Mercurial > lcfOS

view python/ppci/assembler.py @ 377:9667d78ba79e

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Switched to xml for project description
author Windel Bouwman
date Fri, 11 Apr 2014 15:47:50 +0200
parents 19eacf4f7270
children 6df89163e114
line wrap: on
line source


import re
import pyyacc
from . import Token, CompilerError, SourceLocation
from .target import Target, Label


def bit_type(value):
    assert value < (2**32)
    assert value >= 0
    t = 'val32'
    for n in [16, 12, 8, 5, 3]:
        if value < (2**n):
            t = 'val{}'.format(n)
    return t

def tokenize(s, kws):
    """
       Tokenizer, generates an iterator that
       returns tokens!

       This GREAT example was taken from python re doc page!
    """
    tok_spec = [
       ('REAL', r'\d+\.\d+'),
       ('HEXNUMBER', r'0x[\da-fA-F]+'),
       ('NUMBER', r'\d+'),
       ('ID', r'[A-Za-z][A-Za-z\d_]*'),
       ('SKIP', r'[ \t]'),
       ('LEESTEKEN', r':=|[\.,=:\-+*\[\]/\(\)]|>=|<=|<>|>|<|}|{'),
       ('STRING', r"'.*?'"),
       ('COMMENT', r";.*")
    ]
    tok_re = '|'.join('(?P<%s>%s)' % pair for pair in tok_spec)
    gettok = re.compile(tok_re).match
    line = 1
    pos = line_start = 0
    mo = gettok(s)
    while mo is not None:
       typ = mo.lastgroup
       val = mo.group(typ)
       if typ == 'NEWLINE':
         line_start = pos
         line += 1
       elif typ != 'SKIP':
         if typ == 'LEESTEKEN':
           typ = val
         elif typ == 'NUMBER':
           val = int(val)
         elif typ == 'HEXNUMBER':
           val = int(val[2:], 16)
           typ = 'NUMBER'
         elif typ == 'REAL':
           val = float(val)
         elif typ == 'STRING':
           val = val[1:-1]
         elif typ == 'ID':
            if val.lower() in kws: # ['r3', 'sp', 'add', 'yield', 'r4', 'r0', 'r1', 'sub', 'r5', 'r6', 'r2']:
                typ = val.lower()
         col = mo.start() - line_start
         loc = SourceLocation('', line, col, 0)   # TODO retrieve length?
         if typ == 'NUMBER':
            typ = bit_type(val)
         yield Token(typ, val, loc)
       pos = mo.end()
       mo = gettok(s, pos)
    if pos != len(s):
       col = pos - line_start
       loc = SourceLocation('', line, col, 0)
       raise CompilerError('Unexpected character {0}'.format(s[pos]), loc)
    yield Token('EOF', pyyacc.EOF)


class Lexer:
    def __init__(self, src, kws):
        self.tokens = tokenize(src, kws)
        self.curTok = self.tokens.__next__()

    def next_token(self):
        t = self.curTok
        if t.typ != 'EOF':
            self.curTok = self.tokens.__next__()
        return t


class Parser:
    def add_rule(self, prod, rhs, f):
        """ Helper function to add a rule, why this is required? """
        if prod == 'instruction':
            def f_wrap(*args):
                i = f(args)
                self.emit(i)
        else:
            def f_wrap(*rhs):
                return f(rhs)
        self.g.add_production(prod, rhs, f_wrap)

    def __init__(self, kws, instruction_rules, emit):
        # Construct a parser given a grammar:
        tokens2 = ['ID', 'NUMBER', ',', '[', ']', ':', '+', '-', '*', '=',
                   pyyacc.EPS, 'COMMENT', '{', '}',
                   pyyacc.EOF, 'val32', 'val16', 'val12', 'val8', 'val5', 'val3']
        tokens2.extend(kws)
        self.kws = kws
        g = pyyacc.Grammar(tokens2)
        self.g = g
        # Global structure of assembly line:
        g.add_production('asmline', ['asmline2'])
        g.add_production('asmline', ['asmline2', 'COMMENT'])
        g.add_production('asmline2', ['label', 'instruction'])
        g.add_production('asmline2', ['instruction'])
        g.add_production('asmline2', ['label'])
        g.add_production('asmline2', [])
        g.add_production('label', ['ID', ':'], self.p_label)
        #g.add_production('label', [])

        # Add instruction rules for the target in question:
        for prod, rhs, f in instruction_rules:
            self.add_rule(prod, rhs, f)

        #g.add_production('instruction', [])
        g.start_symbol = 'asmline'
        self.emit = emit
        self.p = g.generate_parser()
        # print('length of table:', len(self.p.action_table))

    # Parser handlers:

    def p_label(self, lname, cn):
        lab = Label(lname.val)
        self.emit(lab)

    def parse(self, lexer):
        self.p.parse(lexer)


class Assembler:
    def __init__(self, target):
        self.target = target
        assert isinstance(target, Target)
        self.parser = Parser(target.asm_keywords, target.assembler_rules, self.emit)

    def emit(self, *args):
        self.stream.emit(*args)

    # Top level interface:
    def parse_line(self, line):
        """ Parse line into assembly instructions """
        tokens = Lexer(line, self.target.asm_keywords)
        self.parser.parse(tokens)

    def assemble(self, asmsrc, stream):
        """ Assemble this source snippet """
        if hasattr(asmsrc, 'read'):
            asmsrc2 = asmsrc.read()
            asmsrc.close()
            asmsrc = asmsrc2
        # TODO: use generic newline??
        # TODO: the bothersome newline ...
        self.stream = stream
        for line in asmsrc.split('\n'):
            self.parse_line(line)
        self.stream = None