forked from iss000/cc65-Chess
-
Notifications
You must be signed in to change notification settings - Fork 0
dma-coco/cc65-Chess
Folders and files
Name | Name | Last commit message | Last commit date | |
---|---|---|---|---|
Repository files navigation
0. Updates May 2020 - [raxiss] created a nice Oric-1/Atmos/Telestrat port. See X below. Jan 2020 - Oliver Schmidt created a beautiful Apple II port. See IX below. There is a Commodore 64 .PRG and an Apple II .DSK file in the release tab. I. Introduction (Feb 14, 2014) I started playing chess about 3 months ago and this got me wondering how difficult it would be to make a computer chess game. I decided to try and since it's just a "for the fun of it" project, I decided to make it for the Commodore 64, still my all-time favorite computer. Using the excellent cc65 tools I could do it all in C and thus make it portable to other systems also. I learnt that making the game isn't hard, but getting the computer to play something that resembles a reasonable game is hard. I don't know enough about chess to get it right, but in this version of today, 14 Feb 2014, the AI is not very good. The game was developed on OS X using cc65 and the VICE emulator. There is a video of the game here: http://youtu.be/bkA4vtwxaJg II. Use and keys The colors here refer to the C64 version. The terminal version has a minimal working display but does try to somewhat match the colors of the C64. The user controls an on-screen cursor. The cursor changes color to indicate a state. The colors for selection are: Green - the piece can be selected Red - The piece cannot be selected as it doesn't have valid moves Purple - Empty tile or piece on the other side Blue - The currently selected piece Cyan - A valid destination for the currently selected piece To move the cursor, use the cursor keys. To select a piece, press the RETURN key while the piece is selected. To deselect the piece, press RETURN on the same piece again, or press RUN/STOP. To bring up the menu, press the M key, or the RUN/STOP key when no piece is selected. Pressing RUN/STOP in a menu backs out of the menu, to the previous menu or back to the game. Press RETURN to select a menu item and use the up and down cursor keys to change the selection. While a side is under human control, there are a few more options. Press B to toggle on/off a state showing on every tile how many of both black and white's pieces can attack that tile. Pressing A will toggle a highlight of all of the pieces on the opposing side that attack the selected tile. Pressing D will toggle a highlight of all the pieces on the side currently playing's side that can defend the selected tile. All three of these options basically give a visual representation of the Attack DB. The colors are: For attackers Cyan and for defenders Red. Lastly, the game has an Undo/Redo stack that tracks the last 254 moves. Pressing U will undo the last move and R will redo the last move. In an AI/Human game, the undo will undo the last AI and human player move, so the human player can make a different move. III. Distribution This version has code for a C64, using multi-colored text mode, and also code for a terminal version using the curses library. The terminal version was only tested on OS X but I suspect it will run under Linux and Windows. IV. Building from source a) For the C64 (and other cc65 supported platforms): Using a properly installed cc65 distribution, the C64 version should build using make in the folder with the Makefile. I suggest compiling for speed but optimizing for size does save a bit of memory (1K at present): make OPTIONS=optspeed b) For a terminal version: I built it on OS X using the following command line from the src folder: cc -I. -lcurses -funsigned-char globals.c undo.c board.c cpu.c human.c \ frontend.c main.c term/platTerm.c -o chess V. Porting The code in the src folder should compile on any system (cc65 has type char as unsigned by default - the char type is almost the only type really used in the code). A new system will need platform specific implementations of the functions in plat.h. When I created the terminal port, it literally worked in under an hour as it was mostly replacing cursor positioning and printing function names, along with initialization and color management. I had to redo the log update and timer completely but still, the only file that needed changes was the platTerm.c copy I made from plat64.c. In the C64 specific folder under src is a data.c file which contains the graphics characters to draw the pieces. The layout and chosen bit-pattern of that data is also explained in that file. VI. The AI & other thoughts on the code The game is a fine 2-player chess game, but the computer is not a great chess player. My approach for the AI is this: For each piece, calculate a score (see later) for the tile the piece currently occupies. Then look at all available moves for the piece, and score each destination tile separately. If the computer is fast, I would now "effect" each move and run the same algorithm on the opponent, getting a "retaliation score". Effect the opponent move and run the algorithm again, getting a subsequent score. The accumulated "score - retaliation score + this side next score - other side next retaliation score" sum, up to as many levels deep as desired, would be the final score for that piece and destination. Since the C64 isn't fast enough for all that, I have it calculate the score for the piece where it stands and for all destinations. The highest scoring move, if valid, becomes the move for the piece. The scores for all pieces are then stack-ranked. Some number of these are then chosen to pursue. I set it to 16 (gWidth), making it pursues all pieces. Pursuit of the best moves means doing the depth search for opponent moves and back to own moves. This is set to go to a level controlled by a variable named gMaxLevel. There is another variable, gDeepThoughts, that affects difficulty and speed. This variable, when set to 1, ensure the moves chosen when evaluating best moves, are valid. It also, when set, causes the AttackDB to be updated. Both of these are slow operations. Not doing the work makes things a lot faster, but obviously less accurate. Especially the further away the thinking gets from the current, accurate, state. All three these variables are set from the difficulty selection if there's an AI player. Scoring a piece means this: Positive points encourage the piece to move, negative points discourage making a move. A) For where the piece stands the score is calculated by looking at: If this piece is under attack increase chance to move, else