ref-napi
v3.0.3
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Turn Buffer instances into "pointers"
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ref-napi
Turn Buffer instances into "pointers"
This module is inspired by the old Pointer
class from node-ffi, but with the
intent of using Node's fast Buffer
instances instead of a slow C++ Pointer
class. These two concepts were previously very similar, but now this module
brings over the functionality that Pointers had and Buffers are missing, so
now Buffers are a lot more powerful.
Features:
- Get the memory address of any
Buffer
instance - Read/write references to JavaScript Objects into
Buffer
instances - Read/write
Buffer
instances' memory addresses to otherBuffer
instances - Read/write
int64_t
anduint64_t
data values (Numbers or Strings) - A "type" convention, so that you can specify a buffer as an
int *
, and reference/dereference at will. - Offers a buffer instance representing the
NULL
pointer
Installation
Install with npm
:
$ npm install ref-napi
Examples
referencing and derefencing
var ref = require('ref-napi')
// so we can all agree that a buffer with the int value written
// to it could be represented as an "int *"
var buf = new Buffer(4)
buf.writeInt32LE(12345, 0)
// first, what is the memory address of the buffer?
console.log(buf.hexAddress()) // ← '7FA89D006FD8'
// using `ref`, you can set the "type", and gain magic abilities!
buf.type = ref.types.int
// now we can dereference to get the "meaningful" value
console.log(buf.deref()) // ← 12345
// you can also get references to the original buffer if you need it.
// this buffer could be thought of as an "int **"
var one = buf.ref()
// and you can dereference all the way back down to an int
console.log(one.deref().deref()) // ← 12345
See the full API Docs for more examples.
The "type" interface
You can easily define your own "type" objects at attach to Buffer
instances.
It just needs to be a regular JavaScript Object that contains the following
properties:
| Name | Data Type | Description
|:--------------|:---------------------------------|:----------------------------------
| size
| Number | The size in bytes required to hold this type.
| indirection
| Number | The current level of indirection of the buffer. Usually this would be 1, and gets incremented on Buffers from ref()
calls. A value of less than or equal to 0 is invalid.
| get
| Function (buffer, offset) | The function to invoke when dereferencing this type when the indirection level is 1.
| set
| Function (buffer, offset, value) | The function to invoke when setting a value to a buffer instance.
| name
| String | (optional) The name to use during debugging for this type.
| alignment
| Number | (optional) The alignment of this type when placed in a struct. Defaults to the type's size
.
Be sure to check out the Wiki page of "Known Types", for the list of built-in ref types, as well as known external type implementations.
For example, you could define a "bigint" type that dereferences into a
bigint
instance:
var ref = require('ref-napi')
var bigint = require('bigint')
// define the "type" instance according to the spec
var BigintType = {
size: ref.sizeof.int64
, indirection: 1
, get: function (buffer, offset) {
// return a bigint instance from the buffer
return bigint.fromBuffer(buffer)
}
, set: function (buffer, offset, value) {
// 'value' would be a bigint instance
var val = value.toString()
return ref.writeInt64(buffer, offset || 0, val)
}
}
// now we can create instances of the type from existing buffers.
// "buf" is some Buffer instance returned from some external data
// source, which should contain "bigint" binary data.
buf.type = BigintType
// and now you can create "bigint" instances using this generic "types" API
var val = buf.deref()
.add('1234')
.sqrt()
.shiftLeft(5)
Build the docs
Install the dev dependencies:
$ npm install
Generate the docs:
$ npm run docs
Incompatible packages
The ref-struct-napi
and
ref-array-napi
packages
have names that sound like they are compatible with this module.
They are not, and your application will experience crashes if you use
them together with ref-napi
.
Use ref-struct-di
or ref-array-di
instead.
License
(The MIT License)
Copyright (c) 2012 Nathan Rajlich <[email protected]> Copyright (c) 2017 Anna Henningsen <[email protected]> (N-API port)
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.