mirror of
https://github.com/irmen/prog8.git
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573 lines
30 KiB
Python
573 lines
30 KiB
Python
"""
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Programming Language for 6502/6510 microprocessors, codename 'Sick'
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This is the compiler of the IL65 code, that prepares the parse tree for code generation.
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Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
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"""
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import re
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import os
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import sys
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import linecache
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from typing import Optional, Tuple, Set, Dict, List, Any, no_type_check
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import attr
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from .plyparse import parse_file, ParseError, Module, Directive, Block, Subroutine, Scope, VarDef, LiteralValue, \
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SubCall, Goto, Return, Assignment, InlineAssembly, Register, Expression, ProgramFormat, ZpOptions,\
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SymbolName, Dereference, AddressOf, IncrDecr, AstNode, datatype_of, coerce_constant_value, \
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check_symbol_definition, UndefinedSymbolError, process_expression, AugAssignment
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from .plylex import SourceRef, print_bold
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from .datatypes import DataType, VarType
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class CompileError(Exception):
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pass
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class PlyParser:
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def __init__(self, imported_module: bool=False) -> None:
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self.parse_errors = 0
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self.imported_module = imported_module
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def parse_file(self, filename: str) -> Module:
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print("parsing:", filename)
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module = None
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try:
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module = parse_file(filename, self.lexer_error)
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self.check_directives(module)
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self.process_imports(module)
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self.check_all_symbolnames(module)
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self.create_multiassigns(module)
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self.check_and_merge_zeropages(module)
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self.process_all_expressions(module)
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if not self.imported_module:
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# the following shall only be done on the main module after all imports have been done:
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self.apply_directive_options(module)
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self.determine_subroutine_usage(module)
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self.semantic_check(module)
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self.allocate_zeropage_vars(module)
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except ParseError as x:
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self.handle_parse_error(x)
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if self.parse_errors:
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print_bold("\nNo output; there were {:d} errors.\n".format(self.parse_errors))
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raise SystemExit(1)
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return module
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def lexer_error(self, sourceref: SourceRef, fmtstring: str, *args: str) -> None:
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self.parse_errors += 1
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print_bold("ERROR: {}: {}".format(sourceref, fmtstring.format(*args)))
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def _check_last_statement_is_return(self, last_stmt: AstNode) -> None:
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if isinstance(last_stmt, (Subroutine, Return, Goto)):
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return
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if isinstance(last_stmt, Directive) and last_stmt.name == "noreturn":
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return
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if isinstance(last_stmt, InlineAssembly):
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for line in reversed(last_stmt.assembly.splitlines()):
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line = line.strip()
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if line.startswith(";"):
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continue
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if "jmp " in line or "jmp\t" in line or "rts" in line or "rti" in line:
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return
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raise ParseError("last statement in a block/subroutine must be a return or goto, "
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"(or %noreturn directive to silence this error)", last_stmt.sourceref)
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def semantic_check(self, module: Module) -> None:
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# perform semantic analysis / checks on the syntactic parse tree we have so far
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# (note: symbol names have already been checked to exist when we start this)
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previous_stmt = None
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for node in module.all_nodes():
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if isinstance(node, Scope):
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if node.nodes and isinstance(node.parent, (Block, Subroutine)):
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if isinstance(node.parent, Block) and node.parent.name != "ZP":
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self._check_last_statement_is_return(node.nodes[-1])