decrease If this piece is being defended, decrease chance to move, else increase Providing support to a piece on own team, decrease if supported piece is under attack if only defender, decrease else increase if supported piece is more valuable, decrease not supporting a piece, increase B) For every destination the piece can move to, score like this: If this piece will be under attack there, decrease If it will be defended there, increase else decrease If a piece is taken at dest, increase If providing support to a piece on same side from there, increase if that piece is under attack, increase if this will be the only defender of that piece, increase if the supported piece is more valuable than this piece, increase If attacking a piece on the other side from there, increase if the attacked piece is more valuable, increase if the attacked piece has no defenders, increase The values for increase and decrease aren't always 1. Some situations I deemed more important so the value may be 2, or the value of the piece itself for which I use: 1 PAWN, 3 KNIGHT, 3 BISHOP, 5 ROOK, 9 QUEEN, 10 KING, but modified to 2+(3*value). The +2 compensates for the +/-1's that encourage or discourage a move, and the 3*value makes the value really meaningful. There is another scoring opportunity that happens before any other. It is meant to take a holistic view of the board. Currently, all it does is see if the king has no moves then all of its neighboring pieces on the same side are encouraged to move and; it encourages pawns to move so they can get to promote. The closer they get to the opposite side, the stronger the encouragement. I have no real plans to keep working on this project. As stated, I wanted to see how hard it would be, and now I know. I rushed this V1.0 release so, sadly, I am sure there will be bugs. There's also lots of room to experiment with scores, values and relative importance of things like being under attack vs. supporting another piece. The code is reasonably clean but I really didn't design this as a game. It all evolved from the writing of the functions to build an array of valid moves into a game. The en passant and castling is somewhat hacked in, for example and may be hard to make sense of. VII. Credits The Makefile has the following notice: ############################################################################### ### Generic Makefile for cc65 projects - full version with abstract options ### ### V1.3.0(w) 2010 - 2013 Oliver Schmidt & Patryk "Silver Dream !" Łogiewa ### ############################################################################### cl65 --version prints the following in my installation: cl65 V2.13.9 - (C) Copyright 1998-2011 Ullrich von Bassewitz VIII. Contact Feel free to send me an email if you have any comments. If you do make a port or something else, I would love to hear about it! [email protected] Feb 14, 2014 Thank you! IX. Apple II Specific Version Information General display uses the Apple II hires mode accessed via custom asm functions. Menu display uses the 4 line bottom text option of the Apple II hires mode via cc65 CONIO functions. All hires access is byte aligned, therefore the horizontal resolution is 40 (bytes). Hires access is done via simple (binary) ROPs (raster operations) by using actual 6502 (immediate) opcodes. The C64 and Curses implementation both make heavy use of colors while Apple II implementation mustn't depend on (but may benefit from) colors. Therefore the user-operated cursor inverts the border of the current field. It's hard to find a compromise between making the cursor visible well and showing the piece "under" the cursor well. Additionally it is desirable to show different cursor states (empty, invalid, valid). The approach chosen is to have different thicknesses of the inverted border: Valid: Thin Invalid: Medium Empty: Thick When it comes to showing attackers/defenders (via the keys A / D) there's no alternative to resorting to colors: Attackers: Red Defenders: Green So the only field display variant left is the piece selected for moving. Instead of introducing a third type of highlighting (beside border inversion and coloring) it is simply colored Magenta. The reasoning: On a monochrome display the user won't have much fun showing attackers/defenders anyway. And without showing those the selected piece is the only colored (aka striped) piece making it clearly visible. On a color display a third color (beside attackers/defenders) works just fine. As the Apple II doesn't have cursor-up and cursor-down keys the keys O and L work as alternatives to the those cursor keys. There's a video showing the Apple II version here: https://youtu.be/PPy-cg4ghDY Oliver Schmidt Jan 19, 2020 X. Apple II Build Instructions To build the Apple II version use the make command line: make TARGETS=apple2 OPTIONS=optspeed The OPTIONS=optspeed will be remembered and need only be given once. To make the disc image, set an environment variable to point at apple commander (see notes) and then use the command: make TARGETS=apple2 dsk If you want to edit the code and get into some iterative development/testing, you can edit the Makefile and fill in the commands commands neccesary to launch an emulator as well. Look for apple2_EMUCMD and set that as neccesary. The simplest is to call test.sh or test.bat and fill in a complete command in the batch file or shell script. However you choose to do this, once done, you can do everything with the command: make TARGETS=apple2 dsk test You could also edit the Makefile and change the line TARGETS := c64 apple2 to include only the apple2 in which case you can omit the TARGETS=apple2 part form all make commands. NOTES: 1) Find AppleCommander here (I used Version 1.5.0): https://github.com/AppleCommander/AppleCommander/releases 2) Set the environment variable (or change the Makefile-dsk.md) to point at the apple commander jar file. Here's how it's done for different shell's: Powershell: $env:AC = "path to apple commander.jar" cmd.exe set AC="path to apple commander.jar" bash (Unix or macOS terminal): export AC="path to apple commander.jar" XI. Oric Build Instructions To build the Oric-1/Atmos/Telestrat version set the environment variable CC65_HOME with the path to the base cc65 directory i.e: export CC65_HOME=${HOME}/cc65 and use the make command line: make TARGETS=oric CC65TARGET=atmos OPTIONS=optspeed tap This will create a ready to run TAP file: cc65-Chess.tap
About
Portable chess game in C. Commodore 64, Apple 2, MacOS terminal, etc.
Resources
Stars
Watchers
Forks
Packages 0
No packages published
Languages
- C 72.4%
- Assembly 16.5%
- Makefile 7.0%
- C++ 4.1%