oldratlee/ziglings-exercises
my exercises of https://codeberg.org/ziglings/exercises
Welcome to Ziglings! This project contains a series of tiny broken programs (and one nasty surprise). By fixing them, you'll learn how to read and write Zig code.
Those broken programs need your help! (You'll also save the planet from evil aliens and help some friendly elephants stick together, which is very sweet of you.)
This project was directly inspired by the brilliant and fun rustlings project for the Rust language. Indirect inspiration comes from Ruby Koans and the Little LISPer/Little Schemer series of books. Ziglings was initiated by Dave Gauer.
This will probably be difficult if you've never programmed before. But no specific programming experience is required. And in particular, you are not expected to have any prior experience with "systems programming" or a "systems" level language such as C.
Each exercise is self-contained and self-explained. However, you're encouraged to also check out these Zig language resources for more detail:
Also, the Zig community is incredibly friendly and helpful!
Install a development build of the Zig compiler. (See the "master" section of the downloads page.)
Verify the installation and build number of zig
like so:
$ zig version
0.14.0-dev.xxxx+xxxxxxxxx
Clone this repository with Git:
$ git clone https://ziglings.org
$ cd ziglings.org
Then run zig build
and follow the instructions to begin!
$ zig build
Note: The output of Ziglings is the unaltered output from the Zig compiler. Part of the purpose of Ziglings is to acclimate you to reading these.
Hint: To check out Ziglings for a stable release of Zig, you can use the appropriate tag.
The Zig language is under very active development. In order to be
current, Ziglings tracks development builds of the Zig
compiler rather than versioned release builds. The last
stable release was 0.13.0
, but Ziglings needs a dev build with
pre-release version "0.14.0" and a build number at least as high
as that shown in the example version check above.
It is likely that you'll download a build which is greater than the minimum.
Once you have a build of the Zig compiler that works with Ziglings, they'll continue to work together. But keep in mind that if you update one, you may need to also update the other.
Version-0.14.0-dev.1573
std.mem.split and tokenize
- see #15579std.fmt
- floating-point formatting implementation - see #19229build system
- from Step.zig_exe
to Step.graph.zig_exe
- see #18778std.Build.FileSource
to std.Build.LazyPath
- see #16353std.ChildProcess
: renamed exec to run - see #5853@enumToInt
is now @intFromEnum
and @intToFloat
is now @floatFromInt
std.debug.TTY
is now std.io.tty
std.Build.ExecutableOptions.link_libc
fieldstd.Build
- remove run() and install()build system
- new: parallel processing of the build stepsfor loops
- new: Multi-Object For-Loops + Struct-of-Arraysstd.Build
cache_root now returns a directory structstd.Build
(combine std.build
and std.build.Builder
into std.Build
)@addWithOverflow
(now returns a tuple) and @typeInfo
; temporary disabled async functionalityNativeTargetInfo.detect
in build@typeName()
output change, stage1 req. for asyncfmt()
option changesc_void
is now anyopaque
.Custom
is now .custom
any
format string requireds
(string) format string requiredIt can be handy to check just a single exercise:
zig build -Dn=19
Or run all exercises, starting from a specific one:
zig build -Ds=27
Or let Ziglings pick an exercise for you:
zig build -Drandom
You can also run without checking for correctness:
zig build -Dn=19 test
Or skip the build system entirely and interact directly with the compiler if you're into that sort of thing:
zig run exercises/001_hello.zig
Calling all wizards: To prepare an executable for debugging, install it to zig-cache/bin with:
zig build -Dn=19 install
To get a list of all possible options, run:
zig build -Dn=19 -l
install Install 019_functions2.zig to prefix path
uninstall Uninstall 019_functions2.zig from prefix path
test Run 019_functions2.zig without checking output
...
The primary goal for Ziglings is to cover the core Zig language.
It would be nice to cover the Standard Library as well, but this is currently challenging because the stdlib is evolving even faster than the core language (and that's saying something!). Not only would stdlib coverage change very rapidly, some exercises might even cease to be relevant entirely.
Having said that, there are some stdlib features that are probably here to stay or are so important to understand that they are worth the extra effort to keep current.
Conspicuously absent from Ziglings are a lot of string manipulation exercises. This is because Zig itself largely avoids dealing with strings. Hopefully there will be an obvious way to address this in the future. The Ziglings crew loves strings!
Zig Core Language
Zig Standard Library
Contributions are very welcome! I'm writing this to teach myself and to create the learning resource I wished for. There will be tons of room for improvement:
Please see CONTRIBUTING in this repo for the full details.