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133 lines
4.6 KiB
Python
133 lines
4.6 KiB
Python
import re
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from py65.utils.addressing import AddressParser
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class Assembler:
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Statement = re.compile(r'^([A-z]{3}[0-7]?\s+'
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r'\(?\s*)([^,\s\)]+)(\s*[,xXyY\s]*\)?'
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r'[,xXyY\s]*)$')
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Addressing = (
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('zpi', "($00FF)"),
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('zpx', "$00FF,X"),
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('zpy', "$00FF,Y"),
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('zpg', "$00FF"),
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('inx', "($00FF,X)"),
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('iax', "($FFFF,X)"),
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('iny', "($00FF),Y"),
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('ind', "($FFFF)"),
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('abx', "$FFFF,X"),
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('aby', "$FFFF,Y"),
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('abs', "$FFFF"),
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('rel', "$FFFF"),
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('imp', ""),
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('acc', ""),
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('acc', "A"),
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('imm', "#$FF")
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)
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def __init__(self, mpu, address_parser=None):
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""" If a configured AddressParser is passed, symbolic addresses
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may be used in the assembly statements.
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"""
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self._mpu = mpu
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if address_parser is None:
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address_parser = AddressParser()
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self._address_parser = address_parser
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self._addressing = []
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numchars = mpu.BYTE_WIDTH / 4 # 1 byte = 2 chars in hex
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for mode, format in self.Addressing:
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pat = "^" + re.escape(format) + "$"
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pat = pat.replace('00', '0{%d}' % numchars)
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pat = pat.replace('FF', '([0-9A-F]{%d})' % numchars)
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self._addressing.append([mode, re.compile(pat)])
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def assemble(self, statement, pc=0000):
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""" Assemble the given assembly language statement. If the statement
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uses relative addressing, the program counter (pc) must also be given.
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The result is a list of bytes. Raises when assembly fails.
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"""
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opcode, operand = self.normalize_and_split(statement)
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for mode, pattern in self._addressing:
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match = pattern.match(operand)
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if match:
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# check if opcode supports this addressing mode
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try:
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bytes = [self._mpu.disassemble.index((opcode, mode))]
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except ValueError:
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continue
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operands = match.groups()
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if mode == 'rel':
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# relative branch
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absolute = int(''.join(operands), 16)
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relative = (absolute - pc) - 2
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relative = relative & self._mpu.byteMask
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operands = [(self._mpu.BYTE_FORMAT % relative)]
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elif len(operands) == 2:
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# swap bytes
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operands = (operands[1], operands[0])
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operands = [int(hex, 16) for hex in operands]
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bytes.extend(operands)
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# raise if the assembled bytes would exceed top of memory
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if (pc + len(bytes)) > (2 ** self._mpu.ADDR_WIDTH):
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raise OverflowError
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return bytes
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# assembly failed
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raise SyntaxError(statement)
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def normalize_and_split(self, statement):
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""" Given an assembly language statement like "lda $c12,x", normalize
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the statement by uppercasing it, removing unnecessary whitespace,
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and parsing the address part using AddressParser. The result of
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the normalization is a tuple of two strings (opcode, operand).
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"""
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statement = ' '.join(statement.split())
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# normalize target in operand
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match = self.Statement.match(statement)
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if match:
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before, target, after = match.groups()
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# target is an immediate value
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if target.startswith('#'):
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try:
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if target[1] in ("'", '"'): # quoted ascii character
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number = ord(target[2])
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else:
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number = self._address_parser.number(target[1:])
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except IndexError:
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raise SyntaxError(statement)
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if (number < 0) or (number > self._mpu.byteMask):
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raise OverflowError
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statement = before + '#$' + self._mpu.BYTE_FORMAT % number
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# target is the accumulator
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elif target in ('a', 'A'):
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pass
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# target is an address or label
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else:
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address = self._address_parser.number(target)
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statement = before + '$' + self._mpu.ADDR_FORMAT % address + after
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# separate opcode and operand
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splitted = statement.split(" ", 2)
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opcode = splitted[0].strip().upper()
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if len(splitted) > 1:
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operand = splitted[1].strip().upper()
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else:
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operand = ''
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return (opcode, operand)
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