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elif isinstance(node, SubCall):
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if isinstance(node.target, SymbolName):
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subdef = node.my_scope().lookup(node.target.name)
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if isinstance(subdef, Subroutine):
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self.check_subroutine_arguments(node, subdef)
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elif isinstance(node, Subroutine):
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# the previous statement (if any) must be a Goto or Return
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if not isinstance(previous_stmt, (Scope, Goto, Return, VarDef, Subroutine)):
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raise ParseError("statement preceding subroutine must be a goto or return or another subroutine", node.sourceref)
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elif isinstance(node, IncrDecr):
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if isinstance(node.target, SymbolName):
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symdef = node.my_scope().lookup(node.target.name)
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if isinstance(symdef, VarDef) and symdef.vartype == VarType.CONST:
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raise ParseError("cannot modify a constant", node.sourceref)
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elif isinstance(node, Assignment):
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scope = node.my_scope()
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for target in node.left.nodes:
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if isinstance(target, SymbolName):
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symdef = scope.lookup(target.name)
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if isinstance(symdef, VarDef) and symdef.vartype == VarType.CONST:
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raise ParseError("cannot modify a constant", target.sourceref)
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elif isinstance(node, AugAssignment):
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# the assignment target must not be a constant
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if isinstance(node.left, SymbolName):
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symdef = node.my_scope().lookup(node.left.name)
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if isinstance(symdef, VarDef):
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if symdef.vartype == VarType.CONST:
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raise ParseError("cannot modify a constant", node.sourceref)
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elif symdef.datatype not in {DataType.BYTE, DataType.WORD, DataType.FLOAT}:
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raise ParseError("cannot modify that datatype ({:s}) in this way"
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.format(symdef.datatype.name.lower()), node.sourceref)
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# check for divide by (constant) zero
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if node.operator in ("/=", "//="):
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if isinstance(node.right, LiteralValue) and node.right.value == 0:
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raise ParseError("division by zero", node.right.sourceref)
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previous_stmt = node
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def check_subroutine_arguments(self, call: SubCall, subdef: Subroutine) -> None:
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if len(call.arguments.nodes) != len(subdef.param_spec):
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raise ParseError("invalid number of arguments ({:d}, required: {:d})"
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.format(len(call.arguments.nodes), len(subdef.param_spec)), call.sourceref)
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for arg, param in zip(call.arguments.nodes, subdef.param_spec):
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if arg.name:
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if not param[0]:
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raise ParseError("parameter is unnamed but name was used", arg.sourceref)
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if arg.name != param[0]:
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raise ParseError("parameter name mismatch", arg.sourceref)
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def check_and_merge_zeropages(self, module: Module) -> None:
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# merge all ZP blocks into one
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zeropage = None
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for block in module.all_nodes(Block):
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if block.name == "ZP": # type: ignore
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if zeropage:
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# merge other ZP block into first ZP block
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for node in block.scope.nodes:
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if isinstance(node, Directive):
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zeropage.scope.add_node(node, 0)
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elif isinstance(node, VarDef):
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zeropage.scope.add_node(node)
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else:
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raise ParseError("only variables and directives allowed in zeropage block", node.sourceref)
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else:
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zeropage = block
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block.parent.remove_node(block)
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if zeropage:
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# add the zero page again, as the very first block
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module.scope.add_node(zeropage, 0)
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def allocate_zeropage_vars(self, module: Module) -> None:
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# allocate zeropage variables to the available free zp addresses
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if not module.scope.nodes:
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return
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zpnode = module.scope.nodes[0]
