v3.4.2

fix(streams): tighten stream typings and guard optional runtime paths for duplex and wrapper utilities
v3.4.1
2026-04-30 12:04:51 +00:00 · 2026-04-30 12:04:51 +00:00 · 2026-03-02 07:01:47 +00:00 · 2026-03-02 07:01:47 +00:00 · 2026-03-02 06:55:11 +00:00 · 2026-03-02 06:55:11 +00:00
33 changed files with 7077 additions and 4504 deletions
@@ -0,0 +1,27 @@
 {
  "@git.zone/cli": {
    "projectType": "npm",
    "module": {
      "githost": "code.foss.global",
      "gitscope": "push.rocks",
      "gitrepo": "smartstream",
      "description": "A library to simplify the creation and manipulation of Node.js streams, providing utilities for handling transform, duplex, and readable/writable streams effectively in TypeScript.",
      "npmPackagename": "@push.rocks/smartstream",
      "license": "MIT",
      "projectDomain": "push.rocks"
    },
    "release": {
      "registries": [
        "https://verdaccio.lossless.digital",
        "https://registry.npmjs.org"
      ],
      "accessLevel": "public"
    }
  },
  "@git.zone/tsdoc": {
    "legal": "\n## License and Legal Information\n\nThis repository contains open-source code that is licensed under the MIT License. A copy of the MIT License can be found in the [license](license) file within this repository. \n\n**Please note:** The MIT License does not grant permission to use the trade names, trademarks, service marks, or product names of the project, except as required for reasonable and customary use in describing the origin of the work and reproducing the content of the NOTICE file.\n\n### Trademarks\n\nThis project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH and are not included within the scope of the MIT license granted herein. Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines, and any usage must be approved in writing by Task Venture Capital GmbH.\n\n### Company Information\n\nTask Venture Capital GmbH  \nRegistered at District court Bremen HRB 35230 HB, Germany\n\nFor any legal inquiries or if you require further information, please contact us via email at hello@task.vc.\n\nBy using this repository, you acknowledge that you have read this section, agree to comply with its terms, and understand that the licensing of the code does not imply endorsement by Task Venture Capital GmbH of any derivative works.\n"
  },
  "@ship.zone/szci": {
    "npmGlobalTools": []
  }
 }
@@ -1,5 +1,47 @@
 # Changelog
 ## 2026-04-30 - 3.4.2 - fix(streams)
 tighten stream typings and guard optional runtime paths for duplex and wrapper utilities
 - allow SmartDuplex write and final handlers to return empty values in addition to transformed output
 - prevent StreamWrapper from piping or starting when no executable stream chain is produced
 - guard optional WebDuplexStream readFunction execution before invoking it
 - update tests and TypeScript configuration to satisfy stricter noImplicitAny checks and newer tstest tooling
 ## 2026-03-02 - 3.4.1 - fix(readme)
 improve README: clarify entry points, add Web & Node stream examples, finalization and backpressure tips, and comprehensive API reference
 - Clarified package entry points and import paths so consumers can choose Node or Web builds.
 - Expanded examples: SmartDuplex finalFunction pushing multiple chunks, converting SmartDuplex to Web streams (reader/writer example), WebDuplexStream finalFunction, and a Node↔Web round-trip conversion example.
 - Added guidance and examples for concurrency and backpressure (TransformStream read/write concurrency tip, reading concurrently with writes, and backpressure notes for Node↔Web converters).
 - Documented StreamWrapper.streamStarted() and onCustomEvent() usage with examples showing awaiting stream startup.
 - Added a new API reference section documenting SmartDuplex, WebDuplexStream, StreamWrapper, StreamIntake, nodewebhelpers, and utility functions.
 - Various README wording, formatting, and example clarifications (tips, headings, and minor cosmetic fixes).
 ## 2026-03-02 - 3.4.0 - feat(smartduplex)
 improve backpressure handling and web/node stream interoperability
 - Refactored SmartDuplex to use synchronous _read/_write/_final (avoids async pitfalls), added internal backpressured buffer draining and consumer signaling
 - Implemented pull-based backpressure for Node <-> Web stream conversions (nodewebhelpers and convertNodeReadableToWebReadable/convertWebReadableToNodeReadable)
 - StreamIntake.fromStream now reads from 'readable' and drains properly; StreamWrapper resolves safely on end/close/finish
 - Improved getWebStreams / WebDuplexStream behavior (safer enqueue/close/abort handling, final/readFunction improvements)
 - Added many new unit tests covering backpressure, web/node helpers, StreamIntake, StreamWrapper, WebDuplexStream; bumped @push.rocks/lik and @types/node versions
 ## 2026-02-28 - 3.3.0 - feat(smartstream)
 bump dependencies, update build/publish config, refactor tests, and overhaul documentation
 - Upgrade devDependencies (e.g. @git.zone/tsbuild -> ^4.1.2, @git.zone/tsrun -> ^2.0.1, @git.zone/tstest -> ^3.1.8, @types/node -> ^25.3.2) and runtime deps (e.g. @push.rocks/lik -> ^6.2.2, @push.rocks/smartenv -> ^6.0.0, @push.rocks/smartpromise -> ^4.2.3, @push.rocks/smartrx -> ^3.0.10).
 - Refactor tests to use Node's native fs streams instead of @push.rocks/smartfile.fsStream and export default tap.start() to support ESM test runner patterns.
 - Adjust build/publish: remove --web flag from build script, add pnpm override for agentkeepalive, add tspublish.json files for publish order, and add release registries/access in npmextra.json (verdaccio + npm).
 - Rework project metadata in npmextra.json (namespaced @git.zone keys, tsdoc entry changes) and minor TypeScript/web fix: cast stream/web constructors to any in ts_web/plugins.ts.
 - Large README rewrite: improved installation (pnpm), clearer Node vs Web entrypoints, expanded examples, and updated legal/license wording.
 ## 2024-11-19 - 3.2.5 - fix(nodewebhelpers)
 Fix import and use correct module structure for Node.js streams in smartstream.nodewebhelpers.ts
 - Corrected the import statement for the fs module.
 - Updated the use of the fs.createReadStream method.
 ## 2024-10-16 - 3.2.4 - fix(SmartDuplex)
 Fix stream termination when reading from a web readable stream
@@ -0,0 +1,21 @@
 The MIT License (MIT)
 Copyright (c) 2016 Push.Rocks
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:
 The above copyright notice and this permission notice shall be included in all
 copies or substantial portions of the Software.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 SOFTWARE.
@@ -1,9 +1,5 @@
 {
-  "npmci": {
+  "@git.zone/cli": {
    "npmGlobalTools": [],
    "npmAccessLevel": "public"
  },
  "gitzone": {
    "projectType": "npm",
    "module": {
      "githost": "code.foss.global",
@@ -31,9 +27,19 @@
        "stream utilities",
        "esm"
      ]
    },
    "release": {
      "registries": [
        "https://verdaccio.lossless.digital",
        "https://registry.npmjs.org"
      ],
      "accessLevel": "public"
    }
  },
-  "tsdoc": {
+  "@git.zone/tsdoc": {
    "legal": "\n## License and Legal Information\n\nThis repository contains open-source code that is licensed under the MIT License. A copy of the MIT License can be found in the [license](license) file within this repository. \n\n**Please note:** The MIT License does not grant permission to use the trade names, trademarks, service marks, or product names of the project, except as required for reasonable and customary use in describing the origin of the work and reproducing the content of the NOTICE file.\n\n### Trademarks\n\nThis project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH and are not included within the scope of the MIT license granted herein. Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines, and any usage must be approved in writing by Task Venture Capital GmbH.\n\n### Company Information\n\nTask Venture Capital GmbH  \nRegistered at District court Bremen HRB 35230 HB, Germany\n\nFor any legal inquiries or if you require further information, please contact us via email at hello@task.vc.\n\nBy using this repository, you acknowledge that you have read this section, agree to comply with its terms, and understand that the licensing of the code does not imply endorsement by Task Venture Capital GmbH of any derivative works.\n"
  },
  "@ship.zone/szci": {
    "npmGlobalTools": []
  }
 }
@@ -1,6 +1,6 @@
 {
  "name": "@push.rocks/smartstream",
-  "version": "3.2.4",
+  "version": "3.4.2",
  "private": false,
  "description": "A library to simplify the creation and manipulation of Node.js streams, providing utilities for handling transform, duplex, and readable/writable streams effectively in TypeScript.",
  "type": "module",
@@ -9,8 +9,8 @@
    "./web": "./dist_ts_web/index.js"
  },
  "scripts": {
-    "test": "(tstest test/)",
+    "test": "(tstest test/ --verbose --logfile --timeout 60)",
-    "build": "(tsbuild tsfolders --web --allowimplicitany)"
+    "build": "(tsbuild tsfolders)"
  },
  "repository": {
    "type": "git",
@@ -23,18 +23,16 @@
  },
  "homepage": "https://code.foss.global/push.rocks/smartstream",
  "devDependencies": {
-    "@git.zone/tsbuild": "^2.1.80",
+    "@git.zone/tsbuild": "^4.4.0",
-    "@git.zone/tsrun": "^1.2.44",
+    "@git.zone/tsrun": "^2.0.2",
-    "@git.zone/tstest": "^1.0.90",
+    "@git.zone/tstest": "^3.6.3",
-    "@push.rocks/smartfile": "^11.0.15",
+    "@types/node": "^25.6.0"
    "@push.rocks/tapbundle": "^5.0.23",
    "@types/node": "^20.12.12"
  },
  "dependencies": {
-    "@push.rocks/lik": "^6.0.15",
+    "@push.rocks/lik": "^6.4.1",
-    "@push.rocks/smartenv": "^5.0.12",
+    "@push.rocks/smartenv": "^6.0.0",
-    "@push.rocks/smartpromise": "^4.0.3",
+    "@push.rocks/smartpromise": "^4.2.3",
-    "@push.rocks/smartrx": "^3.0.7"
+    "@push.rocks/smartrx": "^3.0.10"
  },
  "browserslist": [
    "last 1 chrome versions"
@@ -48,9 +46,16 @@
    "dist_ts_web/**/*",
    "assets/**/*",
    "cli.js",
    ".smartconfig.json",
    "license",
    "npmextra.json",
    "readme.md"
  ],
  "pnpm": {
    "overrides": {
      "agentkeepalive": "^4.6.0"
    }
  },
  "keywords": [
    "stream",
    "node.js",
@@ -69,5 +74,6 @@
    "buffer",
    "stream utilities",
    "esm"
-  ]
+  ],
  "packageManager": "pnpm@10.28.2"
 }
@@ -1,375 +1,602 @@
 ```markdown
 # @push.rocks/smartstream
-A TypeScript library to simplify the creation and manipulation of Node.js streams, providing utilities for transform, duplex, and readable/writable stream handling while managing backpressure effectively.
+
 A TypeScript-first library for creating and manipulating Node.js and Web streams with built-in backpressure handling, async transformations, and seamless Node.js ↔ Web stream interoperability.
 ## Issue Reporting and Security
 For reporting bugs, issues, or security vulnerabilities, please visit [community.foss.global/](https://community.foss.global/). This is the central community hub for all issue reporting. Developers who sign and comply with our contribution agreement and go through identification can also get a [code.foss.global/](https://code.foss.global/) account to submit Pull Requests directly.
 ## Install
 To install `@push.rocks/smartstream`, you can use npm or yarn as follows:
 ```bash
-npm install @push.rocks/smartstream --save
+pnpm install @push.rocks/smartstream
 # OR
 yarn add @push.rocks/smartstream
 ```
-This will add `@push.rocks/smartstream` to your project's dependencies.
+The package ships with **two entry points** so you can pick exactly what you need:
 | Entry Point | Import Path | Environment |
 |---|---|---|
 | **Node.js** (default) | `@push.rocks/smartstream` | Node.js — full stream utilities, duplex, intake, wrappers, and Node↔Web helpers |
 | **Web** | `@push.rocks/smartstream/web` | Browser & Node.js — pure Web Streams API (`WebDuplexStream`) |
 ## Usage
-The `@push.rocks/smartstream` module is designed to simplify working with Node.js streams by providing a set of utilities for creating and manipulating streams. This module makes extensive use of TypeScript for improved code quality, readability, and maintenance. ESM syntax is utilized throughout the examples.
+All examples use ESM / TypeScript syntax.
