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239 lines
12 KiB
Python
239 lines
12 KiB
Python
"""
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Programming Language for 6502/6510 microprocessors, codename 'Sick'
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This is the assembly code generator (from the parse tree)
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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 os
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import datetime
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from typing import TextIO, Callable, no_type_check
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from ..plylex import print_bold
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from ..plyparse import (Module, ProgramFormat, Block, Directive, VarDef, Label, Subroutine, ZpOptions,
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InlineAssembly, Return, Register, Goto, SubCall, Assignment, AugAssignment, IncrDecr, AssignmentTargets)
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from . import CodeError, to_hex, to_mflpt5, Context
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from .variables import generate_block_init, generate_block_vars
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from .assignment import generate_assignment, generate_aug_assignment
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from .calls import generate_goto, generate_subcall
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from .incrdecr import generate_incrdecr
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class Output:
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def __init__(self, stream: TextIO) -> None:
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self.stream = stream
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def __call__(self, text, *args, **vargs):
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# replace '\v' (vertical tab) char by the actual line indent (2 tabs) and write to the stringIo
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print(text.replace("\v", "\t\t"), *args, file=self.stream, **vargs)
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class AssemblyGenerator:
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def __init__(self, module: Module, enable_floats: bool) -> None:
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self.module = module
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self.floats_enabled = enable_floats
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self.cur_block = None
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self.output = None # type: Output
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def generate(self, filename: str) -> None:
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with open(filename, "wt") as stream:
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output = Output(stream)
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try:
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self._generate(output)
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except Exception as x:
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output(".error \"****** ABORTED DUE TO ERROR:", x, "\"\n")
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raise
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def _generate(self, out: Callable) -> None:
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self.sanitycheck()
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self.header(out)
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self.blocks(out)
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out("\t.end")
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def sanitycheck(self) -> None:
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for label in self.module.all_nodes(Label):
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if label.name == "start" and label.my_scope().name == "main": # type: ignore
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break
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else:
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print_bold("ERROR: program entry point is missing ('start' label in 'main' block)\n")
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raise SystemExit(1)
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all_blocknames = [b.name for b in self.module.all_nodes(Block)] # type: ignore
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unique_blocknames = set(all_blocknames)
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if len(all_blocknames) != len(unique_blocknames):
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for name in unique_blocknames:
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all_blocknames.remove(name)
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raise CodeError("there are duplicate block names", all_blocknames)
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zpblock = self.module.zeropage()
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if zpblock:
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# ZP block contains no code?
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for stmt in zpblock.scope.nodes:
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if not isinstance(stmt, (Directive, VarDef)):
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raise CodeError("ZP block can only contain directive and var")
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def header(self, out: Callable) -> None:
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out("; code generated by il65.py - codename 'Sick'")
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out("; source file:", self.module.sourceref.file)
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out("; compiled on:", datetime.datetime.now())
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out("; output options:", self.module.format, self.module.zp_options)
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out("; assembler syntax is for the 64tasm cross-assembler")
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out("\n.cpu '6502'\n.enc 'none'\n")
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assert self.module.address is not None
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if self.module.format in (ProgramFormat.PRG, ProgramFormat.BASIC):
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if self.module.format == ProgramFormat.BASIC:
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if self.module.address != 0x0801:
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raise CodeError("BASIC output mode must have load address $0801")
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out("; ---- basic program with sys call ----")
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out("* = " + to_hex(self.module.address))
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year = datetime.datetime.now().year
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out("\v.word (+), {:d}".format(year))
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out("\v.null $9e, format(' %d ', _il65_entrypoint), $3a, $8f, ' il65 by idj'")
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out("+\v.word 0")
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out("_il65_entrypoint\v; assembly code starts here\n")
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else:
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out("; ---- program without sys call ----")
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out("* = " + to_hex(self.module.address) + "\n")
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elif self.module.format == ProgramFormat.RAW:
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out("; ---- raw assembler program ----")
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out("* = " + to_hex(self.module.address) + "\n")
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# call the block init methods and jump to the user's main.start entrypoint
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if self.module.zp_options == ZpOptions.CLOBBER_RESTORE:
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out("\vjsr _il65_save_zeropage")
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out("\v; initialize all blocks (reset vars)")
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if self.module.zeropage():
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out("\vjsr ZP._il65_init_block")
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for block in self.module.nodes:
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if isinstance(block, Block) and block.name != "ZP":
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out("\vjsr {}._il65_init_block".format(block.name))
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out("\v; call user code")
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if self.module.zp_options == ZpOptions.CLOBBER_RESTORE:
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out("\vjsr {:s}.start".format(self.module.main().label))
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out("\vcld")
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out("\vjmp _il65_restore_zeropage\n")
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# include the assembly code for the save/restore zeropage routines
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zprestorefile = os.path.join(os.path.split(__file__)[0], "../lib", "restorezp.asm")
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with open(zprestorefile, "rU") as f:
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for line in f.readlines():
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out(line.rstrip("\n"))
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else:
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out("\vjmp {:s}.start".format(self.module.main().label))
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out("")
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@no_type_check
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def blocks(self, out: Callable) -> None:
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zpblock = self.module.zeropage()
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if zpblock:
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# if there's a Zeropage block, it always goes first
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self.cur_block = zpblock # type: ignore
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out("\n; ---- zero page block: '{:s}' ----".format(zpblock.name))
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out("; file: '{:s}' src l. {:d}\n".format(zpblock.sourceref.file, zpblock.sourceref.line))
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out("{:s}\t.proc\n".format(zpblock.label))
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generate_block_init(out, zpblock)
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generate_block_vars(out, zpblock, True)
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# there's no code in the zero page block.
