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Corewar is a game. It’s about bringing “players” together around a “virtual machine”, which will load some “champions” who will fight against one another with the support of “processes”, with the objective being for these champions to stay “alive”.

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Corewar

Corewar is a very peculiar game. It’s about bringing “players” together around a “virtual machine”, which will load some “champions” who will fight against one another with the support of “processes”, with the objective being for these champions to stay “alive”. The game ends when all the processes are dead. The winner is the last player reported to be “alive”.

This project is made of three parts:

  • The assembler: compile the Champions' code written in pseudo assembly code into binary file (bytecode)

  • The Virtual Machine: manage the arena where the champion's fight. Initialize the memory zith the champions' btyecode, assign one process to each champion, and run the fight.

  • The Champion: fight in the arena and (try) to win.

compile

make

Execute Assembler

./asm [-a] <file.s>

Option:

  • -a : verbose mode

Execute VM

./corewar [-d N -coplkv] <champion1.cor> <...>

Option:

  • -d N : dump memory after N cycles and then exit
  • -c : Show cycles
  • -o : Show operation
  • -p : Show pc movement (except for jumps)
  • -l : Show lives
  • -k : Show deaths
  • -v : Visual output mode. Pipe output to love visu
    • Ex: ./corewar -v <champ.cor> <...> | love visu

Install löve for graphic output:

ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)" < /dev/null 2> /dev/null ; brew install caskroom/cask/brew-cask 2> /dev/null

brew cask install love

Assembly language

Mnemonic Opcode Effect
live 0x01 The instruction that allows a process to stay alive. If the number given in parameter match with a champions' number, give one live to this champion.
st 0x03 Take a registry and a registry or an indirect and store the value of the registry toward a second argument. For example, st r1, 42 store the value of r1 at the address (PC + (42 % IDX_MOD)).
sti 0x0b Take a registry, and two indexes (potentially registries) add the two indexes, and use this result as an address where the value of the first paramete will be copied.
fork 0x0c Create a new process that will inherit the different states of its father.
lfork 0x10 Long fork. Same as fork but with no address restriction.
ld 0x02 Take an argument and a registry. Load the value of the first argument in the registry.
ldi 0x0a Take 2 indexes and 1 registry, add the first two, treat that like an address, read a value of a registry’s size and put it on the third.
lld 0x0d Same as ld, but with no address restriction.
lldi 0x0e Same as ldi, but does not apply any modulo to the addresses.
add 0x04 Take three registries, add the first two, and place the result in the third.
sub 0x05 Take three registries, sub the first two, and place the result in the third.
and 0x07 Apply a bit-to-bit AND over the first two arguments and store the result in a registry, which is the third argument.
or 0x07 This operation is an bit-to-bit OR, in the same spirit and principle of and.
xor 0x07 This operation is an bit-to-bit XOR.
zjmp 0x09 Take an index and jump to this address if the carry is 1.

compatibility

Mac OS

Interface

alt text

About

Corewar is a game. It’s about bringing “players” together around a “virtual machine”, which will load some “champions” who will fight against one another with the support of “processes”, with the objective being for these champions to stay “alive”.

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