blogng/blog/2015-03-29-notes-on-cgo.markdown

---
comments: true
date: 2015-03-29 00:28
layout: post
tags: golang, c
title: Notes on cgo
---

## Referencing c from go.

### Basic operation

import "C" imports the C namespace into go, the comment just above this statement is treated as C.

```c
/*
 #include "add.h"
 */
 import "C"
```
Everything you exported from c library is available in the C namespace.

```go
func main() {
   fmt.Println(
     C.add_two_numbers(3,4)
   )
}
```

Building code is as easy as `go build`

Accessing standard types are easy as `C.char`, `C.int`. For complex types, prepend the type name with an underscore at end – e.g `C.struct_stat`.

### Pointers and memory operations

Go provides an `unsafe` module. Go’s GC cannot manage the memory allocated in C code, you should call `C.free(unsafe.Pointer)` (`free` is defined in `<stdlib.h>` ensure that this library is imported) to deallocate.
There are some special functions which convert Go types to C types and vice versa. (lifted from cgo documentation)
```go
// Go string to C string
// The C string is allocated in the C heap using malloc.
// It is the caller's responsibility to arrange for it to be
// freed, such as by calling C.free (be sure to include stdlib.h
// if C.free is needed).
func C.CString(string) *C.char

// C string to Go string
func C.GoString(*C.char) string

// C string, length to Go string
func C.GoStringN(*C.char, C.int) string

// C pointer, length to Go []byte
func C.GoBytes(unsafe.Pointer, C.int) []byte
```

### Accessing complex objects

Accessing structs from Go
```go
/*
struct person {
int age;
*/
// this can be used in go as
var p C.struct_person
p.age = 23
```

You can also pass pointers

```go
C.function_accepts_ptr_to_struct(&p)
```

Accessing Unions : No native counterpart, instead of converting it to a type, go treats them as a block of memory represented as byte array. Accessing data is done by casting unsafe.Pointer

```go
/*
union quant {
  float weight;
  int count;
};
*/

var q C.union_quant
ptr := (*float32)(unsafe.Pointer(&q))
*ptr = 3.14
```

## Extra goodies

### Compiler Flags
Compiler flags can be set using the `#cgo` directive. (`CFLAGS`, `LDFLAGS` etc)

```go
/*
#cgo: LDFLAGS: -lmath
#include <math.h>
*/
import "C"
```

### Restricting building
In many cases using cgo breaks the portability of your app, use build constraints to specify compatibility in source. Build constraints are comments which begin with

```go
// +build
```
Now, build comment must appear before package clause and should be followed by a blank line To restrict building just to Linux with cgo,

```go
// +build linux,cgo !darwin

package main
```

These are evaluated as `OR` of each constraint so the above line becomes `(linux AND cgo) OR (NOT darwin)`, also multiple build tags can be embedded in file.

There are other methods to restrict builds, see references.

## Reference

 - [Link to example code gist](https://gist.github.com/dbalan/ace29f0c43638ee4f81d)
 - [cgo Talk by Rajesh Ramachandran (Gophercon India)](https://www.youtube.com/watch?v=oeEVtyypYPg)
 - [Conditional compilation with go build](http://dave.cheney.net/2013/10/12/how-to-use-conditional-compilation-with-the-go-build-tool)
 - [cgo compiler directives](http://golang.org/cmd/cgo/)
-												intial commit

											
										
										
											2017-01-22 21:30:42 +00:00
+								---
 								comments: true
-												Convert from old categories to tags

import sys
import yaml

with open(sys.argv[1]) as fp:
    data = fp.read()

if not data.find("---") == 0:
    # no head
    print("NO YAML HEAD FOUND")
    sys.exit(-1)

data = data[3:]
head_end = data.find("---")

head = data[0:head_end]
data = data[head_end+3:]

metadata = yaml.safe_load(head)

cats = metadata.pop('categories', None)
if cats != None:
    if type(cats) == list:
        tags = cats
    elif type(cats) == str:
        tags = cats.split()

    tags = list(map(lambda t: t.lower(), tags))

    metadata["tags"] = ", ".join(tags)
    new_data = f"---\n{yaml.dump(metadata, default_flow_style=False)}---{data}"
    # write it
    print(f"coverted: categories to tags: {tags} - {sys.argv[1]}")
    with open(sys.argv[1], "w") as fp:
        fp.write(new_data)
    sys.exit(0)

if not metadata.get("tags", None):
    metadata["tags"] = "untagged"
    new_data = f"---\n{yaml.dump(metadata, default_flow_style=False)}---{data}"
    print(f"untagged: {sys.argv[1]}")
    # write it
    with open(sys.argv[1], "w") as fp:
        fp.write(new_data)
    sys.exit(0)

print("No changes needed")

