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base: TetrisNerd:13ee43167ee382f4412c3eff6be40cbd85b7d996
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TetrisNerd:main TetrisNerd:xpack TetrisNerd:opti TetrisNerd:compress TetrisNerd:assets TetrisNerd:optimizing_maybe TetrisNerd:xmake TetrisNerd:couleur
TetrisNerd:v1.0 TetrisNerd:v0.2 TetrisNerd:v0.1 TetrisNerd:v0.0
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compare: TetrisNerd:v1.0
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TetrisNerd:xpack TetrisNerd:opti TetrisNerd:main TetrisNerd:compress TetrisNerd:assets TetrisNerd:optimizing_maybe TetrisNerd:xmake TetrisNerd:couleur
TetrisNerd:v1.0 TetrisNerd:v0.2 TetrisNerd:v0.1 TetrisNerd:v0.0

92 Commits
13ee43167e ... v1.0

Author SHA1 Message Date
zulianc
561b6d76b8 add diagrams
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2025-07-02 17:43:35 +02:00
zulianc
b276213794 add diagrams 2025-07-02 17:43:28 +02:00
zulianc
7b5801e630 readme completed 2025-07-02 16:40:41 +02:00
zulianc
e676cd19f6 fixed line scoring
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2025-06-21 16:53:24 +02:00
zulianc
8342bf3969 petits [[nodiscard]] pour le fun
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2025-06-19 22:31:41 +02:00
zulianc
34d781fcfe better main
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2025-06-19 19:13:43 +02:00
zulianc
b17a40fda5 benchmark de simon
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2025-06-19 15:55:15 +02:00
Persson-dev
17459c4026 use VarInt
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2025-06-12 21:38:47 +02:00
Persson-dev
3e40ff7252 add compression
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2025-06-12 21:28:46 +02:00
zulianc
dd8314f76c ff windaube veut toujours pas
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2025-06-12 17:35:39 +02:00
Persson-dev
d7f52239f0 and again
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2025-06-03 12:03:59 +02:00
Persson-dev
72f4ea75ff fix again 2025-06-03 12:03:47 +02:00
Persson-dev
b1b7277666 fix array initialization
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2025-06-03 11:55:12 +02:00
zulianc
fd6bdc2b09 Merge branch 'assets'
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2025-05-28 19:24:49 +02:00
zulianc
69b91d6497 simon PR review 2025-05-28 19:24:36 +02:00
Persson-dev
d50714ef8c working asset manager !
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2025-05-27 21:29:56 +02:00
zulianc
6ed85869ae added bones block to master mode and added invisible mode
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2025-05-27 18:52:07 +02:00
Persson-dev
3d1feb6295 start asset manager
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2025-05-27 17:09:36 +02:00
zulianc
7a96136631 added xmake benchmark target
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2025-05-27 14:52:34 +02:00
zulianc
fc6348cebc added benchmarking and screenshots
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2025-05-27 11:38:15 +02:00
zulianc
0bb25d4628 benchmarking 1/2
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2025-05-26 19:32:31 +02:00
zulianc
69c07abcec update readme
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2025-05-24 14:25:50 +02:00
zulianc
774aa1422f Merge branch 'main' of https://git.ale-pri.com/TetrisNerd/jminos
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2025-05-24 14:05:42 +02:00
zulianc
4dfeda0957 update info menu 2025-05-24 14:05:37 +02:00
Persson-dev
05bb79d4a9 Add CI (#3)
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Reviewed-on: #3
Co-authored-by: Persson-dev <sim16.prib@gmail.com>
Co-committed-by: Persson-dev <sim16.prib@gmail.com>
 2025-05-24 10:59:12 +00:00
zulianc
e0ab6a4828 update readme and main.cpp debug messages 2025-05-23 22:35:31 +02:00
zulianc
a62b3c018d fixed holding spwaning the piece 1 row lower 2025-04-01 18:45:01 +02:00
zulianc
46ebb88ef2 we can load polyos in the app now 2025-03-31 21:14:06 +02:00
zulianc
de14978b01 support unsupported sizes 2025-03-31 20:29:34 +02:00
zulianc
d5ac79559e updated file format 2025-03-31 19:22:52 +02:00
zulianc
5ea47ddd25 added startup menu 2025-03-31 18:59:42 +02:00
zulianc
1a95765877 variable max polyo size 2025-03-31 14:12:36 +02:00
zulianc
6bff555cbc fix les gros polyos 2025-03-31 11:25:23 +02:00
zulianc
f4b58fb67e omg omg 2025-03-30 22:43:41 +02:00
zulianc
0271b56542 better piece scrolling 2025-03-30 20:16:14 +02:00
zulianc
5d73e751d7 début de qqch 2025-03-30 13:07:17 +02:00
zulianc
314b7a8488 added distribution menu 2025-03-29 21:57:27 +01:00
zulianc
7151be0b1a better cursor 2025-03-29 19:28:04 +01:00
zulianc
d124205a71 ok fix ig 2025-03-29 18:52:06 +01:00
zulianc
87920548e5 Merge branch 'main' of https://git.ale-pri.com/TetrisNerd/jminos 2025-03-29 18:50:54 +01:00
zulianc
57620c70a2 added distribution modes 2025-03-29 18:48:37 +01:00
Persson-dev
3dac18c821 fix linux build 2025-03-29 18:14:14 +01:00
zulianc
3538403f40 finalized gamemode select menu 2025-03-29 12:31:54 +01:00
zulianc
ec40495328 change volume to start timer 2025-03-29 11:49:19 +01:00
zulianc
e0de2b5f90 aaaa 2025-03-28 21:51:30 +01:00
zulianc
df7c9bd211 fixes B2B 2025-03-28 21:45:50 +01:00
zulianc
f883bd5bab ajout board menu 2025-03-28 21:31:24 +01:00
zulianc
0f026635f6 stats in-game 2025-03-28 21:00:46 +01:00
zulianc
be071bd606 ajout holdbox 2025-03-28 16:32:44 +01:00
zulianc
3320545465 next queue fixed 2025-03-28 15:53:21 +01:00
zulianc
d1646d0fb5 next queue lezgo 2025-03-28 14:58:52 +01:00
zulianc
3d74ef7cd5 added ZEN gamemode 2025-03-27 21:50:36 +01:00
zulianc
88cb44c5fe update readme.md 2025-03-27 21:03:32 +01:00
zulianc
009ed8edc3 ajout menu info 2025-03-26 00:39:39 +01:00
zulianc
b2567844fc fini menu keybinds 2025-03-25 20:06:02 +01:00
zulianc
de8a5e6e34 keybinds menu 2025-03-25 17:17:36 +01:00
zulianc
c168cd68d7 refactoring 2025-03-24 22:39:16 +01:00
zulianc
321271b748 ?? 2025-03-24 16:25:34 +01:00
zulianc
c601424481 on track pas les settings wtf 2025-03-24 16:25:30 +01:00
zulianc
fd9fd4586a on peut changer les settings wtf 2025-03-24 16:20:37 +01:00
zulianc
8a4c4201fe taille board adaptative 2025-03-24 14:59:02 +01:00
zulianc
c08cfc2255 ingame moins moche (mais pas fini) 2025-03-24 13:28:38 +01:00
zulianc
38008e00bc fixed game logic 2025-03-23 21:41:37 +01:00
zulianc
507bc9cc86 omg on a un deuxième menu 2025-03-23 20:15:05 +01:00
zulianc
e721a71894 omg on a un menu 2025-03-23 18:45:34 +01:00
zulianc
1781b85332 update readme 2025-03-23 16:53:58 +01:00
zulianc
92b58c4b98 l'espoir renaît???? 2025-03-23 11:50:55 +01:00
zulianc
8635d4b853 abandon 2025-03-23 00:16:59 +01:00
zulianc
9780a36af4 ff 2025-03-22 23:30:52 +01:00
zulianc
6b16abda6a fichier settings 2025-03-22 22:03:57 +01:00
zulianc
30dd323e22 trop de trucs oscours 2025-03-22 17:41:33 +01:00
zulianc
d87ddcdc22 Merge branch 'main' of https://git.ale-pri.com/TetrisNerd/jminos 2025-03-22 11:00:34 +01:00
zulianc
8aaced68d0 merging aftermath 2025-03-22 11:00:31 +01:00
julien
be6c8d9f77 Actualiser .vscode/c_cpp_properties.json 2025-03-22 09:56:42 +00:00
zulianc
d9ccecfdd8 Merge branch 'main' of https://git.ale-pri.com/TetrisNerd/jminos 2025-03-22 10:53:30 +01:00
julien
02bab6ed87 Merge pull request 'Better xmake.lua + Intellisense' (#2) from xmake into main 
Reviewed-on: https://127.0.0.1:3000/TetrisNerd/jminos/pulls/2
 2025-03-22 09:51:36 +00:00
zulianc
0e17996c35 toujours plus de settings 2025-03-22 10:49:55 +01:00
Persson-dev
ea8478275b add vscode Intellisense 2025-03-22 10:02:46 +01:00
Persson-dev
29177bc94d refactor xmake.lua 2025-03-22 10:02:35 +01:00
zulianc
c25abec6ba on commence l'interface là ouais 2025-03-21 22:52:29 +01:00
zulianc
021620acef enlever le debug 2025-03-10 09:49:18 +01:00
zulianc
74797e935a fixed game logic 2025-03-05 19:02:51 +01:00
zulianc
2fbe4a6052 meilleurs coms ig 2025-03-03 22:34:46 +01:00
zulianc
d029589c21 smarter & pointier 2025-03-03 12:00:39 +01:00
zulianc
47d3d929db typo 2025-03-03 00:26:05 +01:00
zulianc
1033f3a64c ajouté interface textuelle 2025-03-02 23:36:20 +01:00
zulianc
857f90d646 màj diagrammes 2025-03-01 23:15:58 +01:00
zulianc
f525c00662 const everywhere + légèrement changer format fichiers 2025-03-01 22:21:43 +01:00
zulianc
8088894073 ajouté classe Menu 2025-03-01 20:27:36 +01:00
zulianc
d443b25de1 allow resetting games 2025-03-01 19:13:49 +01:00
zulianc
03281a6d70 ajoute la possiblilité d'ajouter des lignes de garbage 2025-03-01 18:41:09 +01:00
zulianc
66c2cf1013 fini PiecesList 2025-03-01 18:24:09 +01:00
112 changed files with 6256 additions and 754 deletions
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name: Linux arm64
run-name: Build And Test
on: [push]
env:
XMAKE_ROOT: y
jobs:
Build:
runs-on: ubuntu-latest
steps:
- name: Check out repository code
uses: actions/checkout@v3
- name: Prepare XMake
uses: xmake-io/github-action-setup-xmake@v1
with:
xmake-version: latest
actions-cache-folder: '.xmake-cache'
actions-cache-key: 'ubuntu'
- name: Install SFML
run: |
apt update
apt install -y libsfml-dev
- name: XMake config
run: xmake f -p linux -y
- name: Build
run: xmake
- name: Test
run: xmake test

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@@ -10,7 +10,10 @@ build/
# personnal documentation
doc/*.txt
doc/*.violet.html
doc/diagrams/*.violet.html
doc/mockups/*
# pieces files
# data files
data/pieces/*.bin
data/config/*.bin
data/config/keybinds/*.bin

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{
"configurations": [
{
"name": "jminos",
"cppStandard": "c++20",
"compileCommands": ".vscode/compile_commands.json"
}
],
"version": 4
}

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# jminos
Modern stacker game with every polyominoes from size 1 to 15, made in C++ with [SFML 3](https://www.sfml-dev.org/)!
## Download
You can download the latest release [here](https://git.ale-pri.com/TetrisNerd/jminos/releases)!
This game has been tested on Windows 11 and Linux, and releases are provided for theses two systems.
If your OS isn't compatible, you can try [manually building the project](#manual-build).
## How to play
Choose which pieces you want to play with and stack them up until you either win or top out!
Make full lines to make them dissapear.
Use the different spins to kick the pieces in spot you couldn't imagine were attaignable!
Each gamemode has its own objective, but you can play as you wish.
You can see and change in-game keybinds in the **SETTINGS** section of the main menu!
All of in-menu navigation is done with the **arrow keys**, the **Enter key** and the **Escape key**. Theses are unchangeable keybinds.
You will find more infos about the Rotation System, the scoring system, or the different pieces type in the **INFO** section of the main menu.
## Features
- Every polyominoes up to pentedecaminoes!
- 7bag with proportionnality for each polyomino size!
- AutoRS as the Rotation System!
- 0° rotations!
- All spin!
- IRS, IHS, infinite hold, and other leniency mechanics!
- Customizable board size!
- Customizable keybinds!
- Very bland interface!! (i'm not a designer)
### Available gamemodes
- SPRINT : clear 40 lines as fast as possible!
- MARATHON : clear 200 lines with increasing gravity!
- ULTRA : scores as much as possible in only 2 minutes!
- MASTER : clear 200 lines at levels higher than maximum gravity!
- INVISIBLE : get 1000 grade while not being able to see the board!
- ZEN : practice indefinitely in this mode with no gravity!
### Screenshots
Pentedecamino jumpscare
![](./doc/readme/big_piece.png)
Pieces select screen
![](./doc/readme/pieces_selection.png)
AutoRS demonstration
![](./doc/readme/rotations.gif)
0° spins demonstration
![](./doc/readme/rotation_0.gif)
## Manual build
This project uses xmake for compiling, xmake is cross-platform and works in most OS, xmake also automatically install supported librairies.
To be able to build this project, you need to [have xmake installed](https://xmake.io) and have a compiler with C++20 compatibility.
If you want to contribute or are simply curious, you can check the [wiki](https://git.ale-pri.com/TetrisNerd/jminos/wiki)!
### Build the project
``cd jminos``
``xmake``
If you need to change the toolchain (for example using gcc):
``xmake f --toolchain=gcc``
If you want to build for another platform (for example with mingw):
``xmake f -p mingw``
### Run the project
``xmake run``
The program will generate the polyomino files for you if you don't have them.
As this is a lengthy process, debug mode limits pieces size to 10.
To switch between debug and release mode:
``xmake f -m debug``
``xmake f -m release``
If for some reasons you wanna run the command line version:
``xmake build text``
``xmake run text``
The command line version is **not** updated.
### Package the project
To package the executable manually properly, follow theses steps:
1. Clone the project into a new folder.
2. If you already have all 15 pieces files, copy them over to the ``data/pieces`` folder, else you will be generating them at the next step.
3. Go into release mode (``xmake f -m release``) and run the project once (``xmake`` and ``xmake run``). This is to generate the default config files, close the game immediately after it started.
4. Make a new folder named ``jminos`` and copy the executable (should be located somewhere like ``build/linux/x86_64/release/graph``) as well as the ``data/pieces`` and ``data/config`` folders.
5. Zip the newly created ``jminos`` folder into a file named ``jminos_{platform}``.
## Benchmarks
### One-sided n-polyominoes
| n | Number | Generation | File storing | File retrieving | File size |
| -: | -: | :-: | :-: | :-: | -: |
| 1 | 1 | 0s 0.005471ms | 0s 0.14436ms | 0s 0.022223ms | 3 bytes |
| 2 | 1 | 0s 0.006979ms | 0s 0.036624ms | 0s 0.011424ms | 4 bytes |
| 3 | 2 | 0s 0.018718ms | 0s 0.035885ms | 0s 0.013246ms | 9 bytes |
| 4 | 7 | 0s 0.060544ms | 0s 0.056277ms | 0s 0.019395ms | 36 bytes |
| 5 | 18 | 0s 0.220348ms | 0s 0.166593ms | 0s 0.036526ms | 76 bytes |
| 6 | 60 | 0s 0.773924ms | 0s 0.283423ms | 0s 0.063492ms | 186 bytes |
| 7 | 196 | 0s 3.00331ms | 0s 0.827344ms | 0s 0.163653ms | 546 bytes |
| 8 | 704 | 0s 13.142ms | 0s 3.68255ms | 0s 0.630044ms | 1898 bytes |
| 9 | 2500 | 0s 50.9272ms | 0s 16.1929ms | 0s 2.35157ms | 6889 bytes |
| 10 | 9189 | 0s 204.031ms | 0s 87.1819ms | 0s 10.5841ms | 25302 bytes |
| 11 | 33896 | 0s 832.82ms | 0s 412.466ms | 0s 57.6399ms | 93711 bytes |
| 12 | 126759 | 3s 425.907ms | 1s 982.715ms | 0s 226.816ms | 350325 bytes |
| 13 | 476270 | 14s 570.595ms | 9s 945.511ms | 0s 972.036ms | 1327156 bytes |
| 14 | 1802312 | 56s 394.426ms | 41s 675.672ms | 4s 79.0436ms | 5035148 bytes |
| 15 | 6849777 | 258s 219.666ms | 223s 386.329ms | 16s 483.426ms | 19392417 bytes |
_File storing includes type checking and sorting all polyominoes before writing them to the file._
The files are compressed, they used to be about 5x as large.
Run it yourself by typing:
``xmake f -m release``
``xmake build bmark``
``xmake run bmark``
## Credits
Library used: [SFML 3](https://www.sfml-dev.org/).
Font used: [Press Start](https://www.zone38.net/font/#pressstart).
Inspired by other modern stacker games such as Techmino, jstris, tetr.io, etc.
This game isn't affiliated with any of them.
Special thanks to my friend [Simon](https://git.ale-pri.com/Persson-dev) who did most of the outside stuff (github actions, files compression, asset manager, xmake).
All the code in src/Common/, src/Utils/ and xmake/ comes from him.

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Thanks for downloading one of codeman38's retro video game fonts, as seen on Memepool, BoingBoing, and all around the blogosphere.
So, you're wondering what the license is for these fonts? Pretty simple; it's based upon that used for Bitstream's Vera font set <http://www.gnome.org/fonts/>.
Basically, here are the key points summarized, in as little legalese as possible; I hate reading license agreements as much as you probably do:
With one specific exception, you have full permission to bundle these fonts in your own free or commercial projects-- and by projects, I'm referring to not just software but also electronic documents and print publications.
So what's the exception? Simple: you can't re-sell these fonts in a commercial font collection. I've seen too many font CDs for sale in stores that are just a repackaging of thousands of freeware fonts found on the internet, and in my mind, that's quite a bit like highway robbery. Note that this *only* applies to products that are font collections in and of themselves; you may freely bundle these fonts with an operating system, application program, or the like.
Feel free to modify these fonts and even to release the modified versions, as long as you change the original font names (to ensure consistency among people with the font installed) and as long as you give credit somewhere in the font file to codeman38 or zone38.net. I may even incorporate these changes into a later version of my fonts if you wish to send me the modifed fonts via e-mail.
Also, feel free to mirror these fonts on your own site, as long as you make it reasonably clear that these fonts are not your own work. I'm not asking for much; linking to zone38.net or even just mentioning the nickname codeman38 should be enough.
Well, that pretty much sums it up... so without further ado, install and enjoy these fonts from the golden age of video games.
[ codeman38 | cody@zone38.net | http://www.zone38.net/ ]

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# Files format
## Pieces
_Note: the current algorithm has been adapted to use file compression. There is currently no documentation on how the compression work, but you can check the code in the [src/Common](https://git.ale-pri.com/TetrisNerd/jminos/src/branch/main/src/Common) folder._
Generating polyominoes of size n is exponential in regard to n. Because of this, we will store the pieces beforehand and load them upon launching the game.
We want the pieces to be always sorted in the same order, always attributed the same block type, and always set at the same spawn position, no matter how they were generated. We also want them to be separated in 3 categories : convex, not convex but without a hole, and with a hole. Theses problematics are already solved internally, but will be calculated before storage as to not need extra calculcations upon load (except for the block type which is trivially computed).
Pieces are stored in binary files. Each file simply contains every polyomino of one size, one after the other. Since each file contains all polyominoes of the same size, we know how much stuff to read and don't need delimiters. We know we've read all pieces simply when we reach the end of file character.
Each piece is stored as follows:
- 1 byte for the characteristics of the piece: ``ABCCCCCC`` where A indicates if the piece is convex, B indicates if it has a hole, and C is the length of the piece
- 1 byte for each position: ``XXXXYYYY`` where X is the x coordinate of the position and Y is the y coordinate of the position
The current implementation only allows to generate polyominoes up to size 16, but can be upgraded by storing coordinates on 8 bits instead of 4.
It has been currently choosen to use pieces only up to size 15 for this game.
## Config
When compiling a release version, default files will be used, theses will then be impacted by the user and used for their next sessions.
### Keybinds
The games has 4 keyboard configs by default that never changes, and a modifiable 5th one, but theses are all stored the same.
Each keybinds files has the the following format:
- The number of the action (converted from an Enum), stored with 1 byte
- The number of each binded keys (also converted from an Enum), stored with 1 byte
- A separator characters which is 0xFF
_Repeat for every avaible actions._
### Settings
The settings file has the following format:
- The versions of the file format, stored with 1 byte
- The previous maximum pieces size selected, stored with 1 byte
- The number of the chosen keybinds (from 0 to 4), stored with 1 byte
- The DAS of the player, stored with 1 byte
- The ARR of the player, stored with 1 byte
- The SDR of the player, stored with 1 byte
- The window size mode, stored with 1 byte
- The master volume, stored with 1 byte
- The number of the last selected gamemode (converted from an Enum), stored with 1 byte
- The last selected width of the board, stored with 1 byte
- The last selected height of the board, stored with 1 byte
- The uniformity mode (0 for default distribution, 1 for uniformous distribution, 2 for custom distribution), stored with 1 byte
- For each size, store the custom proportion (from 0 to 20) (15x1 byte total)
- Every selected pieces
- For every groupe of piece (ALL, CONVEX, HOLELESS, OTHER), use 1 byte for the type (once again converted from an Enum) and 1 byte for the size
- For every single piece, use 1 byte for (the size + encoding that it is a single piece),
and 3 bytes to store the number of the piece (allows number up to 16M, size 15 has 6M pieces).
When starting the game, it will verify if the current settings file is in the latest format, if it is not it will be regenerated with default values.

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# Game logic
This section will detail how the player's action are interpreted into the game.
We will only talk about pieces and not polyominos. In this project, pieces are an abstraction of a polyomino. Though if you want to know more the polyominos in this project, check [this other file](Pieces_representation.md).
We will only talk about pieces and not polyominoes. In this project, pieces are an abstraction of a polyomino.
## Order of operations
@@ -12,6 +12,7 @@ Each frame, the UI will translate the user's input into a series of action to ap
- Hold
- Move left
- Move right
- Rotate 0°
- Rotate clockwise (CW)
- Rotate 180°
- Rotate counter-clockwise (CCW)
@@ -24,9 +25,36 @@ Then the rest of actions will be tested in the list's order.
Finally, gravity and lock delay are applied last.
Moving and soft dropping can be held but hard dropping, holding and rotating needs to be released and pressed again to happen.
Menu navigation is managed by the UI and uses static keybinds to prevent the user from softlocking themselves.
## ARR and DAS
The sidewise movement of the piece is defined by two parameters: DAS and ARR.
**DAS** stands for Delayed Auto Shift and **ARR** for Auto Repeat Rate.
Theses can be changed by the player.
The parameters will be refered to as DAS and ARR, while the in-game values will be refered to as the piece's DAS ans ARR.
- Initially, both the piece DAS and piece ARR are at 0. When moving the piece in one direction,
the piece will move one position and then wait for the player to hold that direction as long as the DAS value.
_So for exemple if DAS is set to 20, on the first frame piece DAS will be set to 1 and the piece will move once.
The next movement will be delayed by 20 frames, so the piece will move again 20 frames later, on the 21th frame, or when the piece DAS = (DAS +1)._
- Then, if the player still holds the same direction, ARR takes on.
The piece will move every ARR frames.
_So in our exemple if ARR is set to 5, this means the piece will move every 5 frames after the 21th frame.
So on the 21th frame piece DAS = 21 and piece ARR = 0.
On the 26th frame, piece ARR = 5 so the piece moves and piece ARR is set back to 0._
Now DAS can be buffered, that is if a direction is held before the piece spawn, it will have an initial DAS value corresponding to the number of frames held.
_So in our example where DAS = 20 and ARR = 5, if we held a direction during 30f then hold without releasing this direction, the piece will move instantly on the frame it spawns.
Then, ARR will start counting on the next frame. So the piece will move on frames 1, 6, 11, etc._
When trying to hold two directions at the same time, only the direction held last will be applied.
So for example if you were holding left and you suddendly start holding the two directions at the same time, the piece will go right.
In the two directions are first pressed at the same frame, left will take priority.
## Leniency mechanics
In a general sense, we try to be kind to the players. Some of the following mechanics are just standards in a lot of stacker games, while other have been added because of this game using polyominos of high sizes and thus being way harder to play.
In a general sense, we try to be kind to the players. Some of the following mechanics are just standards in a lot of stacker games, while other have been added because of this game using polyominoes of high sizes and thus being way harder to play.
When a piece touches the ground, there is a short time period before it automatically locks. This period is called _lock delay_. Lock delay is reset everytime the piece move. To not allow for infinite stalling, there is another longer period called _forced lock delay_ that does not reset when moving the piece.
The player has a hold box in which they can temporarly store a piece. In this game, we allow the player to swap between the held piece and the active piece as much as they want. Once again to not allow for infinite stalling, forced lock delay does not reset when holding a piece.
@@ -38,17 +66,21 @@ IRS and IHS will fail if they actually loose the player the game when it would h
A common mechanic of stacker games is kicking. This happen when rotating a piece makes it collide with a wall. The game will try to move the piece in a few predetermined spot close to the current position until one of them allow the piece to not be in a wall again. If no positions allow for that, the rotation is simply cancelled.
This concept works very well for games with up to tetrominos or pentominos, but when using polyominos of any size we can't choose a few predetermined spots for each piece.
This concept works very well for games with up to tetrominos or pentominos, but when using polyominoes of any size we can't choose a few predetermined spots for each piece.
Since this game uses polyomino of high sizes which are very unplayable, we will try to be complaisant to the player and allow as much kicking spots as possible, while trying not to make him feel like the piece is going through walls. To solve this problem, this game introduce a new Rotation System called **AutoRS**, which does not have a predetermined list of spots to fit the piece but instead adapt to its shape. Its algorithm goes as follow:
1. Before rotating, mark every position containing the piece or touching the piece, we will call the set of all theses positions the ``safePositions``
2. Rotate the piece, if it fit stop the algorithm
3. Try fitting the piece, going from the center to the sides, that means we try to move the piece 1 position right, then 1 position left, then 2 position right, etc. until it fit (and then stop the algorithm), if at one point a position doesn't touch one of the ``safePositions`` we stop trying in this direction
3. Try fitting the piece, going from the center to the sides, that means we try to move the piece 1 position right, then 1 position left, then 2 position right, etc. until it fit (and then stop the algorithm), if at one point none of the squares of the pieces are in one of the ``safePositions`` we stop trying in this direction
4. Move the piece one line down, and repeat step 3 again, until we hit a line were the first position (shifted by 0 positions horizontally) touched none of the ``safePositions``
5. Do the same as step 4 but now we move the piece one line up every time
6. Cancel the rotation
_Note: at step 3, the direction which is checked first is actually the last movement done by the player._
Kicking is primarly designed for rotating, but there is also a 0° rotation applied when a piece spawns into a wall.
0° rotations will first try to move the piece one position down, and if it can't, try kicking the piece, only registering a kick if the piece couldn't move down.
## Detecting spins
Another common mechanic of stacker games that goes alongside kicking is spinning. A spin is a special move (a move is calculated once a piece has been locked to the board) which usually happen when the last move a piece did was a kick or a rotation and the piece is locked in place or is locked in certain corners, but the rules varies a lot from game to game.
@@ -60,8 +92,31 @@ Since we work with a great deal of different size and shapes, the rules for spin
## Score calculation
- For every position soft dropped, add 1 to the score
- For every position hard dropped, add 2 to the score
- When locking a piece, add 1 to the score if it is due to lock delay, or 10 if it was hard dropped.
- When clearing one line, add 100 to the score, 200 for 2 lines, 400 for 3 lines, 800 for 4 lines, 1600 for 5 lines, etc.
- If the line clear is a spin, count the score like a normal clear of 2x more line (200 for 1-line spin, 800 for 2, 3200 for 3, etc.)
- When performing a spin, a mini spin, or clearing 4 or more lines, B2B is activated, every subsequent line clear that is a spin, a mini spin, or clear 4 or more lines, scores twice as much
## Grade calculation
Grade is an alternate system to line clears.
- Each time a piece is dropped, 1 point is added to the total.
- For each cleared line, 1 point is added to the total.
The only exception occurs when the total ends in '99', a line must be cleared to progress.
When this line is cleared, the point of the piece is also counted towards the total.
## Pieces distribution
A bag is an object which contains a set of pieces.
The principle of a bag generator is to put every available pieces into a bag and take them out one by one until the bag is empty, to then start with a new full bag.
It's a way to have equal distribution of pieces while still allowing for a random order of pieces.
The game has 3 modes of pieces distribution:
1. Default. The simplest of them, all selected pieces are put in a single bag.
2. Uniformous. The pieces are now separated by size and put in different bags. Each size will now appear as often as any other.
3. Custom. The pieces are once again separated by size, but now the player specifies how likely each size is to appear.
Both system 2 and 3 uses a system analogous to a bag to determine which size of piece to take next.