-### Importing the Module
+### 📦 Importing
 Start by importing the module into your TypeScript file:
 ```typescript
-import * as smartstream from '@push.rocks/smartstream';
+// Node.js — full API
 import {
  SmartDuplex,
  StreamWrapper,
  StreamIntake,
  createTransformFunction,
  createPassThrough,
  nodewebhelpers,
 } from '@push.rocks/smartstream';
 // Web — browser-safe, zero Node.js dependencies
 import { WebDuplexStream } from '@push.rocks/smartstream/web';
 ```
-For a more specific import, you may do the following:
+---
 ### 🔄 SmartDuplex — The Core Stream Primitive
 `SmartDuplex` extends Node.js `Duplex` with first-class async support, built-in backpressure management, and a clean functional API. Instead of overriding `_transform` or `_write` manually, you pass a `writeFunction` that receives each chunk along with a `tools` object.
 #### Basic Transform
 ```typescript
-import { SmartDuplex, StreamWrapper, StreamIntake, createTransformFunction, createPassThrough } from '@push.rocks/smartstream';
+import { SmartDuplex } from '@push.rocks/smartstream';
 const upperCaser = new SmartDuplex<Buffer, Buffer>({
  writeFunction: async (chunk, tools) => {
    // Return a value to push it downstream
    return Buffer.from(chunk.toString().toUpperCase());
  },
 });
 readableStream.pipe(upperCaser).pipe(writableStream);
 ```
-### Creating Basic Transform Streams
+#### Using `tools.push()` for Multiple Outputs
-The module provides utilities for creating transform streams. For example, to create a transform stream that modifies chunks of data, you can use the `createTransformFunction` utility:
+The `writeFunction` can emit multiple chunks per input via `tools.push()`:
 ```typescript
 const splitter = new SmartDuplex<string, string>({
  objectMode: true,
  writeFunction: async (chunk, tools) => {
    const words = chunk.split(' ');
    for (const word of words) {
      await tools.push(word);
    }
    // Returning nothing — output was already pushed
  },
 });
 ```
 #### Final Function
 Run cleanup or emit final data when the writable side ends:
 ```typescript
 let runningTotal = 0;
 const aggregator = new SmartDuplex<number, number>({
  objectMode: true,
  writeFunction: async (chunk, tools) => {
    runningTotal += chunk;
    // Don't emit anything per-chunk
  },
  finalFunction: async (tools) => {
    return runningTotal; // Emitted as the last chunk
  },
 });
 ```
 The `finalFunction` can also push multiple chunks via `tools.push()`, just like `writeFunction`.
 #### Truncating a Stream Early
 Call `tools.truncate()` inside `writeFunction` to signal that no more data should be read:
 ```typescript
 const limiter = new SmartDuplex<string, string>({
  objectMode: true,
  writeFunction: async (chunk, tools) => {
    if (chunk === 'STOP') {
      tools.truncate();
      return;
    }
    return chunk;
  },
 });
 ```
 #### Creating from a Buffer
 ```typescript
 const stream = SmartDuplex.fromBuffer(Buffer.from('hello world'));
 stream.on('data', (chunk) => console.log(chunk.toString())); // "hello world"
 ```
 #### Creating from a Web ReadableStream
 Bridge the Web Streams API into a Node.js Duplex:
 ```typescript
 const response = await fetch('https://example.com/data');
 const nodeDuplex = SmartDuplex.fromWebReadableStream(response.body);
 nodeDuplex.pipe(processTransform).pipe(outputStream);
 ```
 #### Getting Web Streams from SmartDuplex
 Convert a `SmartDuplex` into a Web `ReadableStream` + `WritableStream` pair:
 ```typescript
 const duplex = new SmartDuplex({
  objectMode: true,
  writeFunction: async (chunk, tools) => {
    return transform(chunk);
  },
 });
 const { readable, writable } = await duplex.getWebStreams();
 const writer = writable.getWriter();
 const reader = readable.getReader();
 // Read and write concurrently to avoid TransformStream backpressure
 const readAll = async () => {
  const results = [];
  while (true) {
    const { value, done } = await reader.read();
    if (done) break;
    results.push(value);
  }
  return results;
 };
 const readPromise = readAll();
 await writer.write('hello');
 await writer.close();
 const results = await readPromise;
 ```
 #### Debug Mode
 Pass `debug: true` and `name` to get detailed internal logs:
 ```typescript
 const stream = new SmartDuplex({
  name: 'MyStream',
  debug: true,
  writeFunction: async (chunk, tools) => chunk,
 });
 ```
 ---
 ### 🧩 StreamWrapper — Pipeline Composition
 `StreamWrapper` takes an array of streams, pipes them together, attaches error listeners on all of them, and returns a `Promise` that resolves when the pipeline finishes:
 ```typescript
 import { StreamWrapper } from '@push.rocks/smartstream';
 import fs from 'fs';
 const pipeline = new StreamWrapper([
  fs.createReadStream('./input.txt'),
  new SmartDuplex({
    writeFunction: async (chunk) => Buffer.from(chunk.toString().toUpperCase()),
  }),
  fs.createWriteStream('./output.txt'),
 ]);
 await pipeline.run();
 console.log('Pipeline complete!');
 ```
 Error handling is automatic — if any stream in the array errors, the returned promise rejects:
 ```typescript
 pipeline.run()
  .then(() => console.log('Done'))
  .catch((err) => console.error('Pipeline failed:', err));
 ```
 You can listen for custom events across all streams in the pipeline:
 ```typescript
 pipeline.onCustomEvent('progress', () => {
  console.log('Progress event fired');
 });
 ```
 You can also await `streamStarted()` to know when the pipeline has been wired up:
 ```typescript
 const runPromise = pipeline.run();
 await pipeline.streamStarted(); // Resolves once pipes are connected
 await runPromise;
 ```
 ---
 ### 📥 StreamIntake — Dynamic Data Injection
 `StreamIntake` is a `Readable` stream that lets you programmatically push data into a pipeline. It operates in object mode by default and provides a reactive observable (`pushNextObservable`) for demand-driven data production.
 ```typescript
 import { StreamIntake, SmartDuplex } from '@push.rocks/smartstream';
 const intake = new StreamIntake<string>();
 // Pipe through a transform
 intake
  .pipe(new SmartDuplex({
    objectMode: true,
    writeFunction: async (chunk) => {
      console.log('Processing:', chunk);
      return chunk;
    },
  }))
  .on('data', (data) => console.log('Output:', data));
 // Push data whenever it's ready
 intake.pushData('Hello');
 intake.pushData('World');
 intake.signalEnd(); // Signal end-of-stream
 ```
 #### Demand-Driven Production with Observable
 `pushNextObservable` emits whenever the stream is ready for more data — perfect for throttled or event-driven producers:
 ```typescript
 const intake = new StreamIntake<number>();
 let counter = 0;
 intake.pushNextObservable.subscribe(() => {
  if (counter < 100) {
    intake.pushData(counter++);
  } else {
    intake.signalEnd();
  }
 });
 intake.pipe(consumer);
 ```
 #### Creating from Existing Streams
 Wrap a Node.js `Readable` or a Web `ReadableStream`:
 ```typescript
 // From Node.js Readable
 const intake = await StreamIntake.fromStream<Buffer>(fs.createReadStream('./data.bin'));
 // From Web ReadableStream
 const response = await fetch('https://example.com/stream');
 const intake = await StreamIntake.fromStream<Uint8Array>(response.body);
 ```
 ---
 ### ⚡ Utility Functions
 #### `createTransformFunction`
 Quickly create a `SmartDuplex` from a simple async mapping function:
 ```typescript
 import { createTransformFunction } from '@push.rocks/smartstream';
-const upperCaseTransform = createTransformFunction<string, string>(async (chunk) => {
+const doubler = createTransformFunction<number, number>(
-  return chunk.toUpperCase();
+  async (n) => n * 2,
-});
+  { objectMode: true }
 );
-// Usage with pipe
+intakeStream.pipe(doubler).pipe(outputStream);
 readableStream
  .pipe(upperCaseTransform)
  .pipe(writableStream);
 ```
-### Handling Backpressure with SmartDuplex
+#### `createPassThrough`
-`SmartDuplex` is a powerful part of the `smartstream` module designed to handle backpressure effectively. Here's an example of how to create a `SmartDuplex` stream that processes data and respects the consumer's pace:
+Create an object-mode passthrough stream (useful as an intermediary or tee point):
 ```typescript
-import { SmartDuplex } from '@push.rocks/smartstream';
+import { createPassThrough } from '@push.rocks/smartstream';
-const processDataDuplex = new SmartDuplex({
+const passThrough = createPassThrough();
-  async writeFunction(chunk, { push }) {
+source.pipe(passThrough).pipe(destination);
    const processedChunk = await processChunk(chunk); // Assume this is a defined asynchronous function
    push(processedChunk);
  }
 });
 sourceStream.pipe(processDataDuplex).pipe(destinationStream);
 ```
-### Combining Multiple Streams
+---
-`Smartstream` facilitates easy combining of multiple streams into a single pipeline, handling errors and cleanup automatically. Here's how you can combine multiple streams:
+### 🌐 WebDuplexStream — Pure Web Streams API
 `WebDuplexStream` extends `TransformStream` and works in both browsers and Node.js. Import it from the `/web` subpath for zero Node.js dependencies.
 ```typescript
-import { StreamWrapper } from '@push.rocks/smartstream';
+import { WebDuplexStream } from '@push.rocks/smartstream/web';
-const combinedStream = new StreamWrapper([
+const stream = new WebDuplexStream<number, number>({
  readStream,       // Source stream
  transformStream1, // Transformation
  transformStream2, // Another transformation
  writeStream       // Destination stream
 ]);
 combinedStream.run()
  .then(() => console.log('Processing completed.'))
  .catch(err => console.error('An error occurred:', err));
 ```
 ### Working with StreamIntake
 `StreamIntake` allows for more dynamic control of the reading process, facilitating scenarios where data is not continuously available:
 ```typescript
 import { StreamIntake } from '@push.rocks/smartstream';
 const streamIntake = new StreamIntake<string>();
 // Dynamically push data into the intake
 streamIntake.pushData('Hello, World!');
 streamIntake.pushData('Another message');
 // Signal end when no more data is to be pushed
 streamIntake.signalEnd();
 ```
 ### Real-world Scenario: Processing Large Files
 Consider a scenario where you need to process a large CSV file, transform the data row-by-row, and then write the results to a database or another file. With `smartstream`, you could create a pipe that reads the CSV, processes each row, and handles backpressure, ensuring efficient use of resources.
 ```typescript
 import { SmartDuplex, createTransformFunction } from '@push.rocks/smartstream';
 import fs from 'fs';
 import csvParser from 'csv-parser';
 const csvReadTransform = createTransformFunction<any, any>(async (row) => {
  // Process row
  return processedRow;
 });
 fs.createReadStream('path/to/largeFile.csv')
  .pipe(csvParser())
  .pipe(csvReadTransform)
  .pipe(new SmartDuplex({
    async writeFunction(chunk, { push }) {
      await writeToDatabase(chunk); // Assume this writes to a database
    }
  }))
  .on('finish', () => console.log('File processed successfully.'));
 ```
 This example demonstrates reading a large CSV file, transforming each row with `createTransformFunction`, and using a `SmartDuplex` to manage the processed data flow efficiently, ensuring no data is lost due to backpressure issues.
 ### Advanced Use Case: Backpressure Handling
 Effective backpressure handling is crucial when working with streams to avoid overwhelming the downstream consumers. Here’s a comprehensive example that demonstrates handling backpressure in a pipeline with multiple `SmartDuplex` instances:
 ```typescript
 import { SmartDuplex } from '@push.rocks/smartstream';
 // Define the first SmartDuplex, which writes data slowly to simulate backpressure
 const slowProcessingStream = new SmartDuplex({
  name: 'SlowProcessor',
  objectMode: true,
  writeFunction: async (chunk, { push }) => {
-    await new Promise(resolve => setTimeout(resolve, 100)); // Simulated delay
+    push(chunk * 2); // Push transformed data
-    console.log('Processed chunk:', chunk);
+  },
    push(chunk);
  }
 });
-// Define the second SmartDuplex as a fast processor
+const writer = stream.writable.getWriter();
-const fastProcessingStream = new SmartDuplex({
+const reader = stream.readable.getReader();
-  name: 'FastProcessor',
+
-  objectMode: true,
+// Always read concurrently with writes — TransformStream applies backpressure
-  writeFunction: async (chunk, { push }) => {
+const readPromise = (async () => {
-    console.log('Fast processing chunk:', chunk);
+  const results = [];
-    push(chunk);
+  while (true) {
    const { value, done } = await reader.read();
    if (done) break;
    results.push(value);
  }
 });
 // Create a StreamIntake to dynamically handle incoming data
 const streamIntake = new StreamIntake<string>();
 // Chain the streams together and handle the backpressure scenario
 streamIntake
  .pipe(fastProcessingStream)
  .pipe(slowProcessingStream)
  .pipe(createPassThrough()) // Use Pass-Through to provide intermediary handling
  .on('data', data => console.log('Final output:', data))
  .on('error', error => console.error('Stream encountered an error:', error));
 // Simulate data pushing with intervals to observe backpressure handling
 let counter = 0;
 const interval = setInterval(() => {
  if (counter >= 10) {
    streamIntake.signalEnd();
    clearInterval(interval);
  } else {
    streamIntake.pushData(`Chunk ${counter}`);
    counter++;
  }
 }, 50);
 ```
 In this advanced use case, a `SlowProcessor` and `FastProcessor` are created using `SmartDuplex`, simulating a situation where one stream is slower than another. The `StreamIntake` dynamically handles incoming chunks of data and the intermediary Pass-Through handles any potential interruptions.
