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https://github.com/LambdaHack/LambdaHack

Haskell game engine library for roguelike dungeon crawlers; please offer feedback, e.g., after trying out the sample game with the web frontend at
https://github.com/LambdaHack/LambdaHack

ascii browsergame engine freesoftware game gamedev haskell html5 indiedev library pcg replayability roguelike sdl squad tactical turnbased

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Haskell game engine library for roguelike dungeon crawlers; please offer feedback, e.g., after trying out the sample game with the web frontend at

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README 

        
LambdaHack

==========



[![Hackage](https://img.shields.io/hackage/v/LambdaHack.svg)](https://hackage.haskell.org/package/LambdaHack)

[![Join the chat at Discord](https://img.shields.io/discord/688792755564052486.svg?label=chat%20on%20Discord&logo=discord&logoColor=ffffff&color=7389D8&labelColor=6A7EC2)](https://discord.gg/87Ghnws)

[![Join the chat at Matrix](https://img.shields.io/matrix/lambdahack:mozilla.org.svg?label=chat%20on%20Matrix&logo=matrix&server_fqdn=mozilla.modular.im)](https://matrix.to/#/#lambdahack:mozilla.org)



LambdaHack is a Haskell[1] game engine library for ASCII roguelike[2]

games of arbitrary theme, size and complexity, with optional

tactical squad combat. It's packaged together with a sample

dungeon crawler in a quirky fantasy setting. The sample game can be

tried out in the browser at http://lambdahack.github.io.



As an example of the engine's capabilities, here is a showcase

of shooting down explosive projectiles. A couple were shot down close

enough to enemies to harm them. Others exploded closer to our party members

and took out of the air the projectiles that would otherwise harm them.

Actual in-game footage.



![gameplay screenshot](https://raw.githubusercontent.com/LambdaHack/media/master/screenshot/allureofthestars.com.shooting.down.explosives.gif)



This was a semi-automatic stealthy speedrun of the escape scenario

of the sample game, native binary, SDL2 frontend, single tiny

bitmap font. The enemy gang has a huge numerical and equipment

superiority. Our team loots the area on auto-pilot until the first foe

is spotted. Then they scout out enemy positions. Then hero 1 draws

enemies and unfortunately enemy fire as well, which is when he valiantly

shoots down explosives to avoid the worst damage. Then heroine 2 sneaks

behind enemy lines to reach the remaining treasure. That accomplished,

the captain signals retreat and leaves for the next area (the zoo).



Using the engine

----------------



To use the engine, you need to specify the content to be

procedurally generated. You declare what the game world

is made of (entities, their relations, physics and lore)

and the engine builds the world and runs it.

The library lets you compile a ready-to-play game binary,

using either the supplied or a custom-made main loop.

A couple of frontends are available (SDL2 is the default

for desktop and there is a JavaScript browser frontend)

and many other generic engine components are easily overridden,

but the fundamental source of flexibility lies in the strict

and enforced with types separation of engine code from the read-only

content and of clients (human and AI-controlled) from the server.



Please see the changelog file for recent improvements

and the issue tracker for short-term plans. Long term goals

include multiplayer tactical squad combat, in-game content

creation, auto-balancing and persistent content modification

based on player behaviour. Contributions are welcome.

Please offer feedback to [email protected] or, preferably,

on any of the public forums.



Games from different repos known to use the LambdaHack library:



* Allure of the Stars[6], a near-future Sci-Fi game



Note: the engine and the LambdaHack sample game are bundled together

in a single Hackage[3] package released under the permissive `BSD3` license.

You are welcome to create your own games by forking and modifying

the single package, but please consider eventually splitting your changes

into a separate content-heavy package that depends on the upstream

engine library. This will help us exchange ideas and share improvements

to the common codebase. Alternatively, you can already start the development

in separation by cloning and rewriting Allure of the Stars[10]

and mix and merge with the sample LambdaHack game rules at will.

Note that the LambdaHack sample game derives from the Hack/Nethack visual

and narrative tradition[9], while Allure of the Stars uses the more free-form

Moria/Angband style (it also uses the AGPL license, and BSD3 + AGPL = AGPL,

so make sure you want to liberate your code and content to such an extent).