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# Pieces representation
## What are polyominos ?
## What are polyominoes ?
In this game, pieces are represented as a polyomino and a block type.
Polyominos are mathematical objects consisting of multiple edge-touching squares.
Polyominoes are mathematical objects consisting of multiple edge-touching squares.
There must be a path from every square to every other square, going from square to square only through the sides and not the corners.
Polyominos can be classified in 3 ways:
Polyominoes can be classified in 3 ways:
- Fixed polyominos : only translation is allowed
- One-sided polyominos : only translation and rotation are allowed
- Fixed polyominoes : only translation is allowed
- One-sided polyominoes : only translation and rotation are allowed
- Free polyomins : translation, rotation, and reflection are allowed
For more detailed informations about polyominos, check the [Wikipedia page](https://en.wikipedia.org/wiki/Polyomino).
For more detailed informations about polyominoes, check the [Wikipedia page](https://en.wikipedia.org/wiki/Polyomino).
Most stacker game uses all one-sided polyominos of size 4 (called tetrominos), which results in 7 distinct polyominos.
In this game too, one-sided polyominos will be used since we will only allow to move and rotate the pieces.
Most stacker game uses all one-sided polyominoes of size 4 (called tetrominos), which results in 7 distinct polyominoes.
In this game too, one-sided polyominoes will be used since we will only allow to move and rotate the pieces.
Internally, polyominos are represented as a set of positions on a 2D grid.
This means that 2 polyominos of same shape but at different places will be interpreted as different polyominos.
To solve this, when doing equality checks, we normalize the polyominos so that their left-most column is at x=0 and their bottom-most row at y=0.
Internally, polyominoes are represented as a set of positions on a 2D grid.
This means that 2 polyominoes of same shape but at different places will be interpreted as different polyominoes.
To solve this, when doing equality checks, we normalize the polyominoes so that their left-most column is at x=0 and their bottom-most row at y=0.
Even if there is only 7 one-sided 4-minos, there is already more than 9,000 one-sided 10-minos.
Since the aim of this game is to be playable with polyominos of any size, listing all polyominos manually isn't viable.
Since the aim of this game is to be playable with polyominoes of any size, listing all polyominoes manually isn't viable.
We will need a way to automatically:
1. Generate all one-sided polyominos of size n
1. Generate all one-sided polyominoes of size n
2. Set their spawn positions and rotation centers
Aditionally, for this game we will also a want a way to separate the polyominos into multiple categories, specifically to allow removing those with holes who are harder to play with.
Aditionally, for this game we will also a want a way to separate the polyominoes into multiple categories, specifically to allow removing those with holes who are harder to play with.
## Ordering the polyominos
## Ordering the polyominoes
For practical reasons, we want to be able to sort all polyominos of the same size.
For practical reasons, we want to be able to sort all polyominoes of the same size.
But to sort objects we need a way to compare them.
When a polyomino is created, an attribute named its length is computed. This is simply the max between its width and its height. Thus the polyomino can be inscribed in a box of size ``length``.
We will now assume that our polyominos are always inscribed in a box of origin (0,0) and size ``length`` (which should always be the case under normal circumstances).
We will now assume that our polyominoes are always inscribed in a box of origin (0,0) and size ``length`` (which should always be the case under normal circumstances).
We can now compare polyominos using this method:
We can now compare polyominoes using this method:
- If one polyomino has an inferior length than another, it is deemed inferior
- If two polyomino have the same length, we check all the positions of their box, from left to right, and repeating from up to bottom, for the first position where a polyomino has a square and the another doesn't, the present polyomino which has a square is deemed inferior
A nice side-effect is that, once the polyomino are ordered, it is very simple to attribute them a block type, we can simply iterate through the list while looping over the block list.
## 1. Generating polyominos
## 1. Generating polyominoes
The method used to generate polyominos is similar to the [inductive method](https://en.wikipedia.org/wiki/Polyomino#Inductive_algorithms) described in the previously mentionned Wikipedia page.
The method used to generate polyominoes is similar to the [inductive method](https://en.wikipedia.org/wiki/Polyomino#Inductive_algorithms) described in the previously mentionned Wikipedia page.
The algorithm is the following:
@@ -64,15 +64,15 @@ The algorithm is the following:
1. We add this square to the polyomino
2. We call the generator function (recursive function!)
3. We remove this square from the polyomino
3. Return the list of polyominos
3. Return the list of polyominoes
The exact number of one-sided polyominos up to size 15 (and higher, but we only generated up to size 15) is known, and this method generated exactly theses numbers, without duplicates.
The exact number of one-sided polyominoes up to size 15 (and higher, but we only generated up to size 15) is known, and this method generated exactly theses numbers, without duplicates.
By marking squares and adding only ones that have a higher number than the last one everytime, we generate each fixed polyomino exactly n times. By ignoring the squares below y=0, or at exactly x=0 and y<0, we generate each fixed polyomino exactly 1 time.
An one-sided polyomino has 4 rotations, some of which can be the same if the polyomino has symmetries. 2 rotations that are the same corresponds to 1 fixed polyomino, we will refer to theses 2 rotation as 1 "unique" rotation.
Because we generate every fixed polyomino exactly 1 time, that means each "unique" rotation of an one-sided polyomino is generated exactly one-time, which includes its lowest rotation. That's how we can get away with only checking the rotation of the polyomino and not comparing it to the rest of the generated polyominos.
Because we generate every fixed polyomino exactly 1 time, that means each "unique" rotation of an one-sided polyomino is generated exactly one-time, which includes its lowest rotation. That's how we can get away with only checking the rotation of the polyomino and not comparing it to the rest of the generated polyominoes.
## 2. Setting the spawn position of polyominos
## 2. Setting the spawn position of polyominoes
Since we assume the polyomino is always inscribed in a box at origin (0,0), we can use formulae close to matrix rotations to rotate the piece:
@@ -91,19 +91,19 @@ The current algorithm for doing so is the following:
1. Check if the polyomino has more lines horizontally or vertically, this will determine either 2 or 4 sides which are wider than the others, and the others will be discarded
2. For each potential side check the number of square on the first line, if one has more than every others, then this side is choosed, else we only keep the sides that tied and repeat for the next line
3. If we still have at least 2 sides tied, we do the same again but check the flatness of the side to the left instead, this will make the pieces overall have more squares to their left at spawn
4. If there is still no winner, we sort the remaining sides (by simulating having them selectionned and then sorting the resulting polyominos) and keep the lowest
4. If there is still no winner, we sort the remaining sides (by simulating having them selectionned and then sorting the resulting polyominoes) and keep the lowest
5. We rotate the piece so that the chosen side ends up at the bottom of the polyomino
6. We center the polyomino inside its box, since we chose the widest side it will always fill the width of the square, but for the height it can be asymmetric, in that case we place it one line closer to the top than the bottom
_Note we could actually just skip straight to step 4 because it always give the same orientation, but we want the spawn rotations to follow somewhat of a logic. Step 1 to 3 actually already works for 99% of polyominos and they constrain step 4 too by preselecting certain sides._
_Note we could actually just skip straight to step 4 because it always give the same orientation, but we want the spawn rotations to follow somewhat of a logic. Step 1 to 3 actually already works for 99% of polyominoes and they constrain step 4 too by preselecting certain sides._
## 3. Separating the polyominos into categories
## 3. Separating the polyominoes into categories
For this game, we want the polyominos to be broken down into 3 categories:
For this game, we want the polyominoes to be broken down into 3 categories:
- Convex: this is said of a polyomino where every row and column is formed of at most one continous line of squares
- Holeless: the polyominos which are neither convex nor have a hole
- Others: the polyominos who have a hole (thoses are by definition not convex)
- Holeless: the polyominoes which are neither convex nor have a hole
- Others: the polyominoes who have a hole (thoses are by definition not convex)
To check for convexity, we simply iterate trough each row and column, and check if all the squares are contiguous.

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# Pieces storage
## What is stored
If you don't know what a polyomino is, check [this other file](Pieces_representation.md#what-are-polyominos).
Generating polyominos of size n is exponential in regard to n. Because of this, we will store the pieces beforehand and load them upon launching the game.
We want the pieces to be always sorted in the same order, always attributed the same block type, and always set at the same spawn position, no matter how they were generated. We also want them to be separated in 3 categories : convex, not convex but without a hole, and with a hole. Theses problematics are already resolved internally, but will be calculated before storage as to not need extra calculcations upon load.
## How is it stored
Pieces are stored in binary files. Each file simply contains every polyomino of one size, one after the other. Since each file contains all polyominos of the same size, we know how much stuff to read and don't need delimiters. We know we've read all pieces simply when we reach the end of file character.
Each piece is stored as follows:
- 1 byte for the length of the piece
- 1 byte for the other characteristics of the piece: ``ABCCCCCC`` where A indicates if the piece is convex, B indicates if it has a hole, and C is the block number of the piece
- 1 byte for each position: ``XXXXYYYY`` where X is the x coordinate of the position and Y is the y coordinate of the position
The current implementation only allows to generate polyominos up to size 16, but can be upgraded by storing coordinates on 8 bits instead of 4.
It has been currently choosen to use pieces only up to size 15 for this game.

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#include "../Pieces/Generator.h"
#include "../Pieces/PiecesFiles.h"
#include <chrono>
#include <filesystem>
#include <cmath>
static const int BENCHMARK_PIECES_SIZE = 15;
void benchmarking(int min_size, int max_size);
int main(int argc, char** argv) {
std::srand(std::time(NULL));
#ifdef DEBUG
std::cout << "IMPORTANT: You are currently in debug mode, debug mode has lowest optimization settings and thus yields worse benchmarking results, to switch to release mode, type 'xmake f -m debug'." << std::endl;
#endif
benchmarking(1, BENCHMARK_PIECES_SIZE);
return 0;
}
void benchmarking(int min_size, int max_size) {
using std::chrono::high_resolution_clock;
using std::chrono::duration_cast;
using std::chrono::duration;
using std::chrono::milliseconds;
std::cout << "| n | Number | Generation | File storing | File retrieving | File size |" << std::endl;
std::cout << "| -: | -: | :-: | :-: | :-: | -: |" << std::endl;
Generator gen;
PiecesFiles pf;
auto t1 = high_resolution_clock::now();
auto t2 = high_resolution_clock::now();
duration<double, std::milli> ms_double;
bool ok;
for (int i = min_size; i <= max_size; i++) {
std::cout << "| " << i;
t1 = high_resolution_clock::now();
std::vector<Polyomino> polyominoes = gen.generatePolyominoes(i);
t2 = high_resolution_clock::now();
ms_double = t2 - t1;
std::cout << " | " << polyominoes.size();
std::flush(std::cout);
std::cout << " | " << (int) ms_double.count() / 1000 << "s " << std::fmod(ms_double.count(), 1000) << "ms";
std::flush(std::cout);
t1 = high_resolution_clock::now();
ok = pf.savePieces(i, polyominoes);
t2 = high_resolution_clock::now();
ms_double = t2 - t1;
std::cout << " | " << (int) ms_double.count() / 1000 << "s " << std::fmod(ms_double.count(), 1000) << "ms";
std::flush(std::cout);
if (!ok) {
std::cerr << "\nERROR: Could not save pieces to file." << std::endl;
return;
}
polyominoes.clear();
polyominoes.shrink_to_fit();
std::vector<Piece> pieces;
std::vector<int> convexPieces;
std::vector<int> holelessPieces;
std::vector<int> otherPieces;
t1 = high_resolution_clock::now();
ok = pf.loadPieces(i, pieces, convexPieces, holelessPieces, otherPieces);
t2 = high_resolution_clock::now();
ms_double = t2 - t1;
std::cout << " | " << (int) ms_double.count() / 1000 << "s " << std::fmod(ms_double.count(), 1000) << "ms";
std::flush(std::cout);
if (!ok) {
std::cerr << "\nERROR: Could not load pieces from file." << std::endl;
return;
}
pieces.clear();
pieces.shrink_to_fit();
convexPieces.clear();
convexPieces.shrink_to_fit();
holelessPieces.clear();
holelessPieces.shrink_to_fit();
otherPieces.clear();
otherPieces.shrink_to_fit();
std::string filePath;
pf.getFilePath(i, filePath);
int fileSize = std::filesystem::file_size(filePath);
std::cout << " | " << fileSize << " bytes |" << std::endl;
std::flush(std::cout);
}
}

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#include "Compression.h"
#include "VarInt.h"
#include <cassert>
#include <zlib.h>
#define COMPRESSION_THRESHOLD 64
static DataBuffer Inflate(const std::uint8_t* source, std::size_t size, std::size_t uncompressedSize) {
DataBuffer result;
result.Resize(uncompressedSize);
uncompress(reinterpret_cast<Bytef*>(result.data()), reinterpret_cast<uLongf*>(&uncompressedSize),
reinterpret_cast<const Bytef*>(source), static_cast<uLong>(size));
assert(result.GetSize() == uncompressedSize);
return result;
}
static DataBuffer Deflate(const std::uint8_t* source, std::size_t size) {
DataBuffer result;
uLongf compressedSize = size;
result.Resize(size); // Resize for the compressed data to fit into
compress(
reinterpret_cast<Bytef*>(result.data()), &compressedSize, reinterpret_cast<const Bytef*>(source), static_cast<uLong>(size));
result.Resize(compressedSize); // Resize to cut useless data
return result;
}
DataBuffer Compress(const DataBuffer& buffer) {
DataBuffer packet;
if (buffer.GetSize() < COMPRESSION_THRESHOLD) {
// Don't compress since it's a small packet
VarInt compressedDataLength = 0;
packet << compressedDataLength;
packet << buffer;
return packet;
}
DataBuffer compressedData = Deflate(buffer.data(), buffer.GetSize());
VarInt uncompressedDataLength = buffer.GetSize();
packet << uncompressedDataLength;
packet.WriteSome(compressedData.data(), compressedData.GetSize());
return packet;
}
DataBuffer Decompress(DataBuffer& buffer, std::uint64_t packetLength) {
VarInt uncompressedLength;
buffer >> uncompressedLength;
std::uint64_t compressedLength = packetLength - uncompressedLength.GetSerializedLength();
if (uncompressedLength.GetValue() == 0) {
// Data already uncompressed. Nothing to do
DataBuffer ret;
buffer.ReadSome(ret, compressedLength);
return ret;
}
assert(buffer.GetReadOffset() + compressedLength <= buffer.GetSize());
return Inflate(buffer.data() + buffer.GetReadOffset(), compressedLength, uncompressedLength.GetValue());
}

23
src/Common/Compression.h Normal file
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@@ -0,0 +1,23 @@
#pragma once
/**
* \file Compression.h
* \brief File containing compress utilities
*/
#include "DataBuffer.h"
/**
* \brief Compress some data
* \param buffer the data to compress
* \return the compressed data
*/
DataBuffer Compress(const DataBuffer& buffer);
/**
* \brief Uncompress some data
* \param buffer the data to uncompress
* \param packetLength lenght of data
* \return the uncompressed data
*/
DataBuffer Decompress(DataBuffer& buffer, std::uint64_t packetLength);

98
src/Common/DataBuffer.cpp Normal file
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@@ -0,0 +1,98 @@
#include "DataBuffer.h"
#include <fstream>
#include <iomanip>
#include <sstream>
#include <iostream>
DataBuffer::DataBuffer(std::size_t initalCapacity) : m_ReadOffset(0) {
m_Buffer.reserve(initalCapacity);
}
DataBuffer::DataBuffer() : m_ReadOffset(0) {}
DataBuffer::DataBuffer(const DataBuffer& other) : m_Buffer(other.m_Buffer), m_ReadOffset(other.m_ReadOffset) {}
DataBuffer::DataBuffer(DataBuffer&& other) : m_Buffer(std::move(other.m_Buffer)), m_ReadOffset(std::move(other.m_ReadOffset)) {}
DataBuffer::DataBuffer(const std::string& str) : m_Buffer(str.begin(), str.end()), m_ReadOffset(0) {}
DataBuffer::DataBuffer(const DataBuffer& other, Data::difference_type offset) : m_ReadOffset(0) {
m_Buffer.reserve(other.GetSize() - static_cast<std::size_t>(offset));
std::copy(other.m_Buffer.begin() + offset, other.m_Buffer.end(), std::back_inserter(m_Buffer));
}
DataBuffer& DataBuffer::operator=(const DataBuffer& other) {
m_Buffer = other.m_Buffer;
m_ReadOffset = other.m_ReadOffset;
return *this;
}
DataBuffer& DataBuffer::operator=(DataBuffer&& other) {
m_Buffer = std::move(other.m_Buffer);
m_ReadOffset = std::move(other.m_ReadOffset);
return *this;
}
void DataBuffer::SetReadOffset(std::size_t pos) {
assert(pos <= GetSize());
m_ReadOffset = pos;
}
std::size_t DataBuffer::GetSize() const {
return m_Buffer.size();
}
std::size_t DataBuffer::GetRemaining() const {
return m_Buffer.size() - m_ReadOffset;
}
DataBuffer::iterator DataBuffer::begin() {
return m_Buffer.begin();
}
DataBuffer::iterator DataBuffer::end() {
return m_Buffer.end();
}
DataBuffer::const_iterator DataBuffer::begin() const {
return m_Buffer.begin();
}
DataBuffer::const_iterator DataBuffer::end() const {
return m_Buffer.end();
}
std::ostream& operator<<(std::ostream& os, const DataBuffer& buffer) {
for (unsigned char u : buffer)
os << std::hex << std::setfill('0') << std::setw(2) << static_cast<int>(u) << " ";
os << std::dec;
return os;
}
bool DataBuffer::ReadFile(const std::string& fileName) {
try {
std::ifstream file(fileName, std::istream::binary);
std::ostringstream ss;
ss << file.rdbuf();
const std::string& s = ss.str();
m_Buffer = DataBuffer::Data(s.begin(), s.end());
m_ReadOffset = 0;
} catch (std::exception& e) {
std::cerr << "Failed to read file : " << e.what() << std::endl;
return false;
}
return m_Buffer.size() > 0;
}
bool DataBuffer::WriteFile(const std::string& fileName) const {
try {
std::ofstream file(fileName, std::ostream::binary);
file.write(reinterpret_cast<const char*>(m_Buffer.data()), static_cast<std::streamsize>(m_Buffer.size()));
file.flush();
} catch (std::exception& e) {
std::cerr << "Failed to write file : " << e.what() << std::endl;
return false;
}
return true;
}

284
src/Common/DataBuffer.h Normal file
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@@ -0,0 +1,284 @@
#pragma once
/**
* \file DataBuffer.h
* \brief File containing the blitz::DataBuffer class
*/
#include <algorithm>
#include <cassert>
#include <cstdint>
#include <cstring>
#include <string>
#include <vector>
/**
* \class DataBuffer
* \brief Class used to manipulate memory
*/
class DataBuffer {
private:
typedef std::vector<std::uint8_t> Data;
Data m_Buffer;
std::size_t m_ReadOffset;
public:
typedef Data::iterator iterator;
typedef Data::const_iterator const_iterator;
typedef Data::reference reference;
typedef Data::const_reference const_reference;
typedef Data::difference_type difference_type;
DataBuffer();
DataBuffer(std::size_t initalCapacity);
DataBuffer(const DataBuffer& other);
DataBuffer(const DataBuffer& other, difference_type offset);
DataBuffer(DataBuffer&& other);
DataBuffer(const std::string& str);
DataBuffer& operator=(const DataBuffer& other);
DataBuffer& operator=(DataBuffer&& other);
/**
* \brief Append data to the buffer
*/
template <typename T>
void Append(const T& data) {
std::size_t size = sizeof(data);
std::size_t end_pos = m_Buffer.size();
m_Buffer.resize(m_Buffer.size() + size);
std::memcpy(&m_Buffer[end_pos], &data, size);
}
/**
* \brief Append data to the buffer
*/
template <typename T>
DataBuffer& operator<<(const T& data) {
Append(data);
return *this;
}
/**
* \brief Append a string to the buffer
* \warning Don't use it for binary data !
* \param str The string to append
*/
DataBuffer& operator<<(const std::string& str) {
std::size_t strlen = str.length() + 1; // including null character
Resize(GetSize() + strlen);
std::memcpy(m_Buffer.data() + GetSize() - strlen, str.data(), strlen);
return *this;
}
/**
* \brief Append data to the buffer from another const buffer
* \param data The buffer to append
*/
DataBuffer& operator<<(const DataBuffer& data) {
m_Buffer.insert(m_Buffer.end(), data.begin(), data.end());
return *this;
}
/**
* \brief Read some data from the buffer and assign to desired variable
*/
template <typename T>
DataBuffer& operator>>(T& data) {
assert(m_ReadOffset + sizeof(T) <= GetSize());
data = *(reinterpret_cast<T*>(&m_Buffer[m_ReadOffset]));
m_ReadOffset += sizeof(T);
return *this;
}
/**
* \brief Read some data from the buffer and assign to the new buffer
* \param data The buffer to assign
*/
DataBuffer& operator>>(DataBuffer& data) {
data.Resize(GetSize() - m_ReadOffset);
std::copy(m_Buffer.begin() + static_cast<difference_type>(m_ReadOffset), m_Buffer.end(), data.begin());
m_ReadOffset = m_Buffer.size();
return *this;
}
/**
* \brief Read a string from the buffer
* \param str The string to assign in the new buffer
* \warning Don't use it for binary data !
*/
DataBuffer& operator>>(std::string& str) {
std::size_t stringSize =
strlen(reinterpret_cast<const char*>(m_Buffer.data()) + m_ReadOffset) + 1; // including null character
str.resize(stringSize);
std::copy(m_Buffer.begin() + static_cast<difference_type>(m_ReadOffset),
m_Buffer.begin() + static_cast<difference_type>(m_ReadOffset + stringSize), str.begin());
m_ReadOffset += stringSize;
return *this;
}
/**
* \brief Write some data to the buffer
* \param buffer The buffer to write
* \param amount The amount of data to write
*/
void WriteSome(const char* buffer, std::size_t amount) {
std::size_t end_pos = m_Buffer.size();
m_Buffer.resize(m_Buffer.size() + amount);
std::memcpy(m_Buffer.data() + end_pos, buffer, amount);
}
/**
* \brief Write some data to the buffer
* \param buffer The buffer to write
* \param amount The amount of data to write
*/
void WriteSome(const std::uint8_t* buffer, std::size_t amount) {
std::size_t end_pos = m_Buffer.size();
m_Buffer.resize(m_Buffer.size() + amount);
std::memcpy(m_Buffer.data() + end_pos, buffer, amount);
}
/**
* \brief Read some data from the buffer
* \param buffer The buffer to Read
* \param amount The amount of data from the buffer
*/
void ReadSome(char* buffer, std::size_t amount) {
assert(m_ReadOffset + amount <= GetSize());
std::copy_n(m_Buffer.begin() + static_cast<difference_type>(m_ReadOffset), amount, buffer);
m_ReadOffset += amount;
}
/**
* \brief Read some data from the buffer
* \param buffer The buffer to Read
* \param amount The amount of data from the buffer
*/
void ReadSome(std::uint8_t* buffer, std::size_t amount) {
assert(m_ReadOffset + amount <= GetSize());
std::copy_n(m_Buffer.begin() + static_cast<difference_type>(m_ReadOffset), amount, buffer);
m_ReadOffset += amount;
}
/**
* \brief Read some data from the buffer
* \param buffer The buffer to Read
* \param amount The amount of data from the buffer
*/
void ReadSome(DataBuffer& buffer, std::size_t amount) {
assert(m_ReadOffset + amount <= GetSize());
buffer.Resize(amount);
std::copy_n(m_Buffer.begin() + static_cast<difference_type>(m_ReadOffset), amount, buffer.begin());
m_ReadOffset += amount;
}
/**
* \brief Resize the buffer
* \param size The new size of the buffer
*/
void Resize(std::size_t size) {
m_Buffer.resize(size);
}
/**
* \brief Reserve some space in the buffer
* \param amount The amount of space to reserve
*/
void Reserve(std::size_t amount) {
m_Buffer.reserve(amount);
}
/**
* \brief Clear the buffer
*/
void Clear() {
m_Buffer.clear();
m_ReadOffset = 0;
}
/**
* \brief When the buffer has been read entirely
*/
bool IsFinished() const {
return m_ReadOffset >= m_Buffer.size();
}
/**
* \brief Get the buffer data
*/
std::uint8_t* data() {
return m_Buffer.data();
}
/**
* \brief Get the buffer data
*/
const std::uint8_t* data() const {
return m_Buffer.data();
}
/**
* \brief Get the read offset
*/
std::size_t GetReadOffset() const {
return m_ReadOffset;
}
/**
* \brief Set the read offset
* \param pos The new read offset
*/
void SetReadOffset(std::size_t pos);
/**
* \brief Get the size of the buffer
*/
std::size_t GetSize() const;
/**
* \brief Get the remaining size of the buffer
*/
std::size_t GetRemaining() const;
/**
* \brief Read a file into the buffer
* \param fileName The name of the file to read
*/
bool ReadFile(const std::string& fileName);
/**
* \brief Write a file into the buffer
* \param fileName The name of the file to write to
*/
bool WriteFile(const std::string& fileName) const;
/**
* \brief Allocate the buffer on the heap
* \warning Don't forget to free the data !
*/
std::uint8_t* HeapAllocatedData() const {
std::uint8_t* newBuffer = new std::uint8_t[GetSize()];
std::memcpy(newBuffer, data(), GetSize());
return newBuffer;
}
/**
* \brief Operator == to compare two DataBuffer
*/
bool operator==(const DataBuffer& other) const {
return m_Buffer == other.m_Buffer;
}
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
};
/**
* \brief Operator << to write a DataBuffer to an ostream
*/
std::ostream& operator<<(std::ostream& os, const DataBuffer& buffer);

48
src/Common/VarInt.cpp Normal file
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@@ -0,0 +1,48 @@
#include "VarInt.h"
#include "DataBuffer.h"
#include <stdexcept>
static constexpr int SEGMENT_BITS = 0x7F;
static constexpr int CONTINUE_BIT = 0x80;
std::size_t VarInt::GetSerializedLength() const {
DataBuffer buffer;
buffer << *this;
return buffer.GetSize();
}
DataBuffer& operator<<(DataBuffer& out, const VarInt& var) {
std::uint64_t value = var.m_Value;
while (true) {
if ((value & ~static_cast<std::uint64_t>(SEGMENT_BITS)) == 0) {
out << static_cast<std::uint8_t>(value);
return out;
}
out << static_cast<std::uint8_t>((value & SEGMENT_BITS) | CONTINUE_BIT);
value >>= 7;
}
}
DataBuffer& operator>>(DataBuffer& in, VarInt& var) {
var.m_Value = 0;
unsigned int position = 0;
std::uint8_t currentByte;
while (true) {
in.ReadSome(&currentByte, 1);
var.m_Value |= static_cast<std::uint64_t>(currentByte & SEGMENT_BITS) << position;
if ((currentByte & CONTINUE_BIT) == 0)
break;
position += 7;
if (position >= 8 * sizeof(var.m_Value))
throw std::runtime_error("VarInt is too big");
}
return in;
}

54
src/Common/VarInt.h Normal file
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@@ -0,0 +1,54 @@
#pragma once
/**
* \file VarInt.h
* \brief File containing the blitz::VarInt class
*/
#include <cstddef>
#include <cstdint>
class DataBuffer;
/**
* \class VarInt
* \brief Variable-length format such that smaller numbers use fewer bytes.
*/
class VarInt {
private:
std::uint64_t m_Value;
public:
VarInt() : m_Value(0) {}
/**
* \brief Construct a variable integer from a value
* \param value The value of the variable integer
*/
VarInt(std::uint64_t value) : m_Value(value) {}
/**
* \brief Get the value of the variable integer
*/
std::uint64_t GetValue() const {
return m_Value;
}
/**
* \brief Get the length of the serialized variable integer
*/
std::size_t GetSerializedLength() const;
/**
* \brief Serialize the variable integer
* \param out The buffer to write the serialized variable integer to
* \param var The variable integer to serialize
*/
friend DataBuffer& operator<<(DataBuffer& out, const VarInt& var);
/**
* \brief Deserialize the variable integer
* \param in The buffer to read the serialized variable integer from
* \param var The variable integer to deserialize
*/
friend DataBuffer& operator>>(DataBuffer& in, VarInt& var);
};

42
src/Core/Action.h
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@@ -1,8 +1,10 @@
#pragma once
#include <iostream>
/**
* The list of actions that can be taken by the player
* The list of in-game actions that can be taken by the player
*/
enum Action {
PAUSE,
@@ -12,7 +14,45 @@ enum Action {
HARD_DROP,
MOVE_LEFT,
MOVE_RIGHT,
ROTATE_0,
ROTATE_CW,
ROTATE_180,
ROTATE_CCW
};
static const Action ACTION_LIST_IN_ORDER[] = { // the list of possible actions in a sorted order
MOVE_LEFT,
MOVE_RIGHT,
SOFT_DROP,
HARD_DROP,
ROTATE_CW,
ROTATE_CCW,
ROTATE_180,
ROTATE_0,
HOLD,
PAUSE,
RETRY
};
static const std::string ACTION_NAMES[] = { // name representation for each actions
"Pause",
"Retry",
"Hold",
"Soft drop",
"Hard drop",
"Move left",
"Move right",
"Rotate 0",
"Rotate CW",
"Rotate 180",
"Rotate CCW"
};
/**
* Stream output operator, adds the name of the action
* @return A reference to the output stream
*/
inline std::ostream& operator<<(std::ostream& os, const Action action) {
os << ACTION_NAMES[action];
return os;
}

