coffi/README.md

# coffi
[![cljdoc badge](https://cljdoc.org/badge/org.suskalo/coffi)](https://cljdoc.org/d/org.suskalo/coffi/CURRENT)
[![Clojars Project](https://img.shields.io/clojars/v/org.suskalo/coffi.svg)](https://clojars.org/org.suskalo/coffi)

Coffi is a foreign function interface library for Clojure, using the new
[Project Panama](https://openjdk.java.net/projects/panama/) that's a part of the
incubator in Java 17. This allows calling native code directly from Clojure
without the need for either Java or native code specific to the library, as e.g.
the JNI does. Coffi focuses on ease of use, including functions and macros for
creating wrappers to allow the resulting native functions to act just like
Clojure ones, however this doesn't remove the ability to write systems which
minimize the cost of marshaling data and optimize for performance, to make use
of the low-level access Panama gives us.

## Installation
This library is available on Clojars. Add the following entry to the `:deps` key
of your `deps.edn`:

```clojure
org.suskalo/coffi {:mvn/version "0.1.0"}
```

## Usage
There are two major components to coffi and interacting with native code:
manipulating off-heap memory, and loading native code for use with Clojure.

In the simplest cases, the native functions you call will work exclusively with
built-in types, for example the function `strlen` from libc.

```clojure
(require '[coffi.ffi :as ffi :refer [defcfn defcstruct]])

(defcfn strlen
  "Given a string, measures its length in bytes."
  strlen [::ffi/c-string] ::ffi/long)

(strlen "hello")
;; => 5
```

The first argument to `defcfn` is the name of the Clojure var that will hold the
native function reference, followed by an optional docstring and attribute map,
then the C function identifier, including the name of the native symbol, a
vector of argument types, and the return type.

### Primitive Types
Coffi defines a basic set of primitive types:
- byte
- short
- int
- long
- long-long
- char
- float
- double
- pointer

Each of these types maps to their C counterpart. Values of any of these
primitive types except for `pointer` will be cast with their corresponding
Clojure function (with `long-long` mapping to the `long` function) when they are
passed as arguments to native functions. Additionally, the `c-string` type is
defined, although it is not primitive.

### Composite Types
In addition, some composite types are also defined in coffi, including struct
and union types (unions will be discussed with serialization and
deserialization). For an example c struct and function:

```c
typedef struct point {
    float x;
    float y;
} Point;

Point zero(void) {
    Point res = {};

    res.x = 0.0;
    res.y = 0.0;

    return res;
}
```

The corresponding coffi definition is like so:

```clojure
(defcfn zero-point
  "zero" [] [::ffi/struct [[:x ::ffi/float] [:y ::ffi/float]]])

(zero-point)
;; => {:x 0.0,
;;     :y 0.0}
```

Writing out struct definitions like this every time would get tedious, so the
macro `defalias` is used to define a struct alias.

```clojure
(defalias ::point
  [::ffi/struct
   [[:x ::ffi/float]
    [:y ::ffi/float]]])

(defcfn zero-point
  "zero" [] ::point)
```

In cases where a pointer to some data is required to pass as an argument to a
native function, but dosn't need to be read back in, the `pointer` primitive
type can take a type argument.

```clojure
[::ffi/pointer ::ffi/int]
```

Arrays are also supported via a type argument. Keep in mind that they are the
array itself, and not a pointer to the array like you might see in certain cases
in C.

```clojure
[::ffi/array ::ffi/int 3]
```

### Callbacks
In addition to these composite types, there is also support for Clojure
functions.

```clojure
[::ffi/fn [::ffi/c-string] ::ffi/int]
```

Be aware though that if an exception is thrown out of a callback that is called
from C, the JVM will crash. The resulting crash log should include the exception
type and message in the registers section, but it's important to be aware of all
the same. Ideally you should test your callbacks before actually passing them to
native code.

