a piped destination stream.\n   *\n   * If the destination stream was the only consumer of this stream (ie,\n   * there are no other piped destinations or `'data'` event listeners)\n   * then the flow of data will stop until there is another consumer or\n   * {@link Minipass#resume} is explicitly called.\n   */\n  unpipe<W extends Minipass.Writable>(dest: W) {\n    const p = this[PIPES].find(p => p.dest === dest)\n    if (p) {\n      if (this[PIPES].length === 1) {\n        if (this[FLOWING] && this[DATALISTENERS] === 0) {\n          this[FLOWING] = false\n        }\n        this[PIPES] = []\n      } else this[PIPES].splice(this[PIPES].indexOf(p), 1)\n      p.unpipe()\n    }\n  }\n\n  /**\n   * Alias for {@link Minipass#on}\n   */\n  addListener<Event extends keyof Events>(\n    ev: Event,\n    handler: (...args: Events[Event]) => any\n  ): this {\n    return this.on(ev, handler)\n  }\n\n  /**\n   * Mostly identical to `EventEmitter.on`, with the following\n   * behavior differences to prevent data loss and unnecessary hangs:\n   *\n   * - Adding a 'data' event handler will trigger the flow of data\n   *\n   * - Adding a 'readable' event handler when there is data waiting to be read\n   *   will cause 'readable' to be emitted immediately.\n   *\n   * - Adding an 'endish' event handler ('end', 'finish', etc.) which has\n   *   already passed will cause the event to be emitted immediately and all\n   *   handlers removed.\n   *\n   * - Adding an 'error' event handler after an error has been emitted will\n   *   cause the event to be re-emitted immediately with the error previously\n   *   raised.\n   */\n  on<Event extends keyof Events>(\n    ev: Event,\n    handler: (...args: Events[Event]) => any\n  ): this {\n    const ret = super.on(\n      ev as string | symbol,\n      handler as (...a: any[]) => any\n    )\n    if (ev === 'data') {\n      this[DISCARDED] = false\n      this[DATALISTENERS]++\n      if (!this[PIPES].length && !this[FLOWING]) {\n        this[RESUME]()\n      }\n    } else if (ev === 'readable' && this[BUFFERLENGTH] !== 0) {\n      super.emit('readable')\n    } else if (isEndish(ev) && this[EMITTED_END]) {\n      super.emit(ev)\n      this.removeAllListeners(ev)\n    } else if (ev === 'error' && this[EMITTED_ERROR]) {\n      const h = handler as (...a: Events['error']) => any\n      if (this[ASYNC]) defer(() => h.call(this, this[EMITTED_ERROR]))\n      else h.call(this, this[EMITTED_ERROR])\n    }\n    return ret\n  }\n\n  /**\n   * Alias for {@link Minipass#off}\n   */\n  removeListener<Event extends keyof Events>(\n    ev: Event,\n    handler: (...args: Events[Event]) => any\n  ) {\n    return this.off(ev, handler)\n  }\n\n  /**\n   * Mostly identical to `EventEmitter.off`\n   *\n   * If a 'data' event handler is removed, and it was the last consumer\n   * (ie, there are no pipe destinations or other 'data' event listeners),\n   * then the flow of data will stop until there is another consumer or\n   * {@link Minipass#resume} is explicitly called.\n   */\n  off<Event extends keyof Events>(\n    ev: Event,\n    handler: (...args: Events[Event]) => any\n  ) {\n    const ret = super.off(\n      ev as string | symbol,\n      handler as (...a: any[]) => any\n    )\n    // if we previously had listeners, and now we don't, and we don't\n    // have any pipes, then stop the flow, unless it's been explicitly\n    // put in a discarded flowing state via stream.resume().