Mercurial > lcfOS

view python/ppci/target/basetarget.py @ 352:899ae3aea803

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
First kernel run for vexpressA9
author Windel Bouwman
date Sun, 09 Mar 2014 11:55:55 +0100
parents 3bb7dcfe5529
children 5477e499b039
line wrap: on
line source

from ppci import CompilerError

"""
  Base classes for defining a target
"""

class Instruction:
    """ Base instruction class """
    def encode(self):
        return bytes()

    def relocations(self):
        return []

    def symbols(self):
        return []


class Nop(Instruction):
    """ Instruction that does nothing and has zero size """
    def encode(self):
        return bytes()


class PseudoInstruction(Instruction):
    pass


class Label(PseudoInstruction):
    def __init__(self, name):
        self.name = name

    def __repr__(self):
        return '{}:'.format(self.name)

    def symbols(self):
        return [self.name]


class Comment(PseudoInstruction):
    def __init__(self, txt):
        self.txt = txt

    def encode(self):
        return bytes()

    def __repr__(self):
        return '; {}'.format(self.txt)


class Alignment(PseudoInstruction):
    def __init__(self, a):
        self.align = a

    def __repr__(self):
        return 'ALIGN({})'.format(self.align)

    def encode(self):
        pad = []
        # TODO
        address = 0
        while (address % self.align) != 0:
            address += 1
            pad.append(0)
        return bytes(pad)


class DebugInfo(PseudoInstruction):
    def __init__(self, i):
        self.info = i

    def __repr__(self):
        return 'DebugInfo: {}'.format(self.info)


class Register:
    def __init__(self, name):
        self.name = name


class Target:
    def __init__(self, name, desc=''):
        self.name = name
        self.desc = desc
        self.registers = []
        self.byte_sizes = {'int' : 4}  # For front end!

        # For lowering:
        self.lower_functions = {}

        # For assembler:
        self.assembler_rules = []
        self.asm_keywords = []

        self.generate_base_rules()

    def generate_base_rules(self):
        # Base rules for constants:
        self.add_rule('imm32', ['val32'], lambda x: x[0].val)
        self.add_rule('imm32', ['imm16'], lambda x: x[0])

        self.add_rule('imm16', ['val16'], lambda x: x[0].val)
        self.add_rule('imm16', ['imm12'], lambda x: x[0])

        self.add_rule('imm12', ['val12'], lambda x: x[0].val)
        self.add_rule('imm12', ['imm8'], lambda x: x[0])

        self.add_rule('imm8', ['val8'], lambda x: x[0].val)
        self.add_rule('imm8', ['imm5'], lambda x: x[0])

        self.add_rule('imm5', ['val5'], lambda x: x[0].val)
        self.add_rule('imm5', ['imm3'], lambda x: x[0])

        self.add_rule('imm3', ['val3'], lambda x: x[0].val)

    def add_keyword(self, kw):
        self.asm_keywords.append(kw)

    def add_instruction(self, rhs, f):
        self.add_rule('instruction', rhs, f)

    def add_rule(self, lhs, rhs, f):
        self.assembler_rules.append((lhs, rhs, f))

    def lower_frame_to_stream(self, frame, outs):
        """ Lower instructions from frame to output stream """
        for im in frame.instructions:
            if isinstance(im.assem, Instruction):
                outs.emit(im.assem)
            else:
                ins = self.lower_functions[im.assem](im)
                outs.emit(ins)

    def add_lowering(self, cls, f):
        """ Add a function to the table of lowering options for this target """
        self.lower_functions[cls] = f