### Variadic Functions
Some native functions can take any number of arguments, and in these cases coffi
provides `vacfn-factory` (for "varargs C function factory").

```clojure
(def printf-factory (vacfn-factory "printf" [::ffi/c-string] ::ffi/int))
```

This returns a function of the types of the rest of the arguments which itself
returns a native function wrapper.

```clojure
(def print-int (printf-factory ::ffi/int))

(print-int "Some integer: %d\n" 5)
;; Some integer: 5
```

At the moment there is no equivalent to `defcfn` for varargs functions.

Some native functions that are variadic use the type `va_list` to make it easier
for other languages to call them in their FFI. At the time of writing, coffi
does not support va-list, however it is a planned feature.

### TODO Global Variables

### TODO Complex Wrappers

### TODO Serialization and Deserialization

### TODO Data Model

## License

Copyright © 2021 Joshua Suskalo

Distributed under the Eclipse Public License version 1.0.
Initial commit 2021-09-14 21:29:41 +00:00			`# coffi`
Create initial readme Work is still needed on documenting creating your own serdes 2021-09-24 19:48:27 +00:00			`[![cljdoc badge](https://cljdoc.org/badge/org.suskalo/coffi)](https://cljdoc.org/d/org.suskalo/coffi/CURRENT)`
			`[![Clojars Project](https://img.shields.io/clojars/v/org.suskalo/coffi.svg)](https://clojars.org/org.suskalo/coffi)`

			`Coffi is a foreign function interface library for Clojure, using the new`
			`[Project Panama](https://openjdk.java.net/projects/panama/) that's a part of the`
			`incubator in Java 17. This allows calling native code directly from Clojure`
			`without the need for either Java or native code specific to the library, as e.g.`
			`the JNI does. Coffi focuses on ease of use, including functions and macros for`
			`creating wrappers to allow the resulting native functions to act just like`
			`Clojure ones, however this doesn't remove the ability to write systems which`
			`minimize the cost of marshaling data and optimize for performance, to make use`
			`of the low-level access Panama gives us.`

			`## Installation`
			This library is available on Clojars. Add the following entry to the `:deps` key
			of your `deps.edn`:

			```clojure
			`org.suskalo/coffi {:mvn/version "0.1.0"}`
			```

			`## Usage`
			`There are two major components to coffi and interacting with native code:`
			`manipulating off-heap memory, and loading native code for use with Clojure.`

			`In the simplest cases, the native functions you call will work exclusively with`
			built-in types, for example the function `strlen` from libc.

			```clojure
			`(require '[coffi.ffi :as ffi :refer [defcfn defcstruct]])`

			`(defcfn strlen`
			`"Given a string, measures its length in bytes."`
			`strlen [::ffi/c-string] ::ffi/long)`

			`(strlen "hello")`
			`;; => 5`
			```

			The first argument to `defcfn` is the name of the Clojure var that will hold the
			`native function reference, followed by an optional docstring and attribute map,`
			`then the C function identifier, including the name of the native symbol, a`
			`vector of argument types, and the return type.`

Add subsection headings 2021-09-25 13:29:13 +00:00			`### Primitive Types`
Create initial readme Work is still needed on documenting creating your own serdes 2021-09-24 19:48:27 +00:00			`Coffi defines a basic set of primitive types:`
			`- byte`
			`- short`
			`- int`
			`- long`
			`- long-long`
			`- char`
			`- float`
			`- double`
			`- pointer`

			`Each of these types maps to their C counterpart. Values of any of these`
			primitive types except for `pointer` will be cast with their corresponding
			Clojure function (with `long-long` mapping to the `long` function) when they are
			passed as arguments to native functions. Additionally, the `c-string` type is
			`defined, although it is not primitive.`