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if zpnode.name != "ZP":
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return
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zeropage = Zeropage(module.zp_options)
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for vardef in zpnode.all_nodes(VarDef):
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if vardef.datatype.isstring():
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raise ParseError("cannot put strings in the zeropage", vardef.sourceref)
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try:
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if vardef.vartype == VarType.VAR:
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vardef.zp_address = zeropage.allocate(vardef)
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except CompileError as x:
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raise ParseError(str(x), vardef.sourceref)
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def check_all_symbolnames(self, module: Module) -> None:
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for node in module.all_nodes(SymbolName):
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check_symbol_definition(node.name, node.my_scope(), node.sourceref) # type: ignore
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def process_all_expressions(self, module: Module) -> None:
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# process/simplify all expressions (constant folding etc)
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encountered_blocks = set() # type: Set[Block]
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for node in module.all_nodes():
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if isinstance(node, Block):
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parentname = (node.parent.name + ".") if node.parent else ""
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blockname = parentname + node.name
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if blockname in encountered_blocks:
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raise ValueError("block names not unique:", blockname)
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encountered_blocks.add(blockname)
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elif isinstance(node, Expression):
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try:
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evaluated = process_expression(node, node.sourceref)
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if evaluated is not node:
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# replace the node with the newly evaluated result
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node.parent.replace_node(node, evaluated)
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except ParseError:
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raise
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except Exception as x:
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self.handle_internal_error(x, "process_expressions of node {}".format(node))
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elif isinstance(node, IncrDecr) and node.howmuch not in (0, 1):
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_, node.howmuch = coerce_constant_value(datatype_of(node.target, node.my_scope()), node.howmuch, node.sourceref)
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attr.validate(node)
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elif isinstance(node, VarDef):
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dtype = DataType.WORD if node.vartype == VarType.MEMORY else node.datatype
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try:
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_, node.value = coerce_constant_value(dtype, node.value, node.sourceref) # type: ignore
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attr.validate(node)
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except OverflowError as x:
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raise ParseError(str(x), node.sourceref) from None
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elif isinstance(node, Assignment):
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lvalue_types = set(datatype_of(lv, node.my_scope()) for lv in node.left.nodes)
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if len(lvalue_types) == 1:
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_, newright = coerce_constant_value(lvalue_types.pop(), node.right, node.sourceref)
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if isinstance(newright, (Register, LiteralValue, Expression, Dereference, SymbolName, SubCall)):
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node.right = newright # type: ignore
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else:
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raise TypeError("invalid coerced constant type", newright)
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else:
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for lv_dt in lvalue_types:
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coerce_constant_value(lv_dt, node.right, node.sourceref)
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@no_type_check
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def create_multiassigns(self, module: Module) -> None:
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# create multi-assign statements from nested assignments (A=B=C=5),
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# and optimize TargetRegisters down to single Register if it's just one register.
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def reduce_right(assign: Assignment) -> Assignment:
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if isinstance(assign.right, Assignment):
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right = reduce_right(assign.right)
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assign.left.nodes.extend(right.left.nodes)
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assign.right = right.right
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return assign
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for node in module.all_nodes(Assignment):
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if isinstance(node.right, Assignment):
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multi = reduce_right(node)
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assert multi is node and len(multi.left.nodes) > 1 and not isinstance(multi.right, Assignment)
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@no_type_check
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def apply_directive_options(self, module: Module) -> None:
