litex/migen/pytholite/compiler.py

317 lines
10 KiB
Python

import inspect
import ast
from collections import OrderedDict
from migen.fhdl.structure import *
from migen.fhdl.visit import TransformModule
from migen.fhdl.specials import Memory
from migen.genlib.ioo import UnifiedIOObject
from migen.pytholite.reg import *
from migen.pytholite.expr import *
from migen.pytholite import transel
from migen.pytholite.io import gen_io
from migen.pytholite.util import *
def _is_name_used(node, name):
for n in ast.walk(node):
if isinstance(n, ast.Name) and n.id == name:
return True
return False
def _make_function_args_dict(undefined, symdict, args, defaults):
d = OrderedDict()
for argument in args:
d[argument.arg] = undefined
for default, argname in zip(defaults, reversed(list(d.keys()))):
default_val = eval_ast(default, symdict)
d[argname] = default_val
return d
def _process_function_args(symdict, function_def, args, kwargs):
defargs = function_def.args
undefined = object()
ad_positional = _make_function_args_dict(undefined, symdict, defargs.args, defargs.defaults)
vararg_name = defargs.vararg
kwarg_name = defargs.kwarg
ad_kwonly = _make_function_args_dict(undefined, symdict, defargs.kwonlyargs, defargs.kw_defaults)
# grab argument values
current_argvalue = iter(args)
try:
for argname in ad_positional.keys():
ad_positional[argname] = next(current_argvalue)
except StopIteration:
pass
vararg = tuple(current_argvalue)
kwarg = dict()
for k, v in kwargs.items():
if k in ad_positional:
ad_positional[k] = v
elif k in ad_kwonly:
ad_kwonly[k] = v
else:
kwarg[k] = v
# check
undefined_pos = [k for k, v in ad_positional.items() if v is undefined]
if undefined_pos:
formatted = " and ".join("'" + k + "'" for k in undefined_pos)
raise TypeError("Missing required positional arguments: " + formatted)
if vararg and vararg_name is None:
raise TypeError("Function takes {} positional arguments but {} were given".format(len(ad_positional),
len(ad_positional) + len(vararg)))
ad_kwonly = [k for k, v in ad_positional.items() if v is undefined]
if undefined_pos:
formatted = " and ".join("'" + k + "'" for k in undefined_pos)
raise TypeError("Missing required keyword-only arguments: " + formatted)
if kwarg and kwarg_name is None:
formatted = " and ".join("'" + k + "'" for k in kwarg.keys())
raise TypeError("Got unexpected keyword arguments: " + formatted)
# update symdict
symdict.update(ad_positional)
if vararg_name is not None:
symdict[vararg_name] = vararg
symdict.update(ad_kwonly)
if kwarg_name is not None:
symdict[kwarg_name] = kwarg
class _Compiler:
def __init__(self, ioo, symdict, registers):
self.ioo = ioo
self.symdict = symdict
self.registers = registers
self.ec = ExprCompiler(self.symdict)
def visit_top(self, node, args, kwargs):
if isinstance(node, ast.Module) \
and len(node.body) == 1 \
and isinstance(node.body[0], ast.FunctionDef):
function_def = node.body[0]
_process_function_args(self.symdict, function_def, args, kwargs)
states, exit_states = self.visit_block(function_def.body)
return states
else:
raise NotImplementedError
# blocks and statements
def visit_block(self, statements):
sa = StateAssembler()
statements = iter(statements)
statement = None
while True:
if statement is None:
try:
statement = next(statements)
except StopIteration:
return sa.ret()
if isinstance(statement, ast.Assign):
