Buffers events from a stream until you are ready to handle them.
npm install delayed-streamThe following example shows how to write a http echo server that delays its response by 1000 ms.
var DelayedStream = require('delayed-stream');
var http = require('http');
http.createServer(function(req, res) {
var delayed = DelayedStream.create(req);
setTimeout(function() {
res.writeHead(200);
delayed.pipe(res);
}, 1000);
});If you are not using Stream#pipe, you can also manually release the buffered
events by calling delayedStream.resume():
var delayed = DelayedStream.create(req);
setTimeout(function() {
// Emit all buffered events and resume underlaying source
delayed.resume();
}, 1000);In order to use this meta stream properly, here are a few things you should know about the implementation.
All events of the source stream are hijacked by overwriting the source.emit
method. Until node implements a catch-all event listener, this is the only way.
However, delayed-stream still continues to emit all events it captures on the
source, regardless of whether you have released the delayed stream yet or
not.
Upon creation, delayed-stream captures all source events and stores them in
an internal event buffer. Once delayedStream.release() is called, all
buffered events are emitted on the delayedStream, and the event buffer is
cleared. After that, delayed-stream merely acts as a proxy for the underlaying
source.
Error events on source are buffered / proxied just like any other events.
However, delayedStream.create attaches a no-op 'error' listener to the
source. This way you only have to handle errors on the delayedStream
object, rather than in two places.
delayed-stream provides a maxDataSize property that can be used to limit
the amount of data being buffered. In order to protect you from bad source
streams that don't react to source.pause(), this feature is enabled by
default.
Returns a new delayedStream. Available options are:
pauseStreammaxDataSizeThe description for those properties can be found below.
The source stream managed by this object. This is useful if you are
passing your delayedStream around, and you still want to access properties
on the source object.
Whether to pause the underlaying source when calling
DelayedStream.create(). Modifying this property afterwards has no effect.
The amount of data to buffer before emitting an error.
If the underlaying source is emitting Buffer objects, the maxDataSize
refers to bytes.
If the underlaying source is emitting JavaScript strings, the size refers to characters.
If you know what you are doing, you can set this property to Infinity to
disable this feature. You can also modify this property during runtime.
The amount of data buffered so far.
An ECMA5 getter that returns the value of source.readable.
If the delayedStream has not been released so far, delayedStream.release()
is called.
In either case, source.resume() is called.
Calls source.pause().
Calls delayedStream.resume() and then proxies the arguments to source.pipe.
Emits and clears all events that have been buffered up so far. This does not
resume the underlaying source, use delayedStream.resume() instead.
delayed-stream is licensed under the MIT license.
# delayed-stream
Buffers events from a stream until you are ready to handle them.
## Installation
``` bash
npm install delayed-stream
```
## Usage
The following example shows how to write a http echo server that delays its
response by 1000 ms.
``` javascript
var DelayedStream = require('delayed-stream');
var http = require('http');
http.createServer(function(req, res) {
var delayed = DelayedStream.create(req);
setTimeout(function() {
res.writeHead(200);
delayed.pipe(res);
}, 1000);
});
```
If you are not using `Stream#pipe`, you can also manually release the buffered
events by calling `delayedStream.resume()`:
``` javascript
var delayed = DelayedStream.create(req);
setTimeout(function() {
// Emit all buffered events and resume underlaying source
delayed.resume();
}, 1000);
```
## Implementation
In order to use this meta stream properly, here are a few things you should
know about the implementation.
### Event Buffering / Proxying
All events of the `source` stream are hijacked by overwriting the `source.emit`
method. Until node implements a catch-all event listener, this is the only way.
However, delayed-stream still continues to emit all events it captures on the
`source`, regardless of whether you have released the delayed stream yet or
not.
Upon creation, delayed-stream captures all `source` events and stores them in
an internal event buffer. Once `delayedStream.release()` is called, all
buffered events are emitted on the `delayedStream`, and the event buffer is
cleared. After that, delayed-stream merely acts as a proxy for the underlaying
source.
### Error handling
Error events on `source` are buffered / proxied just like any other events.
However, `delayedStream.create` attaches a no-op `'error'` listener to the
`source`. This way you only have to handle errors on the `delayedStream`
object, rather than in two places.
### Buffer limits
delayed-stream provides a `maxDataSize` property that can be used to limit
the amount of data being buffered. In order to protect you from bad `source`
streams that don't react to `source.pause()`, this feature is enabled by
default.
## API
### DelayedStream.create(source, [options])
Returns a new `delayedStream`. Available options are:
* `pauseStream`
* `maxDataSize`
The description for those properties can be found below.
### delayedStream.source
The `source` stream managed by this object. This is useful if you are
passing your `delayedStream` around, and you still want to access properties
on the `source` object.
### delayedStream.pauseStream = true
Whether to pause the underlaying `source` when calling
`DelayedStream.create()`. Modifying this property afterwards has no effect.
### delayedStream.maxDataSize = 1024 * 1024
The amount of data to buffer before emitting an `error`.
If the underlaying source is emitting `Buffer` objects, the `maxDataSize`
refers to bytes.
If the underlaying source is emitting JavaScript strings, the size refers to
characters.
If you know what you are doing, you can set this property to `Infinity` to
disable this feature. You can also modify this property during runtime.
### delayedStream.dataSize = 0
The amount of data buffered so far.
### delayedStream.readable
An ECMA5 getter that returns the value of `source.readable`.
### delayedStream.resume()
If the `delayedStream` has not been released so far, `delayedStream.release()`
is called.
In either case, `source.resume()` is called.
### delayedStream.pause()
Calls `source.pause()`.
### delayedStream.pipe(dest)
Calls `delayedStream.resume()` and then proxies the arguments to `source.pipe`.
### delayedStream.release()
Emits and clears all events that have been buffered up so far. This does not
resume the underlaying source, use `delayedStream.resume()` instead.
## License
delayed-stream is licensed under the MIT license.
| # | Change | User | Description | Committed | |
|---|---|---|---|---|---|
| #1 | 19553 | swellard | Move and rename clients | ||
| //guest/perforce_software/helix-web-services/main/source/clients/2016.1.0/javascript/node_modules/delayed-stream/Readme.md | |||||
| #1 | 18810 | tjuricek |
First-pass at JavaScript client SDK. JavaScript requires Node with Gulp to "browserfy" the library. It's the easiest way I found to use the swagger-js project; bundle up a wrapping method. There is no JavaScript reference guide. The swagger-js doesn't really document what they do very well, actually. Overall I'm not particularly impressed by swagger-js, it was hard to even figure out what the right method syntax was. We may want to invest time in doing it better. This required setting CORS response headers, which are currently defaulted to a fairly insecure setting. |
||