\n    if (ev === 'data') {\n      this[DATALISTENERS] = this.listeners('data').length\n      if (\n        this[DATALISTENERS] === 0 &&\n        !this[DISCARDED] &&\n        !this[PIPES].length\n      ) {\n        this[FLOWING] = false\n      }\n    }\n    return ret\n  }\n\n  /**\n   * Mostly identical to `EventEmitter.removeAllListeners`\n   *\n   * If all 'data' event handlers are removed, and they were the last consumer\n   * (ie, there are no pipe destinations), then the flow of data will stop\n   * until there is another consumer or {@link Minipass#resume} is explicitly\n   * called.\n   */\n  removeAllListeners<Event extends keyof Events>(ev?: Event) {\n    const ret = super.removeAllListeners(ev as string | symbol | undefined)\n    if (ev === 'data' || ev === undefined) {\n      this[DATALISTENERS] = 0\n      if (!this[DISCARDED] && !this[PIPES].length) {\n        this[FLOWING] = false\n      }\n    }\n    return ret\n  }\n\n  /**\n   * true if the 'end' event has been emitted\n   */\n  get emittedEnd() {\n    return this[EMITTED_END]\n  }\n\n  [MAYBE_EMIT_END]() {\n    if (\n      !this[EMITTING_END] &&\n      !this[EMITTED_END] &&\n      !this[DESTROYED] &&\n      this[BUFFER].length === 0 &&\n      this[EOF]\n    ) {\n      this[EMITTING_END] = true\n      this.emit('end')\n      this.emit('prefinish')\n      this.emit('finish')\n      if (this[CLOSED]) this.emit('close')\n      this[EMITTING_END] = false\n    }\n  }\n\n  /**\n   * Mostly identical to `EventEmitter.emit`, with the following\n   * behavior differences to prevent data loss and unnecessary hangs:\n   *\n   * If the stream has been destroyed, and the event is something other\n   * than 'close' or 'error', then `false` is returned and no handlers\n   * are called.\n   *\n   * If the event is 'end', and has already been emitted, then the event\n   * is ignored. If the stream is in a paused or non-flowing state, then\n   * the event will be deferred until data flow resumes. If the stream is\n   * async, then handlers will be called on the next tick rather than\n   * immediately.\n   *\n   * If the event is 'close', and 'end' has not yet been emitted, then\n   * the event will be deferred until after 'end' is emitted.\n   *\n   * If the event is 'error', and an AbortSignal was provided for the stream,\n   * and there are no listeners, then the event is ignored, matching the\n   * behavior of node core streams in the presense of an AbortSignal.\n   *\n   * If the event is 'finish' or 'prefinish', then all listeners will be\n   * removed after emitting the event, to prevent double-firing.\n   */\n  emit<Event extends keyof Events>(\n    ev: Event,\n    ...args: Events[Event]\n  ): boolean {\n    const data = args[0]\n    // error and close are only events allowed after calling destroy()\n    if (\n      ev !== 'error' &&\n      ev !== 'close' &&\n      ev !== DESTROYED &&\n      this[DESTROYED]\n    ) {\n      return false\n    } else if (ev === 'data') {\n      return !this[OBJECTMODE] && !data\n        ? false\n        : this[ASYNC]\n        ? (defer(() => this[EMITDATA](data as RType)), true)\n        : this[EMITDATA](data as RType)\n    } else if (ev === 'end') {\n      return this[EMITEND]()\n    } else if (ev === 'close') {\n      this[CLOSED] = true\n      // don't emit close before 'end' and 'finish'\n      if (!this[EMITTED_END] && !this[DESTROYED]) return false\n      const ret = super.emit('close')\n      this.removeAllListeners('close')\n      return ret\n    } else if (ev === 'error') {\n      this[EMITTED_ERROR] = data\n      super.emit(ERROR, data)\n      const ret =\n        !this[SIGNAL] || this.listeners('error').length\n          ? super.emit('error', data)\n          : false\n      this[MAYBE_EMIT_END]()\n      return ret\n    } else if (ev === 'resume') {\n      