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def set_save_registers(scope: Scope, save_dir: Directive) -> None:
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if not scope:
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return
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if len(save_dir.args) > 1:
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raise ParseError("expected zero or one directive argument", save_dir.sourceref)
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if save_dir.args:
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if save_dir.args[0] in ("yes", "true", True):
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scope.save_registers = True
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elif save_dir.args[0] in ("no", "false", False):
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scope.save_registers = False
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else:
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raise ParseError("invalid directive args", save_dir.sourceref)
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else:
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scope.save_registers = True
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for directive in module.all_nodes(Directive):
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node = directive.my_scope().parent
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if isinstance(node, Module):
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# process the module's directives
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if directive.name == "output":
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if len(directive.args) != 1 or not isinstance(directive.args[0], str):
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raise ParseError("expected one str directive argument", directive.sourceref)
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if directive.args[0] == "raw":
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node.format = ProgramFormat.RAW
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node.address = 0xc000
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elif directive.args[0] == "prg":
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node.format = ProgramFormat.PRG
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node.address = 0xc000
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elif directive.args[0] == "basic":
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node.format = ProgramFormat.BASIC
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node.address = 0x0801
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else:
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raise ParseError("invalid directive args", directive.sourceref)
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elif directive.name == "address":
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if len(directive.args) != 1 or type(directive.args[0]) is not int:
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raise ParseError("expected one integer directive argument", directive.sourceref)
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if node.format == ProgramFormat.BASIC:
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raise ParseError("basic cannot have a custom load address", directive.sourceref)
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node.address = directive.args[0]
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attr.validate(node)
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elif directive.name in "import":
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pass # is processed earlier
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elif directive.name == "zp":
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if len(directive.args) not in (1, 2) or set(directive.args) - {"clobber", "restore"}:
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raise ParseError("invalid directive args", directive.sourceref)
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if "clobber" in directive.args and "restore" in directive.args:
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module.zp_options = ZpOptions.CLOBBER_RESTORE
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elif "clobber" in directive.args:
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module.zp_options = ZpOptions.CLOBBER
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elif "restore" in directive.args:
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raise ParseError("invalid directive args", directive.sourceref)
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elif directive.name == "saveregisters":
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set_save_registers(directive.my_scope(), directive)
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else:
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raise NotImplementedError(directive.name)
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elif isinstance(node, Block):
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# process the block's directives
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if directive.name == "saveregisters":
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set_save_registers(directive.my_scope(), directive)
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elif directive.name in ("breakpoint", "asmbinary", "asminclude", "noreturn"):
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continue
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else:
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raise NotImplementedError(directive.name)
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elif isinstance(node, Subroutine):
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# process the sub's directives
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if directive.name == "saveregisters":
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set_save_registers(directive.my_scope(), directive)
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elif directive.name in ("breakpoint", "asmbinary", "asminclude", "noreturn"):
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continue
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else:
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raise NotImplementedError(directive.name)
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@no_type_check
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def determine_subroutine_usage(self, module: Module) -> None:
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module.subroutine_usage.clear()
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for node in module.all_nodes():
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if isinstance(node, InlineAssembly):