# visit_assign can recognize a I/O pattern, consume several
# statements from the iterator and return the first statement
# that is not part of the I/O pattern anymore.
statement = self.visit_assign(sa, statement, statements)
else:
if isinstance(statement, ast.If):
self.visit_if(sa, statement)
elif isinstance(statement, ast.While):
self.visit_while(sa, statement)
elif isinstance(statement, ast.For):
self.visit_for(sa, statement)
elif isinstance(statement, ast.Expr):
self.visit_expr_statement(sa, statement)
else:
raise NotImplementedError
statement = None
def visit_assign(self, sa, node, statements):
if isinstance(node.value, ast.Call):
is_special = False
try:
value = self.ec.visit_expr_call(node.value)
except NotImplementedError:
is_special = True
if is_special:
return self.visit_assign_special(sa, node, statements)
else:
value = self.ec.visit_expr(node.value)
if isinstance(value, (int, bool, Value)):
r = []
for target in node.targets:
if isinstance(target, ast.Attribute) and target.attr == "store":
treg = target.value
if isinstance(treg, ast.Name):
r.append(self.symdict[treg.id].load(value))
else:
raise NotImplementedError
else:
raise NotImplementedError
sa.assemble([r], [r])
else:
raise NotImplementedError
def visit_assign_special(self, sa, node, statements):
value = node.value
assert(isinstance(value, ast.Call))
if isinstance(value.func, ast.Name):
callee = self.symdict[value.func.id]
else:
raise NotImplementedError
if callee == transel.Register:
if len(value.args) != 1:
raise TypeError("Register() takes exactly 1 argument")
bits_sign = eval_ast(value.args[0], self.symdict)
if isinstance(node.targets[0], ast.Name):
targetname = node.targets[0].id
else:
targetname = "unk"
reg = ImplRegister(targetname, bits_sign)
self.registers.append(reg)
for target in node.targets:
if isinstance(target, ast.Name):
self.symdict[target.id] = reg
else:
raise NotImplementedError
else:
return self.visit_io_pattern(sa, node.targets, callee, value.args, value.keywords, statements)
def visit_io_pattern(self, sa, targets, model, args, keywords, statements):
# first statement is <modelname> = <model>(<args>)
if len(targets) != 1 or not isinstance(targets[0], ast.Name):
raise NotImplementedError("Unrecognized I/O pattern")
modelname = targets[0].id
if modelname in self.symdict:
raise NotImplementedError("I/O model name is not free")
# second statement must be yield <modelname>
try:
ystatement = next(statements)
except StopIteration:
raise NotImplementedError("Incomplete or fragmented I/O pattern")
if not isinstance(ystatement, ast.Expr) \
or not isinstance(ystatement.value, ast.Yield) \
or not isinstance(ystatement.value.value, ast.Name) \
or ystatement.value.value.id != modelname:
print(ast.dump(ystatement))
raise NotImplementedError("Unrecognized I/O pattern")
# following optional statements are assignments to registers
# with <modelname> used in expressions.
from_model = []
while True:
try:
fstatement = next(statements)
except StopIteration:
fstatement = None
if not isinstance(fstatement, ast.Assign) \
or not _is_name_used(fstatement.value, modelname):
break
tregs = []
for target in fstatement.targets:
if isinstance(target, ast.Attribute) and target.attr == "store":
if isinstance(target.value, ast.Name):
tregs.append(self.symdict[target.value.id])
else:
raise NotImplementedError
else:
raise NotImplementedError
from_model.append((tregs, fstatement.value))
states, exit_states = gen_io(self, modelname, model, args, keywords, from_model)
sa.assemble(states, exit_states)
return fstatement
def visit_if(self, sa, node):
test = self.ec.visit_expr(node.test)
states_t, exit_states_t = self.visit_block(node.body)
states_f, exit_states_f = self.visit_block(node.orelse)
exit_states = exit_states_t + exit_states_f
test_state_stmt = If(test, id_next_state(states_t[0]))
test_state = [test_state_stmt]
if states_f:
test_state_stmt.Else(id_next_state(states_f[0]))
else:
exit_states.append(test_state)
sa.assemble([test_state] + states_t + states_f,
exit_states)
def visit_while(self, sa, node):
test = self.ec.visit_expr(node.test)
states_b, exit_states_b = self.visit_block(node.body)
test_state = [If(test, id_next_state(states_b[0]))]
for exit_state in exit_states_b:
exit_state.insert(0, id_next_state(test_state))
sa.assemble([test_state] + states_b, [test_state])
def visit_for(self, sa, node):
if not isinstance(node.target, ast.Name):
raise NotImplementedError
target = node.target.id
if target in self.symdict:
raise NotImplementedError("For loop target must use an available name")
it = self.visit_iterator(node.iter)
states = []
last_exit_states = []
for iteration in it:
self.symdict[target] = iteration
states_b, exit_states_b = self.visit_block(node.body)
for exit_state in last_exit_states:
exit_state.insert(0, id_next_state(states_b[0]))
last_exit_states = exit_states_b
states += states_b
del self.symdict[target]
sa.assemble(states, last_exit_states)
def visit_iterator(self, node):
return eval_ast(node, self.symdict)
def visit_expr_statement(self, sa, node):
if isinstance(node.value, ast.Yield):
yvalue = node.value.value
if not isinstance(yvalue, ast.Call) or not isinstance(yvalue.func, ast.Name):
raise NotImplementedError("Unrecognized I/O pattern")
callee = self.symdict[yvalue.func.id]
states, exit_states = gen_io(self, None, callee, yvalue.args, yvalue.keywords, [])
sa.assemble(states, exit_states)
else:
raise NotImplementedError
class Pytholite(UnifiedIOObject):
def __init__(self, func, *args, **kwargs):
self.func = func
self.args = args
self.kwargs = kwargs
def do_finalize(self):
UnifiedIOObject.do_finalize(self)
if self.get_dataflow():
self.busy.reset = 1
self.memory_ports = dict()
for mem in self.__dict__.values():
if isinstance(mem, Memory):
port = mem.get_port(write_capable=True, we_granularity=8)
self.specials += port
self.memory_ports[mem] = port
self._compile()
def _compile(self):
tree = ast.parse(inspect.getsource(self.func))
symdict = self.func.__globals__.copy()
registers = []
states = _Compiler(self, symdict, registers).visit_top(tree, self.args, self.kwargs)
for register in registers:
if register.source_encoding:
register.finalize()
self.submodules += register
fsm = implement_fsm(states)
self.submodules += TransformModule(LowerAbstractLoad().visit, fsm)