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out("\v.pend\n")
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for block in sorted(self.module.all_nodes(Block), key=lambda b: b.address or 0):
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ctx = Context(out=out, stmt=None, scope=block.scope, floats_enabled=self.floats_enabled)
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if block.name == "ZP":
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continue # already processed
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self.cur_block = block
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out("\n; ---- block: '{:s}' ----".format(block.name))
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out("; file: '{:s}' src l. {:d}\n".format(block.sourceref.file, block.sourceref.line))
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if block.address:
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out(".cerror * > ${0:04x}, 'block address overlaps by ', *-${0:04x},' bytes'".format(block.address))
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out("* = ${:04x}".format(block.address))
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out("{:s}\t.proc\n".format(block.label))
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generate_block_init(out, block)
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generate_block_vars(out, block)
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subroutines = list(sub for sub in block.all_nodes(Subroutine) if sub.address is not None)
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if subroutines:
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# these are (external) subroutines that are defined by address instead of a scope/code
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out("; external subroutines")
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for subdef in subroutines:
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assert subdef.scope is None
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out("\v{:s} = {:s}".format(subdef.name, to_hex(subdef.address)))
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out("; end external subroutines\n")
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for stmt in block.scope.nodes:
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if isinstance(stmt, (VarDef, Subroutine)):
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continue # should have been handled already or will be later
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ctx.stmt = stmt
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self.generate_statement(ctx)
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if block.name == "main" and isinstance(stmt, Label) and stmt.name == "start":
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# make sure the main.start routine clears the decimal and carry flags as first steps
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out("\vcld\n\vclc\n\vclv")
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subroutines = list(sub for sub in block.all_nodes(Subroutine) if sub.address is None)
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if subroutines:
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# these are subroutines that are defined by a scope/code
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out("; -- block subroutines")
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for subdef in subroutines:
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assert subdef.scope is not None
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out("{:s}\v; src l. {:d}".format(subdef.name, subdef.sourceref.line))
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params = ", ".join("{:s} -> {:s}".format(name or "<unnamed>", registers) for name, registers in subdef.param_spec)
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returns = ",".join(sorted(register for register in subdef.result_spec if register[-1] != '?'))
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clobbers = ",".join(sorted(register for register in subdef.result_spec if register[-1] == '?'))
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out("\v; params: {}\n\v; returns: {} clobbers: {}".format(params or "-", returns or "-", clobbers or "-"))
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cur_block = self.cur_block
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self.cur_block = subdef.scope
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for ctx.stmt in subdef.scope.nodes:
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self.generate_statement(ctx)
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self.cur_block = cur_block
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out("")
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out("; -- end block subroutines")
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if block.scope.float_const_values:
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if not self.floats_enabled:
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raise CodeError("floating point numbers not enabled via option")
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# generate additional float constants that are used in floating point expressions
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out("\n; -- float constants")
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for name, value in block.scope.float_const_values.items():
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out("{:s}\t\t.byte ${:02x}, ${:02x}, ${:02x}, ${:02x}, ${:02x}\t; {}".format(name, *to_mflpt5(value), value))
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out("\n\v.pend\n")
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@no_type_check
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def generate_statement(self, ctx: Context) -> None:
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stmt = ctx.stmt
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if isinstance(stmt, Label):
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ctx.out("\n{:s}\v\t\t; {:s}".format(stmt.name, stmt.lineref))
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elif isinstance(stmt, Return):
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if stmt.value_A:
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reg = Register(name="A", sourceref=stmt.sourceref)
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assignment = Assignment(sourceref=stmt.sourceref)
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assignment.nodes.append(AssignmentTargets(nodes=[reg], sourceref=stmt.sourceref))
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assignment.nodes.append(stmt.value_A)
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ctx.stmt = assignment
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generate_assignment(ctx)
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if stmt.value_X:
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reg = Register(name="X", sourceref=stmt.sourceref)
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assignment = Assignment(sourceref=stmt.sourceref)
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assignment.nodes.append(AssignmentTargets(nodes=[reg], sourceref=stmt.sourceref))
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assignment.nodes.append(stmt.value_X)
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ctx.stmt = assignment
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generate_assignment(ctx)
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if stmt.value_Y:
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reg = Register(name="Y", sourceref=stmt.sourceref)
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assignment = Assignment(sourceref=stmt.sourceref)
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assignment.nodes.append(AssignmentTargets(nodes=[reg], sourceref=stmt.sourceref))
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assignment.nodes.append(stmt.value_Y)
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ctx.stmt = assignment
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generate_assignment(ctx)
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ctx.out("\vrts")
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elif isinstance(stmt, InlineAssembly):
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ctx.out("\n\v; inline asm, " + stmt.lineref)
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ctx.out(stmt.assembly)
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ctx.out("\v; end inline asm, " + stmt.lineref + "\n")
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elif isinstance(stmt, IncrDecr):
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generate_incrdecr(ctx)
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elif isinstance(stmt, Goto):
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generate_goto(ctx)
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elif isinstance(stmt, SubCall):
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generate_subcall(ctx)
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elif isinstance(stmt, Assignment):
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generate_assignment(ctx)
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elif isinstance(stmt, AugAssignment):
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generate_aug_assignment(ctx)
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elif isinstance(stmt, Directive):
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if stmt.name == "breakpoint":
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# put a marker in the source so that we can generate a list of breakpoints later
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# this label is later extracted from the label dump file to turn it into a breakpoint instruction
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ctx.out("_il65_breakpoint_{:d}".format(id(stmt)))
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# other directives are ignored here
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else:
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raise NotImplementedError("statement", stmt)
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