100
src/Core/Bag.cpp
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@@ -7,44 +7,104 @@
#include <utility>
#include <cstdlib>
static const double SMALLEST_CONSIDERED_PROPORTION = 0.01; // the smallest a proportion can get before it is considered equal to 0
Bag::Bag(std::shared_ptr<PiecesList> piecesList) :
Bag::Bag(const std::shared_ptr<PiecesList>& piecesList) :
piecesList(piecesList) {
// initialize bags
this->currentBag = this->piecesList->getSelectedPieces();
this->nextBag.clear();
// prepare first piece
this->highestSize = this->piecesList->getHighestLoadedSize();
this->selectedPieces = this->piecesList->getSelectedPieces();
this->distributionMode = this->piecesList->getDistributionMode();
this->propotionsPerSize = this->piecesList->getProportionsPerSize();
this->currentBags.clear();
this->nextBags.clear();
this->sizesBag.clear();
this->sizesProgression.clear();
if (this->distributionMode == DEFAULT) {
this->currentBags.push_back(this->selectedPieces);
this->nextBags.push_back({});
}
else {
for (int i = 0; i <= this->highestSize; i++) {
this->currentBags.push_back(PieceBag());
this->nextBags.push_back(PieceBag());
this->sizesProgression.push_back(0);
}
for (const auto& piece : this->selectedPieces) {
int pieceSize = this->piecesList->lookAtPiece(piece).getPositions().size();
this->currentBags.at(pieceSize).push_back(piece);
}
}
this->prepareNext();
}
void Bag::jumpToNextBag() {
for (int i = 0; i < this->currentBags.size(); i++) {
if (this->currentBags.at(i).size() < this->nextBags.at(i).size()) {
std::swap(this->currentBags.at(i), this->nextBags.at(i));
}
for (const auto& piece : this->nextBags.at(i)) {
this->currentBags.at(i).push_back(piece);
}
this->nextBags.at(i).clear();
}
this->prepareNext();
}
Piece Bag::lookNext() {
return *this->piecesList->getPiece(this->next.first, this->next.second);
return this->piecesList->getPiece(this->next);
}
Piece Bag::getNext() {
// get the piece to return
std::pair<int, int> nextIndex = this->next;
// prepare the piece even after the next
this->prepareNext();
// return the next piece
return *this->piecesList->getPiece(nextIndex.first, nextIndex.second);
return this->piecesList->getPiece(nextIndex);
}
void Bag::prepareNext() {
// if the bag is empty switch to the next bag
if (this->currentBag.empty()) {
std::swap(this->currentBag, this->nextBag);
if (this->distributionMode == DEFAULT) {
this->getNextPieceFromBag(0);
}
else {
if (this->sizesBag.empty()) {
for (int i = 0; i <= this->highestSize; i++) {
if (this->propotionsPerSize.at(i) >= SMALLEST_CONSIDERED_PROPORTION
&& !(this->currentBags.at(i).empty() && this->nextBags.at(i).empty())) {
while (this->sizesProgression.at(i) < 1) {
this->sizesBag.push_back(i);
this->sizesProgression.at(i) += this->propotionsPerSize.at(i);
}
this->sizesProgression.at(i) -= 1;
}
}
}
int nextSizeIndex = std::rand() % this->sizesBag.size();
int nextSize = this->sizesBag.at(nextSizeIndex);
this->sizesBag.erase(this->sizesBag.begin() + nextSizeIndex);
this->getNextPieceFromBag(nextSize);
}
}
void Bag::getNextPieceFromBag(int bagIndex) {
if (this->currentBags.at(bagIndex).empty()) {
std::swap(this->currentBags.at(bagIndex), this->nextBags.at(bagIndex));
}
// pick a random piece from the current bag
int indexIndex = std::rand() % this->currentBag.size();
this->next = this->currentBag.at(indexIndex);
int indexIndex = std::rand() % this->currentBags.at(bagIndex).size();
this->next = this->currentBags.at(bagIndex).at(indexIndex);
// move the piece over to the next bag
this->nextBag.push_back(this->next);
this->currentBag.erase(this->currentBag.begin() + indexIndex);
this->nextBags.at(bagIndex).push_back(this->next);
this->currentBags.at(bagIndex).erase(this->currentBags.at(bagIndex).begin() + indexIndex);
}

26
src/Core/Bag.h
View File

@@ -2,11 +2,14 @@
#include "../Pieces/Piece.h"
#include "PiecesList.h"
#include "DistributionMode.h"
#include <vector>
#include <memory>
#include <utility>
using PieceBag = std::vector<std::pair<int, int>>;
/**
* A litteral bag of pieces, in which you take each of its piece randomly one by one then start again with a new bag
@@ -14,16 +17,26 @@
class Bag {
private:
std::shared_ptr<PiecesList> piecesList; // the list of loaded pieces
int highestSize; // the highest size of piece in the bag
std::vector<std::pair<int, int>> selectedPieces; // the list of pieces that can be given to the player
DistributionMode distributionMode; // the distribution mode
std::vector<double> propotionsPerSize; // the proportion of pieces for each size
std::pair<int, int> next; // the next piece to give
std::vector<std::pair<int, int>> currentBag; // the list of pieces that are still to be taken out before starting a new bag
std::vector<std::pair<int, int>> nextBag; // the list of pieces that have been taken out of the current bag and have been placed in the next
std::vector<PieceBag> currentBags; // for each size, the list of pieces that are still to be taken out before starting a new bag
std::vector<PieceBag> nextBags; // for each size, the list of pieces that have been taken out of the current bag and have been placed in the next
std::vector<int> sizesBag; // the list each of bags that are still to have a piece taken out of them
std::vector<double> sizesProgression; // how close each size is to meet its quota of pieces
public:
/**
* Creates a new bag with the pieces currently selected in the piece list
*/
Bag(std::shared_ptr<PiecesList> piecesList);
Bag(const std::shared_ptr<PiecesList>& piecesList);
/**
* Ignores the remaining pieces in the current bag and start fresh from a new bag
*/
void jumpToNextBag();
/**
* Looks at what the next picked piece will be, without removing it from the bag
@@ -39,7 +52,12 @@ class Bag {
private:
/**
* Prepare the next picked piece in advance
* Prepares the next picked piece in advance
*/
void prepareNext();
/**
* Gets the next picked piece from the specified bag
*/
void getNextPieceFromBag(int bagIndex);
};

42
src/Core/Board.cpp
View File

@@ -16,15 +16,10 @@ Board::Board(int width, int height) :
this->emptyRow.push_back(NOTHING);
}
// initialize grid
this->grid.clear();
for (int j = 0; j < height; j++) {
this->grid.push_back(this->emptyRow);
}
this->clearBoard();
}
void Board::addBlock(const Position& position, Block block) {
// if the block is out of bounds we discard it
void Board::changeBlock(const Position& position, Block block) {
if (position.x < 0 || position.x >= this->width || position.y < 0) return;
// resize the grid if needed
@@ -37,6 +32,20 @@ void Board::addBlock(const Position& position, Block block) {
this->grid.at(position.y).at(position.x) = block;
}
void Board::insertRow(int height, int holePosition, Block blockType) {
std::vector<Block> insertedRow;
for (int i = 0; i < this->width; i++) {
if (i == holePosition) {
insertedRow.push_back(NOTHING);
}
else {
insertedRow.push_back(blockType);
}
}
this->grid.insert(this->grid.begin() + height, insertedRow);
}
int Board::clearRows() {
// check from top to bottom, so that erasing lines don't screw up the looping
int clearedLines = 0;
@@ -52,7 +61,7 @@ int Board::clearRows() {
if (lineIsFull) {
this->grid.erase(this->grid.begin() + j);
if(this->grid.size() < height) {
if(this->grid.size() < this->height) {
this->grid.push_back(this->emptyRow);
}
clearedLines++;
@@ -62,6 +71,13 @@ int Board::clearRows() {
return clearedLines;
}
void Board::clearBoard() {
this->grid.clear();
for (int j = 0; j < this->height; j++) {
this->grid.push_back(this->emptyRow);
}
}
Block Board::getBlock(const Position& position) const {
if (position.x < 0 || position.x >= this->width || position.y < 0) return OUT_OF_BOUNDS;
@@ -70,10 +86,14 @@ Block Board::getBlock(const Position& position) const {
return this->grid.at(position.y).at(position.x);
}
std::vector<std::vector<Block>> Board::getBlocks() const {
const std::vector<std::vector<Block>>& Board::getBlocks() const {
return this->grid;
}
int Board::getWidth() const {
return this->width;
}
int Board::getGridHeight() const {
return this->grid.size();
}
@@ -82,10 +102,6 @@ int Board::getBaseHeight() const {
return this->height;
}
int Board::getWidth() const {
return this->width;
}
std::ostream& operator<<(std::ostream& os, const Board& board) {
for (int y = board.grid.size() - 1; y >= 0; y--) {
for (int x = 0; x < board.width; x++) {

32
src/Core/Board.h
View File

@@ -14,7 +14,7 @@ class Board {
std::vector<std::vector<Block>> grid; // the grid, (0,0) is downleft
std::vector<Block> emptyRow; // an empty row of blocks
int width; // the width of the grid
int height; // the base height of the grid, which can extends indefinitely
int height; // the base height of the grid, which can extend indefinitely
public:
/**
@@ -23,9 +23,14 @@ class Board {
Board(int width, int height);
/**
* Change the block of the specified block, if the block is out of bounds it is simply ignored
* Changes the block at the specified position, if the block is out of bounds it is simply ignored
*/
void addBlock(const Position& position, Block block);
void changeBlock(const Position& position, Block block);
/**
* Inserts a row of the specified block type (unless on the specified column that has a hole), at the specified height
*/
void insertRow(int height, int holePosition, Block blockType);
/**
* Clears any complete row and moves down the rows on top
@@ -34,14 +39,24 @@ class Board {
int clearRows();
/**
* @return The block of the block at the specified position
* Deletes any block currently on the board
*/
void clearBoard();
/**
* @return The block at the specified position
*/
Block getBlock(const Position& position) const;
/**
* @return A copy of the grid
* @return The grid
*/
std::vector<std::vector<Block>> getBlocks() const;
const std::vector<std::vector<Block>>& getBlocks() const;
/**
* @return The width of the grid
*/
int getWidth() const;
/**
* @return The actual height of the grid
@@ -53,11 +68,6 @@ class Board {
*/
int getBaseHeight() const;
/**
* @return The width of the grid
*/
int getWidth() const;
/**
* Stream output operator, adds a 2D grid representing the board
* @return A reference to the output stream

27
src/Core/DistributionMode.h Normal file
View File

@@ -0,0 +1,27 @@
#pragma once
#include <string>
/**
* The modes of pieces distribution managed by the app
*/
enum DistributionMode {
DEFAULT,
UNIFORM,
CUSTOM
};
/**
* @return A string containing the name of the given distribution mode
*/
inline std::string getPiecesDistributionName(DistributionMode distributionMode) {
static const std::string DISTRIBUTION_NAMES[] = {
"DEFAULT",
"UNIFORM",
"CUSTOM"
};
return DISTRIBUTION_NAMES[distributionMode];
}

323
src/Core/Game.cpp
View File

@@ -9,45 +9,54 @@
#include <memory>
static const int SUBPX_PER_ROW = 60; // the number of position the active piece can take "between" two rows
static const int SOFT_DROP_SCORE = 1; // the score gained by line soft dropped
static const int HARD_DROP_SCORE = 2; // the score gained by line hard dropped
static const int LOCK_DELAY_SCORE = 1; // the score gained when the piece locks due to lock delay
static const int HARD_DROP_SCORE = 10; // the score gained when the piece locks due to an hard drop
static const int LINE_CLEAR_BASE_SCORE = 100; // the score value of clearing a single line
static const int B2B_SCORE_MULTIPLIER = 2; // by how much havaing B2B on multiplies the score of the line clear
static const int B2B_MIN_LINE_NUMBER = 4; // the minimum number of lines needed to be cleared at once to gain B2B (without a spin)
Game::Game(Gamemode gamemode, const Player& controls, int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& bag) :
Game::Game(Gamemode gamemode, const Player& controls, int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& piecesList) :
parameters(gamemode, controls),
board(boardWidth, boardHeight, bag, parameters.getNextQueueLength()) {
board(boardWidth, boardHeight, piecesList, parameters.getNextQueueLength()) {
// the game has not yet started
this->initialize();
}
void Game::start() {
this->started = true;
this->leftARETime = 1;
}
void Game::reset() {
this->initialize();
this->parameters.reset();
this->board.reset();
}
void Game::initialize() {
this->started = false;
this->lost = false;
// initialize stats
this->score = 0;
this->framesPassed = 0;
this->B2BChain = 0;
// nothing happened yet
this->heldActions.clear();
this->initialActions.clear();
this->heldDAS = 0;
this->heldARR = 0;
this->subVerticalPosition = 0;
this->leftARETime = 0;
this->totalLockDelay = 0;
this->totalForcedLockDelay = 0;
}
void Game::start() {
this->started = true;
this->lost = this->board.spawnNextPiece();
}
void Game::nextFrame(const std::set<Action>& playerActions) {
if (this->lost || this->hasWon()) return;
bool pieceJustLocked = false;
if (this->started) {
bool AREJustEnded = (this->leftARETime == 1);
if (this->leftARETime > 0) {
@@ -56,57 +65,75 @@ void Game::nextFrame(const std::set<Action>& playerActions) {
if (this->leftARETime == 0) {
if (AREJustEnded) {
this->board.spawnNextPiece();
}
this->lost = this->board.spawnNextPiece();
this->resetPiece(true);
/* IRS and IHS */
Rotation initialRotation = NONE
+ (this->initialActions.contains(ROTATE_CW)) ? CLOCKWISE : NONE
+ (this->initialActions.contains(ROTATE_180)) ? DOUBLE : NONE
+ (this->initialActions.contains(ROTATE_CCW)) ? COUNTERCLOCKWISE : NONE;
/* IRS and IHS */
bool initialRotated = (this->initialActions.contains(ROTATE_0) || this->initialActions.contains(ROTATE_CW)
|| this->initialActions.contains(ROTATE_180) || this->initialActions.contains(ROTATE_CCW));
Rotation initialRotation = NONE
+ ((this->initialActions.contains(ROTATE_CW)) ? CLOCKWISE : NONE)
+ ((this->initialActions.contains(ROTATE_180)) ? DOUBLE : NONE)
+ ((this->initialActions.contains(ROTATE_CCW)) ? COUNTERCLOCKWISE : NONE);
if (this->initialActions.contains(HOLD)) {
if (this->board.hold(initialRotation)) {
this->subVerticalPosition = 0;
this->totalLockDelay = 0;
this->heldARR = 0;
if (this->initialActions.contains(HOLD)) {
this->board.hold(initialRotation);
}
}
else {
if (initialRotation != NONE) {
this->board.rotate(initialRotation);
else {
if (initialRotated) {
this->board.rotate(initialRotation);
}
}
this->lost = this->board.activePieceInWall();
if (this->lost) {
this->board.rotate(NONE);
this->lost = this->board.activePieceInWall();
if (this->lost) {
this->framesPassed++;
return;
}
}
}
/* HOLD */
if (playerActions.contains(HOLD) && (!this->heldActions.contains(HOLD))) {
if (this->board.hold()) {
this->subVerticalPosition = 0;
this->totalLockDelay = 0;
this->heldARR = 0;
if (this->board.hold({})) {
this->resetPiece(false);
}
}
/* MOVE LEFT/RIGHT */
if (playerActions.contains(MOVE_LEFT)) {
this->movePiece(-1, (this->heldDAS >= 0));
Position before = this->board.getActivePiecePosition();
if (this->heldDAS >= 0) {
if (playerActions.contains(MOVE_LEFT) && (!heldActions.contains(MOVE_LEFT))) this->movePiece(-1);
else if (playerActions.contains(MOVE_RIGHT)) this->movePiece(1);
else this->heldDAS = 0;
}
if (playerActions.contains(MOVE_RIGHT)) {
this->movePiece(1, (this->heldDAS <= 0));
else if (this->heldDAS < 0) {
if (playerActions.contains(MOVE_RIGHT) && (!heldActions.contains(MOVE_RIGHT))) this->movePiece(1);
else if (playerActions.contains(MOVE_LEFT)) this->movePiece(-1);
else this->heldDAS = 0;
}
else {
this->heldDAS = 0;
if (before != this->board.getActivePiecePosition()) {
this->totalLockDelay = 0;
}
/* ROTATIONS */
if (playerActions.contains(ROTATE_0) && (!this->heldActions.contains(ROTATE_0))) {
this->rotatePiece(NONE);
}
if (playerActions.contains(ROTATE_CW) && (!this->heldActions.contains(ROTATE_CW))) {
this->board.rotate(CLOCKWISE);
this->rotatePiece(CLOCKWISE);
}
if (playerActions.contains(ROTATE_180) && (!this->heldActions.contains(ROTATE_180))) {
this->board.rotate(DOUBLE);
this->rotatePiece(DOUBLE);
}
if (playerActions.contains(ROTATE_CCW) && (!this->heldActions.contains(ROTATE_CCW))) {
this->board.rotate(COUNTERCLOCKWISE);
this->rotatePiece(COUNTERCLOCKWISE);
}
/* SOFT DROP */
@@ -115,16 +142,14 @@ void Game::nextFrame(const std::set<Action>& playerActions) {
// SDR=0 -> instant drop
if (appliedSDR == 0) {
while (this->board.moveDown()) {
this->score += SOFT_DROP_SCORE;
}
while (this->board.moveDown());
}
// SDR>1 -> move down by specified amount
else {
this->subVerticalPosition += (SUBPX_PER_ROW / appliedSDR);
while (this->subVerticalPosition >= SUBPX_PER_ROW) {
this->board.moveDown();
this->subVerticalPosition -= SUBPX_PER_ROW;
this->score += (this->board.moveDown() * SOFT_DROP_SCORE);
}
}
}
@@ -132,23 +157,28 @@ void Game::nextFrame(const std::set<Action>& playerActions) {
/* HARD DROP */
// needs to be done last because we can enter ARE period afterwards
if (this->initialActions.contains(HARD_DROP) || (playerActions.contains(HARD_DROP) && (!this->heldActions.contains(HARD_DROP)))) {
while (this->board.moveDown()) {
this->score += HARD_DROP_SCORE;
}
while (this->board.moveDown());
this->lockPiece();
pieceJustLocked = true;
this->score += HARD_DROP_SCORE;
}
// no need to apply gravity and lock delay if the piece was hard dropped
else {
/* GRAVITY */
// parameters.getGravity() gives the gravity for an assumed 20-line high board
int appliedGravity = this->parameters.getGravity() * (this->board.getBoard().getBaseHeight() / 20.0);
this->subVerticalPosition += appliedGravity;
while (this->subVerticalPosition >= SUBPX_PER_ROW) {
this->subVerticalPosition -= SUBPX_PER_ROW;
this->board.moveDown();
if (this->parameters.getLevel() >= 20) {
while (this->board.moveDown());
}
else {
// parameters.getGravity() gives the gravity for an assumed 20-line high board
int appliedGravity = this->parameters.getGravity() * std::max((double) this->board.getBoard().getBaseHeight() / 20.0, 1.0);
this->subVerticalPosition += appliedGravity;
while (this->subVerticalPosition >= SUBPX_PER_ROW) {
this->subVerticalPosition -= SUBPX_PER_ROW;
this->board.moveDown();
}
}
/* LOCK DELAY */
if (this->board.touchesGround()) {
this->totalLockDelay++;
@@ -160,59 +190,85 @@ void Game::nextFrame(const std::set<Action>& playerActions) {
if ((this->totalLockDelay > this->parameters.getLockDelay()) || (this->totalForcedLockDelay > this->parameters.getForcedLockDelay())) {
this->lockPiece();
pieceJustLocked = true;
this->score += LOCK_DELAY_SCORE;
}
}
// remove initial actions only once they've been applied
if (AREJustEnded) {
this->initialActions.clear();
}
}
this->framesPassed++;
if (this->lost) {
return;
}
}
// update remembered actions
if ((!this->started) || this->leftARETime > 0) {
for (Action action : playerActions) {
this->initialActions.insert(action);
if ((!pieceJustLocked) && (!heldActions.contains(action))) {
this->initialActions.insert(action);
}
}
if (this->heldDAS >= 0) {
if (playerActions.contains(MOVE_LEFT)) this->heldDAS = -1;
else if (playerActions.contains(MOVE_RIGHT)) this->heldDAS++;
else this->heldDAS = 0;
}
else if (this->heldDAS < 0) {
if (playerActions.contains(MOVE_RIGHT)) this->heldDAS = +1;
else if (playerActions.contains(MOVE_LEFT)) this->heldDAS--;
else this->heldDAS = 0;
}
}
this->heldActions = playerActions;
if (playerActions.contains(MOVE_LEFT)) {
this->heldDAS = std::min(-1, this->heldDAS - 1);
}
if (playerActions.contains(MOVE_RIGHT)) {
this->heldDAS = std::max(1, this->heldDAS + 1);
}
else {
this->heldDAS = 0;
}
}
void Game::movePiece(int movement, bool resetDirection) {
if (resetDirection) {
void Game::resetPiece(bool newPiece) {
int appliedDAS = this->parameters.getDAS();
this->subVerticalPosition = 0;
this->totalLockDelay = 0;
if (newPiece) {
this->totalForcedLockDelay = 0;
}
if (abs(this->heldDAS) > appliedDAS) {
this->heldDAS = (this->heldDAS > 0) ? (+appliedDAS) : (-appliedDAS);
}
this->heldARR = 0;
}
void Game::movePiece(int movement) {
int appliedDAS = this->parameters.getDAS();
int appliedARR = this->parameters.getARR();
if ((this->heldDAS * movement) <= 0) {
this->heldDAS = movement;
this->heldARR = 0;
if (movement == -1) this->board.moveLeft();
if (movement == 1) this->board.moveRight();
}
else {
this->heldDAS += movement;
}
if (abs(this->heldDAS) > this->parameters.getDAS()) {
int appliedARR = this->parameters.getARR();
if (abs(this->heldDAS) > appliedDAS) {
// ARR=0 -> instant movement
if (appliedARR == 0) {
if (movement == -1) while (this->board.moveLeft());
if (movement == 1) while (this->board.moveRight());
}
// ARR>1 -> move by specified amount
else {
this->heldARR++;
if (this->heldARR == appliedARR) {
if (abs(this->heldDAS) > appliedDAS + 1) {
this->heldARR++;
}
if ((this->heldARR == appliedARR) || (abs(this->heldDAS) == (appliedDAS + 1))) {
this->heldARR = 0;
if (movement == -1) this->board.moveLeft();
if (movement == 1) this->board.moveRight();
@@ -221,84 +277,119 @@ void Game::movePiece(int movement, bool resetDirection) {
}
}
void Game::lockPiece() {
LineClear clear = this->board.lockPiece();
this->parameters.clearLines(clear.lines);
void Game::rotatePiece(Rotation rotation) {
Position before = this->board.getActivePiecePosition();
// update B2B and score
bool B2BConditionsAreMet = ((clear.lines > B2B_MIN_LINE_NUMBER) || clear.isSpin || clear.isMiniSpin);
if (clear.lines > 0) {
/* clearing one more line is worth 2x more
clearing with a spin is worth as much as clearing 2x more lines */
long int clearScore = LINE_CLEAR_BASE_SCORE;
clearScore = clearScore << (clear.lines << (clear.isSpin));
if (this->B2BChain && B2BConditionsAreMet) clearScore *= B2B_SCORE_MULTIPLIER;
this->score += clearScore;
}
this->B2BChain = B2BConditionsAreMet;
// reset active piece
this->subVerticalPosition = 0;
this->totalLockDelay = 0;
this->totalForcedLockDelay = 0;
this->heldARR = 0;
// check for ARE
this->leftARETime = this->parameters.getARE();
if (this->leftARETime == 0) {
this->board.spawnNextPiece();
if (this->board.rotate(rotation)) {
this->totalLockDelay = 0;
if (before != this->board.getActivePiecePosition()) {
this->subVerticalPosition = 0;
}
}
}
bool Game::hasWon() {
void Game::lockPiece() {
LineClear clear = this->board.lockPiece();
this->parameters.lockedPiece(clear);
if (clear.lines > 0) {
bool B2BConditionsAreMet = ((clear.lines >= B2B_MIN_LINE_NUMBER) || clear.isSpin || clear.isMiniSpin);
/* clearing one more line is worth 2x more
clearing with a spin is worth as much as clearing 2x more lines */
long int clearScore = LINE_CLEAR_BASE_SCORE / 2;
clearScore = clearScore << (clear.lines << clear.isSpin);
if (this->B2BChain && B2BConditionsAreMet) {
clearScore *= B2B_SCORE_MULTIPLIER;
}
this->score += clearScore;
this->B2BChain = B2BConditionsAreMet;
}
if (!this->hasWon()) {
this->leftARETime = this->parameters.getARE();
if (this->leftARETime == 0) {
this->lost = this->board.spawnNextPiece();
this->resetPiece(true);
if (this->lost) {
this->board.rotate(NONE);
this->lost = this->board.activePieceInWall();
}
}
}
}
bool Game::hasWon() const {
return this->parameters.hasWon(this->framesPassed);
}
bool Game::hasLost() {
bool Game::hasLost() const {
return this->lost;
}
int Game::getClearedLines() {
int Game::getClearedLines() const {
return this->parameters.getClearedLines();
}
int Game::getLevel() {
int Game::getGrade() const {
return this->parameters.getGrade();
}
int Game::getLevel() const {
return this->parameters.getLevel();
}
int Game::getFramesPassed() {
int Game::getFramesPassed() const {
return this->framesPassed;
}
int Game::getScore() {
int Game::getScore() const {
return this->score;
}
bool Game::isOnB2BChain() {
bool Game::isOnB2BChain() const {
return this->B2BChain;
}
bool Game::areBlocksBones() {
float Game::getLockDelayProgression() const {
return (float) this->totalLockDelay / this->parameters.getLockDelay();
}
float Game::getForcedLockDelayProgression() const {
return (float) this->totalForcedLockDelay / this->parameters.getForcedLockDelay();
}
bool Game::areBlocksBones() const {
return this->parameters.getBoneBlocks();
}
Board Game::getBoard() {
bool Game::isBoardInvisible() const {
return this->parameters.getInvisibleBoard();
}
const Board& Game::getBoard() const {
return this->board.getBoard();
}
Piece Game::getActivePiece() {
const std::shared_ptr<Piece>& Game::getActivePiece() const {
return this->board.getActivePiece();
}
Position Game::getActivePiecePosition() {
const Position& Game::getActivePiecePosition() const {
return this->board.getActivePiecePosition();
}
Piece Game::getHeldPiece() {
Position Game::getGhostPiecePosition() const {
return this->board.lowestPosition();
}
const std::shared_ptr<Piece>& Game::getHeldPiece() const {
return this->board.getHeldPiece();
}
std::vector<Piece> Game::getNextPieces() {
const std::vector<Piece>& Game::getNextPieces() const {
return this->board.getNextPieces();
}

90
src/Core/Game.h
View File

@@ -33,13 +33,26 @@ class Game {
/**
* Initialize the parameters and creates a new board
*/
Game(Gamemode gamemode, const Player& controls, int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& bag);
Game(Gamemode gamemode, const Player& controls, int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& piecesList);
/**
* Starts the game
*/
void start();
/**
* Resets the game
*/
void reset();
private:
/**
* Initializes the game
*/
void initialize();
public:
/**
* Advances to the next frame while excecuting the actions taken by the player,
* this is where the main game logic takes place
@@ -48,9 +61,19 @@ class Game {
private:
/**
* Movse the piece in the specified direction
* Resets the piece's parameter
*/
void movePiece(int movement, bool resetDirection);
void resetPiece(bool newPiece);
/**
* Moves the piece in the specified direction (1 for right and -1 for left)
*/
void movePiece(int movement);
/**
* Rotates the piece with the specified rotation
*/
void rotatePiece(Rotation rotation);
/**
* Locks the piece, updates level and score and spawns the next piece if necessary
@@ -61,65 +84,90 @@ class Game {
/**
* @return If the player has won
*/
bool hasWon();
bool hasWon() const;
/**
* @return If the player has lost
*/
bool hasLost();
bool hasLost() const;
/**
* @return The current level
*/
int getLevel();
int getLevel() const;
/**
* @return The current number of cleared lines
*/
int getClearedLines();
int getClearedLines() const;
/**
* @return The current grade
*/
int getGrade() const;
/**
* @return The number of frames passed since the start of the game
*/
int getFramesPassed();
int getFramesPassed() const;
/**
* @return The current score
*/
int getScore();
int getScore() const;
/**
* @return If the player is currently on a B2B chain
*/
bool isOnB2BChain();
bool isOnB2BChain() const;
/**
* @return How close the active piece's lock delay is to the maximum allowed, betwwen 0 and 1
*/
float getLockDelayProgression() const;
/**
* @return How close the active piece's forced lock delay is to the maximum allowed, betwwen 0 and 1
*/
float getForcedLockDelayProgression() const;
/**
* @return If all blocks are currently bone blocks
*/
bool areBlocksBones();
bool areBlocksBones() const;
/**
* @return A copy of the board
* @return If the board is currently invisible
*/
Board getBoard();
bool isBoardInvisible() const;
/**
* @return A copy of the active piece
* @return The board
*/
Piece getActivePiece();
const Board& getBoard() const;
/**
* @return A copy of the active piece position
* @return A pointer to the active piece, can be null
*/
Position getActivePiecePosition();
const std::shared_ptr<Piece>& getActivePiece() const;
/**
* @return A copy of the held piece
* @return The position of the active piece
*/
Piece getHeldPiece();
const Position& getActivePiecePosition() const;
/**
* @return A copy of the next pieces queue
* @return The position of the ghost piece
*/
std::vector<Piece> getNextPieces();
Position getGhostPiecePosition() const;
/**
* @return A pointer to the held piece, can be null
*/
const std::shared_ptr<Piece>& getHeldPiece() const;
/**
* @return The next piece queue, can be empty
*/
const std::vector<Piece>& getNextPieces() const;
};