const ret = super.emit('resume')\n      this[MAYBE_EMIT_END]()\n      return ret\n    } else if (ev === 'finish' || ev === 'prefinish') {\n      const ret = super.emit(ev)\n      this.removeAllListeners(ev)\n      return ret\n    }\n\n    // Some other unknown event\n    const ret = super.emit(ev as string, ...args)\n    this[MAYBE_EMIT_END]()\n    return ret\n  }\n\n  [EMITDATA](data: RType) {\n    for (const p of this[PIPES]) {\n      if (p.dest.write(data as RType) === false) this.pause()\n    }\n    const ret = this[DISCARDED] ? false : super.emit('data', data)\n    this[MAYBE_EMIT_END]()\n    return ret\n  }\n\n  [EMITEND]() {\n    if (this[EMITTED_END]) return false\n\n    this[EMITTED_END] = true\n    this.readable = false\n    return this[ASYNC]\n      ? (defer(() => this[EMITEND2]()), true)\n      : this[EMITEND2]()\n  }\n\n  [EMITEND2]() {\n    if (this[DECODER]) {\n      const data = this[DECODER].end()\n      if (data) {\n        for (const p of this[PIPES]) {\n          p.dest.write(data as RType)\n        }\n        if (!this[DISCARDED]) super.emit('data', data)\n      }\n    }\n\n    for (const p of this[PIPES]) {\n      p.end()\n    }\n    const ret = super.emit('end')\n    this.removeAllListeners('end')\n    return ret\n  }\n\n  /**\n   * Return a Promise that resolves to an array of all emitted data once\n   * the stream ends.\n   */\n  async collect(): Promise<RType[] & { dataLength: number }> {\n    const buf: RType[] & { dataLength: number } = Object.assign([], {\n      dataLength: 0,\n    })\n    if (!this[OBJECTMODE]) buf.dataLength = 0\n    // set the promise first, in case an error is raised\n    // by triggering the flow here.\n    const p = this.promise()\n    this.on('data', c => {\n      buf.push(c)\n      if (!this[OBJECTMODE])\n        buf.dataLength += (c as Minipass.BufferOrString).length\n    })\n    await p\n    return buf\n  }\n\n  /**\n   * Return a Promise that resolves to the concatenation of all emitted data\n   * once the stream ends.\n   *\n   * Not allowed on objectMode streams.\n   */\n  async concat(): Promise<RType> {\n    if (this[OBJECTMODE]) {\n      throw new Error('cannot concat in objectMode')\n    }\n    const buf = await this.collect()\n    return (\n      this[ENCODING]\n        ? buf.join('')\n        : Buffer.concat(buf as Buffer[], buf.dataLength)\n    ) as RType\n  }\n\n  /**\n   * Return a void Promise that resolves once the stream ends.\n   */\n  async promise(): Promise<void> {\n    return new Promise<void>((resolve, reject) => {\n      this.on(DESTROYED, () => reject(new Error('stream destroyed')))\n      this.on('error', er => reject(er))\n      this.on('end', () => resolve())\n    })\n  }\n\n  /**\n   * Asynchronous `for await of` iteration.\n   *\n   * This will continue emitting all chunks until the stream terminates.\n   */\n  [Symbol.asyncIterator](): AsyncGenerator<RType, void, void> {\n    // set this up front, in case the consumer doesn't call next()\n    // right away.\n    this[DISCARDED] = false\n    let stopped = false\n    const stop = async (): Promise<IteratorReturnResult<void>> => {\n      this.pause()\n      stopped = true\n      return { value: undefined, done: true }\n    }\n    const next = (): Promise<IteratorResult<RType, void>> => {\n      if (stopped) return stop()\n      const res = this.read()\n      if (res !