 ### Transform Streams in Parallel
 For scenarios where you need to process data in parallel:
 ```typescript
 import { SmartDuplex, createTransformFunction } from '@push.rocks/smartstream';
 const parallelTransform = createTransformFunction<any, any>(async (chunk) => {
  // Parallel Processing
  const results = await Promise.all(chunk.map(async item => await processItem(item)));
  return results;
-});
+})();
-const streamIntake = new StreamIntake<any[]>();
+await writer.write(5);
 await writer.write(10);
 await writer.close();
-streamIntake
+const results = await readPromise; // [10, 20]
  .pipe(parallelTransform)
  .pipe(new SmartDuplex({
    async writeFunction(chunk, { push }) {
      console.log('Processed parallel chunk:', chunk);
      push(chunk);
    }
  }))
  .on('finish', () => console.log('Parallel processing completed.'));
 // Simulate data pushing
 streamIntake.pushData([1, 2, 3, 4]);
 streamIntake.pushData([5, 6, 7, 8]);
 streamIntake.signalEnd();
 ```
-### Error Handling in Stream Pipelines
+> 💡 **Tip:** Because `TransformStream` enforces backpressure between its writable and readable sides, you must start reading *before* or *concurrently with* writes. If you await all writes first and then read, the writes will block waiting for the readable side to drain.
-Error handling is an essential part of working with streams. The `StreamWrapper` assists in combining multiple streams while managing errors seamlessly:
+#### From a Uint8Array
 ```typescript
-import { StreamWrapper } from '@push.rocks/smartstream';
+const stream = WebDuplexStream.fromUInt8Array(new Uint8Array([1, 2, 3]));
-
+const reader = stream.readable.getReader();
-const faultyStream = new SmartDuplex({
+const { value } = await reader.read(); // Uint8Array [1, 2, 3]
  async writeFunction(chunk, { push }) {
    if (chunk === 'bad data') {
      throw new Error('Faulty data encountered');
    }
    push(chunk);
  }
 });
 const readStream = new StreamIntake<string>();
 const writeStream = new SmartDuplex({
  async writeFunction(chunk) {
    console.log('Written chunk:', chunk);
  }
 });
 const combinedStream = new StreamWrapper([readStream, faultyStream, writeStream]);
 combinedStream.run()
  .then(() => console.log('Stream processing completed.'))
  .catch(err => console.error('Stream error:', err.message));
 // Push Data
 readStream.pushData('good data');
 readStream.pushData('bad data');  // This will throw an error
 readStream.pushData('more good data');
 readStream.signalEnd();
 ```
-### Testing Streams
+#### Data Production with `readFunction`
-Here's an example test case using the `tap` testing framework to verify the integrity of the `SmartDuplex` from a buffer:
+Supply data into the stream from any async source:
 ```typescript
-import { expect, tap } from '@push.rocks/tapbundle';
+const stream = new WebDuplexStream<string, string>({
-import { SmartDuplex } from '@push.rocks/smartstream';
+  readFunction: async (tools) => {
-
+    await tools.write('chunk 1');
-tap.test('should create a SmartStream from a Buffer', async () => {
+    await tools.write('chunk 2');
-  const bufferData = Buffer.from('This is a test buffer');
+    tools.done(); // Signal end
-  const smartStream = SmartDuplex.fromBuffer(bufferData, {});
+  },
-  
+  writeFunction: async (chunk, { push }) => {
-  let receivedData = Buffer.alloc(0);
+    push(chunk.toUpperCase());
-  
+  },
  return new Promise<void>((resolve) => {
    smartStream.on('data', (chunk: Buffer) => {
      receivedData = Buffer.concat([receivedData, chunk]);
    });
    smartStream.on('end', () => {
      expect(receivedData.toString()).toEqual(bufferData.toString());
      resolve();
    });
  });
 });
-tap.start();
+const reader = stream.readable.getReader();
 // reads "CHUNK 1", "CHUNK 2"
 ```
-### Working with Files and Buffers
+#### Final Function
-You can easily stream files and buffers with `smartstream`. Here’s a test illustrating reading and writing with file streams using `smartfile` combined with `smartstream` utilities:
+Emit trailing data when the writable side is closed:
 ```typescript
-import { tap } from '@push.rocks/tapbundle';
+const stream = new WebDuplexStream<string, string>({
-import * as smartfile from '@push.rocks/smartfile';
+  writeFunction: async (chunk) => chunk,
  finalFunction: async (tools) => {
    tools.push('footer');
  },
 });
 ```
 ---
 ### 🔀 Node ↔ Web Stream Converters
 The `nodewebhelpers` namespace provides bidirectional converters between Node.js and Web Streams with proper backpressure handling:
 ```typescript
 import { nodewebhelpers } from '@push.rocks/smartstream';
 ```
 | Function | From | To |
 |---|---|---|
 | `createWebReadableStreamFromFile(path)` | File path | Web `ReadableStream<Uint8Array>` |
 | `convertWebReadableToNodeReadable(webStream)` | Web `ReadableStream` | Node.js `Readable` |
 | `convertNodeReadableToWebReadable(nodeStream)` | Node.js `Readable` | Web `ReadableStream` |
 | `convertWebWritableToNodeWritable(webWritable)` | Web `WritableStream` | Node.js `Writable` |
 | `convertNodeWritableToWebWritable(nodeWritable)` | Node.js `Writable` | Web `WritableStream` |
 #### Example: Serve a File as a Web ReadableStream
 ```typescript
 const webStream = nodewebhelpers.createWebReadableStreamFromFile('./video.mp4');
 // Use with fetch Response, service workers, etc.
 return new Response(webStream, {
  headers: { 'Content-Type': 'video/mp4' },
 });
 ```
 #### Example: Convert Between Stream Types
 ```typescript
 import fs from 'fs';
 import { nodewebhelpers } from '@push.rocks/smartstream';
 // Node → Web
 const nodeReadable = fs.createReadStream('./data.bin');
 const webReadable = nodewebhelpers.convertNodeReadableToWebReadable(nodeReadable);
 // Web → Node
 const nodeReadable2 = nodewebhelpers.convertWebReadableToNodeReadable(webReadable);
 nodeReadable2.pipe(fs.createWriteStream('./copy.bin'));
 ```
 #### Example: Round-Trip Conversion
 ```typescript
 // Node → Web → Node (lossless round-trip)
 const original = fs.createReadStream('./photo.jpg');
 const webStream = nodewebhelpers.convertNodeReadableToWebReadable(original);
 const backToNode = nodewebhelpers.convertWebReadableToNodeReadable(webStream);
 backToNode.pipe(fs.createWriteStream('./photo-copy.jpg'));
 ```
 ---
 ### 🏗️ Backpressure Handling
 `SmartDuplex` uses a `BackpressuredArray` internally, bounded by `highWaterMark` (default: 1). When the downstream consumer is slow, the stream automatically pauses the upstream producer until space is available — no manual bookkeeping required.
 ```typescript
 const slow = new SmartDuplex({
  name: 'SlowConsumer',
  objectMode: true,
  highWaterMark: 1,
  writeFunction: async (chunk, tools) => {
    await new Promise((resolve) => setTimeout(resolve, 200));
    return chunk;
  },
 });
 const fast = new SmartDuplex({
  name: 'FastProducer',
  objectMode: true,
  writeFunction: async (chunk, tools) => {
    return chunk; // Instant processing
  },
 });
 // Backpressure is handled automatically between fast → slow
 fast.pipe(slow).on('data', (d) => console.log(d));
 for (let i = 0; i < 100; i++) {
  fast.write(`chunk-${i}`);
 }
 fast.end();
 ```
 ---
 ### 🎯 Real-World Example: Log Processing Pipeline
 ```typescript
 import fs from 'fs';
 import { SmartDuplex, StreamWrapper } from '@push.rocks/smartstream';
-tap.test('should handle file read and write streams', async () => {
+// Read → Parse → Filter → Write
-  const readStream = smartfile.fsStream.createReadStream('./test/assets/readabletext.txt');
+const pipeline = new StreamWrapper([
-  const writeStream = smartfile.fsStream.createWriteStream('./test/assets/writabletext.txt');
+  fs.createReadStream('./access.log'),
  new SmartDuplex({
    writeFunction: async (chunk) => {
      return chunk.toString().split('\n');
    },
  }),
  new SmartDuplex({
    objectMode: true,
    writeFunction: async (lines: string[], tools) => {
      for (const line of lines) {
        if (line.includes('ERROR')) {
          await tools.push(line + '\n');
        }
      }
    },
  }),
  fs.createWriteStream('./errors.log'),
 ]);
-  const transformStream = new SmartDuplex({
+await pipeline.run();
-    async writeFunction(chunk, { push }) {
+console.log('Error extraction complete');
      const transformedChunk = chunk.toString().toUpperCase();
      push(transformedChunk);
    }
  });
  const streamWrapper = new StreamWrapper([readStream, transformStream, writeStream]);
  await streamWrapper.run();
  const outputContent = await smartfile.fs.promises.readFile('./test/assets/writabletext.txt', 'utf-8');
  console.log('Output Content:', outputContent);
 });
 tap.start();
 ```
-### Modular and Scoped Transformations
+---
-Creating modular and scoped transformations is straightforward with `SmartDuplex`:
+### 📋 API Reference
-```typescript
+#### SmartDuplex
 import { SmartDuplex } from '@push.rocks/smartstream';
-type DataChunk = {
+| Member | Type | Description |
-  id: number;
+|---|---|---|
-  data: string;
+| `new SmartDuplex(options?)` | Constructor | Create a new duplex stream |
-};
+| `options.writeFunction` | `(chunk, tools) => Promise<T>` | Transform each chunk; return to push, or use `tools.push()` |
 | `options.finalFunction` | `(tools) => Promise<T>` | Emit final data when writable ends |
 | `options.readFunction` | `() => Promise<void>` | Supply data to the readable side |
 | `options.debug` | `boolean` | Enable internal logging |
 | `options.name` | `string` | Stream name for debug logs |
 | `SmartDuplex.fromBuffer(buf)` | Static | Create a readable stream from a Buffer |
 | `SmartDuplex.fromWebReadableStream(rs)` | Static | Bridge a Web ReadableStream to Node.js Duplex |
 | `duplex.getWebStreams()` | Method | Get `{ readable, writable }` Web Streams pair |
-const transformationStream1 = new SmartDuplex<DataChunk, DataChunk>({
+#### WebDuplexStream
  async writeFunction(chunk, { push }) {
    chunk.data = chunk.data.toUpperCase();
    push(chunk);
  }
 })
-const transformationStream2 = new SmartDuplex<DataChunk, DataChunk>({
+| Member | Type | Description |
-  async writeFunction(chunk, { push }) {
+|---|---|---|
-    chunk.data = `${chunk.data} processed with transformation 2`;
+| `new WebDuplexStream(options)` | Constructor | Create a new web transform stream |
-    push(chunk);
+| `options.writeFunction` | `(chunk, tools) => Promise<T>` | Transform each chunk; use `tools.push()` or return |
-  }
+| `options.finalFunction` | `(tools) => Promise<T>` | Emit data on flush |
-});
+| `options.readFunction` | `(tools) => Promise<void>` | Supply data via `tools.write()`, signal `tools.done()` |
 | `WebDuplexStream.fromUInt8Array(arr)` | Static | Create a stream from a Uint8Array |
-const initialData: DataChunk[] = [
+#### StreamWrapper
  { id: 1, data: 'first' },
  { id: 2, data: 'second' }
 ];
-const intakeStream = new StreamIntake<DataChunk>();
+| Member | Type | Description |
 |---|---|---|
 | `new StreamWrapper(streams[])` | Constructor | Create a pipeline from an array of streams |
 | `wrapper.run()` | Method | Pipe all streams and return a Promise |
 | `wrapper.streamStarted()` | Method | Promise that resolves when pipes are connected |
 | `wrapper.onCustomEvent(name, fn)` | Method | Listen for custom events across all streams |
-intakeStream
+#### StreamIntake
  .pipe(transformationStream1)
  .pipe(transformationStream2)
  .on('data', data => console.log('Transformed Data:', data));
-initialData.forEach(item => intakeStream.pushData(item));
+| Member | Type | Description |
-intakeStream.signalEnd();
+|---|---|---|
-```
+| `new StreamIntake<T>()` | Constructor | Create a new intake stream (object mode) |
 | `intake.pushData(data)` | Method | Push data into the stream |
 | `intake.signalEnd()` | Method | Signal end of stream |
 | `intake.pushNextObservable` | Property | Observable that emits when the stream wants more data |
 | `StreamIntake.fromStream(stream)` | Static | Wrap a Node.js Readable or Web ReadableStream |
-By leveraging `SmartDuplex`, `StreamWrapper`, and `StreamIntake`, you can streamline and enhance your data transformation pipelines in Node.js with a clear, efficient, and backpressure-friendly approach.
