Skip to content
/ tetris Public

Tetris game implementation designed for use on embedded platforms

License

Notifications You must be signed in to change notification settings

0xjmux/tetris

Repository files navigation

Tetris Game Engine

This game engine is part of a larger project (ESP32-Neopixel-Tetris) where I'm implementing a version of Tetris playable on WS2812B LED matrices via an ESP-Now remote. It was written for embedded platforms while maximize modularity to enable native testing on workstation platforms.

For an example of using this in an ESP-IDF project, see my ESP32-Neopixel-Tetris repository.

About

  • One of the main goals of this project is to gain experience developing and debugging components on a workstation that can then be easily ported to MCU platforms. As such, the linux driver for this game is filled with debugging features to make hunting bugs in the game logic as easy as possible, since that same process will be much more difficult when in the resource-constrained environment of an MCU.
  • Some debugging features include
    • Saving entire game state to a file at any point by pressing p. Game state can then be restored, but these saves are largely used for unit testing purposes since having a start point of a game that you know preceded a crash can be very helpful when trying to force the game into invalid states.
    • Some of these files can be found in test/files/
    • Game state is also saved to a file on gameover, which was done to debug issues that cause premature gameover conditions.
    • Debug sub-window in game enableable via -DDEBUG_WINDOW=ON during cmake build. This shows current game state information, so weird behavior is easier to spot.
  • Everything is written from scratch, with the exception of the graphics library (ncurses), Unit test harness (Unity), and .ini file parser, inih.

Compilation

Game Driver (runs in terminal on Linux workstations)

cmake . -B build && cmake --build build
./build/tetris_driver

Unit Tests

cmake . -B build -DTARGET_GROUP=test && cmake --build build
./build/test_tetris

Debugging

If debugging flags are enabled, two game state files will show up in the current directory when the game is finished: game.log and final-gamestate.ini. The game.log is a log of actions taken during the game to speed up tracing logic problems; final-gamestate.ini contains a human & machine readable save of the entire game state at gameover, allowing easier debugging of premature exit conditions (which was one of the bigger bugs I had to find). The log file automatically updates during gameplay, so a live log of what's happening in-game can be watched in a separate terminal session by doing tail -f game.log.

One of the main reasons I set up the .ini file saving functionality was for unit testing. This can be seen in the test_clearRowsDumpedGame() functions inside test/suite_1.c. The game state is restored and then used to test edge cases and look for weird behavior, all starting from an actual state reached in-game.

Implementation and Controls

  • For your own microcontroller implementation, see src/driver_tetris.c as an example; it shows you everything that's needed for a complete implementation. The game is designed to be as self-contained as possible, so past passing along inputs and rendering the board array there's not much you need to do.

Essentially, this is it:

// start game, define player_move variable, and create first piece
TetrisGame *tg = create_game();
enum player_move move = T_NONE;
create_rand_piece(tg);     

while([game not over]) {
    // do game tick
    tg_tick(tg, move);

    // process player input
    // wait for 10 ms before doing it again
}

The game board itself is rendered to a 2D array int8_t board[TETRIS_ROWS][TETRIS_COLS] accessible via tg->active_board.board. All your display implementation needs to do is render this array into the associated colors for whatever display format is desired.

The code is documented using Doxygen style comments. Custom types are documented in tetris.h, and functions are preceded by short explanations in tetris.c. On inclusion into your project, your IDE's LSP server should automatically show these descriptions on hover.

Linux Game Controls

These are the controls for my implementation (driver_tetris.c) for POSIX terminals via ncurses.

←/→ - Move left/right
↑ - Rotate piece
↓ - Move piece down
SPACE - pause game
'q' - quit
'p' prints current game state to `gamestate.ini` (for debugging purposes)

Flags

  • There are many compilation flags to enable/disable features, mostly for debugging. I've also created several compilation flags that enable extra output on CI builds so it's easier to see what went wrong from the build report console. The default options should be fine, but for finer tuning you can see the options available to you across the project's CMakeLists.txt files.

Options:

OPTION(TETRIS_UNIT_TEST_MACRO "Print gamelog to stdout (for CI)" OFF) # disabled by default
OPTION(TETRIS_UNIT_TEST_CI "CI-specific path options" OFF) # disabled by default
OPTION(TETRIS_DEBUG_T_MACRO "Enable Debug logging from inside tetris" OFF)
OPTION(INI_LIB_INCLUDE_OPTION "Include inih library for saving game state to disk" ON)

For example, to enable DEBUG_T you would do

cmake -B build -DTARGET_GROUP=test -DTETRIS_DEBUG_T_MACRO=ON
Other

I have these aliases in my ~/.zshrc to make the testing process more fluid.

alias cmakeclean='rm -rf CMakeCache.txt cmake_install.cmake Makefile CMakeFiles build'
alias cmakeregen='cmake . -B build && cmake --build build'
alias cmaketest='cmake . -B build -DTARGET_GROUP=test && cmake --build build'

Project Goals

This project has several goals.

  • Game needs to be runnable on low-powered devices using interrupts. Memory and compute requirements should be as minimal as possible.
  • Driver code needed to make a given display or controller work should be kept as minimal as possible. Currently, the game exposes a 2D array of int8_t values representing different piece colors, and all the display implementation needs to do is render that to a grid of the board size.
  • Teach myself embedded test-driven development and embedded unit testing using techniques from James Greening's "Test-Driven Development for Embedded C" (link)
  • Set up CI from scratch for an embedded project
  • Learn CMake and set up the build system from scratch

This game is my first attempt at writing a component of medium complexity, and one of my primary goals is bettering my understanding of development best practices to accelerate my work on future projects.


TODO:

  • fix duplicate colors
    • this is an ncurses color issue with TERM, the game logic is setting it correctly
  • maybe rewrite render_active_board to no-copy to increase speed?

Some of what I've learned

mostly for myself to not forget

  • CI build options in CMake, so that CI can build a different version depending on paths and such
  • static variables inside functions can be useful, but generally make unit testing more difficult.

About

Tetris game implementation designed for use on embedded platforms

Resources

License

Stars

Watchers

Forks

Packages

No packages published