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talks/2016/12-intro-to-golang/talk.slide

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Intro to Golang
05 December 2016
Vincent Batts
Developer
@vbatts
vbatts@redhat.com
https://github.com/vbatts/talks
* howdy
$> finger $(whoami)
Login: vbatts Name: Vincent Batts
Such mail.
Plan:
right and joyful effort
$> id -Gn
devel redhat oci containers openshift slackware docker
: Surview folks familiarity with golang. And with their primary language.
* golang
: Notes
: - libraries - source only, but can link to C *.so and *.a
: - Fork/Exec are coupled together (for coroutine and GC reasons)
: - Threading, and multiproc, concurrent logic
: -- nice and easy to use
: -- Make for tricky handling of C calls (i.e. setns)
: - `go get` is handy
: - cross-compile without hardly any bootstrapping
: -- native compiler supported arches
: -- gccgo works for the arch gcc is compiled for
: - primitives can seem a bit magical
: -- conditional returns
: -- for ... range
: -- iota
: - no ifdefs, but build tags
: - error handling, rather than exception catching
*
.image ./gopher.png
* Overview
- strongly typed
- compiled
- stylistically nice
- opinionated/idiomatic
*
.image ./rainbow.jpg
* fully qualified imports
.code ./imports.go /START1/,/STOP1/
* fast compiles
(Perhaps other compilers are slow)
.play ./hello.go /START1/,/STOP1/
* defer
.code -numbers ./good0.go /START1/,/STOP1/
* Garbage Collected
- Super convenient
- references
- completed goroutines
* Garbage Collected
.link https://twitter.com/brianhatfield/status/634166123605331968 Brian Hatfield GC improvements
- go1.4 (300ms) -> go1.5 (~30ms)
- go1.6.0 (25ms) -> go1.6.3 (5ms)
- go1.7.3 (3ms) -> go1.8beta1 (sub ms on 18Gb heap)
* simple exports
.code ./good1.go /START1/,/STOP1/
* concurrency
.play -numbers ./pingpong.go /STARTMAIN1/,/STOPMAIN1/
.link http://talks.golang.org/2013/advconc.slide Sameer Ajmani - Advanced Concurrency
* cross compiles
: this could be demo'ed by scp'ing the binaries to fats.userys (aarch64) and piaba.usersys (arm v7)
(staying away from CGO)
.play ./hello.go /START1/,/STOP1/
$> go build ./main.go
$> file main
main: ELF 64-bit LSB executable, x86-64, version 1 (SYSV), statically linked, not stripped
$> GOOS=windows GOARCH=386 go build ./main.go
$> file main.exe
main.exe: PE32 executable (console) Intel 80386 (stripped to external PDB), for MS Windows
$> GOOS=openbsd GOARCH=arm go build ./main.go
$> file main
main: ELF 32-bit LSB executable, ARM, version 1 (OpenBSD), statically linked, for OpenBSD, not stripped
$> GOARCH=arm64 go build ./main.go
$> file main
main: ELF 64-bit LSB executable, ARM aarch64, version 1 (SYSV), statically linked, not stripped
* helpers
- `go get golang.org/x/tools/cmd/godoc`
- `go get github.com/golang/lint/golint`
- https://github.com/fatih/vim-go
- `go vet ./...`
- `go test ./...`
- `golint -set_exit_status ./...`
*
.image ./kanye_imma_bookmarklet.png 250 _
.caption _kanye_ by Kayne
- easy learning curve
- `go get`
- formatting wars are "over"
- shared libraries
*
: they come along, and affect how you do your work
.image ./cats20.gif
.caption _halping_hooman_ by cat
* Packaging
Addresses different concern than distributions
* lack of generics?
: i don't feel strongly about this, though many do
- interfaces - are enough for most
- go1.4 introduced go:generate
: produce code for Set, Graph etc, for the types needed, but at compile time. No need to reflect.
* Debugging
- gdb is there, sort of
- some known debugging tools for ELF are not useful
- fmt.Printf("%#v\n", ...)
: show break on main.main and fmt.Println
: continue, list, then step, then list, and then face melt
* Concurrency and CGO
Calls like setns(2) are rough
(yes, even with runtime.LockOSThread())
Embedding other languages (like ruby and python that have their green threading)
* Fork/Exec
Not Separate, but together
*
.image ./revenge-of-the-nerds-o.gif
.caption _dancin'_ in ROTN
* build tags
no #ifdef
.code ./tags.go /START1/,/STOP1/
or files with *_linux.go like suffix.
More like extern.
* _
bit bucket
* channels
.play ./ugly0.go /START1/,/STOP1/
* iota
.code ./ugly1.go /START1/,/STOP1/
* for range
array (or string)
.play ./primitive1.go /START1/,/STOP1/
* for range
map
.play ./primitive2.go /START1/,/STOP1/
* for range
channel (like an iterator)
.play ./primitive3.go /START1/,/STOP1/
* for range
channel
.code ./primitive3.go /START2/,/STOP2/
* Conclusions?
* use-case
- like all languages, align with you use-case
- get familiar enough to like and dislike it
- don't be afraid to try it out
* References
.link https://golang.org/doc/ Go Documentation
.link https://golang.org/doc/effective_go.html Effective Go