+#### nodewebhelpers
 ```
 | Function | Description |
 |---|---|
 | `createWebReadableStreamFromFile(path)` | File → Web ReadableStream (pull-based backpressure) |
 | `convertWebReadableToNodeReadable(rs)` | Web ReadableStream → Node.js Readable |
 | `convertNodeReadableToWebReadable(ns)` | Node.js Readable → Web ReadableStream (pull-based backpressure) |
 | `convertWebWritableToNodeWritable(ws)` | Web WritableStream → Node.js Writable |
 | `convertNodeWritableToWebWritable(nw)` | Node.js Writable → Web WritableStream |
 #### Utility Functions
 | Function | Description |
 |---|---|
 | `createTransformFunction(fn, opts?)` | Create a SmartDuplex from an async mapping function |
 | `createPassThrough()` | Create an object-mode passthrough stream |
 ## License and Legal Information
-This repository contains open-source code that is licensed under the MIT License. A copy of the MIT License can be found in the [license](license) file within this repository. 
+This repository contains open-source code licensed under the MIT License. A copy of the license can be found in the [LICENSE](./LICENSE) file.
 **Please note:** The MIT License does not grant permission to use the trade names, trademarks, service marks, or product names of the project, except as required for reasonable and customary use in describing the origin of the work and reproducing the content of the NOTICE file.
 ### Trademarks
-This project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH and are not included within the scope of the MIT license granted herein. Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines, and any usage must be approved in writing by Task Venture Capital GmbH.
+This project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH or third parties, and are not included within the scope of the MIT license granted herein.
 Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines or the guidelines of the respective third-party owners, and any usage must be approved in writing. Third-party trademarks used herein are the property of their respective owners and used only in a descriptive manner, e.g. for an implementation of an API or similar.
 ### Company Information
 Task Venture Capital GmbH  
-Registered at District court Bremen HRB 35230 HB, Germany
+Registered at District Court Bremen HRB 35230 HB, Germany
-For any legal inquiries or if you require further information, please contact us via email at hello@task.vc.
+For any legal inquiries or further information, please contact us via email at hello@task.vc.
 By using this repository, you acknowledge that you have read this section, agree to comply with its terms, and understand that the licensing of the code does not imply endorsement by Task Venture Capital GmbH of any derivative works.
@@ -1,50 +1,10 @@
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@@ -0,0 +1,56 @@
 import { tap, expect } from '@git.zone/tstest/tapbundle';
 import { SmartDuplex } from '../ts/index.js';
 tap.test('Backpressure: should apply backpressure across piped streams', async (toolsArg) => {
  const done = toolsArg.defer();
  const stream1 = new SmartDuplex({
    name: 'stream1',
    objectMode: true,
    writeFunction: async (chunk, tools) => {
      await new Promise((resolve) => setTimeout(resolve, 10));
      return chunk;
    },
  });
  const stream2 = new SmartDuplex({
    name: 'stream2',
    objectMode: true,
    writeFunction: async (chunk, tools) => {
      await new Promise((resolve) => setTimeout(resolve, 20));
      await tools.push(chunk);
    },
  });
  const stream3 = new SmartDuplex({
    objectMode: true,
    name: 'stream3',
    writeFunction: async (chunk, tools) => {
      await new Promise((resolve) => setTimeout(resolve, 200));
    },
  });
  stream1.pipe(stream2).pipe(stream3);
  let backpressured = false;
  for (let i = 0; i < 200; i++) {
    const canContinue = stream1.write(`Chunk ${i}`, 'utf8');
    if (!canContinue) {
      backpressured = true;
    }
  }
  stream1.end();
  stream3.on('finish', () => {
    if (!backpressured) {
      throw new Error('No backpressure was observed.');
    } else {
      done.resolve();
    }
  });
  await done.promise;
 });
 export default tap.start();
@@ -0,0 +1,152 @@
 import { expect, tap } from '@git.zone/tstest/tapbundle';
 import * as fs from 'fs';
 import * as stream from 'stream';
 import { nodewebhelpers } from '../ts/index.js';
 // =============================================
 // createWebReadableStreamFromFile
 // =============================================
 tap.test('nodewebhelpers: createWebReadableStreamFromFile should read a file', async () => {
  const webStream = nodewebhelpers.createWebReadableStreamFromFile('./test/assets/readabletext.txt');
  const reader = webStream.getReader();
  const chunks: Uint8Array[] = [];
  while (true) {
    const { value, done } = await reader.read();
    if (done) break;
    chunks.push(value);
  }
  expect(chunks.length).toBeGreaterThan(0);
  const content = Buffer.concat(chunks).toString();
  expect(content.length).toBeGreaterThan(0);
 });
 // =============================================
 // convertNodeReadableToWebReadable
 // =============================================
 tap.test('nodewebhelpers: convertNodeReadableToWebReadable should convert', async () => {
  const nodeReadable = fs.createReadStream('./test/assets/readabletext.txt');
  const webReadable = nodewebhelpers.convertNodeReadableToWebReadable(nodeReadable);
  const reader = webReadable.getReader();
  const chunks: Uint8Array[] = [];
  while (true) {
    const { value, done } = await reader.read();
    if (done) break;
    chunks.push(value);
  }
  expect(chunks.length).toBeGreaterThan(0);
  const content = Buffer.concat(chunks).toString();
  expect(content.length).toBeGreaterThan(0);
 });
 // =============================================
 // convertWebReadableToNodeReadable
 // =============================================
 tap.test('nodewebhelpers: convertWebReadableToNodeReadable should convert', async (tools) => {
  const data = new Uint8Array([72, 101, 108, 108, 111]); // "Hello"
  const webReadable = new ReadableStream<Uint8Array>({
    start(controller) {
      controller.enqueue(data);
      controller.close();
    },
  });
  const nodeReadable = nodewebhelpers.convertWebReadableToNodeReadable(webReadable);
  const chunks: Buffer[] = [];
  const done = tools.defer();
  nodeReadable.on('data', (chunk: Buffer) => {
    chunks.push(chunk);
  });
  nodeReadable.on('end', () => {
    const result = Buffer.concat(chunks).toString();
    expect(result).toEqual('Hello');
    done.resolve();
  });
  await done.promise;
 });
 // =============================================
 // convertNodeWritableToWebWritable
 // =============================================
 tap.test('nodewebhelpers: convertNodeWritableToWebWritable should convert', async () => {
  const chunks: Buffer[] = [];
  const nodeWritable = new stream.Writable({
    write(chunk, encoding, callback) {
      chunks.push(chunk);
      callback();
    },
  });
  const webWritable = nodewebhelpers.convertNodeWritableToWebWritable(nodeWritable);
  const writer = webWritable.getWriter();
  await writer.write(new Uint8Array([65, 66, 67])); // "ABC"
  await writer.close();
  const result = Buffer.concat(chunks).toString();
  expect(result).toEqual('ABC');
 });
 // =============================================
 // convertWebWritableToNodeWritable
 // =============================================
 tap.test('nodewebhelpers: convertWebWritableToNodeWritable should convert', async (tools) => {
  const chunks: Uint8Array[] = [];
  const webWritable = new WritableStream<Uint8Array>({
    write(chunk) {
      chunks.push(chunk);
    },
  });
  const nodeWritable = nodewebhelpers.convertWebWritableToNodeWritable(webWritable);
  const done = tools.defer();
  nodeWritable.write(Buffer.from('Hello'), (err) => {
    expect(err).toBeFalsy();
    nodeWritable.end(() => {
      expect(chunks.length).toBeGreaterThan(0);
      done.resolve();
    });
  });
  await done.promise;
 });
 // =============================================
 // Round-trip: Node → Web → Node
 // =============================================
 tap.test('nodewebhelpers: round-trip Node → Web → Node readable', async (tools) => {
  const nodeReadable = fs.createReadStream('./test/assets/readabletext.txt');
  const webReadable = nodewebhelpers.convertNodeReadableToWebReadable(nodeReadable);
  const nodeReadable2 = nodewebhelpers.convertWebReadableToNodeReadable(webReadable);
  const chunks: Buffer[] = [];
  const done = tools.defer();
  nodeReadable2.on('data', (chunk: Buffer) => {
    chunks.push(chunk);
  });
  nodeReadable2.on('end', () => {
    expect(chunks.length).toBeGreaterThan(0);
    done.resolve();
  });
  await done.promise;
 });
 export default tap.start();
@@ -0,0 +1,379 @@
 import { expect, tap } from '@git.zone/tstest/tapbundle';
 import * as fs from 'fs';
 import * as smartstream from '../ts/index.js';
 import { SmartDuplex } from '../ts/smartstream.classes.smartduplex.js';
 // =============================================
 // Constructor
 // =============================================
 tap.test('SmartDuplex: should construct with no options', async () => {
  const duplex = new SmartDuplex();
  expect(duplex).toBeInstanceOf(SmartDuplex);
 });
 tap.test('SmartDuplex: should construct with options', async () => {
  const duplex = new SmartDuplex({
    objectMode: true,
    writeFunction: async (chunk) => chunk,
  });
  expect(duplex).toBeInstanceOf(SmartDuplex);
 });
 // =============================================
 // fromBuffer
 // =============================================
 tap.test('SmartDuplex: should create from a Buffer', async () => {
  const bufferData = Buffer.from('This is a test buffer');
  const stream = SmartDuplex.fromBuffer(bufferData, {});
  let receivedData = Buffer.alloc(0);
  return new Promise<void>((resolve) => {
    stream.on('data', (chunk: Buffer) => {
      receivedData = Buffer.concat([receivedData, chunk]);
    });
    stream.on('end', () => {
      expect(receivedData.toString()).toEqual(bufferData.toString());
      resolve();
    });
  });
 });
 // =============================================
 // writeFunction
 // =============================================
 tap.test('SmartDuplex: should transform chunks via writeFunction', async (tools) => {
  const results: string[] = [];
  const transform = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async (chunk) => {
      return chunk.toUpperCase();
    },
  });
  const done = tools.defer();
  transform.on('data', (chunk: string) => {
    results.push(chunk);
  });
  transform.on('end', () => {
    expect(results).toContain('HELLO');
    expect(results).toContain('WORLD');
    done.resolve();
  });
  transform.write('hello');
  transform.write('world');
  transform.end();
  await done.promise;
 });
 tap.test('SmartDuplex: writeFunction returning undefined should not push', async (tools) => {
  const results: any[] = [];
  const transform = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async () => {
      return undefined;
    },
  });
  const done = tools.defer();
  transform.on('data', (chunk: any) => {
    results.push(chunk);
  });
  transform.on('end', () => {
    expect(results.length).toEqual(0);
    done.resolve();
  });
  transform.write('hello');
  transform.end();
  await done.promise;
 });
 // =============================================
 // tools.push — multiple outputs
 // =============================================
 tap.test('SmartDuplex: should emit multiple chunks via tools.push', async (tools) => {
  const results: string[] = [];
  const splitter = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async (chunk, streamTools) => {
      const words = chunk.split(' ');
      for (const word of words) {
        await streamTools.push(word);
      }
    },
  });
  const done = tools.defer();
  splitter.on('data', (chunk: string) => results.push(chunk));
  splitter.on('end', () => {
    expect(results).toContain('hello');
    expect(results).toContain('beautiful');
    expect(results).toContain('world');
    done.resolve();
  });
  splitter.write('hello beautiful world');
  splitter.end();
  await done.promise;
 });
 // =============================================
 // finalFunction
 // =============================================
 tap.test('SmartDuplex: should emit final chunk via finalFunction', async (tools) => {