Installation of the sample game from binary archives

----------------------------------------------------



The game runs rather slowly in the browser (fastest on Chrome) and you are

limited to the square font for all purposes, though it's scalable.

Also, savefiles are prone to corruption on the browser,

e.g., when it's closed while the game is still saving progress

(which takes a long time). Hence, after trying out the game,

you may prefer to use a native binary for your architecture, if it exists.



Pre-compiled game binaries are available through the release page[11]

(and Linux dev versions from GitHub Actions[18] and Windows from AppVeyor[19]).

To use a pre-compiled binary archive, unpack it and run the executable

in the unpacked directory or use program shortcuts from the installer,

if available. On Linux, make sure you have the SDL2 libraries installed

on your system (e.g., libsdl2-2.0-0 and libsdl2-ttf-2.0-0 on Ubuntu).

For Windows (XP no longer supported), the SDL2 and all other needed libraries

are included in the game's binary archive.



Screen and keyboard configuration

---------------------------------



The game UI can be configured via a config file.

The default config settings, the same that are built into the binary,

are on github at [GameDefinition/config.ui.default](https://github.com/LambdaHack/LambdaHack/blob/master/GameDefinition/config.ui.default).

When the game is run for the first time, or whenever the config file

is deleted, the file is written to the default user data location,

which is `~/.LambdaHack/` on Linux,

`C:\Users\\AppData\Roaming\LambdaHack\`

(or `C:\Documents And Settings\user\Application Data\LambdaHack\`

or something else altogether) on Windows

and `Inspect/Application/Local Storage` under RMB menu

when run inside the Chrome browser.

If the user config file is outdated or corrupted, it's automatically

moved away together with old savefiles. At the next game start,

the new default config file appears at its place.



Screen fonts and, consequently, window size can be changed by editing

the config file in the user data folder. The default bitmap font

`16x16xw.bdf` used for the game map covers most national characters

in the Latin alphabet (e.g. to give custom names to player characters)

and results in a game window of exactly 720p HD dimensions. The `8x8xb.fnt`

bitmap font results in a tiny window and covers latin-1 characters only.

The config file parameter `allFontsScale` permits further window size

adjustments, automatically switching to the scalable version of the large

game map font (`16x16xw.woff`). Config file option `chosenFontset` governs

not only the main game map font, but also the shape of the rectangular fonts,

if any, in which longer texts are overlaid over the map.



For high resolution displays and/or if fullscreen mode is requested

in the configuration file, `allFontsScale` needs to be set.

E.g., scale 3 works for 4K displays. Otherwise, the letters may be

too small or, in fullscreen or on retina displays in OS X,

the screen may be automatically scaled as a whole, not each letter

separately, softening letter edges of the square fonts that should

rather be pixel-perfect and crisp.



If you don't have a numeric keypad, you can use the left-hand movement

key setup (axwdqezc) or Vi editor keys (aka roguelike keys) or mouse.

If numeric keypad doesn't work, toggling the Num Lock key sometimes helps.

If running with the Shift key and keypad keys doesn't work,

try the Control key instead. The game is fully playable with mouse only,

as well as with keyboard only, but the most efficient combination

may be mouse for menus, go-to, inspecting the map, aiming at distant

positions and keyboard for everything else.



If you run the ANSI terminal frontend (`--frontendANSI` on commandline),

then numeric keypad (especially keypad `*`, `/` and `5`) may not work

correctly, depending on the terminal emulator you use. Toggling

the Num Lock key may help or make issues worse. As a work around

these issues, numbers are used for movement in the ANSI frontend,

which sadly prevents the number keys from selecting heroes.

The commands that require pressing Control and Shift together won't work

either, but fortunately they are not crucial to gameplay.



Some effort went into making the ANSI frontend usable with screen readers,

but without feedback it's hard to say how accessible that setup is.

This doesn't work on Windows, due to extra code that would be required.