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self._get_subroutine_usages_from_asm(module.subroutine_usage, node, node.my_scope())
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elif isinstance(node, SubCall):
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self._get_subroutine_usages_from_subcall(module.subroutine_usage, node, node.my_scope())
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elif isinstance(node, Goto):
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self._get_subroutine_usages_from_goto(module.subroutine_usage, node, node.my_scope())
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elif isinstance(node, Return):
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self._get_subroutine_usages_from_return(module.subroutine_usage, node, node.my_scope())
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elif isinstance(node, Assignment):
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self._get_subroutine_usages_from_assignment(module.subroutine_usage, node, node.my_scope())
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# print("----------SUBROUTINES IN USE-------------")
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# import pprint
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# pprint.pprint(module.subroutine_usage)
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# print("----------/SUBROUTINES IN USE-------------")
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def _get_subroutine_usages_from_subcall(self, usages: Dict[Tuple[str, str], Set[str]],
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subcall: SubCall, parent_scope: Scope) -> None:
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if isinstance(subcall.target, SymbolName):
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usages[(parent_scope.name, subcall.target.name)].add(str(subcall.sourceref))
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for arg in subcall.arguments.nodes:
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self._get_subroutine_usages_from_expression(usages, arg.value, parent_scope)
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def _get_subroutine_usages_from_expression(self, usages: Dict[Tuple[str, str], Set[str]],
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expr: Any, parent_scope: Scope) -> None:
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if expr is None or isinstance(expr, (int, str, float, bool, Register)):
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return
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elif isinstance(expr, SubCall):
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self._get_subroutine_usages_from_subcall(usages, expr, parent_scope)
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elif isinstance(expr, Expression):
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self._get_subroutine_usages_from_expression(usages, expr.left, parent_scope)
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self._get_subroutine_usages_from_expression(usages, expr.right, parent_scope)
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elif isinstance(expr, LiteralValue):
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return
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elif isinstance(expr, Dereference):
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return self._get_subroutine_usages_from_expression(usages, expr.operand, parent_scope)
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elif isinstance(expr, AddressOf):
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return self._get_subroutine_usages_from_expression(usages, expr.name, parent_scope)
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elif isinstance(expr, SymbolName):
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try:
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symbol = parent_scope.lookup(expr.name)
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if isinstance(symbol, Subroutine):
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usages[(parent_scope.name, expr.name)].add(str(expr.sourceref))
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except UndefinedSymbolError:
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pass
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else:
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raise TypeError("unknown expr type to scan for sub usages", expr, expr.sourceref)
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@no_type_check
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def _get_subroutine_usages_from_goto(self, usages: Dict[Tuple[str, str], Set[str]],
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goto: Goto, parent_scope: Scope) -> None:
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if isinstance(goto.target, SymbolName):
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usages[(parent_scope.name, goto.target.name)].add(str(goto.sourceref))
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self._get_subroutine_usages_from_expression(usages, goto.condition, parent_scope)
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def _get_subroutine_usages_from_return(self, usages: Dict[Tuple[str, str], Set[str]],
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returnnode: Return, parent_scope: Scope) -> None:
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# node.value_A (expression), value_X (expression), value_Y (expression)
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self._get_subroutine_usages_from_expression(usages, returnnode.value_A, parent_scope)
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self._get_subroutine_usages_from_expression(usages, returnnode.value_X, parent_scope)
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self._get_subroutine_usages_from_expression(usages, returnnode.value_Y, parent_scope)
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def _get_subroutine_usages_from_assignment(self, usages: Dict[Tuple[str, str], Set[str]],
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assignment: Assignment, parent_scope: Scope) -> None:
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# node.right (expression, or another Assignment)
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if isinstance(assignment.right, Assignment):
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self._get_subroutine_usages_from_assignment(usages, assignment.right, parent_scope)
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else:
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self._get_subroutine_usages_from_expression(usages, assignment.right, parent_scope)
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def _get_subroutine_usages_from_asm(self, usages: Dict[Tuple[str, str], Set[str]],
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asmnode: InlineAssembly, parent_scope: Scope) -> None:
