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- #!/usr/bin/env python
- # -*- coding: utf-8 -*-
-
- # Copyright (C) 2014-2015 Ben Kurtovic <ben.kurtovic@gmail.com>
- # Released under the terms of the MIT License. See LICENSE for details.
-
- """
- This script generates 'src/assembler/instructions.inc.c' from
- 'src/assembler/instructions.yml'. It should be run automatically by make
- when the latter is modified, but can also be run manually.
- """
-
- from __future__ import print_function
-
- from itertools import product
- import re
- import time
-
- SOURCE = "src/assembler/instructions.yml"
- DEST = "src/assembler/instructions.inc.c"
-
- ENCODING = "utf8"
- TAB = " " * 4
-
- try:
- import yaml
- except ImportError:
- print("Error: PyYAML is required (https://pypi.python.org/pypi/PyYAML)\n"
- "If you don't want to rebuild {0}, do:\n`make -t {0}`".format(DEST))
- exit(1)
-
- re_date = re.compile(r"^(\s*@AUTOGEN_DATE\s*)(.*?)$", re.M)
- re_inst = re.compile(
- r"(/\* @AUTOGEN_INST_BLOCK_START \*/\n*)(.*?)"
- r"(\n*/\* @AUTOGEN_INST_BLOCK_END \*/)", re.S)
- re_lookup = re.compile(
- r"(/\* @AUTOGEN_LOOKUP_BLOCK_START \*/\n*)(.*?)"
- r"(\n*/\* @AUTOGEN_LOOKUP_BLOCK_END \*/)", re.S)
-
- class Instruction(object):
- """
- Represent a single ASM instruction mnemonic.
- """
- ARG_TYPES = {
- "register": "AT_REGISTER",
- "immediate": "AT_IMMEDIATE",
- "indirect": "AT_INDIRECT",
- "indexed": "AT_INDEXED",
- "condition": "AT_CONDITION",
- "port": "AT_PORT"
- }
- PSEUDO_TYPES = {
- "indirect_hl_or_indexed": ["AT_INDIRECT", "AT_INDEXED"]
- }
-
- def __init__(self, name, data):
- self._name = name
- self._data = data
- self._has_optional_args = False
-
- def _get_arg_parse_mask(self, num):
- """
- Return the appropriate mask to parse_args() for the num-th argument.
- """
- types = set()
- optional = False
- for case in self._data["cases"]:
- if num < len(case["type"]):
- atype = case["type"][num]
- if atype in self.ARG_TYPES:
- types.add(self.ARG_TYPES[atype])
- else:
- types.update(self.PSEUDO_TYPES[atype])
- else:
- optional = True
-
- if not types:
- return "AT_NONE"
- if optional:
- types.add("AT_OPTIONAL")
- self._has_optional_args = True
- return "|".join(sorted(types))
-
- def _handle_return(self, ret, indent=1):
- """
- Return code to handle an instruction return statement.
- """
- data = ", ".join("0x%02X" % byte if isinstance(byte, int) else byte
- for byte in ret)
- return TAB * indent + "INST_RETURN({0}, {1})".format(len(ret), data)
-
- def _build_case_type_check(self, args):
- """
- Return the test part of an if statement for an instruction case.
- """
- conds = ["INST_TYPE({0}) == {1}".format(i, self.ARG_TYPES[cond])
- for i, cond in enumerate(args)]
- check = " && ".join(conds)
-
- if self._has_optional_args:
- return "INST_NARGS == {0} && ".format(len(args)) + check
- return check
-
- def _build_register_check(self, num, cond):
- """
- Return an expression to check for a particular register value.
- """
- return "INST_REG({0}) == REG_{1}".format(num, cond.upper())
-
- def _build_immediate_check(self, num, cond):
- """
- Return an expression to check for a particular immediate value.
- """
- if "." in cond:
- itype, value = cond.split(".", 1)
- try:
- value = int(value)
- except ValueError:
- value = int(value, 16)
- vtype = "sval" if itype.upper() in ["S8", "REL"] else "uval"
-
- test1 = "INST_IMM({0}).mask & IMM_{1}".format(num, itype.upper())
- if (itype.upper() == "U16"):
- test1 += " && !INST_IMM({0}).is_label".format(num)
- test2 = "INST_IMM({0}).{1} == {2}".format(num, vtype, value)
- return "({0} && {1})".format(test1, test2)
-
- return "INST_IMM({0}).mask & IMM_{1}".format(num, cond.upper())
-
- def _build_indirect_check(self, num, cond):
- """
- Return an expression to check for a particular indirect value.