256
src/Core/GameBoard.cpp
View File

@@ -8,21 +8,43 @@
#include <vector>
#include <set>
#include <memory>
#include <utility>
#include <cstdlib>
#include <iostream>
#include <optional>
GameBoard::GameBoard(int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& pieceList, int nextQueueLength) :
GameBoard::GameBoard(int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& piecesList, int nextQueueLength) :
board(boardWidth, boardHeight),
generator(pieceList),
generator(piecesList),
nextQueueLength(nextQueueLength) {
this->initialize();
}
void GameBoard::reset() {
this->board.clearBoard();
this->generator.jumpToNextBag();
this->initialize();
}
void GameBoard::initialize() {
this->nextQueue.clear();
for (int i = 0; i < nextQueueLength; i++) {
this->nextQueue.push_back(this->generator.getNext());
}
this->activePiece = nullptr;
this->heldPiece = nullptr;
this->isLastMoveKick = false;
this->movedLeftLast = false;
}
bool GameBoard::moveLeft() {
if (this->isActivePieceInWall(Position{-1, 0})) {
this->movedLeftLast = true;
if (this->activePieceInWall(Position{-1, 0})) {
return false;
}
else {
@@ -33,7 +55,9 @@ bool GameBoard::moveLeft() {
}
bool GameBoard::moveRight() {
if (this->isActivePieceInWall(Position{1, 0})) {
this->movedLeftLast = false;
if (this->activePieceInWall(Position{1, 0})) {
return false;
}
else {
@@ -44,7 +68,7 @@ bool GameBoard::moveRight() {
}
bool GameBoard::moveDown() {
if (this->isActivePieceInWall(Position{0, -1})) {
if (this->activePieceInWall(Position{0, -1})) {
return false;
}
else {
@@ -56,15 +80,22 @@ bool GameBoard::moveDown() {
bool GameBoard::rotate(Rotation rotation) {
Piece stored = *this->activePiece;
this->rotate(rotation);
this->activePiece->rotate(rotation);
// before trying to kick, check if the piece can rotate without kicking
if (!this->isActivePieceInWall()) {
this->isLastMoveKick = false;
return true;
if (rotation == NONE) {
if (this->moveDown()) {
this->isLastMoveKick = false;
return true;
}
}
else {
if (!this->activePieceInWall()) {
this->isLastMoveKick = false;
return true;
}
}
// get the list of positions that touches the original piece
std::set<Position> safePositions;
for (Position position : stored.getPositions()) {
Position positionInGrid(position + this->activePiecePosition);
@@ -75,7 +106,10 @@ bool GameBoard::rotate(Rotation rotation) {
safePositions.insert(positionInGrid + Position{-1, 0});
}
// try kicking the piece down
// first try kicking the piece down
if (rotation == NONE) {
this->activePiecePosition.y -= 1;
}
bool suceeded = this->tryKicking(true, safePositions);
if (suceeded) {
this->isLastMoveKick = true;
@@ -83,6 +117,9 @@ bool GameBoard::rotate(Rotation rotation) {
}
// if it doesn't work try kicking the piece up
if (rotation == NONE) {
this->activePiecePosition.y += 1;
}
suceeded = this->tryKicking(false, safePositions);
if (suceeded) {
this->isLastMoveKick = true;
@@ -91,7 +128,10 @@ bool GameBoard::rotate(Rotation rotation) {
// if it still doesn't work, abort the rotation
this->activePiece = std::make_shared<Piece>(stored);
return false;
if (rotation == NONE) {
this->isLastMoveKick = false;
}
return (rotation == NONE);
}
bool GameBoard::tryKicking(bool testingBottom, const std::set<Position>& safePositions) {
@@ -102,33 +142,23 @@ bool GameBoard::tryKicking(bool testingBottom, const std::set<Position>& safePos
// we try from the center to the sides as long as the kicked piece touches the original
bool overlapsLeft = true;
bool overlapsRight = true;
int i = 0;
int i = (j == 0) ? 1 : 0;
do {
// check right before right arbitrarly, we don't decide this with rotations since it would still be arbitrary with 180° rotations
if (overlapsRight) {
Position shift{+i, j};
if (!this->activePieceOverlapsOnePosition(safePositions, shift)) {
overlapsLeft = false;
// we first check the side to which the player moved last
if (movedLeftLast) {
if (overlapsLeft) {
if (this->tryFittingKickedPiece(safePositions, Position({-i, j}), overlapsLeft)) return true;
}
else {
if (!this->isActivePieceInWall(shift)) {
this->activePiecePosition += shift;
return true;
}
if (overlapsRight) {
if (this->tryFittingKickedPiece(safePositions, Position({+i, j}), overlapsRight)) return true;
}
}
// do the same on the left side
if (overlapsLeft) {
Position shift{-i, j};
if (!this->activePieceOverlapsOnePosition(safePositions, shift)) {
overlapsLeft = false;
else {
if (overlapsRight) {
if (this->tryFittingKickedPiece(safePositions, Position({+i, j}), overlapsRight)) return true;
}
else {
if (!this->isActivePieceInWall(shift)) {
this->activePiecePosition += shift;
return true;
}
if (overlapsLeft) {
if (this->tryFittingKickedPiece(safePositions, Position({-i, j}), overlapsLeft)) return true;
}
}
@@ -145,12 +175,32 @@ bool GameBoard::tryKicking(bool testingBottom, const std::set<Position>& safePos
return false;
}
bool GameBoard::hold(Rotation initialRotation) {
bool GameBoard::tryFittingKickedPiece(const std::set<Position>& safePositions, const Position& shift, bool& overlaps) {
if (!this->activePieceOverlaps(safePositions, shift)) {
overlaps = false;
}
else {
if (!this->activePieceInWall(shift)) {
this->activePiecePosition += shift;
return true;
}
}
return false;
}
bool GameBoard::activePieceOverlaps(const std::set<Position>& safePositions, const Position& shift) const {
for (Position position : this->activePiece->getPositions()) {
if (safePositions.contains(position + this->activePiecePosition + shift)) return true;
}
return false;
}
bool GameBoard::hold(std::optional<Rotation> initialRotation) {
Position storedPosition = this->activePiecePosition;
std::swap(this->activePiece, this->heldPiece);
bool isFirstTimeHolding = (this->activePiece == nullptr);
if (isFirstTimeHolding) {
// try with the next piece in queue since there is no piece in the hold box yet
if (this->nextQueueLength == 0) {
this->activePiece = std::make_shared<Piece>(this->generator.lookNext());
}
@@ -159,100 +209,116 @@ bool GameBoard::hold(Rotation initialRotation) {
}
}
// try initial rotation
this->goToSpawnPosition();
if (initialRotation.has_value()) {
std::shared_ptr<Piece> storedPiece(this->activePiece);
this->rotate(initialRotation.value());
Piece stored = *this->activePiece;
this->rotate(initialRotation);
if (this->activePieceInWall()) {
this->activePiece = storedPiece;
}
}
// if the piece can't spawn, try 0° rotation
if (this->activePieceInWall()) {
std::shared_ptr<Piece> storedPiece(this->activePiece);
this->rotate(NONE);
// if the piece can't spawn, abort initial rotation
if (this->isActivePieceInWall()) {
this->activePiece = std::make_shared<Piece>(stored);
// if the piece still can't spawn, abort holding
if (this->isActivePieceInWall()) {
if (isFirstTimeHolding) {
this->activePiece = nullptr;
}
if (this->activePieceInWall()) {
this->activePiece = (isFirstTimeHolding) ? nullptr : storedPiece;
std::swap(this->activePiece, this->heldPiece);
this->activePiecePosition = storedPosition;
return false;
}
}
if (isFirstTimeHolding) {
// confirm we keep the piece we tried with
this->nextQueue.push_back(this->generator.getNext());
this->nextQueue.erase(this->nextQueue.begin());
}
// this piece has done nothing yet
this->heldPiece->defaultRotation();
this->isLastMoveKick = false;
return true;
}
bool GameBoard::spawnNextPiece() {
// generate a new piece
this->nextQueue.push_back(this->generator.getNext());
// get next piece from queue
this->activePiece = std::make_shared<Piece>(this->nextQueue.front());
this->nextQueue.erase(this->nextQueue.begin());
this->goToSpawnPosition();
// this piece has done nothing yet
this->isLastMoveKick = false;
return !this->isActivePieceInWall();
return this->activePieceInWall();
}
bool GameBoard::touchesGround() {
return this->isActivePieceInWall(Position{0, -1});
}
LineClear GameBoard::lockPiece() {
bool isLockedInPlace = (this->isActivePieceInWall(Position{0, 1}) && this->isActivePieceInWall(Position{1, 0})
&& this->isActivePieceInWall(Position{-1, 0}) && this->isActivePieceInWall(Position{0, -1}));
for (Position position : this->activePiece->getPositions()) {
this->board.addBlock(position + this->activePiecePosition, this->activePiece->getBlockType());
}
return LineClear{this->board.clearRows(), isLockedInPlace, (!isLockedInPlace) && this->isLastMoveKick};
}
Board GameBoard::getBoard() const {
return this->board;
}
Piece GameBoard::getActivePiece() const {
return *this->activePiece;
}
Position GameBoard::getActivePiecePosition() const {
return this->activePiecePosition;
}
Piece GameBoard::getHeldPiece() const {
return *this->heldPiece;
}
std::vector<Piece> GameBoard::getNextPieces() const {
return this->nextQueue;
}
bool GameBoard::isActivePieceInWall(const Position& shift) const {
bool GameBoard::activePieceInWall(const Position& shift) const {
for (Position position : this->activePiece->getPositions()) {
if (this->board.getBlock(position + this->activePiecePosition + shift) != NOTHING) return true;
}
return false;
}
bool GameBoard::activePieceOverlapsOnePosition(const std::set<Position>& safePositions, const Position& shift) const {
for (Position position : this->activePiece->getPositions()) {
if (safePositions.contains(position + this->activePiecePosition + shift)) return true;
bool GameBoard::touchesGround() const {
return this->activePieceInWall(Position{0, -1});
}
Position GameBoard::lowestPosition() const {
Position shift = Position{0, -1};
while (!activePieceInWall(shift)) {
shift.y -= 1;
}
return false;
shift.y += 1;
return (this->activePiecePosition + shift);
}
LineClear GameBoard::lockPiece() {
bool isLockedInPlace = (this->activePieceInWall(Position{0, 1}) && this->activePieceInWall(Position{1, 0})
&& this->activePieceInWall(Position{-1, 0}) && this->activePieceInWall(Position{0, -1}));
for (Position position : this->activePiece->getPositions()) {
this->board.changeBlock(position + this->activePiecePosition, this->activePiece->getBlockType());
}
this->activePiece = nullptr;
return LineClear{this->board.clearRows(), isLockedInPlace, (!isLockedInPlace) && this->isLastMoveKick};
}
void GameBoard::addGarbageRows(int number) {
int holePosition = std::rand() % this->board.getWidth();
for (int i = 0; i < number; i++) {
this->board.insertRow(0, holePosition, GARBAGE);
if (this->touchesGround()) {
this->activePiecePosition.y += 1;
}
}
}
const Board& GameBoard::getBoard() const {
return this->board;
}
const std::shared_ptr<Piece>& GameBoard::getActivePiece() const {
return this->activePiece;
}
const Position& GameBoard::getActivePiecePosition() const {
return this->activePiecePosition;
}
const std::shared_ptr<Piece>& GameBoard::getHeldPiece() const {
return this->heldPiece;
}
const std::vector<Piece>& GameBoard::getNextPieces() const {
return this->nextQueue;
}
void GameBoard::goToSpawnPosition() {
@@ -266,6 +332,8 @@ void GameBoard::goToSpawnPosition() {
// center the piece horizontally, biased towards left
this->activePiecePosition.x = (this->board.getWidth() - this->activePiece->getLength()) / 2;
this->activePiece->defaultRotation();
}
std::ostream& operator<<(std::ostream& os, const GameBoard& gameboard) {

83
src/Core/GameBoard.h
View File

@@ -7,6 +7,7 @@
#include <vector>
#include <memory>
#include <optional>
/**
@@ -22,13 +23,26 @@ class GameBoard {
int nextQueueLength; // the number of next pieces seeable at a time
std::vector<Piece> nextQueue; // the list of the next pieces to spawn in the board
bool isLastMoveKick; // wheter the last action the piece did was kicking
bool movedLeftLast; // wheter the last sideway movement was a left one
public:
/**
* Creates a new board, generator, and next queue
*/
GameBoard(int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& bag, int nextQueueLength);
GameBoard(int boardWidth, int boardHeight, const std::shared_ptr<PiecesList>& piecesList, int nextQueueLength);
/**
* Resets the board as if it was newly created
*/
void reset();
private:
/**
* Initializes the board
*/
void initialize();
public:
/**
* Tries moving the piece one position to the left
* @return If it suceeded
@@ -48,7 +62,7 @@ class GameBoard {
bool moveDown();
/**
* Tries rotating the piece and kicking it if necessary
* Tries rotating the piece and kicking it if necessary, if it's a 0° rotation, it will forcefully try kicking
* @return If it suceeded
*/
bool rotate(Rotation rotation);
@@ -60,12 +74,24 @@ class GameBoard {
*/
bool tryKicking(bool testingBottom, const std::set<Position>& safePositions);
/**
* Tries fitting the kicked active piece at the specified position
* @return If it suceeded
*/
bool tryFittingKickedPiece(const std::set<Position>& safePositions, const Position& shift, bool& overlaps);
/**
* Check if one of the active piece's positions shifted by a specified position would overlap with a set of positions
* @return If the shifted active piece overlaps with one of the position
*/
bool activePieceOverlaps(const std::set<Position>& safePositions, const Position& shift = Position{0, 0}) const;
public:
/**
* Tries holding the active piece or swapping it if one was already stocked, while trying to apply an initial rotation to the newly spawned piece
* @return If it suceeded
*/
bool hold(Rotation initialRotation = NONE);
bool hold(std::optional<Rotation> initialRotation);
/**
* Spawns the next piece from the queue
@@ -73,11 +99,23 @@ class GameBoard {
*/
bool spawnNextPiece();
/**
* Checks if one of the active piece's positions touches a wall in the board
* @return If the active piece is in a wall
*/
bool activePieceInWall(const Position& shift = Position{0, 0}) const;
/**
* Checks is the active piece as a wall directly below one of its position
* @return If it touches a ground
*/
bool touchesGround();
bool touchesGround() const;
/**
* Computes what the piece position would be if it were to be dropped down as much as possible
* @return The lowest position before hitting a wall
*/
Position lowestPosition() const;
/**
* Locks the active piece into the board and clears lines if needed
@@ -86,43 +124,36 @@ class GameBoard {
LineClear lockPiece();
/**
* @return A copy of the board
* Adds a specified number of garbage rows to the bottom of the board, the hole position being random but the same for all of them
*/
Board getBoard() const;
void addGarbageRows(int number);
/**
* @return A copy of the active piece
* @return The board
*/
Piece getActivePiece() const;
const Board& getBoard() const;
/**
* @return A copy of the position of the active piece
* @return A pointer to the active piece, can be null
*/
Position getActivePiecePosition() const;
const std::shared_ptr<Piece>& getActivePiece() const;
/**
* @return A copy of the held piece
* @return The position of the active piece
*/
Piece getHeldPiece() const;
const Position& getActivePiecePosition() const;
/**
* @return A copy of the next piece queue
* @return A pointer to the held piece, can be null
*/
std::vector<Piece> getNextPieces() const;
const std::shared_ptr<Piece>& getHeldPiece() const;
/**
* @return The next piece queue, can be empty
*/
const std::vector<Piece>& getNextPieces() const;
private:
/**
* Checks if one of the active piece's positions touches a wall in the board
* @return If the active piece is in a wall
*/
bool isActivePieceInWall(const Position& shift = Position{0, 0}) const;
/**
* Check if one of the active piece's positions shifted by a specified position would overlap with a set of positions
* @return If the shifted active piece overlaps with one of the position
*/
bool activePieceOverlapsOnePosition(const std::set<Position>& safePositions, const Position& shift = Position{0, 0}) const;
/**
* Sets the active piece to its spawn position
*/

108
src/Core/GameParameters.cpp
View File

@@ -7,9 +7,14 @@
GameParameters::GameParameters(Gamemode gamemode, const Player& controls) :
gamemode(gamemode),
controls(controls) {
// initialize lines and level
this->reset();
}
void GameParameters::reset() {
this->clearedLines = 0;
this->grade = 0;
switch (this->gamemode) {
// lowest gravity
case SPRINT : {this->level = 1; break;}
@@ -19,36 +24,55 @@ GameParameters::GameParameters(Gamemode gamemode, const Player& controls) :
case MARATHON : {this->level = 1; break;}
// goes from level 20 to 39
case MASTER : {this->level = 20; break;}
// goes from level 1 to 19
case INVISIBLE : {this->level = 1; break;}
// no gravity
case ZEN : {this->level = 0; break;}
default : this->level = 1;
}
// initialize stats
this->updateStats();
}
void GameParameters::clearLines(int lineNumber) {
// update lines and level
void GameParameters::lockedPiece(const LineClear& lineClear) {
switch (this->gamemode) {
// modes where level increases
// modes where level increases with lines
case MARATHON :
case MASTER : {
// update cleared lines
int previousLines = this->clearedLines;
this->clearedLines += lineNumber;
this->clearedLines += lineClear.lines;
// level increments every 10 lines, stats only changes on level up
if (previousLines / 10 < this->clearedLines / 10) {
this->level = this->clearedLines / 10;
this->level += (this->clearedLines / 10 - previousLines / 10);
this->updateStats();
}
break;
}
// other modes
default : this->clearedLines += lineNumber;
default : this->clearedLines += lineClear.lines;
}
int previousGrade = this->grade;
if (!((lineClear.lines == 0) && ((this->grade % 100) == 99))) {
this->grade += (1 + lineClear.lines);
}
switch (this->gamemode) {
// modes where level increases with grade
case INVISIBLE : {
if (previousGrade / 100 < this->grade / 100) {
this->level += 2;
this->updateStats();
}
break;
}
// other modes
default : break;
}
}
bool GameParameters::hasWon(int framesPassed) {
bool GameParameters::hasWon(int framesPassed) const {
switch (this->gamemode) {
// win once 40 lines have been cleared
case SPRINT : return this->clearedLines >= 40;
@@ -58,6 +82,10 @@ bool GameParameters::hasWon(int framesPassed) {
case MARATHON : return this->clearedLines >= 200;
// win once 200 lines have been cleared
case MASTER : return this->clearedLines >= 200;
// win once 1000 grade has been passed
case INVISIBLE : return this->grade >= 1000;
// infinite mode
case ZEN :
default : return false;
}
}
@@ -65,15 +93,17 @@ bool GameParameters::hasWon(int framesPassed) {
void GameParameters::updateStats() {
/* NEXT QUEUE */
switch (this->gamemode) {
// 5 for rapidity gamemodes
// 5 for fast-controls gamemodes
case SPRINT :
case ULTRA : {
case ULTRA :
case ZEN : {
this->nextQueueLength = 5;
break;
}
// 3 for endurance gamemodes
// 3 for slow-controls gamemodes
case MARATHON :
case MASTER : {
case MASTER :
case INVISIBLE : {
this->nextQueueLength = 3;
break;
}
@@ -83,14 +113,17 @@ void GameParameters::updateStats() {
/* BONE BLOCKS */
switch (this->gamemode) {
// blocks turns into bone blocks at level 30
case MASTER : this->boneBlocks = (this->level >= 30);
case MASTER : {this->boneBlocks = (this->level >= 30); break;}
default : this->boneBlocks = false;
}
/* INVISIBLE */
this->invisibleBoard = (this->gamemode == INVISIBLE);
/* GRAVITY */
// get gravity for an assumed 20-rows board
static const int gravityPerLevel[] = {
0, // LVL0
0, // lvl0 = no gravity
1, // 60f/line, 20s total
2, // 30f/line, 10s total
3, // 20f/line, 6.66s total
@@ -109,12 +142,13 @@ void GameParameters::updateStats() {
40, // 1.5f/line, 30f total
1 * 60, // 1line/f, 20f total
2 * 60, // 2line/f, 10f total
4 * 60 // 4line/f, 5f total
4 * 60, // 4line/f, 5f total
20 * 60 // lvl20 = instant gravity
};
if (this->level < 0) {
this->gravity = gravityPerLevel[0];
}
else if (this->gravity > 20) {
else if (this->level > 20) {
this->gravity = gravityPerLevel[20];
}
else {
@@ -125,6 +159,8 @@ void GameParameters::updateStats() {
switch (this->gamemode) {
// starts at 500ms (30f) at lvl 20 and ends at 183ms (11f) at lvl 39
case MASTER : {this->lockDelay = 30 - (this->level - 20); break;}
// 10s
case ZEN : {this->lockDelay = 60 * 10; break;}
// 1s by default
default : this->lockDelay = 60;
}
@@ -138,6 +174,8 @@ void GameParameters::updateStats() {
case MARATHON : {this->ARE = 24 - (this->level - 1); break;}
// starts at 400ms (24f) at lvl 20 and ends at 083ms (5f) at lvl 39
case MASTER : {this->ARE = 24 - (this->level - 20); break;}
// fixed at 250ms (15f)
case INVISIBLE : {this->ARE = 15; break;}
// no ARE by default
default : this->ARE = 0;
}
@@ -194,50 +232,58 @@ void GameParameters::updateStats() {
}
}
int GameParameters::getClearedLines() {
int GameParameters::getClearedLines() const {
return this->clearedLines;
}
int GameParameters::getLevel() {
int GameParameters::getLevel() const {
return this->level;
}
int GameParameters::getNextQueueLength() {
int GameParameters::getGrade() const {
return this->grade;
}
int GameParameters::getNextQueueLength() const {
return this->nextQueueLength;
}
bool GameParameters::getBoneBlocks() {
bool GameParameters::getBoneBlocks() const {
return this->boneBlocks;
}
int GameParameters::getGravity() {
bool GameParameters::getInvisibleBoard() const {
return this->invisibleBoard;
}
int GameParameters::getGravity() const {
return this->gravity;
}
int GameParameters::getLockDelay() {
int GameParameters::getLockDelay() const {
return this->lockDelay;
}
int GameParameters::getForcedLockDelay() {
int GameParameters::getForcedLockDelay() const {
return this->forcedLockDelay;
}
int GameParameters::getARE() {
int GameParameters::getARE() const {
return this->ARE;
}
int GameParameters::getLineARE() {
int GameParameters::getLineARE() const {
return this->lineARE;
}
int GameParameters::getDAS() {
int GameParameters::getDAS() const {
return this->DAS;
}
int GameParameters::getARR() {
int GameParameters::getARR() const {
return this->ARR;
}
int GameParameters::getSDR() {
int GameParameters::getSDR() const {
return this->SDR;
}

48
src/Core/GameParameters.h
View File

@@ -2,6 +2,7 @@
#include "Gamemode.h"
#include "Player.h"
#include "LineClear.h"
/**
@@ -14,8 +15,10 @@ class GameParameters {
Player controls; // the player's controls
int clearedLines; // the number of cleared lines
int level; // the current level
int grade; // the current amount of points
int nextQueueLength; // the number of pieces visibles in the next queue
bool boneBlocks; // wheter all blocks are bone blocks
bool invisibleBoard; // wheter the board is invisible
int gravity; // the gravity at which pieces drop
int lockDelay; // the time before the piece lock in place
int forcedLockDelay; // the forced time before the piece lock in place
@@ -31,16 +34,21 @@ class GameParameters {
*/
GameParameters(Gamemode gamemode, const Player& controls);
/**
* Resets all stats and parameters
*/
void reset();
/**
* Counts the newly cleared lines and update level and stats if needed
*/
void clearLines(int lineNumber);
void lockedPiece(const LineClear& lineClear);
/**
* Checks if the game ended based on the current states and time passed, accorind to the gamemode
* @return If the player has won
*/
bool hasWon(int framesPassed);
bool hasWon(int framesPassed) const;
private:
/**
@@ -52,60 +60,70 @@ class GameParameters {
/**
* @return The current number of cleared line
*/
int getClearedLines();
int getClearedLines() const;
/**
* @return The current level
*/
int getLevel();
int getLevel() const;
/**
* @return The current grade
*/
int getGrade() const;
/**
* @return The length of the next queue
*/
int getNextQueueLength();
int getNextQueueLength() const;
/**
* Returns wheter the blocks are currently bone blocks
* @return Wheter the blocks are currently bone blocks
*/
bool getBoneBlocks();
bool getBoneBlocks() const;
/**
* @return Wheter the board is currently invisible
*/
bool getInvisibleBoard() const;
/**
* @return The current gravity for a 20-line high board
*/
int getGravity();
int getGravity() const;
/**
* @return The current lock delay
*/
int getLockDelay();
int getLockDelay() const;
/**
* @return The current forced lock delay
*/
int getForcedLockDelay();
int getForcedLockDelay() const;
/**
* @return The current ARE
*/
int getARE();
int getARE() const;
/**
* @return The current line ARE
*/
int getLineARE();
int getLineARE() const;
/**
* @return The current DAS
*/
int getDAS();
int getDAS() const;
/**
* @return The current ARR
*/
int getARR();
int getARR() const;
/**
* @return The current SDR
*/
int getSDR();
int getSDR() const;
};

39
src/Core/Gamemode.h
View File

@@ -1,5 +1,7 @@
#pragma once
#include <string>
/**
* Every gamemode supported by the game
@@ -8,5 +10,40 @@ enum Gamemode {
SPRINT,
MARATHON,
ULTRA,
MASTER
MASTER,
INVISIBLE,
ZEN
};
/**
* @return A string containing the name of the gamemode
*/
inline std::string getGamemodeName(Gamemode gamemode) {
static const std::string GAMEMODE_NAMES[] = {
"SPRINT",
"MARATHON",
"ULTRA",
"MASTER",
"INVISIBLE",
"ZEN"
};
return GAMEMODE_NAMES[gamemode];
}
/**
* @return A tiny string containing the goal of the gamemode
*/
inline std::string getGamemodeGoal(Gamemode gamemode) {
static const std::string GAMEMODE_DESCRIPTIONS[] = {
"40 lines",
"200 lines",
"2 minutes",
"200 lines",
"1000 grade",
"Infinite"
};
return GAMEMODE_DESCRIPTIONS[gamemode];
}

60
src/Core/Menu.cpp Normal file
View File

@@ -0,0 +1,60 @@
#include "Menu.h"
#include "PiecesList.h"
#include "Player.h"
#include "Game.h"
#include <memory>
static const int DEFAULT_BOARD_WIDTH = 10; // the default width of the board when starting the menu
static const int DEFAULT_BOARD_HEIGHT = 20; // the default height of the board when starting the menu
Menu::Menu() {
this->piecesList = std::make_shared<PiecesList>(PiecesList());
this->boardWidth = DEFAULT_BOARD_WIDTH;
this->boardHeight = DEFAULT_BOARD_HEIGHT;
}
Game Menu::startGame(Gamemode gamemode) const {
return Game(gamemode, this->playerControls, this->boardWidth, this->boardHeight, this->piecesList);
}
bool Menu::setBoardWidth(int width) {
if (width < 1) return false;
this->boardWidth = width;
return true;
}
bool Menu::setBoardHeight(int height) {
if (height < 1) return false;
this->boardHeight = height;
return true;
}
int Menu::getBoardWidth() const {
return this->boardWidth;
}
int Menu::getBoardHeight() const {
return this->boardHeight;
}
Player& Menu::getPlayerControls() {
return this->playerControls;
}
const Player& Menu::readPlayerControls() const {
return this->playerControls;
}
PiecesList& Menu::getPiecesList() {
return *this->piecesList;
}
const PiecesList& Menu::readPiecesList() const {
return *this->piecesList;
}

73
src/Core/Menu.h Normal file
View File

@@ -0,0 +1,73 @@
#pragma once
#include "PiecesList.h"
#include "Player.h"
#include "Game.h"
static const int FRAMES_PER_SECOND = 60; // the number of frames per second, all the values in the app were choosen with this number in mind
/**
* The interface between an UI and the core of the app
*/
class Menu {
private:
std::shared_ptr<PiecesList> piecesList; // the list of pieces used by the app
Player playerControls; // the controls of the player
int boardWidth; // the width of the board for the next game
int boardHeight; // the height of the board for the next game
public:
/**
* Initializes the board size and player controls to their default values
*/
Menu();
/**
* Starts a new game with the current settings
* @return The game that has been created
*/
Game startGame(Gamemode gamemode) const;
/**
* Sets the width of the board, which must be greater than 0
* @return If the width has been changed
*/
bool setBoardWidth(int width);
/**
* Sets the height of the board, which must be greater than 0
* @return If the height has been changed
*/
bool setBoardHeight(int height);
/**
* @return The width of the board
*/
int getBoardWidth() const;
/**
* @return The height of the board
*/
int getBoardHeight() const;
/**
* @return A reference to the player's controls
*/
Player& getPlayerControls();
/**
* @return A reference to the player's controls
*/
const Player& readPlayerControls() const;
/**
* @return A reference to the pieces list
*/
PiecesList& getPiecesList();
/**
* @return A reference to the pieces list
*/
const PiecesList& readPiecesList() const;
};