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# asm can refer to other symbols as well, track subroutine usage
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for line in asmnode.assembly.splitlines():
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splits = line.split(maxsplit=1)
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if len(splits) == 2:
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for match in re.finditer(r"(?P<symbol>[a-zA-Z_$][a-zA-Z0-9_\.]+)", splits[1]):
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name = match.group("symbol")
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if name[0] == '$':
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continue
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try:
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symbol = parent_scope.lookup(name)
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except UndefinedSymbolError:
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pass
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else:
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if isinstance(symbol, Subroutine):
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if symbol.scope:
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namespace = symbol.scope.parent_scope.name
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else:
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namespace, name = name.rsplit(".", maxsplit=2)
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usages[(namespace, symbol.name)].add(str(asmnode.sourceref))
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def check_directives(self, module: Module) -> None:
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imports = set() # type: Set[str]
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for node in module.all_nodes():
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if isinstance(node, Directive):
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assert isinstance(node.parent, Scope)
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if node.parent.level == "module":
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if node.name not in {"output", "zp", "address", "import", "saveregisters", "noreturn"}:
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raise ParseError("invalid directive in module", node.sourceref)
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if node.name == "import":
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if imports & set(node.args):
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raise ParseError("duplicate import", node.sourceref)
|
|
imports |= set(node.args)
|
|
else:
|
|
if node.name not in {"asmbinary", "asminclude", "breakpoint", "saveregisters", "noreturn"}:
|
|
raise ParseError("invalid directive in " + node.parent.__class__.__name__.lower(), node.sourceref)
|
|
if node.name == "saveregisters":
|
|
# it should be the first node in the scope
|
|
if node.parent.nodes[0] is not node:
|
|
raise ParseError("saveregisters directive must be first in this scope", node.sourceref)
|
|
|
|
def process_imports(self, module: Module) -> None:
|
|
# (recursively) imports the modules
|
|
imported = []
|
|
for directive in module.all_nodes(Directive):
|
|
if directive.name == "import": # type: ignore
|
|
if len(directive.args) < 1: # type: ignore
|
|
raise ParseError("missing argument(s) for import directive", directive.sourceref)
|
|
for arg in directive.args: # type: ignore
|
|
filename = self.find_import_file(arg, directive.sourceref.file)
|
|
if not filename:
|
|
raise ParseError("imported file not found", directive.sourceref)
|
|
imported_module, import_parse_errors = self.import_file(filename)
|
|
imported_module.scope.parent_scope = module.scope
|
|
imported.append(imported_module)
|
|
self.parse_errors += import_parse_errors
|
|
if not self.imported_module:
|
|
# compiler support library is always imported (in main parser)
|
|
filename = self.find_import_file("il65lib", module.sourceref.file)
|
|
if filename:
|
|
imported_module, import_parse_errors = self.import_file(filename)
|
|
imported_module.scope.parent_scope = module.scope
|
|
imported.append(imported_module)
|
|
self.parse_errors += import_parse_errors
|
|
else:
|
|
raise FileNotFoundError("missing il65lib")
|
|
# append the imported module's contents (blocks) at the end of the current module
|
|
for block in (node for imported_module in imported
|
|
for node in imported_module.scope.nodes
|
|
if isinstance(node, Block)):
|
|
module.scope.add_node(block)
|
|
|
|
def import_file(self, filename: str) -> Tuple[Module, int]:
|
|
sub_parser = PlyParser(imported_module=True)
|
|
return sub_parser.parse_file(filename), sub_parser.parse_errors
|
|
|
|
def find_import_file(self, modulename: str, sourcefile: str) -> Optional[str]:
|
|
candidates = [modulename+".ill", modulename]
|
|
filename_at_source_location = os.path.join(os.path.split(sourcefile)[0], modulename)
|
|
if filename_at_source_location not in candidates:
|
|
candidates.append(filename_at_source_location+".ill")
|
|
candidates.append(filename_at_source_location)
|
|
filename_at_libs_location = os.path.join(os.path.split(__file__)[0], "lib", modulename)
|
|
if filename_at_libs_location not in candidates:
|
|
candidates.append(filename_at_libs_location+".ill")
|
|
candidates.append(filename_at_libs_location)
|
|
for filename in candidates:
|
|
if os.path.isfile(filename):
|
|
return filename
|
|
return None
|
|
|
|
def handle_parse_error(self, exc: ParseError) -> None:
|
|
self.parse_errors += 1
|
|
out = sys.stdout
|
|
if out.isatty():
|
|
print("\x1b[1m", file=out)
|
|
if self.imported_module:
|
|
print("Error (in imported file):", str(exc), file=out)
|
|
else:
|
|
print("Error:", str(exc), file=out)
|
|
sourcetext = linecache.getline(exc.sourceref.file, exc.sourceref.line).rstrip()
|
|
if sourcetext:
|
|
print(" " + sourcetext.expandtabs(8), file=out)
|
|
if exc.sourceref.column:
|
|
print(' ' * (1+exc.sourceref.column) + '^', file=out)
|
|
if out.isatty():
|
|
print("\x1b[0m", file=out, end="", flush=True)
|
|
raise exc # XXX temporary to see where the error occurred
|
|
|
|
def handle_internal_error(self, exc: Exception, msg: str="") -> None:
|
|
out = sys.stdout
|
|
if out.isatty():
|
|
print("\x1b[1m", file=out)
|
|
print("\nERROR: internal parser error: ", exc, file=out)
|
|
if msg:
|
|
print(" Message:", msg, end="\n\n")
|
|
if out.isatty():
|
|
print("\x1b[0m", file=out, end="", flush=True)
|
|
raise exc
|
|
|
|
|
|
class Zeropage:
|
|
SCRATCH_B1 = 0x02
|
|
SCRATCH_B2 = 0x03
|
|
SCRATCH_W1 = 0xfb # $fb/$fc
|
|
SCRATCH_W2 = 0xfd # $fd/$fe
|
|
|
|
def __init__(self, options: ZpOptions) -> None:
|
|
self.free = [] # type: List[int]
|
|
self.allocations = {} # type: Dict[int, Tuple[str, DataType]]
|
|
if options in (ZpOptions.CLOBBER_RESTORE, ZpOptions.CLOBBER):