- """
- if cond.startswith("reg."):
- test1 = "INST_INDIRECT({0}).type == AT_REGISTER".format(num)
- test2 = "INST_INDIRECT({0}).addr.reg == REG_{1}".format(
- num, cond[len("reg."):].upper())
- return "({0} && {1})".format(test1, test2)
-
- if cond == "imm" or cond == "immediate":
- return "INST_INDIRECT({0}).type == AT_IMMEDIATE".format(num)
-
- err = "Unknown condition for indirect argument: {0}"
- return RuntimeError(err.format(cond))
-
- def _build_indexed_check(self, num, cond):
- """
- Return an expression to check for a particular indexed value.
- """
- raise RuntimeError("The indexed arg type does not support conditions")
-
- def _build_condition_check(self, num, cond):
- """
- Return an expression to check for a particular condition value.
- """
- return "INST_COND({0}) == COND_{1}".format(num, cond.upper())
-
- def _build_port_check(self, num, cond):
- """
- Return an expression to check for a particular port value.
- """
- if cond.startswith("reg."):
- test1 = "INST_PORT({0}).type == AT_REGISTER".format(num)
- test2 = "INST_PORT({0}).port.reg == REG_{1}".format(
- num, cond[len("reg."):].upper())
- return "({0} && {1})".format(test1, test2)
-
- if cond == "imm" or cond == "immediate":
- return "INST_PORT({0}).type == AT_IMMEDIATE".format(num)
-
- err = "Unknown condition for port argument: {0}"
- return RuntimeError(err.format(cond))
-
- _SUBCASE_LOOKUP_TABLE = {
- "register": _build_register_check,
- "immediate": _build_immediate_check,
- "indirect": _build_indirect_check,
- "indexed": _build_indexed_check,
- "condition": _build_condition_check,
- "port": _build_port_check
- }
-
- def _build_subcase_check(self, types, conds):
- """
- Return the test part of an if statement for an instruction subcase.
- """
- conds = [self._SUBCASE_LOOKUP_TABLE[types[i]](self, i, cond)
- for i, cond in enumerate(conds) if cond != "_"]
- return " && ".join(conds)
-
- def _iter_permutations(self, types, conds):
- """
- Iterate over all permutations of the given subcase conditions.
- """
- def split(typ, cond):
- if "|" in cond:
- splits = [split(typ, c) for c in cond.split("|")]
- merged = [choice for s in splits for choice in s]
- if len(merged) != len(set(merged)):
- msg = "Repeated conditions for {0}: {1}"
- raise RuntimeError(msg.format(typ, cond))
- return merged
- if typ == "register":
- if cond == "i":
- return ["ix", "iy"]
- if cond == "ih":
- return ["ixh", "iyh"]
- if cond == "il":
- return ["ixl", "iyl"]
- return [cond]
-
- splits = [split(typ, cond) for typ, cond in zip(types, conds)]
- num = max(len(cond) for cond in splits)
-
- if any(1 < len(cond) < num for cond in splits):
- msg = "Invalid condition permutations: {0}"
- raise RuntimeError(msg.format(conds))
-
- choices = [cond * num if len(cond) == 1 else cond for cond in splits]
- return zip(*choices)
-
- def _adapt_return(self, types, conds, ret):
- """
- Return a modified byte list to accomodate for prefixes and immediates.
- """
- ret = ret[:]
- for i, byte in enumerate(ret):
- if not isinstance(byte, int):
- if byte == "u8":
- index = types.index("immediate")
- ret[i] = "INST_IMM({0}).uval".format(index)
-
- elif byte == "u16":
- if i < len(ret) - 1:
- raise RuntimeError("U16 return byte must be last")
- try:
- index = types.index("immediate")
- imm = "INST_IMM({0})".format(index)
- except ValueError:
- indir = types.index("indirect")
- if not conds[indir].startswith("imm"):
- msg = "Passing non-immediate indirect as immediate"
- raise RuntimeError(msg)
- imm = "INST_INDIRECT({0}).addr.imm".format(indir)
- ret[i] = "INST_IMM_U16_B1({0})".format(imm)
- ret.append("INST_IMM_U16_B2({0})".format(imm))
- break
-
- elif byte == "rel":
- index = types.index("immediate")
- ret[i] = "INST_IMM({0}).sval - 2".format(index)
-
- else:
- msg = "Unsupported return byte: {0}"
- raise RuntimeError(msg.format(byte))
-
- for i, cond in enumerate(conds):
- if types[i] == "register" and cond[0] == "i":
- prefix = "INST_I{0}_PREFIX".format(cond[1].upper())
- if ret[0] != prefix:
- ret.insert(0, prefix)
- elif types[i] == "indexed":
- ret.insert(0, "INST_INDEX_PREFIX({0})".format(i))
- ret.insert(2, "INST_INDEX({0}).offset".format(i))
-
- return ret
-
- def _handle_pseudo_case(self, pseudo, case):
- """
- Return code to handle an instruction pseudo-case.