145
src/Core/PiecesList.cpp
View File

@@ -2,61 +2,154 @@
#include "../Pieces/Piece.h"
#include "../Pieces/PiecesFiles.h"
#include "DistributionMode.h"
#include <vector>
#include <utility>
#include <memory>
PiecesList::PiecesList() {
this->maximumLoadedSize = 0;
this->loadedPieces.clear();
this->loadedPieces.push_back(std::vector<Piece>());
this->highestLoadedSize = 0;
this->selectedPieces.clear();
this->distributionMode = DEFAULT;
this->proportionsPerSize.clear();
this->customProportionsPerSize.clear();
// we need to have something at index 0 even if there is no pieces of size 0
this->loadedPieces.clear();
this->convexPieces.clear();
this->holelessPieces.clear();
this->otherPieces.clear();
this->pushBackEmptyVectors();
// we always prepare vectors of the next size to be generated
this->pushBackEmptyVectors();
}
bool PiecesList::loadPieces(int size) {
if (size < 1) return false;
bool PiecesList::loadPieces(int max_size) {
if (max_size < 1) return false;
if (max_size <= this->highestLoadedSize) return true;
PiecesFiles piecesFiles;
std::vector<int> convexPieces;
std::vector<int> holelessPieces;
std::vector<int> otherPieces;
for (int i = this->maximumLoadedSize + 1; i <= size; i++) {
std::vector<Piece> pieces;
this->loadedPieces.push_back(pieces);
if (!piecesFiles.loadPieces(i, this->loadedPieces.at(i), convexPieces, holelessPieces, otherPieces)) {
for (int i = this->highestLoadedSize + 1; i <= max_size; i++) {
if (!piecesFiles.loadPieces(i, this->loadedPieces.at(i), this->convexPieces.at(i), this->holelessPieces.at(i), this->otherPieces.at(i))) {
return false;
}
else {
this->maximumLoadedSize++;
this->highestLoadedSize++;
this->pushBackEmptyVectors();
}
}
return true;
}
bool PiecesList::selectPieces(int size, int number) {
if (size < 1 || size > this->maximumLoadedSize || number >= this->loadedPieces.at(size).size()) return false;
bool PiecesList::selectPiece(int size, int number) {
if (size < 1 || size > this->highestLoadedSize || number >= this->loadedPieces.at(size).size()) return false;
this->selectedPieces.push_back(std::pair<int, int>(size, number));
return true;
}
std::vector<std::pair<int, int>> PiecesList::getSelectedPieces() {
return this->selectedPieces;
bool PiecesList::selectAllPieces(int size) {
if (size < 1 || size > this->highestLoadedSize) return false;
for (int i = 0; i < this->loadedPieces.at(size).size(); i++) {
this->selectedPieces.push_back(std::pair<int, int>(size, i));
}
return true;
}
int PiecesList::getNumberOfPiecesOfOneSize(int size) {
if (size < 1 || size > this->maximumLoadedSize) return 0;
bool PiecesList::selectConvexPieces(int size) {
if (size < 1 || size > this->highestLoadedSize) return false;
for (int index : this->convexPieces.at(size)) {
this->selectedPieces.push_back(std::pair<int, int>(size, index));
}
return true;
}
bool PiecesList::selectHolelessPieces(int size) {
if (size < 1 || size > this->highestLoadedSize) return false;
for (int index : this->holelessPieces.at(size)) {
this->selectedPieces.push_back(std::pair<int, int>(size, index));
}
return true;
}
bool PiecesList::selectOtherPieces(int size) {
if (size < 1 || size > this->highestLoadedSize) return false;
for (int index : this->otherPieces.at(size)) {
this->selectedPieces.push_back(std::pair<int, int>(size, index));
}
return true;
}
void PiecesList::unselectAll() {
this->selectedPieces.clear();
}
bool PiecesList::setDistributionMode(DistributionMode distributionMode) {
if (distributionMode == DEFAULT || distributionMode == UNIFORM || distributionMode == CUSTOM) {
this->distributionMode = distributionMode;
return true;
}
return false;
}
int PiecesList::getHighestLoadedSize() const {
return this->highestLoadedSize;
}
int PiecesList::getNumberOfPieces(int size) const {
if (size < 1 || size > this->highestLoadedSize) return 0;
return this->loadedPieces.at(size).size();
}
std::shared_ptr<Piece> PiecesList::getPiece(int size, int number) {
if (size < 1 || size > this->maximumLoadedSize || number >= this->loadedPieces.at(size).size()) return nullptr;
return std::make_shared<Piece>(this->loadedPieces.at(size).at(number));
std::vector<std::pair<int, int>> PiecesList::getSelectedPieces() const {
return this->selectedPieces;
}
DistributionMode PiecesList::getDistributionMode() const {
return this->distributionMode;
}
bool PiecesList::changeCustomDistribution(int size, double distribution) {
if (size < 1 || size > this->highestLoadedSize || distribution > 1) {
return false;
}
this->customProportionsPerSize.at(size) = distribution;
return true;
}
std::vector<double> PiecesList::getProportionsPerSize() const {
if (this->distributionMode == CUSTOM) {
return this->customProportionsPerSize;
}
else {
return this->proportionsPerSize;
}
}
Piece PiecesList::getPiece(const std::pair<int, int>& pieceIndex) const {
return this->loadedPieces.at(pieceIndex.first).at(pieceIndex.second);
}
const Piece& PiecesList::lookAtPiece(const std::pair<int, int>& pieceIndex) const {
return this->loadedPieces.at(pieceIndex.first).at(pieceIndex.second);
}
void PiecesList::pushBackEmptyVectors() {
this->loadedPieces.push_back(std::vector<Piece>());
this->convexPieces.push_back(std::vector<int>());
this->holelessPieces.push_back(std::vector<int>());
this->otherPieces.push_back(std::vector<int>());
this->proportionsPerSize.push_back(1);
this->customProportionsPerSize.push_back(1);
}

118
src/Core/PiecesList.h
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@@ -1,28 +1,126 @@
#pragma once
#include "../Pieces/Piece.h"
#include "DistributionMode.h"
#include <vector>
#include <utility>
#include <memory>
/**
* A container for all loaded pieces to prevent loading and copying them multiple times,
* also allows for the player to select a list of pieces to be used in a game
*/
class PiecesList {
private:
int maximumLoadedSize;
std::vector<std::vector<Piece>> loadedPieces;
std::vector<std::pair<int, int>> selectedPieces;
int highestLoadedSize; // the highest size of pieces currently loaded
std::vector<std::vector<Piece>> loadedPieces; // every loaded pieces by size
std::vector<std::vector<int>> convexPieces; // the list of convex loaded pieces by size
std::vector<std::vector<int>> holelessPieces; // the list of holeless loaded pieces by size
std::vector<std::vector<int>> otherPieces; // the list of other loaded pieces by size
std::vector<std::pair<int, int>> selectedPieces; // the list of all currently selected pieces
DistributionMode distributionMode; // the current pieces distribution mode
std::vector<double> proportionsPerSize; // the proportion of piece for each sizes
std::vector<double> customProportionsPerSize; // the proportion of piece for each sizes when the distribution mode is set to custom
public:
/**
* Initializes a list of pieces up to size 0 (so no pieces)
*/
PiecesList();
bool loadPieces(int size);
/**
* Makes the list load all pieces up to the specified size
* @return If all pieces up to the specified size are correctly loaded
*/
[[nodiscard]] bool loadPieces(int max_size);
bool selectPieces(int size, int numbers);
/**
* Selects the specified piece
* @return If the piece could be selected
*/
bool selectPiece(int size, int number);
std::vector<std::pair<int, int>> getSelectedPieces();
/**
* Selects all pieces of the specified size
* @return If the pieces could be selected
*/
bool selectAllPieces(int size);
int getNumberOfPiecesOfOneSize(int size);
/**
* Selects all convex pieces of the specified size
* @return If the pieces could be selected
*/
bool selectConvexPieces(int size);
std::shared_ptr<Piece> getPiece(int size, int number);
/**
* Selects all holeless pieces of the specified size
* @return If the pieces could be selected
*/
bool selectHolelessPieces(int size);
/**
* Selects all other pieces of the specified size
* @return If the pieces could be selected
*/
bool selectOtherPieces(int size);
/**
* Unselects all previously selected pieces
*/
void unselectAll();
/**
* Changes the current pieces distribution mode
* @return If the mode is supported
*/
bool setDistributionMode(DistributionMode distributionMode);
/**
* Changes the distribution of the specified size for when the distribution mode is set to custom,
* the specified distribution must lower or equal to 1
* @return If the new distribution was applied
*/
bool changeCustomDistribution(int size, double distribution);
/**
* @return The highest loaded size of pieces
*/
int getHighestLoadedSize() const;
/**
* @return The number of pieces of the specified size
*/
int getNumberOfPieces(int size) const;
/**
* @return A copy of the indexes of all selected pieces
*/
std::vector<std::pair<int, int>> getSelectedPieces() const;
/**
* @return The current distribution mode
*/
DistributionMode getDistributionMode() const;
/**
* @return The proportion of pieces for each loaded size
*/
std::vector<double> getProportionsPerSize() const;
/**
* @return A copy of the piece corresponding to the specified index
*/
Piece getPiece(const std::pair<int, int>& pieceIndex) const;
/**
* @return The piece corresponding to the specified index
*/
const Piece& lookAtPiece(const std::pair<int, int>& pieceIndex) const;
private:
/**
* Adds empty vectors at the end of every pieces list
*/
void pushBackEmptyVectors();
};

13
src/Core/Player.cpp
View File

@@ -1,12 +1,5 @@
#include "Player.h"
static const int DAS_MIN_VALUE = 0; // 0ms
static const int DAS_MAX_VALUE = 30; // 500ms
static const int ARR_MIN_VALUE = 0; // 0ms
static const int ARR_MAX_VALUE = 30; // 500ms
static const int SDR_MIN_VALUE = 0; // 0ms
static const int SDR_MAX_VALUE = 6; // 100ms
Player::Player() {
// default settings
@@ -36,14 +29,14 @@ bool Player::setSDR(int SDR) {
return true;
}
int Player::getDAS() {
int Player::getDAS() const {
return this->DAS;
}
int Player::getARR() {
int Player::getARR() const {
return this->ARR;
}
int Player::getSDR() {
int Player::getSDR() const {
return this->SDR;
}

13
src/Core/Player.h
View File

@@ -1,5 +1,12 @@
#pragma once
static const int DAS_MIN_VALUE = 0; // the minimal selectable DAS value, equals to 0ms
static const int DAS_MAX_VALUE = 30; // the maximal selectable DAS value, equals to 500ms
static const int ARR_MIN_VALUE = 0; // the minimal selectable ARR value, equals to 0ms
static const int ARR_MAX_VALUE = 30; // the maximal selectable ARR value, equals to 500ms
static const int SDR_MIN_VALUE = 0; // the minimal selectable SDR value, equals to 0ms
static const int SDR_MAX_VALUE = 6; // the maximal selectable SDR value, equals to 100ms
/**
* The controls of a player
@@ -37,15 +44,15 @@ class Player {
/**
* @return DAS value
*/
int getDAS();
int getDAS() const;
/**
* @return ARR value
*/
int getARR();
int getARR() const;
/**
* @return SDR value
*/
int getSDR();
int getSDR() const;
};

164
src/Core/main.cpp
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@@ -1,164 +0,0 @@
#include "../Pieces/PiecesFiles.h"
#include "../Pieces/Generator.h"
#include "GameBoard.h"
#include "PiecesList.h"
#include <chrono>
#include <string>
#include <algorithm>
#include <filesystem>
#include <fstream>
void testGeneratorForAllSizes(int amount);
void testGeneratorForOneSize(int size);
void testGeneratorByprintingAllNminos(int n);
void testStoringAndRetrievingPieces(int size);
void generateFilesForAllSizes(int amount);
void readStatsFromFilesForAllSizes(int amount);
int main(int argc, char** argv) {
std::srand(std::time(NULL));
int sizeSelected = 3;
PiecesList pli;
std::shared_ptr<PiecesList> pl = std::make_shared<PiecesList>(pli);
pl->loadPieces(sizeSelected);
for (int i = 0; i < pl->getNumberOfPiecesOfOneSize(sizeSelected); i++) {
pl->selectPieces(sizeSelected, i);
}
GameBoard gb(10, 4, pl, 1);
for (int i = 0; i < pl->getNumberOfPiecesOfOneSize(sizeSelected) * 3; i++) {
gb.spawnNextPiece();
std::cout << gb << std::endl;
}
return 0;
}
void testGeneratorForAllSizes(int amount) {
using std::chrono::high_resolution_clock;
using std::chrono::duration_cast;
using std::chrono::duration;
using std::chrono::milliseconds;
Generator generator;
for (int i = 1; i <= amount; i++) {
auto t1 = high_resolution_clock::now();
std::vector<Polyomino> n_minos = generator.generatePolyominos(i);
auto t2 = high_resolution_clock::now();
duration<double, std::milli> ms_double = t2 - t1;
std::cout << "generated " << n_minos.size() << " polyominos of size " << i << " in " << ms_double.count() << "ms" << std::endl;
}
}
void testGeneratorForOneSize(int size) {
using std::chrono::high_resolution_clock;
using std::chrono::duration_cast;
using std::chrono::duration;
using std::chrono::milliseconds;
Generator generator;
std::cout << "Generating " << size << "-minos" << std::endl;
for (int i = 0; i < 10; i++) {
auto t1 = high_resolution_clock::now();
std::vector<Polyomino> n_minos = generator.generatePolyominos(size);
auto t2 = high_resolution_clock::now();
duration<double, std::milli> ms_double = t2 - t1;
std::cout << ms_double.count() << "ms" << std::endl;
}
}
void testGeneratorByprintingAllNminos(int n) {
Generator generator;
std::vector<Polyomino> n_minos = generator.generatePolyominos(n);
for (Polyomino& n_mino : n_minos) {
n_mino.goToSpawnPosition();
}
std::sort(n_minos.begin(), n_minos.end());
for (Polyomino& n_mino : n_minos) {
std::cout << n_mino << std::endl;
}
}
void testStoringAndRetrievingPieces(int size) {
PiecesFiles piecesFiles;
piecesFiles.savePieces(size);
std::vector<Piece> pieces;
std::vector<int> convexPieces;
std::vector<int> holelessPieces;
std::vector<int> otherPieces;
piecesFiles.loadPieces(size, pieces, convexPieces, holelessPieces, otherPieces);
std::cout << "Convex " << size << "-minos:" << std::endl;
for (int index : convexPieces) {
std::cout << pieces.at(index);
}
std::cout << "Holeless " << size << "-minos:" << std::endl;
for (int index : holelessPieces) {
std::cout << pieces.at(index);
}
std::cout << "Others " << size << "-minos:" << std::endl;
for (int index : otherPieces) {
std::cout << pieces.at(index);
}
}
void generateFilesForAllSizes(int amount) {
using std::chrono::high_resolution_clock;
using std::chrono::duration_cast;
using std::chrono::duration;
using std::chrono::milliseconds;
PiecesFiles piecesFiles;
for (int i = 1; i <= amount; i++) {
auto t1 = high_resolution_clock::now();
piecesFiles.savePieces(i);
auto t2 = high_resolution_clock::now();
duration<double, std::milli> ms_double = t2 - t1;
std::cout << "Generated pieces files for size " << i << " in " << ms_double.count() << "ms" << std::endl;
}
for (int i = 1; i <= amount; i++) {
auto t1 = high_resolution_clock::now();
std::vector<Piece> pieces;
std::vector<int> convexPieces;
std::vector<int> holelessPieces;
std::vector<int> otherPieces;
piecesFiles.loadPieces(i, pieces, convexPieces, holelessPieces, otherPieces);
auto t2 = high_resolution_clock::now();
duration<double, std::milli> ms_double = t2 - t1;
std::cout << "Read pieces from files for size " << i << " in " << ms_double.count() << "ms" << std::endl;
}
}
void readStatsFromFilesForAllSizes(int amount) {
PiecesFiles piecesFiles;
for (int i = 1; i <= amount; i++) {
std::vector<Piece> pieces;
std::vector<int> convexPieces;
std::vector<int> holelessPieces;
std::vector<int> otherPieces;
piecesFiles.loadPieces(i, pieces, convexPieces, holelessPieces, otherPieces);
std::cout << i << "-minos : " << pieces.size() << std::endl;
std::cout << "Convex " << i << "-minos : " << convexPieces.size() << std::endl;
std::cout << "Holeless " << i << "-minos : " << holelessPieces.size() << std::endl;
std::cout << "Others " << i << "-minos : " << otherPieces.size() << std::endl;
}
}

72
src/GraphicalUI/AppMenus/AppMenu.cpp Normal file
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@@ -0,0 +1,72 @@
#include "AppMenu.h"
#include "../Settings.h"
#include "../PlayerCursor.h"
#include "../../Utils/AssetManager.h"
#include <stack>
#include <memory>
#include <optional>
#include <SFML/Graphics.hpp>
AppMenu::AppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
menuStack(menuStack),
settings(settings),
renderWindow(renderWindow) {
const Asset& file = getResource(AssetName::data_fonts_pressstart_prstartk_ttf);
this->pressStartFont = sf::Font(file.data, file.size);
}
void AppMenu::updateMetaBinds() {
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Key::Enter)) {
this->enterPressed = true;
this->enterReleased = false;
}
else {
this->enterReleased = this->enterPressed;
this->enterPressed = false;
}
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Key::Escape)) {
this->escPressed = true;
this->escReleased = false;
}
else {
this->escReleased = this->escPressed;
this->escPressed = false;
}
}
void AppMenu::placeText(sf::Text& text, const std::optional<PlayerCursor>& playerCursor, const sf::String& string, float xPos, float yPos, const std::optional<sf::Vector2u>& cursorPos) const {
float sizeMultiplier = this->settings->getWindowSizeMultiplier();
text.setString(string);
if (playerCursor.has_value() && cursorPos.has_value()) {
text.setOutlineThickness((playerCursor.value().getPosition() == cursorPos.value()) ? (sizeMultiplier / 2) : 0);
}
text.setOrigin(sf::Vector2f({0, text.getLocalBounds().size.y / 2}));
text.setPosition(sf::Vector2f({sizeMultiplier * xPos, sizeMultiplier * yPos}));
this->renderWindow->draw(text);
}
void AppMenu::placeTitle(sf::Text& text, const std::optional<PlayerCursor>& playerCursor, const sf::String& string, float yPos, const std::optional<sf::Vector2u>& cursorPos) const {
float sizeMultiplier = this->settings->getWindowSizeMultiplier();
text.setString(string);
if (playerCursor.has_value() && cursorPos.has_value()) {
text.setOutlineThickness((playerCursor.value().getPosition() == cursorPos.value()) ? (sizeMultiplier / 2) : 0);
}
text.setOrigin({text.getLocalBounds().getCenter().x, text.getLocalBounds().size.y / 2});
text.setPosition(sf::Vector2f({sizeMultiplier * 40.f, sizeMultiplier * yPos}));
this->renderWindow->draw(text);
}
sf::Color AppMenu::getColorOfBlock(Block block, int luminosityShift) const {
Color rgbColor = BLOCKS_COLOR[block];
return sf::Color(std::clamp(rgbColor.red + luminosityShift, 0, 255),
std::clamp(rgbColor.green + luminosityShift, 0, 255),
std::clamp(rgbColor.blue + luminosityShift, 0, 255));
}

41
src/GraphicalUI/AppMenus/AppMenu.h Normal file
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@@ -0,0 +1,41 @@
#pragma once
#include "../Settings.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <optional>
#include <SFML/Graphics.hpp>
class AppMenu;
using MenuStack = std::stack<std::shared_ptr<AppMenu>>;
class AppMenu {
protected:
std::shared_ptr<MenuStack> menuStack;
std::shared_ptr<Settings> settings;
std::shared_ptr<sf::RenderWindow> renderWindow;
bool enterPressed = false;
bool enterReleased = false;
bool escPressed = false;
bool escReleased = false;
sf::Font pressStartFont;
public:
AppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
virtual void computeFrame() = 0;
virtual void drawFrame() const = 0;
protected:
void updateMetaBinds();
void placeText(sf::Text& text, const std::optional<PlayerCursor>& playerCursor, const sf::String& string, float xPos, float yPos, const std::optional<sf::Vector2u>& cursorPos) const;
void placeTitle(sf::Text& text, const std::optional<PlayerCursor>& playerCursor, const sf::String& string, float yPos, const std::optional<sf::Vector2u>& cursorPos) const;
sf::Color getColorOfBlock(Block block, int luminosityShift) const;
};

64
src/GraphicalUI/AppMenus/GameBoardAppMenu.cpp Normal file
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@@ -0,0 +1,64 @@
#include "GameBoardAppMenu.h"
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
GameBoardAppMenu::GameBoardAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1, 1}) {
}
void GameBoardAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
Menu& menu = this->settings->getMenu();
switch (this->playerCursor.getPosition().y) {
case 0 : {
if (this->playerCursor.movedLeft()) {
menu.setBoardWidth(std::max(1, menu.getBoardWidth() - 1));
}
if (this->playerCursor.movedRight()) {
menu.setBoardWidth(std::min(MAXIMUM_BOARD_WIDTH, menu.getBoardWidth() + 1));
}
break;
}
case 1 : {
if (this->playerCursor.movedLeft()) {
menu.setBoardHeight(std::max(1, menu.getBoardHeight() - 1));
}
if (this->playerCursor.movedRight()) {
menu.setBoardHeight(std::min(MAXIMUM_BOARD_HEIGHT, menu.getBoardHeight() + 1));
}
break;
}
}
if (this->escReleased) {
this->menuStack->pop();
}
}
void GameBoardAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
const Menu& menu = this->settings->getMenu();
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "BOARD SETTINGS", 5.f, {});
this->placeText(text, this->playerCursor, "< BOARD WIDTH: " + std::to_string(menu.getBoardWidth()) + " >", 5.f, 15.f, sf::Vector2u{0, 0});
this->placeText(text, this->playerCursor, "< BOARD HEIGHT: " + std::to_string(menu.getBoardHeight()) + " >", 5.f, 25.f, sf::Vector2u{0, 1});
this->renderWindow->display();
}

21
src/GraphicalUI/AppMenus/GameBoardAppMenu.h Normal file
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@@ -0,0 +1,21 @@
#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class GameBoardAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
GameBoardAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

85
src/GraphicalUI/AppMenus/GameDistributionAppMenu.cpp Normal file
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@@ -0,0 +1,85 @@
#include "GameDistributionAppMenu.h"
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
GameDistributionAppMenu::GameDistributionAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1}) {
for (int i = 1; i <= this->settings->getLoadablePiecesSize(); i++) {
this->playerCursor.addRow(i, 1);
}
}
void GameDistributionAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
PiecesList& piecesList = this->settings->getMenu().getPiecesList();
if (this->playerCursor.getPosition().y == 0) {
if (this->playerCursor.movedLeft()) {
piecesList.setDistributionMode(DistributionMode((int) piecesList.getDistributionMode() - 1));
}
if (this->playerCursor.movedRight()) {
piecesList.setDistributionMode(DistributionMode((int) piecesList.getDistributionMode() + 1));
}
}
else {
if (piecesList.getDistributionMode() != CUSTOM) {
this->playerCursor.goToPosition({0, 0});
}
else {
if (this->playerCursor.movedLeft()) {
this->settings->decreaseDistribution(this->playerCursor.getPosition().y);
}
if (this->playerCursor.movedRight()) {
this->settings->increaseDistribution(this->playerCursor.getPosition().y);
}
}
}
if (this->escReleased) {
this->settings->confirmDistribution();
this->menuStack->pop();
}
}
void GameDistributionAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
const Menu& menu = this->settings->getMenu();
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "DISTRIBUTION SETTINGS", 5.f, {});
const DistributionMode distributionMode = this->settings->getMenu().readPiecesList().getDistributionMode();
const std::vector<int>& distributions = this->settings->getDistributions();
int firstElem = std::clamp(((int) this->playerCursor.getPosition().y) - 1, 0, this->settings->getLoadablePiecesSize() - 3);
if (firstElem == 0) {
this->placeText(text, this->playerCursor, "< DISTRIBUTION MODE: " + getPiecesDistributionName(distributionMode) + " >", 5.f, 15.f, sf::Vector2u{0, 0});
}
else {
this->placeText(text, this->playerCursor, "< SIZE " + std::to_string(firstElem) + " PROBABILITY: " + std::to_string(distributions.at(firstElem)) + " >", 5.f, 15.f, sf::Vector2u{(unsigned int) firstElem, 0});
}
if (distributionMode != CUSTOM) {
text.setFillColor(sf::Color(100, 100, 100));
}
this->placeText(text, this->playerCursor, "< SIZE " + std::to_string(firstElem + 1) + " PROBABILITY: " + std::to_string(distributions.at(firstElem + 1)) + " >", 5.f, 25.f, sf::Vector2u{0, (unsigned int) firstElem + 1});
this->placeText(text, this->playerCursor, "< SIZE " + std::to_string(firstElem + 2) + " PROBABILITY: " + std::to_string(distributions.at(firstElem + 2)) + " >", 5.f, 35.f, sf::Vector2u{0, (unsigned int) firstElem + 2});
this->placeText(text, this->playerCursor, "< SIZE " + std::to_string(firstElem + 3) + " PROBABILITY: " + std::to_string(distributions.at(firstElem + 3)) + " >", 5.f, 45.f, sf::Vector2u{0, (unsigned int) firstElem + 3});
this->renderWindow->display();
}

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src/GraphicalUI/AppMenus/GameDistributionAppMenu.h Normal file
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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class GameDistributionAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
GameDistributionAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