|
|
# clobber the zp, more free storage, yay!
|
|
self.free = list(range(0x04, 0xfb)) + [0xff]
|
|
for updated_by_irq in [0xa0, 0xa1, 0xa2, 0x91, 0xc0, 0xc5, 0xcb, 0xf5, 0xf6]:
|
|
self.free.remove(updated_by_irq)
|
|
else:
|
|
# these are valid for the C-64 (when no RS232 I/O is performed):
|
|
# ($02, $03, $fb-$fc, $fd-$fe are reserved as scratch addresses for various routines)
|
|
self.free = [0x04, 0x05, 0x06, 0x2a, 0x52, 0xf7, 0xf8, 0xf9, 0xfa]
|
|
assert self.SCRATCH_B1 not in self.free
|
|
assert self.SCRATCH_B2 not in self.free
|
|
assert self.SCRATCH_W1 not in self.free
|
|
assert self.SCRATCH_W2 not in self.free
|
|
|
|
def allocate(self, vardef: VarDef) -> int:
|
|
assert not vardef.name or vardef.name not in {a[0] for a in self.allocations.values()}, "var name is not unique"
|
|
assert vardef.vartype == VarType.VAR, "can only allocate var"
|
|
|
|
def sequential_free(location: int) -> bool:
|
|
return all(location + i in self.free for i in range(size))
|
|
|
|
def lone_byte(location: int) -> bool:
|
|
return (location-1) not in self.free and (location+1) not in self.free and location in self.free
|
|
|
|
def make_allocation(location: int) -> int:
|
|
for loc in range(location, location + size):
|
|
self.free.remove(loc)
|
|
self.allocations[location] = (vardef.name or "<unnamed>", vardef.datatype)
|
|
return location
|
|
|
|
if vardef.datatype == DataType.BYTE:
|
|
size = 1
|
|
elif vardef.datatype == DataType.WORD:
|
|
size = 2
|
|
elif vardef.datatype == DataType.FLOAT:
|
|
print_bold("warning: {}: allocating a large datatype in zeropage".format(vardef.sourceref))
|
|
size = 5
|
|
elif vardef.datatype == DataType.BYTEARRAY:
|
|
print_bold("warning: {}: allocating a large datatype in zeropage".format(vardef.sourceref))
|
|
size = vardef.size[0]
|
|
elif vardef.datatype == DataType.WORDARRAY:
|
|
print_bold("warning: {}: allocating a large datatype in zeropage".format(vardef.sourceref))
|
|
size = vardef.size[0] * 2
|
|
elif vardef.datatype == DataType.MATRIX:
|
|
print_bold("warning: {}: allocating a large datatype in zeropage".format(vardef.sourceref))
|
|
size = vardef.size[0] * vardef.size[1]
|
|
elif vardef.datatype.isstring():
|
|
print_bold("warning: {}: allocating a large datatype in zeropage".format(vardef.sourceref))
|
|
size = vardef.size[0]
|
|
else:
|
|
raise CompileError("cannot put datatype {:s} in ZP".format(vardef.datatype.name))
|
|
if len(self.free) > 0:
|
|
if size == 1:
|
|
for candidate in range(min(self.free), max(self.free)+1):
|
|
if lone_byte(candidate):
|
|
return make_allocation(candidate)
|
|
return make_allocation(self.free[0])
|
|
for candidate in range(min(self.free), max(self.free)+1):
|
|
if sequential_free(candidate):
|
|
return make_allocation(candidate)
|
|
raise CompileError("ERROR: no more free space in ZP to allocate {:d} sequential bytes".format(size))
|
|
|
|
def available(self) -> int:
|
|
return len(self.free)
|