Add subsection headings 2021-09-25 13:29:13 +00:00			`### Composite Types`
			`In addition, some composite types are also defined in coffi, including struct`
			`and union types (unions will be discussed with serialization and`
			`deserialization). For an example c struct and function:`
Create initial readme Work is still needed on documenting creating your own serdes 2021-09-24 19:48:27 +00:00
			```c
			`typedef struct point {`
			`float x;`
			`float y;`
			`} Point;`

			`Point zero(void) {`
			`Point res = {};`

			`res.x = 0.0;`
			`res.y = 0.0;`

			`return res;`
			`}`
			```

			`The corresponding coffi definition is like so:`

			```clojure
			`(defcfn zero-point`
			`"zero" [] [::ffi/struct [[:x ::ffi/float] [:y ::ffi/float]]])`

			`(zero-point)`
			`;; => {:x 0.0,`
			`;; :y 0.0}`
			```

			`Writing out struct definitions like this every time would get tedious, so the`
			macro `defalias` is used to define a struct alias.

			```clojure
			`(defalias ::point`
			`[::ffi/struct`
Fix incorrect type in the typealias example 2021-09-25 13:23:37 +00:00			`[[:x ::ffi/float]`
			`[:y ::ffi/float]]])`
Create initial readme Work is still needed on documenting creating your own serdes 2021-09-24 19:48:27 +00:00
			`(defcfn zero-point`
			`"zero" [] ::point)`
			```

Add section about other compound types 2021-09-25 13:24:04 +00:00			`In cases where a pointer to some data is required to pass as an argument to a`
			native function, but dosn't need to be read back in, the `pointer` primitive
			`type can take a type argument.`
Create initial readme Work is still needed on documenting creating your own serdes 2021-09-24 19:48:27 +00:00
			```clojure
Add section about other compound types 2021-09-25 13:24:04 +00:00			`[::ffi/pointer ::ffi/int]`
Create initial readme Work is still needed on documenting creating your own serdes 2021-09-24 19:48:27 +00:00			```

Add section about other compound types 2021-09-25 13:24:04 +00:00			`Arrays are also supported via a type argument. Keep in mind that they are the`
			`array itself, and not a pointer to the array like you might see in certain cases`
			`in C.`

			```clojure
			`[::ffi/array ::ffi/int 3]`
			```

Add subsection headings 2021-09-25 13:29:13 +00:00			`### Callbacks`
			`In addition to these composite types, there is also support for Clojure`
Add section about other compound types 2021-09-25 13:24:04 +00:00			`functions.`

			```clojure
			`[::ffi/fn [::ffi/c-string] ::ffi/int]`
			```

			`Be aware though that if an exception is thrown out of a callback that is called`
			`from C, the JVM will crash. The resulting crash log should include the exception`
			`type and message in the registers section, but it's important to be aware of all`
			`the same. Ideally you should test your callbacks before actually passing them to`
			`native code.`

Fill in section on variadic functions 2021-09-25 13:45:34 +00:00			`### Variadic Functions`
			`Some native functions can take any number of arguments, and in these cases coffi`
			provides `vacfn-factory` (for "varargs C function factory").

			```clojure
			`(def printf-factory (vacfn-factory "printf" [::ffi/c-string] ::ffi/int))`
			```

			`This returns a function of the types of the rest of the arguments which itself`
			`returns a native function wrapper.`

			```clojure
			`(def print-int (printf-factory ::ffi/int))`

			`(print-int "Some integer: %d\n" 5)`
			`;; Some integer: 5`
			```

			At the moment there is no equivalent to `defcfn` for varargs functions.

			Some native functions that are variadic use the type `va_list` to make it easier
			`for other languages to call them in their FFI. At the time of writing, coffi`
			`does not support va-list, however it is a planned feature.`
Add subsection headings 2021-09-25 13:29:13 +00:00
			`### TODO Global Variables`

			`### TODO Complex Wrappers`

			`### TODO Serialization and Deserialization`

			`### TODO Data Model`
Initial commit 2021-09-14 21:29:41 +00:00
			`## License`

			`Copyright © 2021 Joshua Suskalo`

			`Distributed under the Eclipse Public License version 1.0.`