  const results: string[] = [];
  let count = 0;
  const aggregator = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async () => {
      count++;
      return undefined;
    },
    finalFunction: async () => {
      return `total: ${count}`;
    },
  });
  const done = tools.defer();
  aggregator.on('data', (chunk: string) => results.push(chunk));
  aggregator.on('end', () => {
    expect(results.length).toEqual(1);
    expect(results[0]).toEqual('total: 2');
    done.resolve();
  });
  aggregator.write('a');
  aggregator.write('b');
  aggregator.end();
  await done.promise;
 });
 tap.test('SmartDuplex: finalFunction can push multiple chunks via tools.push', async (tools) => {
  const results: string[] = [];
  const stream = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async (chunk) => chunk,
    finalFunction: async (streamTools) => {
      await streamTools.push('final1');
      await streamTools.push('final2');
    },
  });
  const done = tools.defer();
  stream.on('data', (chunk: string) => results.push(chunk));
  stream.on('end', () => {
    expect(results).toContain('hello');
    expect(results).toContain('final1');
    expect(results).toContain('final2');
    done.resolve();
  });
  stream.write('hello');
  stream.end();
  await done.promise;
 });
 // =============================================
 // truncate
 // =============================================
 tap.test('SmartDuplex: should truncate stream early', async (tools) => {
  const results: string[] = [];
  const limiter = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async (chunk, streamTools) => {
      if (chunk === 'STOP') {
        streamTools.truncate();
        return undefined;
      }
      return chunk;
    },
  });
  const done = tools.defer();
  limiter.on('data', (chunk: string) => results.push(chunk));
  limiter.on('end', () => {
    expect(results).toContain('a');
    expect(results).toContain('b');
    expect(results).not.toContain('STOP');
    done.resolve();
  });
  limiter.write('a');
  limiter.write('b');
  // Write STOP on next tick to allow previous writes to flush
  process.nextTick(() => {
    limiter.write('STOP');
  });
  await done.promise;
 });
 // =============================================
 // Error handling
 // =============================================
 tap.test('SmartDuplex: should emit error when writeFunction throws', async (tools) => {
  const stream = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async () => {
      throw new Error('write error');
    },
  });
  const done = tools.defer();
  stream.on('error', (err) => {
    expect(err.message).toEqual('write error');
    done.resolve();
  });
  stream.write('test');
  await done.promise;
 });
 tap.test('SmartDuplex: should error when no writeFunction and data is written', async (tools) => {
  const stream = new SmartDuplex<string, string>({
    objectMode: true,
  });
  const done = tools.defer();
  stream.on('error', (err) => {
    expect(err.message).toEqual('No stream function provided');
    done.resolve();
  });
  stream.write('test');
  await done.promise;
 });
 // =============================================
 // fromWebReadableStream
 // =============================================
 tap.test('SmartDuplex: should create from a Web ReadableStream', async (tools) => {
  const chunks = ['hello', 'world', 'foo'];
  const webReadable = new ReadableStream<string>({
    start(controller) {
      for (const chunk of chunks) {
        controller.enqueue(chunk);
      }
      controller.close();
    }
  });
  const duplex = SmartDuplex.fromWebReadableStream(webReadable);
  const results: string[] = [];
  const done = tools.defer();
  duplex.on('data', (chunk: string) => results.push(chunk));
  duplex.on('end', () => {
    expect(results).toEqual(chunks);
    done.resolve();
  });
  await done.promise;
 });
 // =============================================
 // getWebStreams
 // =============================================
 tap.test('SmartDuplex: should provide web streams via getWebStreams()', async () => {
  const duplex = new SmartDuplex<string, string>({
    objectMode: true,
    writeFunction: async (chunk) => {
      return chunk.toUpperCase();
    },
  });
  const { readable, writable } = await duplex.getWebStreams();
  const writer = writable.getWriter();
  const reader = readable.getReader();
  await writer.write('hello');
  await writer.write('world');
  await writer.close();
  const results: string[] = [];
  while (true) {
    const { value, done } = await reader.read();
    if (done) break;
    results.push(value);
  }
  expect(results).toContain('HELLO');
  expect(results).toContain('WORLD');
 });
 // =============================================
 // Debug mode
 // =============================================
 tap.test('SmartDuplex: debug mode should not crash', async (tools) => {
  const stream = new SmartDuplex<string, string>({
    name: 'DebugStream',
    debug: true,
    objectMode: true,
    writeFunction: async (chunk) => chunk,
  });
  const done = tools.defer();
  stream.on('data', () => {});
  stream.on('end', () => done.resolve());
  stream.write('test');
  stream.end();
  await done.promise;
 });
 // =============================================
 // Pipe with file read
 // =============================================
 tap.test('SmartDuplex: should handle a read stream pipeline', async () => {
  const streamWrapper = new smartstream.StreamWrapper([
    fs.createReadStream('./test/assets/readabletext.txt'),
    new smartstream.SmartDuplex({
      writeFunction: async (chunkStringArg: Buffer, streamTools) => {
        const result = chunkStringArg.toString().substr(0, 100);
        streamTools.push('wow =========== \n');
        return Buffer.from(result);
      },
      finalFunction: async () => {
        return Buffer.from('this is the end');
      },
    }),
    new smartstream.SmartDuplex({
      writeFunction: async (chunkStringArg) => {
        // consume data
      },
      finalFunction: async (streamTools) => {
        streamTools.push(null);
      },
    })
  ]);
  await streamWrapper.run();
 });
 export default tap.start();
@@ -0,0 +1,128 @@
 import { expect, tap } from '@git.zone/tstest/tapbundle';
 import * as fs from 'fs';
 import { StreamIntake, SmartDuplex } from '../ts/index.js';
 import * as stream from 'stream';
 // =============================================
 // Basic StreamIntake
 // =============================================
 tap.test('StreamIntake: should push data and signal end', async (tools) => {
  const intake = new StreamIntake<string>();
  const results: string[] = [];
  intake.pipe(
    new SmartDuplex<string, string>({
      objectMode: true,
      writeFunction: async (chunk) => {
        results.push(chunk);
        return chunk;
      },
    })
  );
  const done = tools.defer();
  let counter = 0;
  intake.pushNextObservable.subscribe(() => {
    if (counter < 5) {
      counter++;
      intake.pushData(`item-${counter}`);
    } else {
      intake.signalEnd();
      done.resolve();
    }
  });
  await done.promise;
  // Give streams time to flush
  await new Promise((resolve) => setTimeout(resolve, 100));
  expect(results.length).toBeGreaterThan(0);
 });
 tap.test('StreamIntake: should pipe to a writable', async (tools) => {
  const intake = new StreamIntake<string>();
  intake
    .pipe(
      new SmartDuplex({
        objectMode: true,
        writeFunction: async (chunk: string) => {
          return chunk;
        },
      })
    )
    .pipe(fs.createWriteStream('./test/assets/writabletext.txt'));
  const done = tools.defer();
  let counter = 0;
  intake.pushNextObservable.subscribe(() => {
    if (counter < 10) {
      counter++;
      intake.pushData('data\n');
    } else {
      intake.signalEnd();
      done.resolve();
    }
  });
  await done.promise;
 });
 // =============================================
 // StreamIntake.fromStream (Node Readable)
 // =============================================
 tap.test('StreamIntake: fromStream should wrap a Node readable', async (tools) => {
  const nodeReadable = fs.createReadStream('./test/assets/readabletext.txt');
  const intake = await StreamIntake.fromStream<Buffer>(nodeReadable);
  const chunks: Buffer[] = [];
  const done = tools.defer();
  intake.on('data', (chunk: Buffer) => {
    chunks.push(chunk);
  });
  intake.on('end', () => {
    expect(chunks.length).toBeGreaterThan(0);
    const content = Buffer.concat(chunks).toString();
    expect(content.length).toBeGreaterThan(0);
    done.resolve();
  });
  await done.promise;
 });
 // =============================================
 // StreamIntake.fromStream (Web ReadableStream)
 // =============================================
 tap.test('StreamIntake: fromStream should wrap a Web ReadableStream', async (tools) => {
  const data = ['chunk1', 'chunk2', 'chunk3'];
  const webReadable = new ReadableStream<string>({
    start(controller) {
      for (const item of data) {
        controller.enqueue(item);
      }
      controller.close();
    },
  });
  const intake = await StreamIntake.fromStream<string>(webReadable);
  const results: string[] = [];
  const done = tools.defer();
  intake.on('data', (chunk: string) => {
    results.push(chunk);
  });
  intake.on('end', () => {
    expect(results).toEqual(data);
    done.resolve();
  });
  await done.promise;
 });
 export default tap.start();
@@ -0,0 +1,71 @@
 import { expect, tap } from '@git.zone/tstest/tapbundle';
 import * as fs from 'fs';
 import { StreamWrapper, SmartDuplex } from '../ts/index.js';
 tap.test('StreamWrapper: should pipe read to write', async () => {
  const wrapper = new StreamWrapper([
    fs.createReadStream('./test/assets/test.md'),
    fs.createWriteStream('./test/assets/testCopy.md'),
  ]);
  await wrapper.run();
 });
 tap.test('StreamWrapper: should propagate errors', async (tools) => {
  const failingStream = new SmartDuplex<Buffer, Buffer>({
    writeFunction: async () => {
      throw new Error('intentional error');
    },
  });
  const wrapper = new StreamWrapper([
    fs.createReadStream('./test/assets/test.md'),
    failingStream,
  ]);
  let errorCaught = false;
  try {
    await wrapper.run();
  } catch (err) {
    errorCaught = true;
    const message = err instanceof Error ? err.message : String(err);
    expect(message).toEqual('intentional error');
  }
  expect(errorCaught).toBeTrue();
 });
 tap.test('StreamWrapper: streamStarted should resolve', async () => {
  const wrapper = new StreamWrapper([
    fs.createReadStream('./test/assets/test.md'),
    fs.createWriteStream('./test/assets/testCopy.md'),
  ]);
  const runPromise = wrapper.run();
  await wrapper.streamStarted();
  await runPromise;
 });
 tap.test('StreamWrapper: onCustomEvent should fire', async (tools) => {
  const results: string[] = [];
  const emitter = new SmartDuplex<Buffer, Buffer>({
    writeFunction: async (chunk, streamTools) => {
      (emitter as any).emit('custom-progress', 'progress');
      return chunk;
    },
  });
  const wrapper = new StreamWrapper([
    fs.createReadStream('./test/assets/test.md'),
    emitter,
    fs.createWriteStream('./test/assets/testCopy.md'),
  ]);
  wrapper.onCustomEvent('custom-progress', () => {
    results.push('fired');
  });
  await wrapper.run();
  expect(results.length).toBeGreaterThan(0);
 });
 export default tap.start();
@@ -1,68 +0,0 @@
 import { tap, expect } from '@push.rocks/tapbundle';
 import { SmartDuplex, type ISmartDuplexOptions, StreamWrapper } from '../ts/index.js';
 tap.test('should run backpressure test', async (toolsArg) => {
  const done = toolsArg.defer();
  async function testBackpressure() {
    const stream1 = new SmartDuplex({
      name: 'stream1',
      objectMode: true,
      writeFunction: async (chunk, tools) => {
        await new Promise((resolve) => setTimeout(resolve, 10)); // Slow processing
        console.log(`processed chunk ${chunk} in stream 1`);
        return chunk; // Fast processing
      },
    });
    const stream2 = new SmartDuplex({
      name: 'stream2',
      objectMode: true,
      writeFunction: async (chunk, tools) => {
        await new Promise((resolve) => setTimeout(resolve, 20)); // Slow processing
        console.log(`processed chunk ${chunk} in stream 2`);
        await tools.push(chunk);
        // return chunk, optionally return ;
      },
    }); // This stream processes data more slowly
    const stream3 = new SmartDuplex({
