planckforth/others/planck.py
Koichi Nakamura c6fdc53d21 Add "V"
2021-01-09 23:39:29 +09:00

277 lines
5.9 KiB
Python

#!/usr/bin/env python3
# planck -
# Copyright (C) 2021 nineties
#
import os
import sys
import operator
VERSION = "Python 3.x implementation"
MEMORY_SIZE = 0x20000
STACK_SIZE = 0x400
RSTACK_SIZE = 0x400
HERE_CELL = 0
LATEST_CELL = 4
memory = [0]*(MEMORY_SIZE>>2)
sp = MEMORY_SIZE>>2
rp = (MEMORY_SIZE - STACK_SIZE)>>2
ip = 0
np = 0
def aligned(n):
return (n + 4 - 1) & ~(4 - 1)
def align():
write(HERE_CELL, aligned(read(HERE_CELL)))
def read(addr):
return memory[addr>>2]
def write(addr, v):
memory[addr>>2] = v
def comma(v):
here = read(HERE_CELL)
write(here, v)
write(HERE_CELL, here + 4)
def read_byte(addr):
i = addr>>2
m = (addr&0x3)*8
v = memory[i]
return (v >> m) & 0xff
def write_byte(addr, c):
i = addr>>2
m = (addr&0x3)*8
v = memory[i]
memory[i] = (v & ~(0xff << m)) | (c&0xff) << m
def comma_byte(v):
here = read(HERE_CELL)
write_byte(here, v)
write(HERE_CELL, here + 1)
def comma_string(s):
for c in s:
comma_byte(ord(c))
comma_byte(0)
def write_string(addr, s):
for c in s:
write_byte(addr, c)
addr += 1
def read_string(addr):
s = ""
while True:
c = read_byte(addr)
if c == 0: break
s += chr(c)
addr += 1
return s
def read_bytes(addr, n):
data = []
for i in range(n):
data.append(read_byte(addr))
addr += 1
return bytes(data)
def find(c):
it = read(LATEST_CELL)
while it != 0:
n = read_byte(it + 4)
C = chr(read_byte(it + 4 + 1))
if (c == C and n == 1):
return it + 2*4
it = read(it)
raise Exception('Unknown word: {}'.format(c))
def push(v):
global sp
sp -= 4
write(sp, v)
def pop():
global sp
v = read(sp)
sp += 4
return v
def rpush(v):
global rp
rp -= 4
write(rp, v)
def rpop():
global rp
v = read(rp)
rp += 4
return v
operators = []
def add_operator(name, func):
funcid = len(operators)
here = read(HERE_CELL)
latest = read(LATEST_CELL)
write(LATEST_CELL, here)
comma(latest)
comma_byte(len(name))
comma_string(name)
align()
comma(funcid)
operators.append(func)
return funcid
def next(np):
return read(np), np + 4
def add_simple_operator(name, func):
def func_(ip, np):
func()
return next(np)
return add_operator(name, func_)
def add_binary_operator(name, op):
def func():
b = pop()
push(op(pop(), b))
return add_simple_operator(name, func)
write(HERE_CELL, 2*4)
write(LATEST_CELL, 0)
# Store command line arguments
argv_addrs = []
for arg in sys.argv:
argv_addrs.append(read(HERE_CELL))
comma_string(arg)
align()
ARGV_ADDR = read(HERE_CELL)
for addr in argv_addrs:
comma(addr)
# Version String
VERSION_ADDR = read(HERE_CELL)
comma_string(VERSION)
align()
def docol(ip, np):
rpush(np)
return next(ip + 4)
DOCOL_ID = add_operator('', docol)
add_simple_operator('Q', lambda: exit(0))
add_simple_operator('C', lambda: push(4))
add_simple_operator('h', lambda: push(HERE_CELL))
add_simple_operator('l', lambda: push(LATEST_CELL))
def key():
c = sys.stdin.read(1)
if c:
push(ord(c))
else:
exit(0)
add_simple_operator('k', key)
add_simple_operator('t', lambda: sys.stdout.write(chr(pop())))
add_operator('j', lambda ip,np: next(np + read(np)))
add_operator('J', lambda ip,np: next(np + (4 if pop() else read(np))))
add_simple_operator('f', lambda: push(find(chr(pop()))))
add_operator('x', lambda ip,np: (pop(), np))
add_simple_operator('@', lambda: push(read(pop())))
# NB: Python evaluates expressions from left to right
# https://docs.python.org/3/reference/expressions.html#evaluation-order
add_simple_operator('!', lambda: write(pop(), pop()))
add_simple_operator('?', lambda: push(read_byte(pop())))
add_simple_operator('$', lambda: write_byte(pop(), pop()))
add_simple_operator('d', lambda: push(sp))
def set_sp():
global sp
sp = pop()
add_simple_operator('D', set_sp)
add_simple_operator('r', lambda: push(rp))
def set_rp():
global rp
rp = pop()
add_simple_operator('R', set_rp)
add_simple_operator('i', lambda: push(DOCOL_ID))
add_operator('e', lambda ip,np: next(rpop()))
def lit(ip, np):
push(read(np))
return next(np + 4)
add_operator('L', lit)
def litstring(ip, np):
push(np + 4)
return next(np + 4 + read(np))
add_operator('S', litstring)
add_binary_operator('+', operator.add)
add_binary_operator('-', operator.sub)
add_binary_operator('*', operator.mul)
add_binary_operator('/', operator.floordiv)
add_binary_operator('%', operator.mod)
add_binary_operator('&', operator.and_)
add_binary_operator('|', operator.or_)
add_binary_operator('^', operator.xor)
add_binary_operator('<', operator.lt)
add_binary_operator('=', operator.eq)
def argv():
push(ARGV_ADDR)
push(len(sys.argv))
add_simple_operator('v', argv)
add_simple_operator('V', lambda: push(VERSION_ADDR))
SUCCESS = 0
ALLOCATE_ERROR = -59
CLOSE_FILE_ERROR = -62
OPEN_FILE_ERROR = -69
READ_FILE_ERROR = -70
WRITE_FILE_ERROR = -75
def openfile():
flag = pop()
name = read_string(pop())
fd = os.open(name, flag)
push(fd)
def closefile():
fd = pop()
os.close(fd)
push(0)
def readfile():
fd = pop()
size = pop()
addr = pop()
s = os.read(fd, size)
write_string(addr, s)
push(len(s))
def writefile():
fd = pop()
size = pop()
addr = pop()
n = os.write(fd, read_bytes(addr, size))
push(n)
add_simple_operator('(open)', openfile)
add_simple_operator('(close)', closefile)
add_simple_operator('(write)', writefile)
add_simple_operator('(read)', readfile)
def allocate():
size = pop()
n = (size + 4 - 1) // 4
addr = len(memory)*4
memory.extend([0]*n)
push(addr)
add_simple_operator('(allocate)', allocate)
start = read(HERE_CELL)
comma(find('k'))
comma(find('f'))
comma(find('x'))
comma(find('j'))
comma(-4*4)
ip, np = next(start)
while True:
ip, np = operators[read(ip)](ip, np)