1ab252470a
I heard that register VMs might be slightly faster than stack VMs, and then it occurred to me that I wouldn't know how to write a register VM if I tried. So I wrote one (sort of). Change-Id: I15309bca88f4b43f6e04957acedc90d9adf16673 Reviewed-on: https://cl.tvl.fyi/c/depot/+/6902 Reviewed-by: wpcarro <wpcarro@gmail.com> Autosubmit: wpcarro <wpcarro@gmail.com> Tested-by: BuildkiteCI
161 lines
4.4 KiB
Python
161 lines
4.4 KiB
Python
# Silly proof-of-concept register VM.
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def compile_binary_op(op, ast):
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result = []
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for x in compile(ast[1]):
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result.append(x)
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result.append(PUSH_REG)
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result.append(RES)
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for x in compile(ast[2]):
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result.append(x)
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result.append(ASSIGN_REG_REG)
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result.append(Y)
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result.append(RES)
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result.append(POP)
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result.append(X)
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result.append(op)
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return result
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def compile(ast):
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result = []
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if ast[0] == 'CONST':
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result.append(ASSIGN_REG_LIT)
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result.append(RES)
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result.append(ast[1])
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elif ast[0] == 'ADD':
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result += compile_binary_op(ADD, ast)
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elif ast[0] == 'SUB':
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result += compile_binary_op(SUB, ast)
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elif ast[0] == 'MUL':
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result += compile_binary_op(MUL, ast)
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elif ast[0] == 'DIV':
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result += compile_binary_op(DIV, ast)
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elif ast[0] == 'RETURN':
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result.append(RETURN)
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else:
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raise Exception('Cannot compile unknown AST node: {}'.format(ast[0]))
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return result
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# opcodes
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ASSIGN_REG_LIT = 0x0
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ASSIGN_REG_REG = 0x1
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ADD = 0x2
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SUB = 0x3
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MUL = 0x4
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DIV = 0x5
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SWAP = 0x6
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RETURN = 0x7
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PUSH_REG = 0x8
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POP = 0x9
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# register indices
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X = 0x0
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Y = 0x1
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RES = 0x2
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registers = [0x0] * 8
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stack = []
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def reg_name(i):
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if i == X: return 'x'
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if i == Y: return 'x'
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if i == RES: return 'res'
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def print_instructions(xs):
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i = 0
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while i < len(xs):
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if xs[i] == ASSIGN_REG_LIT:
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# print('ASSIGN_REG_LIT {} {}'.format(reg_name(xs[i + 1]), xs[i + 2]))
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print('{} <- {}'.format(reg_name(xs[i + 1]), xs[i + 2]))
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i += 3
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elif xs[i] == ASSIGN_REG_REG:
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# print('ASSIGN_REG_REG {} {}'.format(reg_name(xs[i + 1]), reg_name(xs[i + 2])))
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print('{} <- ${}'.format(reg_name(xs[i + 1]), reg_name(xs[i + 2])))
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i += 3
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elif xs[i] == ADD:
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print('add')
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i += 1
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elif xs[i] == SUB:
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print('sub')
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i += 1
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elif xs[i] == MUL:
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print('mul')
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i += 1
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elif xs[i] == DIV:
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print('div')
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i += 1
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elif xs[i] == PUSH_REG:
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print('push ${}'.format(reg_name(xs[i + 1])))
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i += 2
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elif xs[i] == POP:
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print('{} <- pop'.format(reg_name(xs[i + 1])))
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i += 2
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else:
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raise Exception('Cannot print instruction: {}'.format(xs[i]))
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def eval(instructions):
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print_instructions(instructions)
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ip = 0
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cont = True
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while ip < len(instructions):
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if instructions[ip] == ASSIGN_REG_LIT:
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r = instructions[ip + 1]
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x = instructions[ip + 2]
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registers[r] = x
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ip += 3
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elif instructions[ip] == ASSIGN_REG_REG:
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r_dst = instructions[ip + 1]
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r_src = instructions[ip + 2]
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registers[r_dst] = registers[r_src]
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ip += 3
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elif instructions[ip] == ADD:
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registers[RES] = registers[X] + registers[Y]
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ip += 1
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elif instructions[ip] == MUL:
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registers[RES] = registers[X] * registers[Y]
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ip += 1
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elif instructions[ip] == SUB:
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registers[RES] = registers[X] - registers[Y]
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ip += 1
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elif instructions[ip] == MUL:
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registers[RES] = registers[X] * registers[Y]
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ip += 1
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elif instructions[ip] == DIV:
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registers[RES] = registers[X] / registers[Y]
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ip += 1
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elif instructions[ip] == SWAP:
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r1 = instructions[ip + 1]
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r2 = instructions[ip + 2]
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registers[r1], registers[r2] = registers[r2], registers[r1]
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ip += 3
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elif instructions[ip] == RETURN:
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ip += 1
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cont = False
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return registers[RES]
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elif instructions[ip] == PUSH_REG:
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src = instructions[ip + 1]
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stack.append(registers[src])
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ip += 2
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elif instructions[ip] == POP:
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dst = instructions[ip + 1]
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registers[dst] = stack.pop()
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ip += 2
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else:
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raise Exception('Cannot eval instruction: {}'.format(instructions[ip]))
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return registers[RES]
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def main():
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ast = ['ADD',
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['MUL',
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['MUL', ['CONST', 2], ['CONST', 3]],
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['DIV', ['CONST', 5], ['CONST', 5]]],
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['ADD',
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['SUB', ['CONST', 10], ['CONST', 1]],
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['MUL', ['CONST', 2], ['CONST', 2]]]]
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print('result: {}'.format(eval(compile(ast))))
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main()
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