      objectMode: true,
      name: 'stream3',
      writeFunction: async (chunk, tools) => {
        await new Promise((resolve) => setTimeout(resolve, 200)); // Slow processing
        console.log(`processed chunk ${chunk} in stream 3`);
      },
    });
    stream1.pipe(stream2).pipe(stream3);
    let backpressured = false;
    for (let i = 0; i < 200; i++) {
      const canContinue = stream1.write(`Chunk ${i}`, 'utf8');
      if (!canContinue) {
        backpressured = true;
        console.log(`Backpressure at chunk ${i}`);
      }
    }
    stream1.end();
    stream1.on('finish', () => {
      console.log('Stream 1 finished processing.');
    });
    stream2.on('finish', () => {
      console.log('Stream 2 finished processing.');
    });
    stream3.on('finish', () => {
      console.log('Stream 3 finished processing.');
      if (!backpressured) {
        throw new Error('No backpressure was observed.');
      } else {
        done.resolve();
      }
    });
  }
  testBackpressure();
  await done.promise;
 });
 await tap.start();
@@ -1,24 +0,0 @@
 import { expect, tap } from '@push.rocks/tapbundle';
 import { SmartDuplex } from '../ts/smartstream.classes.smartduplex.js'; // Adjust the import to your file structure
 import * as smartrx from '@push.rocks/smartrx';
 import * as fs from 'fs';
 tap.test('should create a SmartStream from a Buffer', async () => {
  const bufferData = Buffer.from('This is a test buffer');
  const smartStream = SmartDuplex.fromBuffer(bufferData, {});
  let receivedData = Buffer.alloc(0);
  return new Promise<void>((resolve) => {
    smartStream.on('data', (chunk: Buffer) => {
      receivedData = Buffer.concat([receivedData, chunk]);
    });
    smartStream.on('end', () => {
      expect(receivedData.toString()).toEqual(bufferData.toString());
      resolve();
    });
  });
 });
 tap.start();
@@ -1,65 +0,0 @@
 import { expect, tap } from '@push.rocks/tapbundle';
 import * as smartfile from '@push.rocks/smartfile';
 import * as smartstream from '../ts/index.js';
 let testIntake: smartstream.StreamIntake<string>;
 tap.test('should handle a read stream', async (tools) => {
  const counter = 0;
  const streamWrapper = new smartstream.StreamWrapper([
    smartfile.fsStream.createReadStream('./test/assets/readabletext.txt'),
    new smartstream.SmartDuplex({
      writeFunction: async (chunkStringArg: Buffer, streamTools) => {
        // do something with the stream here
        const result = chunkStringArg.toString().substr(0, 100);
        streamTools.push('wow =========== \n');
        return Buffer.from(result);
      },
      finalFunction: async (tools) => {
        return Buffer.from('this is the end');
      },
    }),
    new smartstream.SmartDuplex({
      writeFunction: async (chunkStringArg) => {
        console.log(chunkStringArg.toString());
      },
      finalFunction: async (tools) => {
        tools.push(null);
      },
    })
  ]);
  await streamWrapper.run();
 });
 tap.test('should create a valid Intake', async (tools) => {
  testIntake = new smartstream.StreamIntake<string>();
  testIntake.pipe(
      new smartstream.SmartDuplex({
        objectMode: true,
        writeFunction: async (chunkStringArg: string, streamTools) => {
          await tools.delayFor(100);
          console.log(chunkStringArg);
          return chunkStringArg;
        }
      })
    )
    .pipe(smartfile.fsStream.createWriteStream('./test/assets/writabletext.txt'));
  const testFinished = tools.defer();
  let counter = 0;
  testIntake.pushNextObservable.subscribe(() => {
    if (counter < 50) {
      counter++;
      testIntake.pushData('hi');
      testIntake.pushData('+wow');
      testIntake.pushData('\n');
    } else {
      testIntake.signalEnd();
      testFinished.resolve();
    }
  });
  await testFinished.promise;
  testIntake.signalEnd();
 });
 tap.start();
@@ -1,15 +0,0 @@
 import * as smartfile from '@push.rocks/smartfile';
 import { expect, tap } from '@push.rocks/tapbundle';
 import * as smartstream from '../ts/smartstream.classes.streamwrapper.js';
 let testSmartstream: smartstream.StreamWrapper;
 tap.test('should combine a stream', async () => {
  testSmartstream = new smartstream.StreamWrapper([
    smartfile.fsStream.createReadStream('./test/assets/test.md'),
    smartfile.fsStream.createWriteStream('./test/assets/testCopy.md'),
  ]);
  await testSmartstream.run();
 });
 tap.start();
@@ -1,67 +0,0 @@
 import { expect, tap } from '@push.rocks/tapbundle';
 import * as webstream from '../ts_web/index.js';
 tap.test('WebDuplexStream fromUInt8Array should read back the same Uint8Array', async () => {
  const inputUint8Array = new Uint8Array([1, 2, 3, 4, 5]);
  const stream = webstream.WebDuplexStream.fromUInt8Array(inputUint8Array);
  const reader = stream.readable.getReader();
  let readUint8Array = new Uint8Array();
  // Read from the stream
  while (true) {
    const { value, done } = await reader.read();
    if (done) break;
    if (value) {
      // Concatenate value to readUint8Array
      const tempArray = new Uint8Array(readUint8Array.length + value.length);
      tempArray.set(readUint8Array, 0);
      tempArray.set(value, readUint8Array.length);
      readUint8Array = tempArray;
    }
  }
  expect(readUint8Array).toEqual(inputUint8Array);
 });
 tap.test('WebDuplexStream should handle transform with a write function', async () => {
  const input = [1, 2, 3, 4, 5];
  const expectedOutput = [2, 4, 6, 8, 10];
  const webDuplexStream = new webstream.WebDuplexStream<number, number>({
    writeFunction: async (chunk, { push }) => {
      // Push the doubled number into the stream
      push(chunk * 2);
    },
  });
  const writer = webDuplexStream.writable.getWriter();
  const reader = webDuplexStream.readable.getReader();
  const output: number[] = [];
  // Read from the stream asynchronously
  const readPromise = (async () => {
    while (true) {
      const { value, done } = await reader.read();
      if (done) break;
      if (value !== undefined) {
        output.push(value);
      }
    }
  })();
  // Write to the stream
  for (const num of input) {
    await writer.write(num);
  }
  await writer.close();
  // Wait for the reading to complete
  await readPromise;
  // Assert that the output matches the expected transformed data
  expect(output).toEqual(expectedOutput);
 });
 tap.start();
@@ -0,0 +1,51 @@
 import { expect, tap } from '@git.zone/tstest/tapbundle';
 import { createTransformFunction, createPassThrough, SmartDuplex, StreamWrapper } from '../ts/index.js';
 // =============================================
 // createTransformFunction
 // =============================================
 tap.test('createTransformFunction: should create a transform stream', async (tools) => {
  const doubler = createTransformFunction<number, number>(async (n) => n * 2, { objectMode: true });
  const results: number[] = [];
  doubler.on('data', (chunk: number) => results.push(chunk));
  const done = tools.defer();
  doubler.on('end', () => {
    expect(results).toContain(10);
    expect(results).toContain(20);
    expect(results).toContain(30);
    done.resolve();
  });
  doubler.write(5);
  doubler.write(10);
  doubler.write(15);
  doubler.end();
  await done.promise;
 });
 // =============================================
 // createPassThrough
 // =============================================
 tap.test('createPassThrough: should pass data through unchanged', async (tools) => {
  const passThrough = createPassThrough();
  const results: string[] = [];
  passThrough.on('data', (chunk: string) => results.push(chunk));
  const done = tools.defer();
  passThrough.on('end', () => {
    expect(results).toEqual(['hello', 'world']);
    done.resolve();
  });
  passThrough.write('hello');
  passThrough.write('world');
  passThrough.end();
  await done.promise;
 });
 export default tap.start();
@@ -0,0 +1,147 @@
 import { expect, tap } from '@git.zone/tstest/tapbundle';
 import { WebDuplexStream } from '../ts_web/index.js';
 // Helper: collect all chunks from a readable
 async function collectAll<T>(reader: ReadableStreamDefaultReader<T>): Promise<T[]> {
  const results: T[] = [];
  while (true) {
    const result = await reader.read();
    if (result.done) break;
    results.push(result.value);
  }
  return results;
 }
 // =============================================
 // Basic transform
 // =============================================
 tap.test('WebDuplexStream: should transform chunks via writeFunction', async () => {
  const stream = new WebDuplexStream<number, number>({
    writeFunction: async (chunk, { push }) => {
      push(chunk * 2);
    },
  });
  const writer = stream.writable.getWriter();
  const reader = stream.readable.getReader();
  // Read and write concurrently to avoid backpressure deadlock
  const readPromise = collectAll(reader);
  await writer.write(5);
  await writer.write(10);
  await writer.close();
  const results = await readPromise;
  expect(results).toContain(10);
  expect(results).toContain(20);
 });
 // =============================================
 // writeFunction return value
 // =============================================
 tap.test('WebDuplexStream: should enqueue returned non-null values', async () => {
  const stream = new WebDuplexStream<string, string>({
    writeFunction: async (chunk) => {
      return chunk.toUpperCase();
    },
  });
  const writer = stream.writable.getWriter();
  const reader = stream.readable.getReader();
  const readPromise = collectAll(reader);
  await writer.write('hello');
  await writer.close();
  const results = await readPromise;
  expect(results[0]).toEqual('HELLO');
 });
 // =============================================
 // fromUInt8Array
 // =============================================
 tap.test('WebDuplexStream: fromUInt8Array should produce data', async () => {
  const data = new Uint8Array([1, 2, 3, 4, 5]);
  const stream = WebDuplexStream.fromUInt8Array(data);
  const reader = stream.readable.getReader();
  const { value } = await reader.read();
  expect(value).toBeTruthy();
  if (!value) {
    throw new Error('Expected fromUInt8Array to produce data');
  }
  expect(value.length).toEqual(5);
 });
 // =============================================
 // readFunction
 // =============================================
 tap.test('WebDuplexStream: readFunction should supply data to the stream', async () => {
  const stream = new WebDuplexStream<string, string>({
    readFunction: async (tools) => {
      await tools.write('chunk1');
      await tools.write('chunk2');
      tools.done();
    },
    writeFunction: async (chunk, { push }) => {
      push(chunk.toUpperCase());
    },
  });
  const reader = stream.readable.getReader();
  const results = await collectAll(reader);
  expect(results).toContain('CHUNK1');
  expect(results).toContain('CHUNK2');
 });
 // =============================================
 // finalFunction
 // =============================================
 tap.test('WebDuplexStream: finalFunction should emit final data', async () => {
  const stream = new WebDuplexStream<string, string>({
    writeFunction: async (chunk) => {
      return chunk;
    },
    finalFunction: async (tools) => {
      tools.push('final');
      return undefined;
    },
  });
  const writer = stream.writable.getWriter();
  const reader = stream.readable.getReader();
  const readPromise = collectAll(reader);
  await writer.write('hello');
  await writer.close();
  const results = await readPromise;
  expect(results).toContain('hello');
  expect(results).toContain('final');
 });
 // =============================================
 // No writeFunction = passthrough
 // =============================================
 tap.test('WebDuplexStream: no writeFunction should passthrough', async () => {
  const stream = new WebDuplexStream<string, string>({});
  const writer = stream.writable.getWriter();
  const reader = stream.readable.getReader();
  const readPromise = collectAll(reader);
  await writer.write('pass');
  await writer.close();
  const results = await readPromise;
  expect(results[0]).toEqual('pass');
 });
 export default tap.start();
@@ -3,6 +3,6 @@
 */
 export const commitinfo = {
  name: '@push.rocks/smartstream',
-  version: '3.2.4',
+  version: '3.4.2',
  description: 'A library to simplify the creation and manipulation of Node.js streams, providing utilities for handling transform, duplex, and readable/writable streams effectively in TypeScript.'