== null) return Promise.resolve({ done: false, value: res })\n\n      if (this[EOF]) return stop()\n\n      let resolve!: (res: IteratorResult<RType>) => void\n      let reject!: (er: unknown) => void\n      const onerr = (er: unknown) => {\n        this.off('data', ondata)\n        this.off('end', onend)\n        this.off(DESTROYED, ondestroy)\n        stop()\n        reject(er)\n      }\n      const ondata = (value: RType) => {\n        this.off('error', onerr)\n        this.off('end', onend)\n        this.off(DESTROYED, ondestroy)\n        this.pause()\n        resolve({ value, done: !!this[EOF] })\n      }\n      const onend = () => {\n        this.off('error', onerr)\n        this.off('data', ondata)\n        this.off(DESTROYED, ondestroy)\n        stop()\n        resolve({ done: true, value: undefined })\n      }\n      const ondestroy = () => onerr(new Error('stream destroyed'))\n      return new Promise<IteratorResult<RType>>((res, rej) => {\n        reject = rej\n        resolve = res\n        this.once(DESTROYED, ondestroy)\n        this.once('error', onerr)\n        this.once('end', onend)\n        this.once('data', ondata)\n      })\n    }\n\n    return {\n      next,\n      throw: stop,\n      return: stop,\n      [Symbol.asyncIterator]() {\n        return this\n      },\n    }\n  }\n\n  /**\n   * Synchronous `for of` iteration.\n   *\n   * The iteration will terminate when the internal buffer runs out, even\n   * if the stream has not yet terminated.\n   */\n  [Symbol.iterator](): Generator<RType, void, void> {\n    // set this up front, in case the consumer doesn't call next()\n    // right away.\n    this[DISCARDED] = false\n    let stopped = false\n    const stop = (): IteratorReturnResult<void> => {\n      this.pause()\n      this.off(ERROR, stop)\n      this.off(DESTROYED, stop)\n      this.off('end', stop)\n      stopped = true\n      return { done: true, value: undefined }\n    }\n\n    const next = (): IteratorResult<RType, void> => {\n      if (stopped) return stop()\n      const value = this.read()\n      return value === null ? stop() : { done: false, value }\n    }\n\n    this.once('end', stop)\n    this.once(ERROR, stop)\n    this.once(DESTROYED, stop)\n\n    return {\n      next,\n      throw: stop,\n      return: stop,\n      [Symbol.iterator]() {\n        return this\n      },\n    }\n  }\n\n  /**\n   * Destroy a stream, preventing it from being used for any further purpose.\n   *\n   * If the stream has a `close()` method, then it will be called on\n   * destruction.\n   *\n   * After destruction, any attempt to write data, read data, or emit most\n   * events will be ignored.\n   *\n   * If an error argument is provided, then it will be emitted in an\n   * 'error' event.\n   */\n  destroy(er?: unknown) {\n    if (this[DESTROYED]) {\n      if (er) this.emit('error', er)\n      else this.emit(DESTROYED)\n      return this\n    }\n\n    this[DESTROYED] = true\n    this[DISCARDED] = true\n\n    // throw away all buffered data, it's never coming out\n    this[BUFFER].length = 0\n    this[BUFFERLENGTH] = 0\n\n    const wc = this as Minipass<RType, WType, Events> & {\n      close?: () => void\n    }\n    if (typeof wc.close === 'function' && !this[CLOSED]) wc.close()\n\n    if (er) this.emit('error', er)\n    // if no error to emit, still reject pending promises\n    else this.emit(DESTROYED)\n\n    return this\n  }\n\n  /**\n   * Alias for {@link isStream}\n   *\n   * Former export location, maintained for backwards compatibility.\n   *\n   * @deprecated\n   */\n  static get isStream() {\n    return isStream\n  }\n}\n"]}
\ No newline at end of file
diff --git a/node_modules/minipass/dist/esm/package.json b/node_modules/minipass/dist/esm/package.json
new file mode 100644
index 0000000..3dbc1ca
--- /dev/null
+++ b/node_modules/minipass/dist/esm/package.json
@@ -0,0 +1,3 @@
+{
+  "type": "module"
+}