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src/GraphicalUI/AppMenus/GamePiecesAppMenu.cpp Normal file
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#include "GamePiecesAppMenu.h"
#include "AppMenu.h"
#include "GameDistributionAppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
GamePiecesAppMenu::GamePiecesAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1, (unsigned int) this->settings->getSelectedPieces().size() + 1u}) {
for (int i = 1; i <= this->settings->getLoadablePiecesSize(); i++) {
this->playerCursor.addRow(i + 1, this->settings->getMenu().readPiecesList().getNumberOfPieces(i) + 4);
}
if (this->settings->getLoadablePiecesSize() < MAXIMUM_PIECES_SIZE) {
this->playerCursor.addRow(this->settings->getLoadablePiecesSize() + 2, 1);
}
}
void GamePiecesAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
if (this->playerCursor.movedDown() && this->playerCursor.getPosition().y == 2) {
this->playerCursor.goToPosition({0, 2});
}
if (this->enterReleased) {
if (this->playerCursor.getPosition().y == 0) {
this->menuStack->push(std::make_shared<GameDistributionAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
if (this->playerCursor.getPosition().y == (this->settings->getLoadablePiecesSize() + 2)) {
int newMaxSize = this->settings->getLoadablePiecesSize() + 1;
this->settings->loadPieces(newMaxSize);
this->playerCursor.removeRow(newMaxSize + 1);
this->playerCursor.addRow(newMaxSize + 1, this->settings->getMenu().readPiecesList().getNumberOfPieces(newMaxSize) + 4);
this->playerCursor.goToPosition({0u, newMaxSize + 1u});
if (newMaxSize < MAXIMUM_PIECES_SIZE) {
this->playerCursor.addRow(newMaxSize + 2, 1);
}
}
else if (this->playerCursor.getPosition().y > 1) {
if (this->playerCursor.getPosition().x >= 4) {
this->settings->selectPieces(createSinglePieceType(this->playerCursor.getPosition().y - 1), this->playerCursor.getPosition().x - 4);
}
else {
switch (this->playerCursor.getPosition().x) {
case 0 : {this->settings->selectPieces(ALL_PIECES, this->playerCursor.getPosition().y - 1); break;}
case 1 : {this->settings->selectPieces(CONVEX_PIECES, this->playerCursor.getPosition().y - 1); break;}
case 2 : {this->settings->selectPieces(HOLELESS_PIECES, this->playerCursor.getPosition().y - 1); break;}
case 3 : {this->settings->selectPieces(OTHER_PIECES, this->playerCursor.getPosition().y - 1); break;}
}
}
this->playerCursor.addPosition(0, 1);
}
}
if (this->escReleased) {
if (this->playerCursor.getPosition().y == 1) {
if (this->playerCursor.getPosition().x > 0) {
this->settings->unselectPieces(this->playerCursor.getPosition().x - 1);
this->playerCursor.removePosition(this->playerCursor.getPosition().x - 1, 1);
}
}
else {
this->settings->confirmSelectedPieces();
this->menuStack->pop();
}
}
}
void GamePiecesAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "PIECES SELECT", 5.f, {});
if (this->playerCursor.getPosition().y == 0) {
this->placeText(text, this->playerCursor, "PIECES DISTRIBUTION", 5.f, 15.f, sf::Vector2u{0, 0});
this->drawSelectedPiecesRow(25.f);
this->drawRow(1, 35.f, true);
this->drawRow(2, 45.f, true);
}
else {
this->drawSelectedPiecesRow(15.f);
bool drawFromFirstElem = (this->playerCursor.getPosition().y == 1);
bool addExtraLine = (this->settings->getLoadablePiecesSize() < MAXIMUM_PIECES_SIZE);
int firstElem = std::clamp(((int) this->playerCursor.getPosition().y) - 2, 1, this->settings->getLoadablePiecesSize() - 2 + (addExtraLine ? 1 : 0));
this->drawRow(firstElem, 25.f, drawFromFirstElem);
this->drawRow(firstElem + 1, 35.f, drawFromFirstElem);
this->drawRow(firstElem + 2, 45.f, drawFromFirstElem);
}
this->renderWindow->display();
}
void GamePiecesAppMenu::drawSelectedPiecesRow(float yPos) const {
sf::RectangleShape rect({(float) this->renderWindow->getSize().x, 8.f * this->settings->getWindowSizeMultiplier()});
rect.setPosition({0.f, (yPos - 4.f) * this->settings->getWindowSizeMultiplier()});
rect.setFillColor({240, 240, 240});
this->renderWindow->draw(rect);
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier());
text.setFillColor({0, 0, 0});
int elem = (this->playerCursor.getPosition().y == 1) ? std::max(((int) this->playerCursor.getPosition().x) - 4, 0) : 0;
float xProgress = 1.f;
bool first = true;
while (true) {
if ((this->playerCursor.getPosition().y == 1) && (elem == this->playerCursor.getPosition().x)) {
this->placeText(text, {}, "|", xProgress, yPos, {});
xProgress += (1.f + (text.getGlobalBounds().size.x / this->settings->getWindowSizeMultiplier()));
}
if (elem >= this->settings->getSelectedPieces().size()) return;
const auto& [pieceType, value] = this->settings->getSelectedPieces().at(elem);
int pieceSize = getSizeOfPieces(pieceType);
if (pieceSize > 0) {
if (!(pieceSize > this->settings->getLoadablePiecesSize())) {
const Piece& piece = this->settings->getMenu().readPiecesList().lookAtPiece({pieceSize, value});
int cellSize = (8 * this->settings->getWindowSizeMultiplier()) / (piece.getLength());
sf::FloatRect piecePosition(sf::Vector2f(xProgress, yPos - 4.f) * (float) this->settings->getWindowSizeMultiplier(), sf::Vector2f(8 , 8) * (float) this->settings->getWindowSizeMultiplier());
this->drawPiece(piece, cellSize, piecePosition, false);
xProgress += (1.f + 8.f);
}
else {
this->placeText(text, {}, "UNLOADED_" + std::to_string(pieceSize), xProgress, yPos, {});
xProgress += (1.f + (text.getGlobalBounds().size.x / this->settings->getWindowSizeMultiplier()));
}
}
else {
if (!(value > this->settings->getLoadablePiecesSize())) {
this->placeText(text, {}, ((first) ? "" : " ") + getPiecesTypeName(pieceType) + "_" + std::to_string(value), xProgress, yPos, {});
xProgress += (1.f + (text.getGlobalBounds().size.x / this->settings->getWindowSizeMultiplier()));
}
else {
this->placeText(text, {}, "UNLOADED_" + std::to_string(pieceSize), xProgress, yPos, {});
xProgress += (1.f + (text.getGlobalBounds().size.x / this->settings->getWindowSizeMultiplier()));
}
}
elem++;
}
}
void GamePiecesAppMenu::drawRow(int piecesSize, float yPos, bool drawFromFirstElem) const {
if (piecesSize > this->settings->getLoadablePiecesSize()) {
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setOutlineThickness(this->settings->getWindowSizeMultiplier() / 2);
if (this->playerCursor.getPosition().y == (piecesSize + 1)) {
text.setOutlineColor({255, 255, 255});
}
else {
text.setOutlineColor({0, 0, 0});
}
std::string sizeString = "LOAD SIZE " + std::to_string(piecesSize) + "? ";
if (piecesSize <= 10) {
text.setFillColor({0, 255, 0});
this->placeText(text, {}, sizeString + "(LOW LOAD TIME)", 1.f, yPos, {});
}
else if (piecesSize <= 13) {
text.setFillColor({255, 255, 0});
this->placeText(text, {}, sizeString + "(MEDIUM LOAD TIME)", 1.f, yPos, {});
}
else {
text.setFillColor({255, 0, 0});
this->placeText(text, {}, sizeString + "(LONG LOAD TIME)", 1.f, yPos, {});
}
}
else {
int numberOfPieces = this->settings->getMenu().readPiecesList().getNumberOfPieces(piecesSize);
int firstElem = (drawFromFirstElem) ? -4 : std::max(((int) this->playerCursor.getPosition().x) - 7, -4);
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier());
text.setFillColor({0, 0, 0});
text.setOutlineColor({255, 255, 255});
this->placeText(text, {}, "SIZE " + std::to_string(piecesSize), 1.f, yPos, {});
for (int i = 0; i < 7; i++) {
if (i + firstElem >= numberOfPieces) return;
if ((i + firstElem) < 0) {
switch (i + firstElem) {
case -4 : {this->placeText(text, this->playerCursor, "ALL", 10.f + (i * 10.f), yPos, sf::Vector2u{0, piecesSize + 1u}); break;}
case -3 : {this->placeText(text, this->playerCursor, "CONVEX", 10.f + (i * 10.f), yPos, sf::Vector2u{1, piecesSize + 1u}); break;}
case -2 : {this->placeText(text, this->playerCursor, "HOLELESS", 10.f + (i * 10.f), yPos, sf::Vector2u{2, piecesSize + 1u}); break;}
case -1 : {this->placeText(text, this->playerCursor, "OTHER", 10.f + (i * 10.f), yPos, sf::Vector2u{3, piecesSize + 1u}); break;}
}
}
else {
const Piece& piece = this->settings->getMenu().readPiecesList().lookAtPiece({piecesSize, firstElem + i});
int cellSize = (8 * this->settings->getWindowSizeMultiplier()) / (piece.getLength());
sf::FloatRect piecePosition(sf::Vector2f(10.f + (i * 10.f), yPos - 4.f) * (float) this->settings->getWindowSizeMultiplier(), sf::Vector2f(8 , 8) * (float) this->settings->getWindowSizeMultiplier());
this->drawPiece(piece, cellSize, piecePosition, this->playerCursor.getPosition() == sf::Vector2u{i + firstElem + 4u, piecesSize + 1u});
}
}
}
}
void GamePiecesAppMenu::drawPiece(const Piece& piece, int cellSize, const sf::FloatRect& piecePosition, bool selected) const {
sf::RectangleShape rect(piecePosition.size);
rect.setPosition(piecePosition.position);
rect.setFillColor({180, 180, 180});
if (selected) {
rect.setOutlineColor({0, 0, 0});
rect.setOutlineThickness(this->settings->getWindowSizeMultiplier() / 2);
}
this->renderWindow->draw(rect);
sf::RectangleShape cell(sf::Vector2f(cellSize, cellSize));
cell.setFillColor(this->getColorOfBlock(piece.getBlockType(), 0));
for (const Position& cellPosition : piece.getPositions()) {
cell.setPosition(sf::Vector2f(piecePosition.position.x + (cellPosition.x * cellSize),
piecePosition.position.y + ((piece.getLength() - cellPosition.y - 1) * cellSize) ));
this->renderWindow->draw(cell);
}
}

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src/GraphicalUI/AppMenus/GamePiecesAppMenu.h Normal file
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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <vector>
#include <SFML/Graphics.hpp>
class GamePiecesAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
GamePiecesAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
private:
void drawSelectedPiecesRow(float yPos) const;
void drawRow(int piecesSize, float yPos, bool drawFromFirstElem) const;
void drawPiece(const Piece& piece, int cellSize, const sf::FloatRect& pos, bool selected) const;
};

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src/GraphicalUI/AppMenus/GamePlayingAppMenu.cpp Normal file
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#include "GamePlayingAppMenu.h"
#include "AppMenu.h"
#include <stack>
#include <memory>
#include <algorithm>
#include <cmath>
#include <string>
#include <SFML/Graphics.hpp>
GamePlayingAppMenu::GamePlayingAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
game(this->settings->getMenu().startGame(this->settings->getGamemode())) {
this->startTimer = this->settings->getStartTimerLength() * FRAMES_PER_SECOND;
if (this->startTimer == 0) {
this->game.start();
}
this->paused = false;
this->pausePressed = false;
this->retryPressed = false;
int maxWidthMultiplier = (this->settings->getWindowSizeMultiplier() * 40) / (this->game.getBoard().getWidth());
int maxHeightMultiplier = (this->settings->getWindowSizeMultiplier() * 50) / (this->game.getBoard().getBaseHeight() + 10);
this->cellSizeZoom = std::min(maxWidthMultiplier, maxHeightMultiplier);
float boardWidth = this->game.getBoard().getWidth() * this->cellSizeZoom;
float boardHeight = (this->game.getBoard().getBaseHeight() + 10) * this->cellSizeZoom;
this->boardPosition = sf::FloatRect(sf::Vector2f((this->settings->getWindowSizeMultiplier() * 40) - (boardWidth / 2),
(this->settings->getWindowSizeMultiplier() * 25) - (boardHeight / 2)),
sf::Vector2f(boardWidth, boardHeight));
for (int i = 0; i < 5; i++) {
this->nextQueuePosition[i] = sf::FloatRect(sf::Vector2f(this->boardPosition.position.x + boardWidth + (5.f * this->settings->getWindowSizeMultiplier()), (10.f + (10.f * i)) * this->settings->getWindowSizeMultiplier()),
sf::Vector2f(8.f * this->settings->getWindowSizeMultiplier(), 8.f * this->settings->getWindowSizeMultiplier()));
}
this->nextCellSizeZoom = this->nextQueuePosition[0].size.y;
for (const auto& piece : this->settings->getMenu().getPiecesList().getSelectedPieces()) {
float nextPieceCellSizeZoom = ((int) this->nextQueuePosition[0].size.y) / this->settings->getMenu().getPiecesList().lookAtPiece(piece).getLength();
this->nextCellSizeZoom = std::min(this->nextCellSizeZoom, nextPieceCellSizeZoom);
}
this->holdBoxPosition = sf::FloatRect(sf::Vector2f(this->boardPosition.position.x - ((8.f + 5.f) * this->settings->getWindowSizeMultiplier()), (10.f) * this->settings->getWindowSizeMultiplier()),
sf::Vector2f(8.f * this->settings->getWindowSizeMultiplier(), 8.f * this->settings->getWindowSizeMultiplier()));
this->holdCellSizeZoom = this->nextCellSizeZoom;
}
void GamePlayingAppMenu::computeFrame() {
this->updateMetaBinds();
if (this->startTimer > 0) {
this->startTimer--;
if (this->startTimer == 0) {
this->game.start();
}
}
if (this->escReleased) {
this->menuStack->pop();
}
else {
std::set<Action> actions;
for (Action action : ACTION_LIST_IN_ORDER) {
for (sfKey key : this->settings->getKeybinds().getKeybinds(action)) {
if (sf::Keyboard::isKeyPressed(key)) {
actions.insert(action);
}
}
}
if (actions.contains(RETRY)) {
this->retryPressed = true;
}
else {
if (this->retryPressed) {
this->game.reset();
this->startTimer = this->settings->getStartTimerLength() * FRAMES_PER_SECOND;
if (this->startTimer == 0) {
this->game.start();
}
}
this->retryPressed = false;
}
if (actions.contains(PAUSE)) {
this->pausePressed = true;
}
else {
if (this->pausePressed) {
this->paused = (!this->paused);
}
this->pausePressed = false;
}
if (!paused) {
this->game.nextFrame(actions);
}
}
}
void GamePlayingAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Color bonesBlockColor(0, 0, 0);
sf::Color bonesBlockGhostColor(100, 100, 100);
bool areBlockBones = this->game.areBlocksBones();
bool isBoardInvisible = this->game.isBoardInvisible() && !(this->game.hasWon() || this->game.hasLost());
sf::Vector2f cellSize(this->cellSizeZoom, this->cellSizeZoom);
float cellOutlineThickness = this->cellSizeZoom / 4;
bool drawActivePiece = (this->game.getActivePiece() != nullptr) && (!this->game.hasLost());
// board
for (int y = this->game.getBoard().getBaseHeight() + 9; y >= 0; y--) {
for (int x = 0; x < this->game.getBoard().getWidth(); x++) {
Block block = this->game.getBoard().getBlock(Position{x, y});
if (isBoardInvisible) block = NOTHING;
sf::RectangleShape cell(cellSize);
cell.setFillColor((areBlockBones && block != NOTHING)
? bonesBlockColor
: this->getColorOfBlock(block, (block == NOTHING) ? 0 : -30));
cell.setPosition(this->getBoardBlockPosition(x, y));
this->renderWindow->draw(cell);
}
}
if (drawActivePiece) {
// ghost piece
sf::Color ghostColor = areBlockBones
? bonesBlockGhostColor
: this->getColorOfBlock(this->game.getActivePiece()->getBlockType(), 100);
for (const Position& position : this->game.getActivePiece()->getPositions()) {
Position cellPosition = (this->game.getGhostPiecePosition() + position);
sf::RectangleShape cell(cellSize);
cell.setFillColor(ghostColor);
cell.setPosition(this->getBoardBlockPosition(cellPosition.x, cellPosition.y));
this->renderWindow->draw(cell);
}
// active piece outline
sf::Color pieceOultlineColor = sf::Color(255, 255 - (255 * this->game.getForcedLockDelayProgression()), 255 - (255 * this->game.getForcedLockDelayProgression()));
for (const Position& position : this->game.getActivePiece()->getPositions()) {
Position cellPosition = (this->game.getActivePiecePosition() + position);
sf::RectangleShape cell(cellSize);
cell.setOutlineThickness(cellOutlineThickness);
cell.setOutlineColor(pieceOultlineColor);
cell.setPosition(this->getBoardBlockPosition(cellPosition.x, cellPosition.y));
this->renderWindow->draw(cell);
}
}
// top out line
sf::RectangleShape topOutLine(sf::Vector2f(this->cellSizeZoom * this->game.getBoard().getWidth(), std::roundf(this->cellSizeZoom / 4)));
topOutLine.setPosition(this->getBoardBlockPosition(0, this->game.getBoard().getBaseHeight() - 1));
topOutLine.setFillColor(sf::Color(255, 0, 0));
this->renderWindow->draw(topOutLine);
if (drawActivePiece) {
// active piece
sf::Color pieceColor = areBlockBones
? bonesBlockColor
: this->getColorOfBlock(this->game.getActivePiece()->getBlockType(), -200 * (this->game.getLockDelayProgression()));
for (const Position& position : this->game.getActivePiece()->getPositions()) {
Position cellPosition = (this->game.getActivePiecePosition() + position);
sf::RectangleShape cell(cellSize);
cell.setFillColor(pieceColor);
cell.setPosition(this->getBoardBlockPosition(cellPosition.x, cellPosition.y));
this->renderWindow->draw(cell);
}
}
// next queue
int upShift = 0;
for (int i = 0; i < std::min((int) this->game.getNextPieces().size(), 5); i++) {
sf::FloatRect nextBox = this->nextQueuePosition[i];
nextBox.position.y -= upShift;
sf::Vector2f nextCellSize(this->nextCellSizeZoom, this->nextCellSizeZoom);
sf::Color pieceColor = areBlockBones
? bonesBlockColor
: this->getColorOfBlock(this->game.getNextPieces().at(i).getBlockType(), 0);
sf::Color boxColor = sf::Color(180, 180, 180);
int lowestRank = 0;
for (int y = 0; y < this->game.getNextPieces().at(i).getLength(); y++) {
for (int x = 0; x < this->game.getNextPieces().at(i).getLength(); x++) {
sf::RectangleShape cell(nextCellSize);
if (this->game.getNextPieces().at(i).getPositions().contains(Position{x, y})) {
cell.setFillColor(pieceColor);
lowestRank = y;
}
else {
cell.setFillColor(boxColor);
}
cell.setPosition(sf::Vector2f(nextBox.position.x + (x * this->nextCellSizeZoom),
nextBox.position.y + ((this->game.getNextPieces().at(i).getLength() - y - 1) * this->nextCellSizeZoom)));
this->renderWindow->draw(cell);
}
}
upShift += nextBox.size.y - (this->game.getNextPieces().at(i).getLength() * this->nextCellSizeZoom);
}
// hold box
if (this->game.getHeldPiece() != nullptr) {
sf::Vector2f holdCellSize(this->holdCellSizeZoom, this->holdCellSizeZoom);
sf::Color color = areBlockBones
? bonesBlockColor
: this->getColorOfBlock(this->game.getHeldPiece()->getBlockType(), 0);
sf::Color boxColor = sf::Color(180, 180, 180);
for (int y = 0; y < this->game.getHeldPiece()->getLength(); y++) {
for (int x = 0; x < this->game.getHeldPiece()->getLength(); x++) {
sf::RectangleShape cell(holdCellSize);
if (this->game.getHeldPiece()->getPositions().contains(Position{x, y})) {
cell.setFillColor(color);
}
else {
cell.setFillColor(boxColor);
}
cell.setPosition(sf::Vector2f(this->holdBoxPosition.position.x + (x * this->nextCellSizeZoom),
this->holdBoxPosition.position.y + ((this->game.getHeldPiece()->getLength() - y - 1) * this->holdCellSizeZoom)));
this->renderWindow->draw(cell);
}
}
}
// stats
int windowSizeMultiplier = this->settings->getWindowSizeMultiplier();
int fontSize = (this->boardPosition.size.x > (windowSizeMultiplier * 30.f)) ? (windowSizeMultiplier) : (windowSizeMultiplier * 2);
sf::Text text(this->pressStartFont, "", fontSize);
text.setFillColor(sf::Color(0, 0, 0));
int millisecondes = this->game.getFramesPassed() * (1000.f / FRAMES_PER_SECOND);
std::string showedMillisecondes = std::to_string(millisecondes % 1000);
while (showedMillisecondes.size() < 3) {
showedMillisecondes = "0" + showedMillisecondes;
}
std::string showedSecondes = std::to_string((millisecondes / 1000) % 60);
while (showedSecondes.size() < 2) {
showedSecondes = "0" + showedSecondes;
}
std::string showedMinutes = std::to_string((millisecondes / (60 * 1000)));
std::string showedTime = showedMinutes + ":" + showedSecondes + "." + showedMillisecondes;
this->placeText(text, {}, getGamemodeName(this->settings->getGamemode()), 1.f, 3.f, {});
this->placeText(text, {}, getGamemodeGoal(this->settings->getGamemode()), 1.f, 6.f, {});
if (this->game.isOnB2BChain()) {
this->placeText(text, {}, "B2B", 1.f, 22.f, {});
}
this->placeText(text, {}, "LINES:" + std::to_string(this->game.getClearedLines()), 1.f, 27.f, {});
this->placeText(text, {}, "LEVEL:" + std::to_string(this->game.getLevel()), 1.f, 32.f, {});
this->placeText(text, {}, "SCORE:" + std::to_string(this->game.getScore()), 1.f, 37.f, {});
this->placeText(text, {}, "GRADE:" + std::to_string(this->game.getGrade()), 1.f, 42.f, {});
this->placeText(text, {}, showedTime, 1.f, 47.f, {});
// game state
text.setOutlineColor(sf::Color(255, 255, 255));
text.setOutlineThickness(windowSizeMultiplier / 2.f);
text.setCharacterSize(windowSizeMultiplier * 4);
if (this->game.hasWon()) {
this->placeTitle(text, {}, "WIN", 25.f, {});
}
else if (this->game.hasLost()) {
this->placeTitle(text, {}, "LOSE", 25.f, {});
}
else if (this->paused) {
this->placeTitle(text, {}, "PAUSE", 25.f, {});
}
else if (this->startTimer > 0) {
this->placeTitle(text, {}, std::to_string(((this->startTimer - 1) / ((this->settings->getStartTimerLength() * FRAMES_PER_SECOND) / 4))), 25.f, {});
}
this->renderWindow->display();
}
sf::Vector2f GamePlayingAppMenu::getBoardBlockPosition(int x, int y) const {
return sf::Vector2f(this->boardPosition.position.x + (x * this->cellSizeZoom),
this->boardPosition.position.y + ((this->game.getBoard().getBaseHeight() + 9 - y) * this->cellSizeZoom));
}

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#pragma once
#include "AppMenu.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class GamePlayingAppMenu : public AppMenu {
private:
Game game;
int startTimer;
bool paused;
bool pausePressed;
bool retryPressed;
sf::FloatRect boardPosition;
float cellSizeZoom;
sf::FloatRect holdBoxPosition;
float holdCellSizeZoom;
sf::FloatRect nextQueuePosition[5];
float nextCellSizeZoom;
public:
GamePlayingAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
sf::Vector2f getBoardBlockPosition(int x, int y) const;
};

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#include "GameSettingsAppMenu.h"
#include "AppMenu.h"
#include "GamePiecesAppMenu.h"
#include "GameBoardAppMenu.h"
#include "GamePlayingAppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
GameSettingsAppMenu::GameSettingsAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({2, 3, 3}) {
}
void GameSettingsAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
switch (this->playerCursor.getPosition().y) {
case 1 : {
switch (this->playerCursor.getPosition().x) {
case 0 : {this->settings->setGamemode(SPRINT); break;}
case 1 : {this->settings->setGamemode(MARATHON); break;}
case 2 : {this->settings->setGamemode(ULTRA); break;}
}
break;
}
case 2 : {
switch (this->playerCursor.getPosition().x) {
case 0 : {this->settings->setGamemode(MASTER); break;}
case 1 : {this->settings->setGamemode(INVISIBLE); break;}
case 2 : {this->settings->setGamemode(ZEN); break;}
}
break;
}
}
if (this->enterReleased) {
if (this->playerCursor.getPosition().y == 0) {
if (this->playerCursor.getPosition().x == 0) {
this->menuStack->push(std::make_shared<GamePiecesAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
if (this->playerCursor.getPosition().x == 1) {
this->menuStack->push(std::make_shared<GameBoardAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
}
if (this->playerCursor.getPosition().y > 0) {
this->menuStack->push(std::make_shared<GamePlayingAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
}
if (this->escReleased) {
this->menuStack->pop();
}
}
void GameSettingsAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "GAME SETTINGS", 5.f, {});
this->placeText(text, this->playerCursor, "PIECES SELECT", 5.f, 15.f, sf::Vector2u{0, 0});
this->placeText(text, this->playerCursor, "BOARD SELECT", 40.f, 15.f, sf::Vector2u{1, 0});
text.setOutlineThickness(0);
this->placeTitle(text, {}, "GAMEMODE SELECT", 25.f, {});
this->placeText(text, this->playerCursor, "SPRINT", 5.f, 35.f, sf::Vector2u{0, 1});
this->placeText(text, this->playerCursor, "MARATHON", 25.f, 35.f, sf::Vector2u{1, 1});
this->placeText(text, this->playerCursor, "ULTRA", 50.f, 35.f, sf::Vector2u{2, 1});
this->placeText(text, this->playerCursor, "MASTER", 5.f, 45.f, sf::Vector2u{0, 2});
this->placeText(text, this->playerCursor, "INVISIBLE", 25.f, 45.f, sf::Vector2u{1, 2});
this->placeText(text, this->playerCursor, "ZEN", 50.f, 45.f, sf::Vector2u{2, 2});
this->renderWindow->display();
}

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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class GameSettingsAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
GameSettingsAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

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#include "InfoAppMenu.h"
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
InfoAppMenu::InfoAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({INFO_SECTIONS_COUNT}),
sectionsName({
"< ABOUT >",
"< PIECES TYPES >",
"< 0 DEGREES ROTATIONS >",
"< ROTATION SYSTEM >",
"< SCORING >"
}),
sectionsContent({
"This game is written in C++,\n"
"using SFML 3 for the GUI.\n"
"It has been inspired by other\n"
"stacker games, such as\n"
"Techmino, jstris, tetr.io, etc.\n"
"This project isn't affiliated\n"
"to them in any ways.\n"
"Current version: beta.",
"There is multiple pieces type in\n"
"the selection screen. Use theses\n"
"categories for size of at least 7.\n"
"Convex, Holeless and Others are\n"
"all mutually exclusive.\n"
"Others have holes inside them, and\n"
"Convex are presumably easier to\n"
"play with than Holeless.",
"This games introduces 0 degrees\n"
"rotations, which work by simpling\n"
"moving the piece down and kicking\n"
"it as is, allowing for new kinds\n"
"of kicks.\n"
"As a leniency mechanic, when a\n"
"piece spawns it will automatically\n"
"try a 0 degrees rotations if it\n"
"spawned inside a wall.",
"This game uses its own\n"
"Rotation Sytem, called AutoRS.\n"
"The rotation center is always the\n"
"center of the piece by default.\n"
"When kicking the piece, it will\n"
"compute and try (most) position that\n"
"touches the original piece,\n"
"prioritizing sides over depth and\n"
"firstly going down before going up.",
"The score gained from a line clear\n"
"doubles when clearing one more line.\n"
"Clearing with a spin scores as much\n"
"as clearing 2x more lines normally.\n"
"B2B is granted by clearing at least\n"
"4 lines or doing a spin or mini-spin,\n"
"and doubles the score gained.\n"
"A spin is detected when the piece is\n"
"locked in place, a mini-spin simply\n"
"when the last move was a kick."
}) {
}
void InfoAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
if (this->escReleased) {
this->menuStack->pop();
}
}
void InfoAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, this->playerCursor, this->sectionsName[this->playerCursor.getPosition().x], 10.f, this->playerCursor.getPosition());
text.setLineSpacing((float) this->settings->getWindowSizeMultiplier() / 8);
text.setOutlineThickness(0);
this->placeText(text, {}, this->sectionsContent[this->playerCursor.getPosition().x], 5.f, 30.f, {});
this->renderWindow->display();
}

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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
static const int INFO_SECTIONS_COUNT = 5;
class InfoAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
std::array<std::string, INFO_SECTIONS_COUNT> sectionsName;
std::array<std::string, INFO_SECTIONS_COUNT> sectionsContent;
public:
InfoAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

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#include "MainAppMenu.h"
#include "AppMenu.h"
#include "GameSettingsAppMenu.h"
#include "SettingsMainAppMenu.h"
#include "InfoAppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
MainAppMenu::MainAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1, 1, 1}) {
}
void MainAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
if (this->enterReleased) {
if (this->playerCursor.getPosition().y == 0) {
this->menuStack->push(std::make_shared<GameSettingsAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
if (this->playerCursor.getPosition().y == 1) {
this->menuStack->push(std::make_shared<SettingsMainAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
if (this->playerCursor.getPosition().y == 2) {
this->menuStack->push(std::make_shared<InfoAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
}
if (this->escReleased) {
this->menuStack->pop();
}
}
void MainAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "JMINOS", 10.f, {});
this->placeTitle(text, this->playerCursor, "PLAY", 20.f, sf::Vector2u{0, 0});
this->placeTitle(text, this->playerCursor, "SETTINGS", 30.f, sf::Vector2u{0, 1});
this->placeTitle(text, this->playerCursor, "INFO", 40.f, sf::Vector2u{0, 2});
this->renderWindow->display();
}

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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class MainAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
MainAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

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src/GraphicalUI/AppMenus/SettingsControlsAppMenu.cpp Normal file
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#include "SettingsControlsAppMenu.h"
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
SettingsControlsAppMenu::SettingsControlsAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1, 1, 1}) {
}
void SettingsControlsAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
Player& playerControls = this->settings->getMenu().getPlayerControls();
switch (this->playerCursor.getPosition().y) {
case 0 : {
if (this->playerCursor.movedLeft()) {
playerControls.setDAS(playerControls.getDAS() - 1);
}
if (this->playerCursor.movedRight()) {
playerControls.setDAS(playerControls.getDAS() + 1);
}
break;
}
case 1 : {
if (this->playerCursor.movedLeft()) {
playerControls.setARR(playerControls.getARR() - 1);
}
if (this->playerCursor.movedRight()) {
playerControls.setARR(playerControls.getARR() + 1);
}
break;
}
case 2 : {
if (this->playerCursor.movedLeft()) {
playerControls.setSDR(playerControls.getSDR() - 1);
}
if (this->playerCursor.movedRight()) {
playerControls.setSDR(playerControls.getSDR() + 1);
}
break;
}
}
if (this->escReleased) {
this->menuStack->pop();
}
}
void SettingsControlsAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
const Player& playerControls = this->settings->getMenu().readPlayerControls();
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "CONTROLS SETTINGS", 5.f, {});
sf::Vector2u windowSize = this->renderWindow->getSize();
this->placeText(text, this->playerCursor, "< DAS: " + std::to_string(playerControls.getDAS()) + " >", 5.f, 15.f, sf::Vector2u{0, 0});
this->placeText(text, this->playerCursor, "< ARR: " + std::to_string(playerControls.getARR()) + " >", 5.f, 25.f, sf::Vector2u{0, 1});
this->placeText(text, this->playerCursor, "< SDR: " + std::to_string(playerControls.getSDR()) + " >", 5.f, 35.f, sf::Vector2u{0, 2});
this->renderWindow->display();
}

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src/GraphicalUI/AppMenus/SettingsControlsAppMenu.h Normal file
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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class SettingsControlsAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
SettingsControlsAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

