import hashlib from klvm_rs import Program from klvm.EvalError import EvalError MOD_A = Program.from_bytes(bytes.fromhex(open("rockpaperscissorsa.klvm.hex").read())) MOD_B = Program.from_bytes(bytes.fromhex(open("rockpaperscissorsb.klvm.hex").read())) MOD_C = Program.from_bytes(bytes.fromhex(open("rockpaperscissorsc.klvm.hex").read())) MOD_D = Program.from_bytes(bytes.fromhex(open("rockpaperscissorsd.klvm.hex").read())) def drun(prog: Program, *args: Program): try: return prog.run(*args) except EvalError as ee: print(f"brun -x -y main.sym {prog} {Program.to(list(args))}") raise def sha256(blob:bytes) -> bytes: return hashlib.sha256(blob).digest() def testrps(amove, bmove): total = 100 alice_final = (total//2 if amove == bmove else (0 if bmove == (amove + 1) % 3 else total)) alice_preimage = Program.to(60 + amove) bob_preimage = Program.to(60 + bmove) alice_image = sha256(alice_preimage.atom) bob_image = sha256(bob_preimage.atom) alice_move = Program.to(amove) cd = MOD_D.curry(alice_move, bob_image) assert cd.run([total, bob_preimage, b'', alice_final, b'j']).atom == b'j' cc = MOD_C.curry(alice_image, bob_image) assert cc.run([total, alice_preimage, cd.tree_hash(), 0, b'j']).atom == b'j' cb = MOD_B.curry(alice_image) assert cb.run([total, bob_image, cc.tree_hash(), 0, b'j']).atom == b'j' assert MOD_A.run([total, alice_image, cb.tree_hash(), 0, b'j']).atom == b'j' def testall(): for i in range(3): for j in range(3): testrps(i, j) if __name__ == '__main__': testall()