 }
@@ -7,11 +7,11 @@ export interface IStreamTools {
 }
 export interface IStreamWriteFunction<T, rT> {
-  (chunkArg: T, toolsArg: IStreamTools): Promise<rT>;
+  (chunkArg: T, toolsArg: IStreamTools): Promise<rT | void | null | undefined>;
 }
 export interface IStreamFinalFunction<rT> {
-  (toolsArg: IStreamTools): Promise<rT>;
+  (toolsArg: IStreamTools): Promise<rT | void | null | undefined>;
 }
 export interface ISmartDuplexOptions<TInput, TOutput> extends DuplexOptions {
@@ -56,67 +56,116 @@ export class SmartDuplex<TInput = any, TOutput = any> extends Duplex {
    readableStream: ReadableStream<T>
  ): SmartDuplex<T, T> {
    const smartDuplex = new SmartDuplex<T, T>({
-      /**
+      objectMode: true,
       * this function is called whenever the stream is being read from and at the same time if nothing is enqueued
       * therefor it is important to always unlock the reader after reading
       */
      readFunction: async () => {
        const reader = readableStream.getReader();
        const { value, done } = await reader.read();
        if (value !== undefined) {
          smartDuplex.push(value);
        }
        reader.releaseLock();
        if (done) {
          smartDuplex.push(null);
        }
      },
    });
    // Acquire reader ONCE
    const reader = readableStream.getReader();
    let reading = false;
    // Override _read to pull from the web reader
    smartDuplex._read = function (_size: number) {
      if (reading) return;
      reading = true;
      reader.read().then(
        ({ value, done }) => {
          reading = false;
          if (done) {
            smartDuplex.push(null);
          } else {
            smartDuplex.push(value);
          }
        },
        (err) => {
          reading = false;
          smartDuplex.destroy(err);
        }
      );
    };
    // Cancel reader on destroy
    smartDuplex.on('close', () => {
      reader.cancel().catch(() => {});
    });
    return smartDuplex;
  }
  // INSTANCE
-  private backpressuredArray: plugins.lik.BackpressuredArray<TOutput>; // an array that only takes a defined amount of items
+  private backpressuredArray: plugins.lik.BackpressuredArray<TOutput | null>;
  public options: ISmartDuplexOptions<TInput, TOutput>;
-  private observableSubscription?: plugins.smartrx.rxjs.Subscription;
+  private _consumerWantsData = false;
  private _readFunctionRunning = false;
  private debugLog(messageArg: string) {
    // optional debug log
    if (this.options.debug) {
      console.log(messageArg);
    }
  }
  constructor(optionsArg?: ISmartDuplexOptions<TInput, TOutput>) {
    const safeOptions = optionsArg || {} as ISmartDuplexOptions<TInput, TOutput>;
    super(
      Object.assign(
        {
          highWaterMark: 1,
        },
-        optionsArg
+        safeOptions
      )
    );
-    this.options = optionsArg;
+    this.options = safeOptions;
-    this.backpressuredArray = new plugins.lik.BackpressuredArray<TOutput>(
+    this.backpressuredArray = new plugins.lik.BackpressuredArray<TOutput | null>(
      this.options.highWaterMark || 1
    );
  }
-  public async _read(size: number): Promise<void> {
+  /**
-    this.debugLog(`${this.options.name}: read was called`);
+   * Synchronously drains items from the backpressuredArray into the readable side.
-    if (this.options.readFunction) {
+   * Stops when push() returns false (consumer is full) or array is empty.
-      await this.options.readFunction();
+   */
-    }
+  private _drainBackpressuredArray(): void {
-    await this.backpressuredArray.waitForItems();
+    while (this.backpressuredArray.data.length > 0) {
    this.debugLog(`${this.options.name}: successfully waited for items.`);
    let canPushMore = true;
    while (this.backpressuredArray.data.length > 0 && canPushMore) {
      const nextChunk = this.backpressuredArray.shift();
-      canPushMore = this.push(nextChunk);
+      if (nextChunk === null) {
        // EOF signal — push null to end readable side
        this.push(null);
        this._consumerWantsData = false;
        return;
      }
      const canPushMore = this.push(nextChunk);
      if (!canPushMore) {
        this._consumerWantsData = false;
        return;
      }
    }
  }
  // _read must NOT be async — Node.js ignores the return value
  public _read(size: number): void {
    this.debugLog(`${this.options.name}: read was called`);
    this._consumerWantsData = true;
    // Drain any buffered items first
    if (this.backpressuredArray.data.length > 0) {
      this._drainBackpressuredArray();
    }
    // If readFunction exists and is not already running, start it
    if (this.options.readFunction && !this._readFunctionRunning) {
      this._readFunctionRunning = true;
      this.options.readFunction().then(
        () => { this._readFunctionRunning = false; },
        (err) => { this._readFunctionRunning = false; this.destroy(err); }
      );
    }
  }
  public async backpressuredPush(pushArg: TOutput) {
    const canPushMore = this.backpressuredArray.push(pushArg);
    // Try to drain if the consumer wants data
    if (this._consumerWantsData) {
      this._drainBackpressuredArray();
    }
    if (!canPushMore) {
      this.debugLog(`${this.options.name}: cannot push more`);
      await this.backpressuredArray.waitForSpace();
@@ -126,83 +175,151 @@ export class SmartDuplex<TInput = any, TOutput = any> extends Duplex {
  }
  private asyncWritePromiseObjectmap = new plugins.lik.ObjectMap<Promise<any>>();
-  // Ensure the _write method types the chunk as TInput and encodes TOutput
+
-  public async _write(chunk: TInput, encoding: string, callback: (error?: Error | null) => void) {
+  // _write must NOT be async — Node.js ignores the return value
  public _write(chunk: TInput, encoding: string, callback: (error?: Error | null) => void) {
    if (!this.options.writeFunction) {
      return callback(new Error('No stream function provided'));
    }
    let callbackCalled = false;
    const safeCallback = (err?: Error | null) => {
      if (!callbackCalled) {
        callbackCalled = true;
        callback(err);
      }
    };
    let isTruncated = false;
    const tools: IStreamTools = {
      truncate: () => {
        this.push(null);
        isTruncated = true;
-        callback();
+        safeCallback();
        this.push(null);
      },
      push: async (pushArg: TOutput) => {
        return await this.backpressuredPush(pushArg);
      },
    };
-    try {
+    const writeDeferred = plugins.smartpromise.defer();
-      const writeDeferred = plugins.smartpromise.defer();
+    this.asyncWritePromiseObjectmap.add(writeDeferred.promise);
-      this.asyncWritePromiseObjectmap.add(writeDeferred.promise);
+
-      const modifiedChunk = await this.options.writeFunction(chunk, tools);
+    this.options.writeFunction(chunk, tools).then(
-      if (isTruncated) {
+      (modifiedChunk) => {
-        return;
+        if (isTruncated) {
-      }
+          writeDeferred.resolve();
-      if (modifiedChunk) {
+          this.asyncWritePromiseObjectmap.remove(writeDeferred.promise);
-        await tools.push(modifiedChunk);
+          return;
-      }
+        }
-      callback();
+        const finish = () => {
-      writeDeferred.resolve();
+          safeCallback();
-      writeDeferred.promise.then(() => {
+          writeDeferred.resolve();
          this.asyncWritePromiseObjectmap.remove(writeDeferred.promise);
        };
        if (modifiedChunk !== undefined && modifiedChunk !== null) {
          this.backpressuredPush(modifiedChunk).then(finish, (err) => {
            safeCallback(err);
            writeDeferred.resolve();
            this.asyncWritePromiseObjectmap.remove(writeDeferred.promise);
          });
        } else {
          finish();
        }
      },
      (err) => {
        safeCallback(err);
        writeDeferred.resolve();
        this.asyncWritePromiseObjectmap.remove(writeDeferred.promise);
-      });
+      }
-    } catch (err) {
+    );
      callback(err);
    }
  }
-  public async _final(callback: (error?: Error | null) => void) {
+  // _final must NOT be async — Node.js ignores the return value
-    await Promise.all(this.asyncWritePromiseObjectmap.getArray());
+  public _final(callback: (error?: Error | null) => void) {
-    if (this.options.finalFunction) {
+    let callbackCalled = false;
-      const tools: IStreamTools = {
+    const safeCallback = (err?: Error | null) => {
-        truncate: () => callback(),
+      if (!callbackCalled) {
-        push: async (pipeObject) => {
+        callbackCalled = true;
          return this.backpressuredArray.push(pipeObject);
        },
      };
      try {
        const finalChunk = await this.options.finalFunction(tools);
        if (finalChunk) {
          this.backpressuredArray.push(finalChunk);
        }
      } catch (err) {
        this.backpressuredArray.push(null);
        callback(err);
        return;
      }
-    }
+    };
-    this.backpressuredArray.push(null);
+
-    callback();
+    Promise.all(this.asyncWritePromiseObjectmap.getArray()).then(() => {
      if (this.options.finalFunction) {
        const tools: IStreamTools = {
          truncate: () => safeCallback(),
          push: async (pipeObject) => {
            return await this.backpressuredPush(pipeObject);
          },
        };
        this.options.finalFunction(tools).then(
          (finalChunk) => {
            const pushNull = () => {
              this.backpressuredArray.push(null);
              if (this._consumerWantsData) {
                this._drainBackpressuredArray();
              }
              safeCallback();
            };
            if (finalChunk !== undefined && finalChunk !== null) {
              this.backpressuredPush(finalChunk).then(pushNull, (err) => {
                safeCallback(err);
              });
            } else {
              pushNull();
            }
          },
          (err) => {
            this.backpressuredArray.push(null);
            if (this._consumerWantsData) {
              this._drainBackpressuredArray();
            }
            safeCallback(err);
          }
        );
      } else {
        this.backpressuredArray.push(null);
        if (this._consumerWantsData) {
          this._drainBackpressuredArray();
        }
        safeCallback();
      }
    }, (err) => {
      safeCallback(err);
    });
  }
  public async getWebStreams(): Promise<{ readable: ReadableStream; writable: WritableStream }> {
    const duplex = this;
    let readableClosed = false;
    const readable = new ReadableStream({
      start(controller) {
-        duplex.on('readable', () => {
+        const onReadable = () => {
          let chunk;
          while (null !== (chunk = duplex.read())) {
            controller.enqueue(chunk);
          }
-        });
+        };
-        duplex.on('end', () => {
+        const onEnd = () => {
-          controller.close();
+          if (!readableClosed) {
-        });
+            readableClosed = true;
            controller.close();
          }
          cleanup();
        };
        const cleanup = () => {
          duplex.removeListener('readable', onReadable);
          duplex.removeListener('end', onEnd);
        };
        duplex.on('readable', onReadable);
        duplex.on('end', onEnd);
      },
      cancel(reason) {
        duplex.destroy(new Error(reason));
@@ -212,22 +329,38 @@ export class SmartDuplex<TInput = any, TOutput = any> extends Duplex {
    const writable = new WritableStream({
      write(chunk) {
        return new Promise<void>((resolve, reject) => {
          let resolved = false;
          const onDrain = () => {
            if (!resolved) {
              resolved = true;
              resolve();
            }
          };
          const isBackpressured = !duplex.write(chunk, (error) => {
            if (error) {
-              reject(error);
+              if (!resolved) {
-            } else {
+                resolved = true;
                duplex.removeListener('drain', onDrain);
                reject(error);
              }
            } else if (!isBackpressured && !resolved) {
              resolved = true;
              resolve();
            }
          });
          if (isBackpressured) {
-            duplex.once('drain', resolve);
+            duplex.once('drain', onDrain);
          }
        });
      },
      close() {
        return new Promise<void>((resolve, reject) => {
-          duplex.end(resolve);
+          duplex.end((err: Error | null) => {
            if (err) reject(err);
            else resolve();
          });
        });
      },
      abort(reason) {
@@ -6,8 +6,11 @@ export class StreamIntake<T> extends plugins.stream.Readable {
    const intakeStream = new StreamIntake<U>(options);
    if (inputStream instanceof plugins.stream.Readable) {
-      inputStream.on('data', (chunk: U) => {
+      inputStream.on('readable', () => {
-        intakeStream.pushData(chunk);
+        let chunk: U;
        while (null !== (chunk = inputStream.read() as U)) {
          intakeStream.pushData(chunk);
        }
      });
      inputStream.on('end', () => {
@@ -1,8 +1,5 @@
 import * as plugins from './smartstream.plugins.js';
 // interfaces
 import { Transform } from 'stream';
 export interface IErrorFunction {
  (err: Error): any;
 }
@@ -62,7 +59,7 @@ export class StreamWrapper {
    }
    // combine the stream
-    let finalStream = null;
+    let finalStream: plugins.stream.Duplex | null = null;
    let firstIteration: boolean = true;
    for (const stream of streamExecutionArray) {
      if (firstIteration === true) {
@@ -74,23 +71,30 @@ export class StreamWrapper {
      for (const customEventObject of this.customEventObjectArray) {
        stream.on(customEventObject.eventName, customEventObject.eventFunction);
      }
-      if (!firstIteration) {
+      if (!firstIteration && finalStream) {
        finalStream = finalStream.pipe(stream);
      }
      firstIteration = false;
    }
    if (!finalStream) {
      done.resolve();
      return done.promise;
    }
    this.streamStartedDeferred.resolve();
-    finalStream.on('end', () => {
+    let resolved = false;
-      done.resolve();
+    const safeResolve = () => {
-    });
+      if (!resolved) {
-    finalStream.on('close', () => {
+        resolved = true;
-      done.resolve();
+        done.resolve();
-    });
+      }
-    finalStream.on('finish', () => {
+    };
-      done.resolve();
+
-    });
+    finalStream.on('end', safeResolve);
    finalStream.on('close', safeResolve);
    finalStream.on('finish', safeResolve);
    return done.promise;
  }
 }
@@ -1,4 +1,4 @@
-import { type TransformOptions } from 'stream';
+import { type DuplexOptions } from 'stream';
 import { SmartDuplex } from './smartstream.classes.smartduplex.js';
 export interface AsyncTransformFunction<TInput, TOutput> {
@@ -7,7 +7,7 @@ export interface AsyncTransformFunction<TInput, TOutput> {
 export function createTransformFunction<TInput, TOutput>(
  asyncFunction: AsyncTransformFunction<TInput, TOutput>,
-  options?: TransformOptions
+  options?: DuplexOptions
 ): SmartDuplex {
  const smartDuplexStream = new SmartDuplex({
    ...options,
@@ -1,34 +1,219 @@
-import { createReadStream } from 'fs';
+import * as plugins from './smartstream.plugins.js';
 /**
- * Creates a Web ReadableStream from a file.