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src/GraphicalUI/AppMenus/SettingsKeybindsAppMenu.cpp Normal file
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#include "SettingsKeybindsAppMenu.h"
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include "../../Utils/AssetManager.h"
#include <stack>
#include <memory>
#include <string>
#include <regex>
#include <filesystem>
#include <algorithm>
#include <SFML/Graphics.hpp>
SettingsKeybindsAppMenu::SettingsKeybindsAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1}) {
this->selectedAnAction = false;
for (Action action : ACTION_LIST_IN_ORDER) {
std::string textureName = ACTION_NAMES[action];
textureName = std::regex_replace(textureName, std::regex(" "), "");
const Asset& textureData = getResource("data/images/keybinds/" + textureName + ".png");
this->iconTextures[action] = sf::Texture(textureData.data, textureData.size, false, {{0, 0}, {16, 16}});
}
}
void SettingsKeybindsAppMenu::computeFrame() {
this->updateMetaBinds();
if (!this->selectedAnAction) {
this->playerCursor.updatePosition();
if (this->playerCursor.movedLeft()) {
this->settings->selectPreviousKeybinds();
}
if (this->playerCursor.movedRight()) {
this->settings->selectNextKeybinds();
}
}
else {
bool addedKeybind = false;
for (const auto& [key, string] : KEYS_TO_STRING) {
if (sf::Keyboard::isKeyPressed(key) && (key != sfKey::Enter) && (key != sfKey::Escape)) {
this->settings->getKeybinds().addKey(this->actionSelected, key);
addedKeybind = true;
}
if (addedKeybind) {
this->selectedAnAction = false;
break;
}
}
}
if (this->enterReleased && this->settings->getKeybinds().isModifiable()) {
this->selectedAnAction = !selectedAnAction;
this->actionSelected = ACTION_LIST_IN_ORDER[this->playerCursor.getPosition().y - 1];
}
if (this->escReleased) {
if (this->selectedAnAction) {
this->settings->getKeybinds().clearKeys(this->actionSelected);
this->selectedAnAction = false;
}
else {
this->menuStack->pop();
}
}
}
void SettingsKeybindsAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "KEYBINDS SETTINGS", 5.f, {});
if (this->settings->getKeybindsLayout() == CUSTOMIZABLE_KEYBINDS) {
this->placeText(text, this->playerCursor, "< CUSTOM >", 5.f, 15.f, sf::Vector2u{0, 0});
}
else {
this->placeText(text, this->playerCursor, "< DEFAULT " + std::to_string(this->settings->getKeybindsLayout() + 1) + " >", 5.f, 15.f, sf::Vector2u{0, 0});
}
if (this->selectedAnAction) {
text.setOutlineColor(sf::Color(255, 0, 0));
}
int i = 0;
int firstElem = std::clamp(((int) this->playerCursor.getPosition().y) - 2, 0, 8);
for (Action action : ACTION_LIST_IN_ORDER) {
if (i >= firstElem && i < (firstElem + 3)) {
sf::String string;
bool firstKey = true;
for (sfKey key : this->settings->getKeybinds().getKeybinds(action)) {
if (KEYS_TO_STRING.contains(key)) {
std::string keyString = KEYS_TO_STRING.at(key);
if (firstKey) {
string += keyString;
firstKey = false;
}
else {
string += ", " + keyString;
}
}
}
this->placeText(text, this->playerCursor, setStringToUpperCase(ACTION_NAMES[action]), 15.f, ((i - firstElem) * 10) + 25.f, sf::Vector2u{0, (unsigned int) i + 1});
text.setOutlineThickness(0);
this->placeText(text, {}, string, 40.f, ((i - firstElem) * 10) + 25.f, {});
sf::Sprite sprite(this->iconTextures[action]);
sprite.setOrigin(sprite.getLocalBounds().getCenter());
sprite.setPosition(sf::Vector2f(8.f, ((i - firstElem) * 10) + 25.f) * (float) this->settings->getWindowSizeMultiplier());
sprite.setScale(sprite.getScale() * ((float) this->settings->getWindowSizeMultiplier() / 2));
this->renderWindow->draw(sprite);
}
i++;
}
this->renderWindow->display();
}

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src/GraphicalUI/AppMenus/SettingsKeybindsAppMenu.h Normal file
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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class SettingsKeybindsAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
sf::Texture iconTextures[11];
bool selectedAnAction;
Action actionSelected;
public:
SettingsKeybindsAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

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src/GraphicalUI/AppMenus/SettingsMainAppMenu.cpp Normal file
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#include "SettingsMainAppMenu.h"
#include "AppMenu.h"
#include "SettingsKeybindsAppMenu.h"
#include "SettingsControlsAppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
SettingsMainAppMenu::SettingsMainAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({1, 1, 1, 1}) {
}
void SettingsMainAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
switch (this->playerCursor.getPosition().y) {
case 2 : {
if (this->playerCursor.movedLeft()) {
if (this->settings->shortenWindow()) {
this->settings->changeVideoMode(*this->renderWindow);
}
}
if (this->playerCursor.movedRight()) {
if (this->settings->widenWindow()) {
this->settings->changeVideoMode(*this->renderWindow);
}
}
break;
}
case 3 : {
if (this->playerCursor.movedLeft()) {
this->settings->shortenStartTimer();
}
if (this->playerCursor.movedRight()) {
this->settings->lengthenStartTimer();
}
break;
}
}
if (this->enterReleased) {
if (this->playerCursor.getPosition().y == 0) {
this->menuStack->push(std::make_shared<SettingsKeybindsAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
if (this->playerCursor.getPosition().y == 1) {
this->menuStack->push(std::make_shared<SettingsControlsAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
}
if (this->escReleased) {
this->menuStack->pop();
}
}
void SettingsMainAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "SETTINGS", 5.f, {});
sf::Vector2u windowSize = this->renderWindow->getSize();
this->placeText(text, this->playerCursor, "CHANGE KEYBINDS", 5.f, 15.f, sf::Vector2u{0, 0});
this->placeText(text, this->playerCursor, "CHANGE CONTROLS", 5.f, 25.f, sf::Vector2u{0, 1});
this->placeText(text, this->playerCursor, "< WINDOW SIZE: " + std::to_string(windowSize.x) + "x" + std::to_string(windowSize.y) + " >", 5.f, 35.f, sf::Vector2u{0, 2});
this->placeText(text, this->playerCursor, "< START TIMER: " + std::to_string(this->settings->getStartTimerLength()) + "s >", 5.f, 45.f, sf::Vector2u{0, 3});
this->renderWindow->display();
}

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src/GraphicalUI/AppMenus/SettingsMainAppMenu.h Normal file
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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class SettingsMainAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
SettingsMainAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

75
src/GraphicalUI/AppMenus/StartUpAppMenu.cpp Normal file
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#include "StartUpAppMenu.h"
#include "AppMenu.h"
#include "MainAppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <algorithm>
#include <SFML/Graphics.hpp>
StartUpAppMenu::StartUpAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow) :
AppMenu(menuStack, settings, renderWindow),
playerCursor({MAXIMUM_PIECES_SIZE + 1}) {
this->playerCursor.goToPosition({(unsigned int) std::clamp(this->settings->getLoadablePiecesSize(), MINIMUM_PIECES_SIZE, MAXIMUM_PIECES_SIZE), 0u});
}
void StartUpAppMenu::computeFrame() {
this->updateMetaBinds();
this->playerCursor.updatePosition();
if (this->playerCursor.getPosition().x < MINIMUM_PIECES_SIZE) {
if (this->playerCursor.movedLeft()) {
this->playerCursor.goToPosition({MAXIMUM_PIECES_SIZE, 0});
}
else {
this->playerCursor.goToPosition({MINIMUM_PIECES_SIZE, 0});
}
}
if (this->enterReleased) {
this->settings->loadSettingsFromFile(true, {this->playerCursor.getPosition().x});
this->menuStack->pop();
if (this->settings->hasLoadedPieces()) {
this->menuStack->push(std::make_shared<MainAppMenu>(this->menuStack, this->settings, this->renderWindow));
}
else {
std::cout << "ERROR: COULD NOT LOAD PIECES" << std::endl;
std::cout << "ARGUMENT WAS: " << this->playerCursor.getPosition().x << std::endl;
}
}
else if (this->escReleased) {
this->menuStack->pop();
}
}
void StartUpAppMenu::drawFrame() const {
this->renderWindow->clear(sf::Color(200, 200, 200));
sf::Text text(this->pressStartFont, "", this->settings->getWindowSizeMultiplier() * 2);
text.setFillColor(sf::Color(0, 0, 0));
text.setOutlineColor(sf::Color(255, 255, 255));
this->placeTitle(text, {}, "SELECT THE LOADED PIECES MAXIMUM SIZE", 10.f, {});
this->placeTitle(text, this->playerCursor, "< " + std::to_string(this->playerCursor.getPosition().x) + " >", 25.f, this->playerCursor.getPosition());
text.setOutlineColor({0, 0, 0});
if (this->playerCursor.getPosition().x <= 10) {
text.setFillColor({0, 255, 0});
this->placeTitle(text, {}, "LOW LOAD TIME", 40.f, {});
}
else if (this->playerCursor.getPosition().x <= 13) {
text.setFillColor({255, 255, 0});
this->placeTitle(text, {}, "MEDIUM LOAD TIME", 40.f, {});
}
else {
text.setFillColor({255, 0, 0});
this->placeTitle(text, {}, "LONG LOAD TIME", 40.f, {});
}
this->renderWindow->display();
}

21
src/GraphicalUI/AppMenus/StartUpAppMenu.h Normal file
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#pragma once
#include "AppMenu.h"
#include "../PlayerCursor.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class StartUpAppMenu : public AppMenu {
private:
PlayerCursor playerCursor;
public:
StartUpAppMenu(std::shared_ptr<MenuStack> menuStack, std::shared_ptr<Settings> settings, std::shared_ptr<sf::RenderWindow> renderWindow);
void computeFrame() override;
void drawFrame() const override;
};

53
src/GraphicalUI/GraphApp.cpp Normal file
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#include "GraphApp.h"
#include "AppMenus/AppMenu.h"
#include "AppMenus/StartUpAppMenu.h"
#include "Settings.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
static const double TIME_BETWEEN_FRAMES = (1000.f / FRAMES_PER_SECOND);
GraphApp::GraphApp() {
this->settings = std::make_shared<Settings>(false);
this->menuStack = std::make_shared<MenuStack>();
this->renderWindow = std::make_shared<sf::RenderWindow>();
}
void GraphApp::run() {
this->settings->changeVideoMode(*this->renderWindow);
this->menuStack->push(std::make_shared<StartUpAppMenu>(this->menuStack, this->settings, this->renderWindow));
bool quit = false;
double timeAtNextFrame = 0;
sf::Clock clock;
while (!quit) {
while (const std::optional event = this->renderWindow->pollEvent()) {
if (event->is<sf::Event::Closed>()) {
quit = true;
}
}
if (!quit) {
if (clock.getElapsedTime().asMilliseconds() > timeAtNextFrame) {
this->menuStack->top()->computeFrame();
if (this->menuStack->empty()) {
quit = true;
}
else {
this->menuStack->top()->drawFrame();
}
while (clock.getElapsedTime().asMilliseconds() > timeAtNextFrame) {
timeAtNextFrame += TIME_BETWEEN_FRAMES;
}
}
}
}
this->settings->saveSettingsToFile();
renderWindow->close();
}

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src/GraphicalUI/GraphApp.h Normal file
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#pragma once
#include "AppMenus/AppMenu.h"
#include "Settings.h"
#include <stack>
#include <memory>
#include <SFML/Graphics.hpp>
class GraphApp {
private:
std::shared_ptr<Settings> settings;
std::shared_ptr<MenuStack> menuStack;
std::shared_ptr<sf::RenderWindow> renderWindow;
public:
GraphApp();
void run();
};

98
src/GraphicalUI/Keybinds.cpp Normal file
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#include "Keybinds.h"
#include "../Core/Action.h"
#include <map>
#include <set>
#include <fstream>
#include <SFML/Graphics.hpp>
Keybinds::Keybinds(int layoutNumber) :
layoutNumber(layoutNumber) {
for (Action action : ACTION_LIST_IN_ORDER) {
this->keybinds.insert({action, std::set<sfKey>()});
}
this->modifiable = (layoutNumber == CUSTOMIZABLE_KEYBINDS);
this->loadKeybindsFromFile();
}
void Keybinds::loadKeybindsFromFile() {
std::ifstream layoutFile("data/config/keybinds/layout" + std::to_string(this->layoutNumber) + ".bin", std::ios::binary);
for (Action action : ACTION_LIST_IN_ORDER) {
this->keybinds.at(action).clear();
}
char byte;
while (layoutFile.peek() != EOF) {
layoutFile.get(byte);
Action action = Action(byte);
bool separatorMet = false;
while (!separatorMet) {
layoutFile.get(byte);
if (byte == (char) 0xFF) {
separatorMet = true;
}
else {
this->keybinds.at(action).insert(sfKey(byte));
}
}
}
}
void Keybinds::saveKeybindsToFile() const {
if (!this->modifiable) return;
std::ofstream layoutFile("data/config/keybinds/layout" + std::to_string(this->layoutNumber) + ".bin", std::ios::trunc | std::ios::binary);
char byte;
for (Action action : ACTION_LIST_IN_ORDER) {
byte = action;
layoutFile.write(&byte, 1);
for (sfKey key : this->keybinds.at(action)) {
byte = (int) key;
layoutFile.write(&byte, 1);
}
byte = 0xFF;
layoutFile.write(&byte, 1);
}
}
void Keybinds::addKey(Action action, sfKey key) {
if (!this->modifiable) return;
if (!KEYS_TO_STRING.contains(key)) return;
this->keybinds.at(action).insert(key);
}
void Keybinds::clearKeys(Action action) {
if (!this->modifiable) return;
this->keybinds.at(action).clear();
}
bool Keybinds::isModifiable() const {
return this->modifiable;
}
const std::set<Action> Keybinds::getActions(sfKey key) const {
std::set<Action> actions;
for (const auto& [action, keys] : this->keybinds) {
if (keys.contains(key)) {
actions.insert(action);
}
}
return actions;
}
const std::set<sfKey>& Keybinds::getKeybinds(Action action) const {
return this->keybinds.at(action);
}

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src/GraphicalUI/Keybinds.h Normal file
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#pragma once
#include "../Core/Action.h"
#include <map>
#include <set>
#include <algorithm>
#include <SFML/Graphics.hpp>
using sfKey = sf::Keyboard::Key;
static const int NUMBER_OF_KEYBINDS = 5;
static const int CUSTOMIZABLE_KEYBINDS = NUMBER_OF_KEYBINDS - 1;
class Keybinds {
private:
std::map<Action, std::set<sfKey>> keybinds;
int layoutNumber;
bool modifiable;
public:
Keybinds(int layoutNumber);
void loadKeybindsFromFile();
void saveKeybindsToFile() const;
void addKey(Action action, sfKey key);
void clearKeys(Action action);
bool isModifiable() const;
const std::set<Action> getActions(sfKey key) const;
const std::set<sfKey>& getKeybinds(Action action) const;
};
inline std::string setStringToUpperCase(std::string&& str) {
std::transform(str.begin(), str.end(), str.begin(), ::toupper);
return str;
}
inline std::string setStringToUpperCase(const std::string& str) {
std::string result = str;
std::transform(result.begin(), result.end(), result.begin(), ::toupper);
return result;
}
#define INSERT_MAPPING(identifier) {sfKey::identifier, setStringToUpperCase(#identifier)}
static const std::map<sfKey, sf::String> KEYS_TO_STRING = {
INSERT_MAPPING(A),
INSERT_MAPPING(B),
INSERT_MAPPING(C),
INSERT_MAPPING(D),
INSERT_MAPPING(E),
INSERT_MAPPING(F),
INSERT_MAPPING(G),
INSERT_MAPPING(H),
INSERT_MAPPING(I),
INSERT_MAPPING(J),
INSERT_MAPPING(K),
INSERT_MAPPING(L),
INSERT_MAPPING(M),
INSERT_MAPPING(N),
INSERT_MAPPING(O),
INSERT_MAPPING(P),
INSERT_MAPPING(Q),
INSERT_MAPPING(R),
INSERT_MAPPING(S),
INSERT_MAPPING(T),
INSERT_MAPPING(U),
INSERT_MAPPING(V),
INSERT_MAPPING(W),
INSERT_MAPPING(X),
INSERT_MAPPING(Y),
INSERT_MAPPING(Z),
INSERT_MAPPING(Num0),
INSERT_MAPPING(Num1),
INSERT_MAPPING(Num2),
INSERT_MAPPING(Num3),
INSERT_MAPPING(Num4),
INSERT_MAPPING(Num5),
INSERT_MAPPING(Num6),
INSERT_MAPPING(Num7),
INSERT_MAPPING(Num8),
INSERT_MAPPING(Num9),
INSERT_MAPPING(Escape),
INSERT_MAPPING(LControl),
INSERT_MAPPING(LShift),
INSERT_MAPPING(LAlt),
INSERT_MAPPING(LSystem),
INSERT_MAPPING(RControl),
INSERT_MAPPING(RShift),
INSERT_MAPPING(RAlt),
INSERT_MAPPING(RSystem),
INSERT_MAPPING(Menu),
INSERT_MAPPING(LBracket),
INSERT_MAPPING(RBracket),
INSERT_MAPPING(Semicolon),
INSERT_MAPPING(Comma),
INSERT_MAPPING(Period),
INSERT_MAPPING(Apostrophe),
INSERT_MAPPING(Slash),
INSERT_MAPPING(Backslash),
INSERT_MAPPING(Grave),
INSERT_MAPPING(Equal),
INSERT_MAPPING(Hyphen),
INSERT_MAPPING(Space),
INSERT_MAPPING(Enter),
INSERT_MAPPING(Backspace),
INSERT_MAPPING(Tab),
INSERT_MAPPING(PageUp),
INSERT_MAPPING(PageDown),
INSERT_MAPPING(End),
INSERT_MAPPING(Home),
INSERT_MAPPING(Insert),
INSERT_MAPPING(Delete),
INSERT_MAPPING(Add),
INSERT_MAPPING(Subtract),
INSERT_MAPPING(Multiply),
INSERT_MAPPING(Divide),
INSERT_MAPPING(Left),
INSERT_MAPPING(Right),
INSERT_MAPPING(Up),
INSERT_MAPPING(Down),
INSERT_MAPPING(Numpad0),
INSERT_MAPPING(Numpad1),
INSERT_MAPPING(Numpad2),
INSERT_MAPPING(Numpad3),
INSERT_MAPPING(Numpad4),
INSERT_MAPPING(Numpad5),
INSERT_MAPPING(Numpad6),
INSERT_MAPPING(Numpad7),
INSERT_MAPPING(Numpad8),
INSERT_MAPPING(Numpad9),
INSERT_MAPPING(F1),
INSERT_MAPPING(F2),
INSERT_MAPPING(F3),
INSERT_MAPPING(F4),
INSERT_MAPPING(F5),
INSERT_MAPPING(F6),
INSERT_MAPPING(F7),
INSERT_MAPPING(F8),
INSERT_MAPPING(F9),
INSERT_MAPPING(F10),
INSERT_MAPPING(F11),
INSERT_MAPPING(F12),
INSERT_MAPPING(F13),
INSERT_MAPPING(F14),
INSERT_MAPPING(F15),
INSERT_MAPPING(Pause)
};
#undef INSERT_MAPPING

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src/GraphicalUI/PiecesType.h Normal file
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#pragma once
#include <string>
enum PiecesType {
CONVEX_PIECES,
HOLELESS_PIECES,
OTHER_PIECES,
ALL_PIECES,
SINGLE_PIECE
};
inline int getSizeOfPieces(PiecesType type) {
if (type < SINGLE_PIECE) return 0;
else return (type - SINGLE_PIECE + 1);
}
inline PiecesType createSinglePieceType(int size) {
return PiecesType(SINGLE_PIECE + size - 1);
}
inline std::string getPiecesTypeName(PiecesType piecesType) {
static const std::string PIECES_TYPE_NAME[] = {
"CONVEX",
"HOLELESS",
"OTHER",
"ALL",
"SINGLE"
};
return PIECES_TYPE_NAME[piecesType];
}

163
src/GraphicalUI/PlayerCursor.cpp Normal file
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#include "PlayerCursor.h"
#include "Keybinds.h"
#include "Settings.h"
#include <vector>
#include <algorithm>
#include <SFML/Graphics.hpp>
static const int MENU_DAS = FRAMES_PER_SECOND / 2;
PlayerCursor::PlayerCursor(std::vector<unsigned int> rows) :
rows(rows) {
this->position = sf::Vector2u({0, 0});
this->leftDAS = 0;
this->rightDAS = 0;
this->upDAS = 0;
this->downDAS = 0;
}
void PlayerCursor::updatePosition() {
(sf::Keyboard::isKeyPressed(sfKey::Left)) ? (this->leftDAS++) : (this->leftDAS = 0);
if (this->shouldMove(this->leftDAS)) {
this->moveLeft();
}
(sf::Keyboard::isKeyPressed(sfKey::Right)) ? (this->rightDAS++) : (this->rightDAS = 0);
if (this->shouldMove(this->rightDAS)) {
this->moveRight();
}
(sf::Keyboard::isKeyPressed(sfKey::Up)) ? (this->upDAS++) : (this->upDAS = 0);
if (this->shouldMove(this->upDAS)) {
this->moveUp();
}
(sf::Keyboard::isKeyPressed(sfKey::Down)) ? (this->downDAS++) : (this->downDAS = 0);
if (this->shouldMove(this->downDAS)) {
this->moveDown();
}
}
bool PlayerCursor::movedLeft() const {
return this->shouldMove(this->leftDAS);
}
bool PlayerCursor::movedRight() const {
return this->shouldMove(this->rightDAS);
}
bool PlayerCursor::movedUp() const {
return this->shouldMove(this->upDAS);
}
bool PlayerCursor::movedDown() const {
return this->shouldMove(this->downDAS);
}
void PlayerCursor::goToPosition(const sf::Vector2u& newPosition) {
if (this->rows.size() > newPosition.y) {
if (this->rows.at(newPosition.y) > newPosition.x) {
this->position = newPosition;
}
}
}
bool PlayerCursor::addPosition(unsigned int x, unsigned int y) {
if (y >= this->rows.size()) return false;
if (x > this->rows.at(y)) return false;
this->rows.at(y)++;
if ((y == this->position.y) && (x <= this->position.x)) {
this->position.x++;
}
return true;
}
bool PlayerCursor::removePosition(unsigned int x, unsigned int y) {
if (y >= this->rows.size()) return false;
if (x >= this->rows.at(y)) return false;
this->rows.at(y)--;
if ((y == this->position.y) && (x < this->position.x)) {
this->position.x--;
}
return true;
}
bool PlayerCursor::addRow(unsigned int position, unsigned int width) {
if (position > this->rows.size()) return false;
this->rows.insert(this->rows.begin() + position, width);
if (position <= this->position.y) {
this->position.y++;
}
return true;
}
bool PlayerCursor::removeRow(unsigned int position) {
if (position >= this->rows.size()) return false;
this->rows.erase(this->rows.begin() + position);
if (position < this->position.y) {
this->position.y--;
}
return true;
}
const sf::Vector2u& PlayerCursor::getPosition() const {
return this->position;
}
bool PlayerCursor::shouldMove(int DAS) const {
return (DAS == 1
|| (DAS > MENU_DAS && (DAS % 5) == 0)
|| (DAS > (FRAMES_PER_SECOND * 2)));
}
void PlayerCursor::moveLeft() {
if (this->position.x == 0) {
this->position.x = this->rows.at(this->position.y) - 1;
}
else {
this->position.x--;
}
}
void PlayerCursor::moveRight() {
if (this->position.x == this->rows.at(this->position.y) - 1) {
this->position.x = 0;
}
else {
this->position.x++;
}
}
void PlayerCursor::moveUp() {
if (this->position.y == 0) {
this->position.y = this->rows.size() - 1;
}
else {
this->position.y--;
}
if (this->position.x >= this->rows.at(this->position.y)) {
this->position.x = this->rows.at(this->position.y) - 1;
}
}
void PlayerCursor::moveDown() {
if (this->position.y == this->rows.size() - 1) {
this->position.y = 0;
}
else {
this->position.y++;
}
if (this->position.x >= this->rows.at(this->position.y)) {
this->position.x = this->rows.at(this->position.y) - 1;
}
}

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src/GraphicalUI/PlayerCursor.h Normal file
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#pragma once
#include <vector>
#include <SFML/Graphics.hpp>
class PlayerCursor {
private:
std::vector<unsigned int> rows;
sf::Vector2u position;
int leftDAS;
int rightDAS;
int upDAS;
int downDAS;
public:
PlayerCursor(std::vector<unsigned int> rows);
void updatePosition();
bool movedLeft() const;
bool movedRight() const;
bool movedUp() const;
bool movedDown() const;
void goToPosition(const sf::Vector2u& newPosition);
bool addPosition(unsigned int x, unsigned int y);
bool removePosition(unsigned int x, unsigned int y);
bool addRow(unsigned int position, unsigned int width);
bool removeRow(unsigned int position);
const sf::Vector2u& getPosition() const;
private:
bool shouldMove(int DAS) const;
void moveLeft();
void moveRight();
void moveUp();
void moveDown();
};