											
										
										
											2019-01-28 22:16:27 +00:00
+								date: 2015-03-29 00:28
 								layout: post
 								tags: golang, c
 								title: Notes on cgo
-												intial commit

											
										
										
											2017-01-22 21:30:42 +00:00
+								---
 								## Referencing c from go.
 								### Basic operation
 								import "C" imports the C namespace into go, the comment just above this statement is treated as C.
 								```c
 								/*
 								 #include "add.h"
 								 */
 								 import "C"
 								```
 								Everything you exported from c library is available in the C namespace.
 								```go
 								func main() {
 								   fmt.Println(
 								     C.add_two_numbers(3,4)
 								   )
 								}
 								```
 								Building code is as easy as `go build`
 								Accessing standard types are easy as `C.char`, `C.int`. For complex types, prepend the type name with an underscore at end – e.g `C.struct_stat`.
 								### Pointers and memory operations
 								Go provides an `unsafe` module. Go’s GC cannot manage the memory allocated in C code, you should call `C.free(unsafe.Pointer)` (`free` is defined in `<stdlib.h>` ensure that this library is imported) to deallocate.
 								There are some special functions which convert Go types to C types and vice versa. (lifted from cgo documentation)
 								```go
 								// Go string to C string
 								// The C string is allocated in the C heap using malloc.
 								// It is the caller's responsibility to arrange for it to be
 								// freed, such as by calling C.free (be sure to include stdlib.h
 								// if C.free is needed).
 								func C.CString(string) *C.char
 								// C string to Go string
 								func C.GoString(*C.char) string
 								// C string, length to Go string
 								func C.GoStringN(*C.char, C.int) string
 								// C pointer, length to Go []byte
 								func C.GoBytes(unsafe.Pointer, C.int) []byte
 								```
 								### Accessing complex objects
 								Accessing structs from Go
 								```go
 								/*
 								struct person {
 								int age;
 								*/
 								// this can be used in go as
 								var p C.struct_person
 								p.age = 23
 								```
 								You can also pass pointers
 								```go
 								C.function_accepts_ptr_to_struct(&p)
 								```
 								Accessing Unions : No native counterpart, instead of converting it to a type, go treats them as a block of memory represented as byte array. Accessing data is done by casting unsafe.Pointer
 								```go
 								/*
 								union quant {
 								  float weight;
 								  int count;
 								};
 								*/
 								var q C.union_quant
 								ptr := (*float32)(unsafe.Pointer(&q))
 								*ptr = 3.14
 								```
 								## Extra goodies
 								### Compiler Flags
 								Compiler flags can be set using the `#cgo` directive. (`CFLAGS`, `LDFLAGS` etc)
 								```go
 								/*
 								#cgo: LDFLAGS: -lmath
 								#include <math.h>
 								*/
 								import "C"
 								```
 								### Restricting building
 								In many cases using cgo breaks the portability of your app, use build constraints to specify compatibility in source. Build constraints are comments which begin with
 								```go
 								// +build
 								```
 								Now, build comment must appear before package clause and should be followed by a blank line To restrict building just to Linux with cgo,
 								```go
 								// +build linux,cgo !darwin
 								package main
 								```
 								These are evaluated as `OR` of each constraint so the above line becomes `(linux AND cgo) OR (NOT darwin)`, also multiple build tags can be embedded in file.
 								There are other methods to restrict builds, see references.
 								## Reference
 								 - [Link to example code gist](https://gist.github.com/dbalan/ace29f0c43638ee4f81d)
 								 - [cgo Talk by Rajesh Ramachandran (Gophercon India)](https://www.youtube.com/watch?v=oeEVtyypYPg)
 								 - [Conditional compilation with go build](http://dave.cheney.net/2013/10/12/how-to-use-conditional-compilation-with-the-go-build-tool)
 								 - [cgo compiler directives](http://golang.org/cmd/cgo/)