As a side effect of screen reader support, there is no aiming line

nor path in ANSI frontend and some of map position highlighting

is performed using the terminal cursor. Screen readers may also work

better with animations turned off, using `--noAnim` or the corresponding

config file or main game menu options.



Compilation of the library and sample game from source

------------------------------------------------------



To compile with the standard frontend based on SDL2, you need the SDL2

libraries for your OS. On Linux, remember to install the -dev versions

as well, e.g., libsdl2-dev and libsdl2-ttf-dev on Ubuntu Linux 16.04.

Compilation to JavaScript for the browser is more complicated

and requires the ghcjs[15] compiler and optionally the Google Closure

Compiler[16].



The latest official version of the LambdaHack library can be downloaded,

compiled for SDL2 and installed automatically using the 'cabal' tool,

which may already be a part of your OS distribution, but if it's too old

(version 3.4 or later is required) you can download the whole current

compilation suite as described at https://www.haskell.org/downloads/.

You can get and run the LambdaHack package from Hackage[3] as follows



    cabal update

    cabal install LambdaHack

    ~/.cabal/bin/LambdaHack



For a newer snapshot, clone the source code from github[5]

and run `cabal run LambdaHack` from the main directory.

Alternatively, if you'd like to develop in this codebase,

the following speeds up the turn-around a lot



    cp cabal.project.local.development cabal.project.local



and then you can compile (and recompile) with



    cabal build



and run the game with



    make play



The SDL2 frontend binary also contains the ANSI terminal frontend

(`--frontendANSI` on commandline) intended for screen readers

and a simplified black and white line terminal frontend (`--frontendTeletype`)

suitable for teletype terminals or a keyboard and a printer (but it's going

to use a lot of paper, unless you disable animations with `--noAnim`).

The teletype frontend is used in CI and for some tests and benchmarks defined

in Makefile. The terminal frontends leave you on your own regarding font

choice and color setup and you won't have the colorful squares outlining

special positions that exist in the SDL2 frontend, but only crude

cursor highlights. The terminal frontends should run on Windows,

but Windows disables console for GUI applications, so they don't.



Testing and debugging

---------------------



Unit tests and integration tests can be run and displayed with



    cabal test --test-show-details=direct



and doctests with



    cabal install doctest --overwrite-policy=always && cabal build

    cabal repl --build-depends=QuickCheck --with-ghc=doctest definition

    cabal repl --build-depends=QuickCheck --build-depends=template-haskell --with-ghc=doctest lib:LambdaHack



The [Makefile](https://github.com/LambdaHack/LambdaHack/blob/master/Makefile)

contains many sample automated playtest commands.

Numerous tests that use the screensaver game modes (AI vs. AI)

and the teletype frontend are gathered in `make test-locally`.

Some of these are run by CI  on each push to github.

Test commands with prefix `frontend` start AI vs. AI games with

the standard SDL2 frontend to view them on.



Run `LambdaHack --help` to see a brief description of all debug options.

Of these, the `--sniff` option is very useful (though verbose

and initially cryptic), for displaying the traffic between clients

and the server. Some options in the config file may prove useful

for debugging too, though they mostly overlap with commandline options

(and will be totally merged at some point).



Coding style

------------



Stylish Haskell is used for slight auto-formatting at buffer save; see

[.stylish-haskell.yaml](https://github.com/LambdaHack/LambdaHack/blob/master/.stylish-haskell.yaml).

As defined in the file, indentation is 2 spaces wide and screen is

80-columns wide. Spaces are used, not tabs. Spurious whitespace avoided.

Spaces around arithmetic operators encouraged.

Generally, relax and try to stick to the style apparent in a file

you are editing. Put big formatting changes in separate commits.



CI checks the code with `hlint .` using the very liberal configuration file at

[.hlint.yaml](https://github.com/LambdaHack/LambdaHack/blob/master/.hlint.yaml).

If hlint is still too naggy, feel free to add more exceptions.



Haddocks are provided for all module headers and for all functions and types

from major modules, in particular for the modules that are interfaces

for a whole directory of modules. Apart of that, only very important

functions and types are distinguished by having a haddock.