-
- Pseudo-cases are cases that have pseudo-types as arguments. This means
- they are expanded to cover multiple "real" argument types.
- """
- index = case["type"].index(pseudo)
-
- if pseudo == "indirect_hl_or_indexed":
- case["type"][index] = "indexed"
- indexed = self._handle_case(case)
-
- case["type"][index] = "indirect"
- indirect = self._handle_case(case)
- base_cond = self._build_case_type_check(case["type"])
- hl_reg = TAB * 3 + self._build_indirect_check(index, "reg.hl")
- indirect[0] = TAB + "if ({0} &&\n{1}) {{".format(base_cond, hl_reg)
-
- return indirect + indexed
-
- raise RuntimeError("Unknown pseudo-type: {0}".format(pseudo))
-
- def _handle_case(self, case):
- """
- Return code to handle an instruction case.
- """
- ctype = case["type"]
- for pseudo in self.PSEUDO_TYPES:
- if pseudo in ctype:
- return self._handle_pseudo_case(pseudo, case)
-
- lines = []
- cond = self._build_case_type_check(ctype)
- lines.append(TAB + "if ({0}) {{".format(cond))
-
- subcases = [(perm, sub["return"]) for sub in case["cases"]
- for perm in self._iter_permutations(ctype, sub["cond"])]
- for cond, ret in subcases:
- check = self._build_subcase_check(ctype, cond)
- ret = self._adapt_return(ctype, cond, ret)
- if check:
- lines.append(TAB * 2 + "if ({0})".format(check))
- lines.append(self._handle_return(ret, 3))
- else:
- lines.append(self._handle_return(ret, 2))
- break # Unconditional subcase
- else:
- lines.append(TAB * 2 + "INST_ERROR(ARG_VALUE)")
-
- lines.append(TAB + "}")
- return lines
-
- def render(self):
- """
- Convert data for an individual instruction into a C parse function.
- """
- lines = []
-
- if self._data["args"]:
- lines.append("{tab}INST_TAKES_ARGS(\n{tab2}{0},\n{tab2}{1},"
- "\n{tab2}{2}\n{tab})".format(
- self._get_arg_parse_mask(0), self._get_arg_parse_mask(1),
- self._get_arg_parse_mask(2), tab=TAB, tab2=TAB * 2))
- else:
- lines.append(TAB + "INST_TAKES_NO_ARGS")
-
- if "return" in self._data:
- lines.append(self._handle_return(self._data["return"]))
- elif "cases" in self._data:
- for case in self._data["cases"]:
- lines.extend(self._handle_case(case))
- lines.append(TAB + "INST_ERROR(ARG_TYPE)")
- else:
- msg = "Missing return or case block for {0} instruction"
- raise RuntimeError(msg.format(self._name))
-
- contents = "\n".join(lines)
- return "INST_FUNC({0})\n{{\n{1}\n}}".format(self._name, contents)
-
-
- def build_inst_block(data):
- """
- Return the instruction parser block, given instruction data.
- """
- return "\n\n".join(
- Instruction(k, v).render() for k, v in sorted(data.items()))
-
- def build_lookup_block(data):
- """
- Return the instruction lookup block, given instruction data.
- """
- macro = TAB + "HANDLE({0})"
- return "\n".join(macro.format(inst) for inst in sorted(data.keys()))
-
- def process(template, data):
- """
- Return C code generated from a source template and instruction data.
- """
- inst_block = build_inst_block(data)
- lookup_block = build_lookup_block(data)
- date = time.asctime(time.gmtime())
-
- result = re_date.sub(r"\1{0} UTC".format(date), template)
- result = re_inst.sub(r"\1{0}\3".format(inst_block), result)
- result = re_lookup.sub(r"\1{0}\3".format(lookup_block), result)
- return result
-
- def main():
- """
- Main script entry point.
- """
- with open(SOURCE, "r") as fp:
- text = fp.read().decode(ENCODING)
- with open(DEST, "r") as fp:
- template = fp.read().decode(ENCODING)
-
- data = yaml.load(text)
- result = process(template, data)
-
- with open(DEST, "w") as fp:
- fp.write(result.encode(ENCODING))
-
- if __name__ == "__main__":
- main()
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