+ * Creates a Web ReadableStream from a file using pull-based backpressure.
 *
 * @param filePath - The path to the file to be read
 * @returns A Web ReadableStream that reads the file in chunks
 */
 export function createWebReadableStreamFromFile(filePath: string): ReadableStream<Uint8Array> {
-  const fileStream = createReadStream(filePath);
+  const fileStream = plugins.fs.createReadStream(filePath);
  return new ReadableStream({
    start(controller) {
-      // When data is available, enqueue it into the Web ReadableStream
+      fileStream.on('error', (err) => {
-      fileStream.on('data', (chunk) => {
+        controller.error(err);
        controller.enqueue(chunk as Uint8Array);
      });
      // When the file stream ends, close the Web ReadableStream
      fileStream.on('end', () => {
        controller.close();
      });
-      // If there's an error, error the Web ReadableStream
+      // Pause immediately — pull() will drive reads
-      fileStream.on('error', (err) => {
+      fileStream.pause();
-        controller.error(err);
+    },
    pull(controller) {
      return new Promise<void>((resolve, reject) => {
        const chunk = fileStream.read();
        if (chunk !== null) {
          controller.enqueue(chunk as Uint8Array);
          resolve();
          return;
        }
        // No data available yet — wait for 'readable' or 'end'
        const onReadable = () => {
          cleanup();
          const data = fileStream.read();
          if (data !== null) {
            controller.enqueue(data as Uint8Array);
          }
          resolve();
        };
        const onEnd = () => {
          cleanup();
          resolve();
        };
        const onError = (err: Error) => {
          cleanup();
          reject(err);
        };
        const cleanup = () => {
          fileStream.removeListener('readable', onReadable);
          fileStream.removeListener('end', onEnd);
          fileStream.removeListener('error', onError);
        };
        fileStream.once('readable', onReadable);
        fileStream.once('end', onEnd);
        fileStream.once('error', onError);
      });
    },
    cancel() {
      // If the Web ReadableStream is canceled, destroy the file stream
      fileStream.destroy();
    }
  });
-}
+}
 /**
 * Converts a Web ReadableStream to a Node.js Readable stream.
 *
 * @param webStream - The Web ReadableStream to convert
 * @returns A Node.js Readable stream that reads data from the Web ReadableStream
 */
 export function convertWebReadableToNodeReadable(webStream: ReadableStream<Uint8Array>): plugins.stream.Readable {
  const reader = webStream.getReader();
  return new plugins.stream.Readable({
    read() {
      reader.read().then(
        ({ value, done }) => {
          if (done) {
            this.push(null);
          } else {
            this.push(Buffer.from(value));
          }
        },
        (err) => {
          this.destroy(err);
        }
      );
    }
  });
 }
 /**
 * Converts a Node.js Readable stream to a Web ReadableStream using pull-based backpressure.
 *
 * @param nodeStream - The Node.js Readable stream to convert
 * @returns A Web ReadableStream that reads data from the Node.js Readable stream
 */
 export function convertNodeReadableToWebReadable(nodeStream: plugins.stream.Readable): ReadableStream<Uint8Array> {
  return new ReadableStream({
    start(controller) {
      nodeStream.on('error', (err) => {
        controller.error(err);
      });
      nodeStream.on('end', () => {
        controller.close();
      });
      // Pause immediately — pull() will drive reads
      nodeStream.pause();
    },
    pull(controller) {
      return new Promise<void>((resolve, reject) => {
        const chunk = nodeStream.read();
        if (chunk !== null) {
          controller.enqueue(new Uint8Array(chunk));
          resolve();
          return;
        }
        // No data available yet — wait for 'readable' or 'end'
        const onReadable = () => {
          cleanup();
          const data = nodeStream.read();
          if (data !== null) {
            controller.enqueue(new Uint8Array(data));
          }
          resolve();
        };
        const onEnd = () => {
          cleanup();
          resolve();
        };
        const onError = (err: Error) => {
          cleanup();
          reject(err);
        };
        const cleanup = () => {
          nodeStream.removeListener('readable', onReadable);
          nodeStream.removeListener('end', onEnd);
          nodeStream.removeListener('error', onError);
        };
        nodeStream.once('readable', onReadable);
        nodeStream.once('end', onEnd);
        nodeStream.once('error', onError);
      });
    },
    cancel() {
      nodeStream.destroy();
    }
  });
 }
 /**
 * Converts a Web WritableStream to a Node.js Writable stream.
 *
 * @param webWritable - The Web WritableStream to convert
 * @returns A Node.js Writable stream that writes data to the Web WritableStream
 */
 export function convertWebWritableToNodeWritable(webWritable: WritableStream<Uint8Array>): plugins.stream.Writable {
  const writer = webWritable.getWriter();
  return new plugins.stream.Writable({
    write(chunk, encoding, callback) {
      writer.write(new Uint8Array(chunk)).then(
        () => callback(),
        (err) => callback(err)
      );
    },
    final(callback) {
      writer.close().then(() => callback()).catch(callback);
    },
    destroy(err, callback) {
      if (err) {
        writer.abort(err).then(() => callback(err)).catch(() => callback(err));
      } else {
        // Clean destroy — just release the lock
        writer.releaseLock();
        callback(null);
      }
    }
  });
 }
 /**
 * Converts a Node.js Writable stream to a Web WritableStream.
 *
 * @param nodeWritable - The Node.js Writable stream to convert
 * @returns A Web WritableStream that writes data to the Node.js Writable stream
 */
 export function convertNodeWritableToWebWritable(nodeWritable: plugins.stream.Writable): WritableStream<Uint8Array> {
  return new WritableStream({
    write(chunk) {
      return new Promise((resolve, reject) => {
        nodeWritable.write(Buffer.from(chunk), (err) => {
          if (err) {
            reject(err);
          } else {
            resolve();
          }
        });
      });
    },
    close() {
      return new Promise((resolve, reject) => {
        nodeWritable.end((err: Error | null) => {
          if (err) {
            reject(err);
          } else {
            resolve();
          }
        });
      });
    },
    abort(reason) {
      nodeWritable.destroy(reason instanceof Error ? reason : new Error(String(reason)));
    }
  });
 }
@@ -1,7 +1,8 @@
 // node native
 import * as fs from 'fs';
 import * as stream from 'stream';
-export { stream };
+export { fs, stream };
 // pushrocks scope
 import * as lik from '@push.rocks/lik';
@@ -0,0 +1,3 @@
 {
  "order": 1
 }
@@ -3,6 +3,6 @@
 */
 export const commitinfo = {
  name: '@push.rocks/smartstream',
-  version: '3.2.4',
+  version: '3.4.2',
  description: 'A library to simplify the creation and manipulation of Node.js streams, providing utilities for handling transform, duplex, and readable/writable streams effectively in TypeScript.'
 }
@@ -78,17 +78,14 @@ export class WebDuplexStream<TInput = any, TOutput = any> extends TransformStrea
          try {
            const finalChunk = await optionsArg.finalFunction(tools);
-            if (finalChunk) {
+            if (finalChunk !== undefined && finalChunk !== null) {
-              controller.enqueue(finalChunk);
+              controller.enqueue(finalChunk as TOutput);
            }
          } catch (err) {
            controller.error(err);
          } finally {
            controller.terminate();
          }
        } else {
          controller.terminate();
        }
        // TransformStream auto-closes readable after flush resolves — no terminate() needed
      },
    });
@@ -96,7 +93,9 @@ export class WebDuplexStream<TInput = any, TOutput = any> extends TransformStrea
    // Start producing data if readFunction is provided
    if (this.options.readFunction) {
-      this._startReading();
+      this._startReading().catch((err) => {
        // Prevent unhandled rejection — the error is propagated through the writable side
      });
    }
  }
@@ -104,17 +103,28 @@ export class WebDuplexStream<TInput = any, TOutput = any> extends TransformStrea
    const writable = this.writable;
    const writer = writable.getWriter();
    let doneSignaled = false;
    const tools: IStreamToolsRead<TInput, TOutput> = {
-      done: () => writer.close(),
+      done: () => {
        doneSignaled = true;
      },
      write: async (writeArg) => await writer.write(writeArg),
    };
    try {
-      await this.options.readFunction(tools);
+      const readFunction = this.options.readFunction;
      if (readFunction) {
        await readFunction(tools);
      }
      if (doneSignaled) {
        await writer.close();
      }
    } catch (err) {
-      writer.abort(err);
+      try {
-    } finally {
+        await writer.abort(err);
-      writer.releaseLock();
+      } catch (_) {
        // Writer may already be in error state
      }
    }
  }
@@ -128,8 +138,8 @@ export class WebDuplexStream<TInput = any, TOutput = any> extends TransformStrea
    });
    const writer = stream.writable.getWriter();
-    writer.write(uint8Array).then(() => writer.close());
+    writer.write(uint8Array).then(() => writer.close()).catch(() => {});
    return stream;
  }
-}
+}
@@ -9,7 +9,7 @@ export {
 const smartenvInstance = new smartenv.Smartenv();
 await smartenvInstance.getSafeNodeModule<typeof import('stream/web')>('stream/web', async (moduleArg) => {
-  globalThis.ReadableStream = moduleArg.ReadableStream;
+  globalThis.ReadableStream = moduleArg.ReadableStream as any;
-  globalThis.WritableStream = moduleArg.WritableStream;
+  globalThis.WritableStream = moduleArg.WritableStream as any;
-  globalThis.TransformStream = moduleArg.TransformStream;
+  globalThis.TransformStream = moduleArg.TransformStream as any;
 })
@@ -0,0 +1,3 @@
 {
  "order": 0
 }
@@ -5,8 +5,10 @@
    "target": "ES2022",
    "module": "NodeNext",
    "moduleResolution": "NodeNext",
    "noImplicitAny": true,
    "esModuleInterop": true,
-    "verbatimModuleSyntax": true
+    "verbatimModuleSyntax": true,
    "types": ["node"]
  },
  "exclude": [
    "dist_*/**/*.d.ts"
Author	SHA1	Message	Date
jkunz	a765363371	v3.4.2	2026-04-30 12:04:51 +00:00
jkunz	fccd0f86ad	fix(streams): tighten stream typings and guard optional runtime paths for duplex and wrapper utilities	2026-04-30 12:04:51 +00:00
jkunz	f78469a299	v3.4.1	2026-03-02 07:01:47 +00:00
jkunz	04d2f3223a	fix(readme): improve README: clarify entry points, add Web & Node stream examples, finalization and backpressure tips, and comprehensive API reference	2026-03-02 07:01:47 +00:00
jkunz	77046acac7	v3.4.0	2026-03-02 06:55:11 +00:00
jkunz	2acf1972a2	feat(smartduplex): improve backpressure handling and web/node stream interoperability	2026-03-02 06:55:11 +00:00
jkunz	1262c48fe9	v3.3.0	2026-02-28 08:48:58 +00:00
jkunz	9b9b1be62b	feat(smartstream): bump dependencies, update build/publish config, refactor tests, and overhaul documentation	2026-02-28 08:48:58 +00:00
philkunz	3d13cb76f6	3.2.5	2024-11-19 09:51:06 +01:00
philkunz	9e3fd28c4a	fix(nodewebhelpers): Fix import and use correct module structure for Node.js streams in smartstream.nodewebhelpers.ts	2024-11-19 09:51:05 +01:00