416
src/GraphicalUI/Settings.cpp Normal file
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#include "Settings.h"
#include "../Core/Menu.h"
#include "Keybinds.h"
#include "PiecesType.h"
#include <vector>
#include <optional>
#include <fstream>
#include <algorithm>
#include <SFML/Graphics.hpp>
static const sf::Vector2u BASE_WINDOW_SIZE = {80, 50};
static const int WINDOW_SIZE_MULTIPLIERS[] = {4, 6, 10, 14, 20, 30, 40};
static const int WINDOW_SIZE_LAST_MODE = (sizeof(WINDOW_SIZE_MULTIPLIERS) / sizeof(int)) - 1;
static const int START_TIMER_MAX = 4;
static const int DISTRIBUTION_MAX = 20;
Settings::Settings(bool loadPieces) {
this->keybinds.clear();
this->keybinds.reserve(NUMBER_OF_KEYBINDS);
for (int i = 0; i < NUMBER_OF_KEYBINDS; i++) {
this->keybinds.emplace_back(i);
}
this->loadSettingsFromFile(loadPieces, {});
}
void Settings::loadPieces(int loadablePiecesSizeRequest) {
if (loadablePiecesSizeRequest < MINIMUM_PIECES_SIZE) {
loadablePiecesSizeRequest = MINIMUM_PIECES_SIZE;
}
else if (loadablePiecesSizeRequest > MAXIMUM_PIECES_SIZE) {
loadablePiecesSizeRequest = MAXIMUM_PIECES_SIZE;
}
bool succeeded = true;
int i = 1;
while (succeeded && (i <= loadablePiecesSizeRequest)) {
succeeded = this->menu.getPiecesList().loadPieces(i);
i++;
}
if (succeeded) {
this->loadablePiecesSize = loadablePiecesSizeRequest;
}
this->loadedPieces = succeeded;
}
void Settings::loadSettingsFromFile(bool loadPieces, std::optional<int> loadablePiecesSizeRequest) {
std::ifstream settingsFile("data/config/settings.bin", std::ios::binary);
char byte;
// file format version
settingsFile.get(byte);
// loadable pieces size
settingsFile.get(byte);
this->loadablePiecesSize = byte;
if (loadPieces) {
if (loadablePiecesSizeRequest.has_value()) {
this->loadPieces(loadablePiecesSizeRequest.value());
}
else {
this->loadPieces(byte);
}
}
else {
this->loadedPieces = false;
}
// keybind layout
settingsFile.get(byte);
this->chosenKeybinds = byte;
// DAS tuning
settingsFile.get(byte);
this->menu.getPlayerControls().setDAS(byte);
// ARR tuning
settingsFile.get(byte);
this->menu.getPlayerControls().setARR(byte);
// SDR tuning
settingsFile.get(byte);
this->menu.getPlayerControls().setSDR(byte);
// window size mode
settingsFile.get(byte);
this->windowSizeMode = byte;
// start timer length
settingsFile.get(byte);
this->startTimerLength = byte;
// gamemode
settingsFile.get(byte);
this->gamemode = Gamemode(byte);
// board width
settingsFile.get(byte);
this->menu.setBoardWidth(byte);
// board height
settingsFile.get(byte);
this->menu.setBoardHeight(byte);
if (this->loadedPieces) {
// piece distribution
settingsFile.get(byte);
this->menu.getPiecesList().setDistributionMode(DistributionMode(byte));
this->distributions.clear();
this->distributions.push_back(0);
for (int i = 1; i <= 15; i++) {
settingsFile.get(byte);
this->distributions.push_back(byte);
}
this->confirmDistribution();
// selected pieces
char pieceType;
char pieceSize;
char lowByte;
char midByte;
char highByte;
this->selectedPieces.clear();
while (settingsFile.get(pieceType)) {
if (settingsFile.eof()) break;
if (getSizeOfPieces(PiecesType(pieceType)) == 0) {
settingsFile.get(pieceSize);
this->selectedPieces.emplace_back(PiecesType(pieceType), pieceSize);
}
else {
settingsFile.get(lowByte);
settingsFile.get(midByte);
settingsFile.get(highByte);
int pieceNumber = ((unsigned char) lowByte) + ((unsigned char) midByte << 8) + ((unsigned char) highByte << 16);
this->selectedPieces.emplace_back(PiecesType(pieceType), pieceNumber);
}
}
this->confirmSelectedPieces();
}
else {
this->distributions.clear();
this->selectedPieces.clear();
}
}
void Settings::saveSettingsToFile() const {
if (!this->loadedPieces) return;
this->keybinds.at(CUSTOMIZABLE_KEYBINDS).saveKeybindsToFile();
std::ofstream settingsFile("data/config/settings.bin", std::ios::trunc | std::ios::binary);
char byte;
// file format version
byte = CURRENT_FILE_FORMAT_VERSION;
settingsFile.write(&byte, 1);
// loadable pieces size
byte = this->loadablePiecesSize;
settingsFile.write(&byte, 1);
// keybind layout
byte = this->chosenKeybinds;
settingsFile.write(&byte, 1);
// DAS tuning
byte = this->menu.readPlayerControls().getDAS();
settingsFile.write(&byte, 1);
// ARR tuning
byte = this->menu.readPlayerControls().getARR();
settingsFile.write(&byte, 1);
// SDR tuning
byte = this->menu.readPlayerControls().getSDR();
settingsFile.write(&byte, 1);
// window size mode
byte = this->windowSizeMode;
settingsFile.write(&byte, 1);
// start timer length
byte = this->startTimerLength;
settingsFile.write(&byte, 1);
// gamemode
byte = this->gamemode;
settingsFile.write(&byte, 1);
// board width
byte = this->menu.getBoardWidth();
settingsFile.write(&byte, 1);
// board height
byte = this->menu.getBoardHeight();
settingsFile.write(&byte, 1);
// piece distribution
byte = this->menu.readPiecesList().getDistributionMode();
settingsFile.write(&byte, 1);
for (int i = 1; i <= 15; i++) {
byte = this->distributions.at(i);
settingsFile.write(&byte, 1);
}
// selected pieces
for (const auto& [type, value] : this->selectedPieces) {
byte = type;
settingsFile.write(&byte, 1);
if (getSizeOfPieces(type) == 0) {
byte = value;
settingsFile.write(&byte, 1);
}
else {
int number = value;
for (int i = 0; i < 3; i++) {
byte = (number % 256);
settingsFile.write(&byte, 1);
number = (number >> 8);
}
}
}
}
bool Settings::selectNextKeybinds() {
if (this->chosenKeybinds < (NUMBER_OF_KEYBINDS - 1)) {
this->chosenKeybinds++;
return true;
}
return false;
}
bool Settings::selectPreviousKeybinds() {
if (this->chosenKeybinds > 0) {
this->chosenKeybinds--;
return true;
}
return false;
}
bool Settings::canModifyCurrentKeybinds() const {
return (this->chosenKeybinds == CUSTOMIZABLE_KEYBINDS);
}
bool Settings::widenWindow() {
if (this->windowSizeMode < WINDOW_SIZE_LAST_MODE) {
this->windowSizeMode++;
return true;
}
return false;
}
bool Settings::shortenWindow() {
if (this->windowSizeMode > 0) {
this->windowSizeMode--;
return true;
}
return false;
}
void Settings::changeVideoMode(sf::RenderWindow& window) const {
sf::VideoMode videoMode(BASE_WINDOW_SIZE * (unsigned int) WINDOW_SIZE_MULTIPLIERS[this->windowSizeMode]);
window.create(videoMode, "jminos", sf::Style::Close | sf::Style::Titlebar);
sf::Vector2u desktopSize = sf::VideoMode::getDesktopMode().size;
sf::Vector2u windowSize = window.getSize();
window.setPosition(sf::Vector2i((desktopSize.x / 2) - (windowSize.x / 2), (desktopSize.y / 2) - (windowSize.y / 2)));
}
bool Settings::lengthenStartTimer() {
if (this->startTimerLength < START_TIMER_MAX) {
this->startTimerLength++;
return true;
}
return false;
}
bool Settings::shortenStartTimer() {
if (this->startTimerLength > 0) {
this->startTimerLength--;
return true;
}
return false;
}
void Settings::setGamemode(Gamemode gamemode) {
this->gamemode = gamemode;
}
void Settings::selectPieces(PiecesType type, int value) {
if (!this->loadedPieces) return;
this->selectedPieces.emplace_back(type, value);
}
void Settings::unselectPieces(int index) {
if (!this->loadedPieces) return;
if (index >= this->selectedPieces.size()) return;
this->selectedPieces.erase(this->selectedPieces.begin() + index);
}
void Settings::confirmSelectedPieces() {
if (!this->loadedPieces) return;
this->menu.getPiecesList().unselectAll();
bool selectedNone = true;
for (const auto& [type, value] : this->selectedPieces) {
int size = getSizeOfPieces(type);
if (size == 0) {
if (!(value > this->loadablePiecesSize)) {
switch (type) {
case CONVEX_PIECES : {this->menu.getPiecesList().selectConvexPieces(value); break;}
case HOLELESS_PIECES : {this->menu.getPiecesList().selectHolelessPieces(value); break;}
case OTHER_PIECES : {this->menu.getPiecesList().selectOtherPieces(value); break;}
case ALL_PIECES : {this->menu.getPiecesList().selectAllPieces(value); break;}
}
selectedNone = false;
}
}
else {
if (!(getSizeOfPieces(type) > this->loadablePiecesSize)) {
this->menu.getPiecesList().selectPiece(size, value);
selectedNone = false;
}
}
}
if (selectedNone) {
this->selectedPieces.push_back(DEFAULT_SELECTION);
this->confirmSelectedPieces();
}
}
bool Settings::increaseDistribution(int size) {
if (!this->loadedPieces) return false;
if (size < 1 || size > this->loadablePiecesSize) return false;
if (this->distributions.at(size) < DISTRIBUTION_MAX) {
this->distributions.at(size)++;
return true;
}
return false;
}
bool Settings::decreaseDistribution(int size) {
if (!this->loadedPieces) return false;
if (size < 1 || size > this->loadablePiecesSize) return false;
if (this->distributions.at(size) > 0) {
this->distributions.at(size)--;
return true;
}
return false;
}
void Settings::confirmDistribution() {
if (!this->loadedPieces) return;
for (int i = 1; i <= 15; i++) {
this->menu.getPiecesList().changeCustomDistribution(i, (double) 1 / (this->distributions.at(i) + 0.001));
}
}
Menu& Settings::getMenu() {
return this->menu;
}
Keybinds& Settings::getKeybinds() {
return this->keybinds.at(this->chosenKeybinds);
}
int Settings::getLoadablePiecesSize() const {
return this->loadablePiecesSize;
}
bool Settings::hasLoadedPieces() const {
return this->loadedPieces;
}
int Settings::getKeybindsLayout() const {
return this->chosenKeybinds;
}
Gamemode Settings::getGamemode() const {
return this->gamemode;
}
int Settings::getWindowSizeMultiplier() const {
return WINDOW_SIZE_MULTIPLIERS[this->windowSizeMode];
}
int Settings::getStartTimerLength() const {
return this->startTimerLength;
}
const std::vector<std::pair<PiecesType, int>>& Settings::getSelectedPieces() const {
return this->selectedPieces;
}
const std::vector<int>& Settings::getDistributions() const {
return this->distributions;
}

100
src/GraphicalUI/Settings.h Normal file
View File

@@ -0,0 +1,100 @@
#pragma once
#include "../Core/Menu.h"
#include "Keybinds.h"
#include "PiecesType.h"
#include <vector>
#include <optional>
#include <SFML/Graphics.hpp>
static const int CURRENT_FILE_FORMAT_VERSION = 11;
static const int MAXIMUM_BOARD_WIDTH = 40;
static const int MAXIMUM_BOARD_HEIGHT = 40;
static const int RELEASE_PIECES_SIZE = 15;
static const int DEBUG_PIECES_SIZE = 10;
static const int MINIMUM_PIECES_SIZE = 4;
#ifdef NDEBUG
static const int MAXIMUM_PIECES_SIZE = RELEASE_PIECES_SIZE;
#else
static const int MAXIMUM_PIECES_SIZE = DEBUG_PIECES_SIZE;
#endif
static const std::pair<PiecesType, int> DEFAULT_SELECTION = {ALL_PIECES, MINIMUM_PIECES_SIZE};
class Settings {
private:
Menu menu;
int loadablePiecesSize;
bool loadedPieces;
std::vector<Keybinds> keybinds;
int chosenKeybinds;
int windowSizeMode;
int startTimerLength;
Gamemode gamemode;
std::vector<std::pair<PiecesType, int>> selectedPieces;
std::vector<int> distributions;
public:
Settings(bool loadPieces);
void loadPieces(int loadablePiecesSizeRequest);
void loadSettingsFromFile(bool loadPieces, std::optional<int> loadablePiecesSizeRequest);
void saveSettingsToFile() const;
bool selectNextKeybinds();
bool selectPreviousKeybinds();
bool canModifyCurrentKeybinds() const;
bool widenWindow();
bool shortenWindow();
void changeVideoMode(sf::RenderWindow& window) const;
bool lengthenStartTimer();
bool shortenStartTimer();
void setGamemode(Gamemode gamemode);
void selectPieces(PiecesType type, int value);
void unselectPieces(int index);
void confirmSelectedPieces();
bool increaseDistribution(int size);
bool decreaseDistribution(int size);
void confirmDistribution();
Menu& getMenu();
Keybinds& getKeybinds();
int getLoadablePiecesSize() const;
bool hasLoadedPieces() const;
int getKeybindsLayout() const;
Gamemode getGamemode() const;
int getWindowSizeMultiplier() const;
int getStartTimerLength() const;
const std::vector<std::pair<PiecesType, int>>& getSelectedPieces() const;
const std::vector<int>& getDistributions() const;
};

265
src/GraphicalUI/main.cpp Normal file
View File

@@ -0,0 +1,265 @@
#include "GraphApp.h"
#include "../Pieces/PiecesFiles.h"
#include <filesystem>
#include <fstream>
[[nodiscard]] bool resetSettingsFile();
[[nodiscard]] bool resetKeybindFile(int layout);
int main() {
std::srand(std::time(NULL));
bool everythingIsOK = true;
// CHECK PIECES FILES
PiecesFiles pf;
bool warned = false;
for (int i = 1; i <= MAXIMUM_PIECES_SIZE; i++) {
if (!std::filesystem::exists("data/pieces/" + std::to_string(i) + "minos.bin")) {
#ifndef DEBUG
if (!warned && i > DEBUG_PIECES_SIZE) {
std::cout << "IMPORTANT: You are currently in release mode, if you do not wish to generate big pieces (can take several minutes), type 'xmake f -m debug'." << std::endl;
warned = true;
}
#endif
std::cout << "INFO: Pieces files for size " << i << " not found, generating..." << std::endl;
everythingIsOK &= pf.savePieces(i);
}
}
#ifdef DEBUG
std::cout << "IMPORTANT: You are currently in debug mode, if you wish to use bigger pieces, type 'xmake f -m release'." << std::endl;
bool releasePiecesGenerated = true;
for (int i = DEBUG_PIECES_SIZE + 1; i <= RELEASE_PIECES_SIZE; i++) {
if (!std::filesystem::exists("data/pieces/" + std::to_string(i) + "minos.bin")) {
releasePiecesGenerated = false;
}
}
if (!releasePiecesGenerated) {
std::cout << "NOTE: You do not have all pieces generated, generating can take several minutes." << std::endl;
}
#endif
bool everythingGenerated = true;
for (int i = 1; i <= MAXIMUM_PIECES_SIZE; i++) {
std::string filePath = "data/pieces/" + std::to_string(i) + "minos.bin";
if (!std::filesystem::exists(filePath)) {
std::cout << "ERROR: Could not open file " + filePath << std::endl;
everythingIsOK &= false;
}
}
// CHECK CONFIG FILES
if (!std::filesystem::exists("data/config/settings.bin")) {
std::cout << "INFO: Settings file not found, generating..." << std::endl;
everythingIsOK &= resetSettingsFile();
for (int i = 0; i < NUMBER_OF_KEYBINDS; i++) {
if (!std::filesystem::exists("data/config/keybinds/layout" + std::to_string(i) + ".bin")) {
std::cout << "INFO: Keybind file number " << (i + 1) << "/" << NUMBER_OF_KEYBINDS << " not found, generating..." << std::endl;
everythingIsOK &= resetKeybindFile(i);
}
}
}
else {
std::ifstream settingsFile("data/config/settings.bin", std::ios::binary);
char byte;
settingsFile.get(byte);
if ((unsigned char) byte < CURRENT_FILE_FORMAT_VERSION) {
std::cout << "INFO: Files format changed, regenerating..." << std::endl;
everythingIsOK &= resetSettingsFile();
for (int i = 0; i < NUMBER_OF_KEYBINDS; i++) {
everythingIsOK &= resetKeybindFile(i);
}
}
}
// LAUNCH APP
if (everythingIsOK) {
GraphApp UI;
UI.run();
}
else {
std::cout << "ERROR: The game could not launch properly." << std::endl;
std::cout << "Press enter to quit. ";
std::cin.get();
}
return 0;
}
bool resetSettingsFile() {
if (!std::filesystem::exists("data/config")) {
std::filesystem::create_directories("data/config");
}
std::string filePath ="data/config/settings.bin";
std::ofstream settingsFile(filePath, std::ios::trunc | std::ios::binary);
if (!settingsFile.good()) {
std::cerr << "ERROR: Could not open file " + filePath << std::endl;
return false;
}
char byte;
Menu menu;
// file format version
byte = CURRENT_FILE_FORMAT_VERSION;
settingsFile.write(&byte, 1);
// loadable pieces size
byte = MINIMUM_PIECES_SIZE;
settingsFile.write(&byte, 1);
// keybind layout
byte = 0;
settingsFile.write(&byte, 1);
// DAS tuning
byte = menu.getPlayerControls().getDAS();
settingsFile.write(&byte, 1);
// ARR tuning
byte = menu.getPlayerControls().getARR();
settingsFile.write(&byte, 1);
// SDR tuning
byte = menu.getPlayerControls().getSDR();
settingsFile.write(&byte, 1);
// window size mode
byte = 2;
settingsFile.write(&byte, 1);
// start timer length
byte = 2;
settingsFile.write(&byte, 1);
// gamemode
byte = Gamemode(0);
settingsFile.write(&byte, 1);
// board width
byte = menu.getBoardWidth();
settingsFile.write(&byte, 1);
// board height
byte = menu.getBoardHeight();
settingsFile.write(&byte, 1);
// piece distribution
byte = DEFAULT;
settingsFile.write(&byte, 1);
for (int i = 1; i <= 15; i++) {
byte = 1;
settingsFile.write(&byte, 1);
}
// selected pieces
byte = DEFAULT_SELECTION.first;
settingsFile.write(&byte, 1);
byte = DEFAULT_SELECTION.second;
settingsFile.write(&byte, 1);
return true;
}
bool resetKeybindFile(int layout) {
if (layout < 0 || layout > NUMBER_OF_KEYBINDS) {
std::cerr << "ERROR: Trying to create keybind layout number " << layout << " which is outside of range (" << NUMBER_OF_KEYBINDS << ")." << std::endl;
return false;
}
if (!std::filesystem::exists("data/config/keybinds")) {
std::filesystem::create_directories("data/config/keybinds");
}
std::string filePath = "data/config/keybinds/layout" + std::to_string(layout) + ".bin";
std::ofstream layoutFile(filePath, std::ios::trunc | std::ios::binary);
if (!layoutFile.good()) {
std::cerr << "ERROR: Could not open file " + filePath << std::endl;
return false;
}
if (layout == NUMBER_OF_KEYBINDS) {
return true;
}
std::map<Action, sfKey> keybinds;
if (layout != 4) {
keybinds.insert({PAUSE, sfKey::P});
keybinds.insert({RETRY, sfKey::R});
}
if (layout == 0) {
keybinds.insert({MOVE_LEFT, sfKey::Left});
keybinds.insert({MOVE_RIGHT, sfKey::Right});
keybinds.insert({SOFT_DROP, sfKey::Down});
keybinds.insert({HARD_DROP, sfKey::Space});
keybinds.insert({ROTATE_CW, sfKey::Up});
keybinds.insert({ROTATE_CCW, sfKey::Z});
keybinds.insert({ROTATE_180, sfKey::X});
keybinds.insert({ROTATE_0, sfKey::LShift});
keybinds.insert({HOLD, sfKey::C});
}
if (layout == 1) {
keybinds.insert({MOVE_LEFT, sfKey::Z});
keybinds.insert({MOVE_RIGHT, sfKey::C});
keybinds.insert({SOFT_DROP, sfKey::X});
keybinds.insert({HARD_DROP, sfKey::S});
keybinds.insert({ROTATE_CW, sfKey::M});
keybinds.insert({ROTATE_CCW, sfKey::Comma});
keybinds.insert({ROTATE_180, sfKey::J});
keybinds.insert({ROTATE_0, sfKey::K});
keybinds.insert({HOLD, sfKey::LShift});
}
if (layout == 2) {
keybinds.insert({MOVE_LEFT, sfKey::A});
keybinds.insert({MOVE_RIGHT, sfKey::D});
keybinds.insert({SOFT_DROP, sfKey::W});
keybinds.insert({HARD_DROP, sfKey::S});
keybinds.insert({ROTATE_CW, sfKey::Left});
keybinds.insert({ROTATE_CCW, sfKey::Right});
keybinds.insert({ROTATE_180, sfKey::Up});
keybinds.insert({ROTATE_0, sfKey::Down});
keybinds.insert({HOLD, sfKey::RShift});
}
if (layout == 3) {
keybinds.insert({MOVE_LEFT, sfKey::Left});
keybinds.insert({MOVE_RIGHT, sfKey::Right});
keybinds.insert({SOFT_DROP, sfKey::Down});
keybinds.insert({HARD_DROP, sfKey::Up});
keybinds.insert({ROTATE_CW, sfKey::E});
keybinds.insert({ROTATE_CCW, sfKey::A});
keybinds.insert({ROTATE_180, sfKey::Num2});
keybinds.insert({ROTATE_0, sfKey::Tab});
keybinds.insert({HOLD, sfKey::Z});
}
char byte;
for (Action action : ACTION_LIST_IN_ORDER) {
byte = action;
layoutFile.write(&byte, 1);
if (keybinds.contains(action)) {
byte = (int) keybinds.at(action);
layoutFile.write(&byte, 1);
}
byte = 0xFF;
layoutFile.write(&byte, 1);
}
return true;
}

25
src/Pieces/Generator.cpp
View File

@@ -11,28 +11,29 @@
Generator::Generator() {
}
std::vector<Polyomino> Generator::generatePolyominos(unsigned int polyominoSize) {
this->validPolyominos.clear();
std::vector<Polyomino> Generator::generatePolyominoes(int polyominoSize) {
this->validPolyominoes.clear();
this->currentTestedShape.clear();
// no polyomino of size 0
if (polyominoSize == 0) return this->validPolyominos;
// a polyomino has at least 1 square
if (polyominoSize < 1) return this->validPolyominoes;
// start generating from the monomino
// always place the first cell at (0, 0)
this->currentTestedShape.insert(Position{0, 0});
std::map<Position, int> candidatePositions;
this->generate(polyominoSize, 0, 1, candidatePositions);
return this->validPolyominos;
return this->validPolyominoes;
}
void Generator::generate(unsigned int polyominoSize, int lastAddedPositionNumber, int nextAvaibleNumber, std::map<Position, int> candidatePositions) {
void Generator::generate(int polyominoSize, int lastAddedPositionNumber, int nextAvaibleNumber, std::map<Position, int> candidatePositions) {
// recursion stop
if (polyominoSize == this->currentTestedShape.size()) {
Polyomino candidate(this->currentTestedShape);
// we sort the rotations of the polyominos
// we sort the rotations of the polyominoes
std::vector<Polyomino> candidateRotations;
candidateRotations.reserve(4);
for (int i = 0; i < 4; i++) {
candidate.normalize();
candidateRotations.push_back(candidate);
@@ -42,22 +43,22 @@ void Generator::generate(unsigned int polyominoSize, int lastAddedPositionNumber
// we keep the polyomino only if it was generated in its lowest rotation
if (candidate == candidateRotations.at(0)) {
this->validPolyominos.push_back(candidate);
this->validPolyominoes.push_back(candidate);
}
return;
}
// generate the list of candidate positions
for (Position position : this->currentTestedShape) {
for (const Position position : this->currentTestedShape) {
this->tryToAddCandidatePosition(Position{position.x, position.y + 1}, nextAvaibleNumber, candidatePositions);
this->tryToAddCandidatePosition(Position{position.x + 1, position.y}, nextAvaibleNumber, candidatePositions);
this->tryToAddCandidatePosition(Position{position.x, position.y - 1}, nextAvaibleNumber, candidatePositions);
this->tryToAddCandidatePosition(Position{position.x - 1, position.y}, nextAvaibleNumber, candidatePositions);
}
// generate polyominos for all positions with a higher number than the last one
for (auto [key, val] : candidatePositions) {
// try adding a square only to positions with a higher number than the last one
for (const auto [key, val] : candidatePositions) {
if (val > lastAddedPositionNumber) {
this->currentTestedShape.insert(key);
this->generate(polyominoSize, val, nextAvaibleNumber, (polyominoSize == this->currentTestedShape.size()) ? std::map<Position, int>() : candidatePositions);

14
src/Pieces/Generator.h
View File

@@ -8,11 +8,11 @@
/**
* A generator of one-sided polyominos of any size
* A generator of one-sided polyominoes of any size
*/
class Generator {
private:
std::vector<Polyomino> validPolyominos; // the list of already generated polyominos
std::vector<Polyomino> validPolyominoes; // the list of already generated polyominoes
std::set<Position> currentTestedShape; // the polyomino being created
public:
@@ -22,16 +22,16 @@ class Generator {
Generator();
/**
* Generates the list of all one-sided polyominos of the specified size
* @return The list of polyominos
* Generates the list of all one-sided polyominoes of the specified size
* @return The list of polyominoes
*/
std::vector<Polyomino> generatePolyominos(unsigned int polyominoSize);
std::vector<Polyomino> generatePolyominoes(int polyominoSize);
private:
/**
* Generates all one-sided polyominos of the specified size using the current tested shape
* Generates all one-sided polyominoes of the specified size using the current tested shape
*/
void generate(unsigned int polyominoSize, int lastAddedPositionNumber, int nextAvaibleNumber, std::map<Position, int> candidatePositions);
void generate(int polyominoSize, int lastAddedPositionNumber, int nextAvaibleNumber, std::map<Position, int> candidatePositions);
/**
* Checks wheter a candidate position can be added to the current tested shape

17
src/Pieces/Piece.cpp
View File

@@ -12,6 +12,8 @@
Piece::Piece(const Polyomino& polyomino, Block blockType) :
polyomino(polyomino),
blockType(blockType) {
this->rotationState = NONE;
}
void Piece::rotate(Rotation rotation) {
@@ -21,9 +23,22 @@ void Piece::rotate(Rotation rotation) {
this->polyomino.rotate180();
if (rotation == COUNTERCLOCKWISE)
this->polyomino.rotateCCW();
this->rotationState += rotation;
}
std::set<Position> Piece::getPositions() const {
void Piece::defaultRotation() {
if (this->rotationState == CLOCKWISE)
this->polyomino.rotateCCW();
if (this->rotationState == DOUBLE)
this->polyomino.rotate180();
if (this->rotationState == COUNTERCLOCKWISE)
this->polyomino.rotateCW();
this->rotationState = NONE;
}
const std::set<Position>& Piece::getPositions() const {
return this->polyomino.getPositions();
}

14
src/Pieces/Piece.h
View File

@@ -13,8 +13,9 @@
*/
class Piece {
private:
Polyomino polyomino; // a polyomino representing the piece, (0, 0) is downleft
Block blockType; // the block type of the piece
Polyomino polyomino; // a polyomino representing the piece, (0, 0) is downleft
Block blockType; // the block type of the piece
Rotation rotationState; // the current rotation of the piece
public:
/**
@@ -28,9 +29,14 @@ class Piece {
void rotate(Rotation rotation);
/**
* @return A copy of the list of positions of the piece
* Rotates the piece to its default rotation
*/
std::set<Position> getPositions() const;
void defaultRotation();
/**
* @return The list of positions of the piece
*/
const std::set<Position>& getPositions() const;
/**
* @return The length of the piece

102
src/Pieces/PiecesFiles.cpp
View File

@@ -10,6 +10,8 @@
#include <filesystem>
#include <algorithm>
#include "../Common/Compression.h"
PiecesFiles::PiecesFiles() {
}
@@ -19,44 +21,46 @@ bool PiecesFiles::savePieces(int polyominoSize) const {
if (!this->getFilePath(polyominoSize, filePath)) {
return false;
}
std::ofstream piecesFile(filePath, std::ios::trunc | std::ios::binary);
if (!piecesFile.good()) {
Generator generator;
std::vector<Polyomino> polyominoes = generator.generatePolyominoes(polyominoSize);
return this->savePieces(polyominoSize, polyominoes);
}
bool PiecesFiles::savePieces(int polyominoSize, std::vector<Polyomino>& polyominoes) const {
std::string filePath;
if (!this->getFilePath(polyominoSize, filePath)) {
return false;
}
Generator generator;
std::vector<Polyomino> nMinos = generator.generatePolyominos(polyominoSize);
constexpr std::size_t INITIAL_CAPACITY = 2048;
DataBuffer buffer(INITIAL_CAPACITY);
// sorting the polyominos is done after setting spawn position to ensure the order is always the same
for (Polyomino& nMino : nMinos) {
// sorting the polyominoes is done after setting spawn position to ensure the order is always the same
for (Polyomino& nMino : polyominoes) {
nMino.goToSpawnPosition();
}
std::sort(nMinos.begin(), nMinos.end());
Block pieceblock = firstPieceBlockType();
for (int i = 0; i < polyominoSize; i++) {
nextPieceBlockType(pieceblock);
}
std::sort(polyominoes.begin(), polyominoes.end());
for (const Polyomino& nMino : nMinos) {
// write polyomino length
char lengthByte = nMino.getLength();
piecesFile.write(&lengthByte, 1);
// write the type and block of the piece
char infoByte = (nMino.isConvex() << 7) + (nMino.hasHole() << 6) + pieceblock;
nextPieceBlockType(pieceblock);
piecesFile.write(&infoByte, 1);
for (const Polyomino& polyomino : polyominoes) {
// write the characteristics of the piece
bool isConvex = polyomino.isConvex();
bool hasHole = (isConvex) ? false : polyomino.hasHole();
std::uint8_t infoByte = (isConvex << 7) + (hasHole << 6) + polyomino.getLength();
buffer << infoByte;
// write the positions of the piece
char positionByte;
for (Position position : nMino.getPositions()) {
std::uint8_t positionByte;
for (const Position position : polyomino.getPositions()) {
positionByte = (position.x << 4) + position.y;
piecesFile.write(&positionByte, 1);
buffer << positionByte;
}
}
return true;
DataBuffer compressed = Compress(buffer);
return compressed.WriteFile(filePath);
}
bool PiecesFiles::loadPieces(int polyominoSize, std::vector<Piece>& pieces, std::vector<int>& convexPieces, std::vector<int>& holelessPieces, std::vector<int>& otherPieces) const {
@@ -64,6 +68,13 @@ bool PiecesFiles::loadPieces(int polyominoSize, std::vector<Piece>& pieces, std:
if (!this->getFilePath(polyominoSize, filePath)) {
return false;
}
DataBuffer compressed;
if(!compressed.ReadFile(filePath))
return false;
DataBuffer buffer = Decompress(compressed, compressed.GetSize());
std::ifstream piecesFile(filePath, std::ios::binary);
if (!piecesFile.good()) {
return false;
@@ -74,37 +85,43 @@ bool PiecesFiles::loadPieces(int polyominoSize, std::vector<Piece>& pieces, std:
holelessPieces.clear();
otherPieces.clear();
// we shift the first color of each size so that the small polyominoes (size 1-2-3) don't all have the same color
Block pieceBlock = firstPieceBlockType();
for (int i = 0; i < polyominoSize; i++) {
nextPieceBlockType(pieceBlock);
}
char convexMask = 0b1000'0000;
char holeMask = 0b0100'0000;
char blockMask = 0b0011'1111;
char lengthMask = 0b0011'1111;
char xMask = 0b1111'0000;
char yMask = 0b0000'1111;
char lengthByte;
std::uint8_t infoByte;
int i = 0;
// read piece length
while (piecesFile.get(lengthByte)) {
if (piecesFile.eof()) break;
while (!buffer.IsFinished()) {
// if (piecesFile.eof()) break;
buffer >> infoByte;
// read piece infos
char infoByte;
piecesFile.get(infoByte);
bool isConvex = (infoByte & convexMask) >> 7;
bool hasHole = (infoByte & holeMask) >> 6;
Block block = Block(infoByte & blockMask);
int length = (infoByte & lengthMask);
// read positions
std::set<Position> piecepositions;
char positionByte;
std::set<Position> piecePositions;
std::uint8_t positionByte;
for (int i = 0; i < polyominoSize; i++) {
piecesFile.get(positionByte);
int x = (positionByte & xMask) >> 4;
buffer >> positionByte;
int x = ((unsigned char) positionByte & xMask) >> 4;
int y = positionByte & yMask;
piecepositions.insert(Position{x, y});
piecePositions.insert(Position{x, y});
}
// create piece
Piece readPiece(Polyomino(piecepositions, lengthByte), block);
Piece readPiece(Polyomino(piecePositions, length), pieceBlock);
nextPieceBlockType(pieceBlock);
pieces.push_back(readPiece);
if (isConvex) {
convexPieces.push_back(i);
@@ -124,6 +141,11 @@ bool PiecesFiles::loadPieces(int polyominoSize, std::vector<Piece>& pieces, std:
bool PiecesFiles::getFilePath(int polyominoSize, std::string& filePath) const {
std::string dataFolderPath = "data/pieces/";
if (!std::filesystem::exists(dataFolderPath)) {
std::filesystem::create_directories(dataFolderPath);
}
if (!std::filesystem::is_directory(dataFolderPath)) {
return false;
}

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