If minor ones have comments, they should not be haddocks

and they are permitted to describe implementation details and be out of date.

Prefer assertions instead of comments, unless too verbose.



The 'pointman' from game manual and UI is called 'leader' in the source code

and there are a few more mismatches, though the source code naming

and the UI naming should each be consistent in separation.

If the UI names stick, perhaps source code will be renamed at some point.



This codebase is an experiment in extensive use of states without lens.

So far, it works, doesn't result in much larger files or lots

of repetition and has the added benefits that newcomers don't need

to learn any optics library. Record punning, etc., definitely help.



First steps reading the codebase

--------------------------------



A good start may be



https://github.com/LambdaHack/LambdaHack/blob/master/GameDefinition/game-src/Client/UI/Content/Input.hs



That's where keyboard keys are assigned commands, help texts and categories

(including special categories indicating that a group of keys

also forms an in-game menu). This file is specific to a particular game

(hence `GameDefinition` in the path) and the engine dynamically creates

in-game help screens based on this file and on player config file

that can partially overwrite it.



The commands assigned to keys are interpreted by the UI client

(each faction in the game uses a client and the player's client additionally

has UI capabilities) in the following module:



https://github.com/LambdaHack/LambdaHack/blob/master/engine-src/Game/LambdaHack/Client/UI/HandleHumanM.hs



By this point you've seen one of the six major command sets (`HumanCmd`,

the others being `Effect`, `UpdAtomic`, `Request`, `Response`, `FrontReq`)

and one of around ten distinct interpreters for the commands

(mostly in `Handle*` modules). You've also seen a bit of the UI

client code, but not the AI client nor the server (game arbiter) code.

The wiki[17] contains not entirely outdated further reading about

the client-server architecture.



At this point, before trying to grasp anything more and drown in abstraction,

you are welcome to pick up a few `good first issue`-labeled tickets

and get some hands-on experience with the codebase.



For further study, note that most of the commands are interpreted in monads.

Server and clients share some of the customized monadic API, but their

monads are implemented differently (in `*Implementation` modules).

All these monads are state monads (managing different aspects of game state),

therefore the semantics of a command is a state transformer with extra

side effects (e.g., frontend drawing).



The "main loop" is the following: the UI client receives keystrokes

and interprets the commands they correspond to. As soon as one of the commands

is not just local UI manipulation, but a request to change the main game state,

such a request is packaged and sent to the server (e.g., a request

to move a hero to the north). The server responds "not possible,

there is a wall" or reacts by sending to clients (to all UI and AI clients

that can see the event) a series of game state-changing responses.

AI clients, likewise, send to the server requests, generated based

on the perceived game state changes and the AI goals of each AI faction.



Further information

-------------------



For more information, visit the wiki[4]

and see [PLAYING.md](https://github.com/LambdaHack/LambdaHack/blob/master/GameDefinition/PLAYING.md),

[CREDITS](https://github.com/LambdaHack/LambdaHack/blob/master/CREDITS)

and [COPYLEFT](https://github.com/LambdaHack/LambdaHack/blob/master/COPYLEFT).



Have fun!



[1]: https://www.haskell.org/

[2]: http://roguebasin.roguelikedevelopment.org/index.php?title=Berlin_Interpretation

[3]: https://hackage.haskell.org/package/LambdaHack

[4]: https://github.com/LambdaHack/LambdaHack/wiki

[5]: https://github.com/LambdaHack/LambdaHack

[6]: http://allureofthestars.com

[9]: https://github.com/LambdaHack/LambdaHack/wiki/Sample-dungeon-crawler

[10]: https://github.com/AllureOfTheStars/Allure

[11]: https://github.com/LambdaHack/LambdaHack/releases

[15]: https://github.com/ghcjs/ghcjs

[16]: https://www.npmjs.com/package/google-closure-compiler

[17]: https://github.com/LambdaHack/LambdaHack/wiki/Client-server-architecture

[18]: https://github.com/LambdaHack/LambdaHack/actions

[19]: https://ci.appveyor.com/project/Mikolaj/lambdahack