create a file named main.go
,
let's try with simple hello world program.
package main
import "fmt"
func main(){
fmt.Println("Hello World!")
}
I use go version 1.9.1
$ go version
go version go1.9.1 linux/amd64
Compile with standard go build
command.
$ go build main.go
$ ls -lh
-rwxr-xr-x-x 1 nil nil 1.8M Oct 27 07:47 main
Let's compile once again with go build
but with ldflags
as suggested above,
$ go build -ldflags "-s -w" main.go
$ ls -lh
-rwxr-xr-x-x 1 nil nil 1.2M Oct 27 08:15 main
File size is reduced by 30%.
Now, lets use gccgo
,
$ go version
go version go1.8.1 gccgo (GCC) 7.2.0 linux/amd64
Building go with gccgo
,
$ go build main.go
$ ls -lh
-rwxr-xr-x 1 nil nil 34K Oct 27 12:18 main
Binary size is reduced by almost 100%.
Let's once again try building our main.go
with gccgo
but with build flags,
$ go build -gccgoflags "-s -w" main.go
-rwxr-xr-x 1 nil nil 23K Oct 27 13:02 main
Warning:
As gccgo
binaries were dynamically linked.
If you have a binary which is very big in size, your binary when compiled with gccgo will not be decreased by 100%, but it will be reduced in size by considerable amount.
Compared to gc, gccgo is slower to compile code but supports more powerful optimizations, so a CPU-bound program built by gccgo will usually run faster. All the optimizations implemented in GCC over the years are available, including inlining, loop optimizations, vectorization, instruction scheduling, and more. While it does not always produce better code, in some cases programs compiled with gccgo can run 30% faster.
The GCC 7 releases are expected to include a complete implementation of the Go 1.8 user libraries. As with earlier releases, the Go 1.8 runtime is not fully merged, but that should not be visible to Go programs.
Pros:
- Reduced size
- Optimized.
Cons
- Slow
- Cannot use the latest version of
go
.
You can see over here and here.