def _analyzeGens(top, absnames):
genlist = []
for g in top:
if isinstance(g, _UserCode):
tree = g
elif isinstance(g, (_AlwaysComb, _AlwaysSeq, _Always)):
f = g.func
s = inspect.getsource(f)
s = _dedent(s)
tree = ast.parse(s)
#print ast.dump(tree)
tree.sourcefile = inspect.getsourcefile(f)
tree.lineoffset = inspect.getsourcelines(f)[1]-1
tree.symdict = f.func_globals.copy()
tree.callstack = []
# handle free variables
tree.nonlocaldict = {}
if f.func_code.co_freevars:
for n, c in zip(f.func_code.co_freevars, f.func_closure):
obj = _cell_deref(c)
if isinstance(g, _AlwaysComb):
if not ( isinstance(obj, (int, long, EnumType,_Signal)) or \
_isMem(obj) or _isTupleOfInts(obj)
):
info = "File %s, line %s: " % (tree.sourcefile, tree.lineoffset)
print type(obj)
raise ConversionError(_error.UnsupportedType, n, info)
tree.symdict[n] = obj
# currently, only intbv as automatic nonlocals (until Python 3.0)
if isinstance(obj, intbv):
tree.nonlocaldict[n] = obj
tree.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _FirstPassVisitor(tree)
v.visit(tree)
if isinstance(g, _AlwaysComb):
v = _AnalyzeAlwaysCombVisitor(tree, g.senslist)
elif isinstance(g, _AlwaysSeq):
v = _AnalyzeAlwaysSeqVisitor(tree, g.senslist, g.reset, g.sigregs, g.varregs)
else:
v = _AnalyzeAlwaysDecoVisitor(tree, g.senslist)
v.visit(tree)
else: # @instance
f = g.gen.gi_frame
s = inspect.getsource(f)
s = _dedent(s)
tree = ast.parse(s)
# print ast.dump(tree)
tree.sourcefile = inspect.getsourcefile(f)
tree.lineoffset = inspect.getsourcelines(f)[1]-1
tree.symdict = f.f_globals.copy()
tree.symdict.update(f.f_locals)
tree.nonlocaldict = {}
tree.callstack = []
tree.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _FirstPassVisitor(tree)
v.visit(tree)
v = _AnalyzeBlockVisitor(tree)
v.visit(tree)
genlist.append(tree)
return genlist
def _analyzeGens(top, absnames):
genlist = []
for g in top:
if isinstance(g, _UserCode):
ast = g
elif isinstance(g, (_AlwaysComb, _Always)):
f = g.func
s = inspect.getsource(f)
# remove decorators
s = re.sub(r"@.*", "", s)
s = s.lstrip()
ast = compiler.parse(s)
# print ast
ast.sourcefile = inspect.getsourcefile(f)
ast.lineoffset = inspect.getsourcelines(f)[1]-1
ast.symdict = f.func_globals.copy()
ast.callstack = []
# handle free variables
if f.func_code.co_freevars:
for n, c in zip(f.func_code.co_freevars, f.func_closure):
obj = _cell_deref(c)
if isinstance(g, _AlwaysComb):
# print type(obj)
assert isinstance(obj, (int, long, Signal)) or \
_isMem(obj) or _isTupleOfInts(obj)
ast.symdict[n] = obj
ast.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _NotSupportedVisitor(ast)
compiler.walk(ast, v)
if isinstance(g, _AlwaysComb):
v = _AnalyzeAlwaysCombVisitor(ast, g.senslist)
else:
v = _AnalyzeAlwaysDecoVisitor(ast, g.senslist)
compiler.walk(ast, v)
else: # @instance
f = g.gen.gi_frame
s = inspect.getsource(f)
# remove decorators
s = re.sub(r"@.*", "", s)
s = s.lstrip()
ast = compiler.parse(s)
# print ast
ast.sourcefile = inspect.getsourcefile(f)
ast.lineoffset = inspect.getsourcelines(f)[1]-1
ast.symdict = f.f_globals.copy()
ast.symdict.update(f.f_locals)
ast.callstack = []
ast.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _NotSupportedVisitor(ast)
compiler.walk(ast, v)
v = _AnalyzeBlockVisitor(ast)
compiler.walk(ast, v)
genlist.append(ast)
return genlist
def _analyzeGens(top, absnames):
genlist = []
for g in top:
if isinstance(g, _UserCode):
tree = g
elif isinstance(g, (_AlwaysComb, _AlwaysSeq, _Always)):
f = g.func
tree = _makeAST(f)
tree.symdict = f.__globals__.copy()
tree.callstack = []
# handle free variables
tree.nonlocaldict = {}
if f.__code__.co_freevars:
for n, c in zip(f.__code__.co_freevars, f.__closure__):
obj = _cell_deref(c)
tree.symdict[n] = obj
# currently, only intbv as automatic nonlocals (until Python 3.0)
if isinstance(obj, intbv):
tree.nonlocaldict[n] = obj
tree.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _AttrRefTransformer(tree)
v.visit(tree)
v = _FirstPassVisitor(tree)
v.visit(tree)
if isinstance(g, _AlwaysComb):
v = _AnalyzeAlwaysCombVisitor(tree, g.senslist)
elif isinstance(g, _AlwaysSeq):
v = _AnalyzeAlwaysSeqVisitor(tree, g.senslist, g.reset,
g.sigregs, g.varregs)
else:
v = _AnalyzeAlwaysDecoVisitor(tree, g.senslist)
v.visit(tree)
else: # @instance
f = g.gen.gi_frame
tree = _makeAST(f)
tree.symdict = f.f_globals.copy()
tree.symdict.update(f.f_locals)
tree.nonlocaldict = {}
tree.callstack = []
tree.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _AttrRefTransformer(tree)
v.visit(tree)
v = _FirstPassVisitor(tree)
v.visit(tree)
v = _AnalyzeBlockVisitor(tree)
v.visit(tree)
genlist.append(tree)
return genlist
def _analyzeGens(top, absnames):
genlist = []
for g in top:
if isinstance(g, _UserCode):
tree = g
elif isinstance(g, (_AlwaysComb, _AlwaysSeq, _Always)):
f = g.func
tree = g.ast
tree.symdict = f.__globals__.copy()
tree.callstack = []
# handle free variables
tree.nonlocaldict = {}
if f.__code__.co_freevars:
for n, c in zip(f.__code__.co_freevars, f.__closure__):
obj = _cell_deref(c)
tree.symdict[n] = obj
# currently, only intbv as automatic nonlocals (until Python 3.0)
if isinstance(obj, intbv):
tree.nonlocaldict[n] = obj
tree.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _AttrRefTransformer(tree)
v.visit(tree)
v = _FirstPassVisitor(tree)
v.visit(tree)
if isinstance(g, _AlwaysComb):
v = _AnalyzeAlwaysCombVisitor(tree, g.senslist)
elif isinstance(g, _AlwaysSeq):
v = _AnalyzeAlwaysSeqVisitor(tree, g.senslist, g.reset, g.sigregs, g.varregs)
else:
v = _AnalyzeAlwaysDecoVisitor(tree, g.senslist)
v.visit(tree)
else: # @instance
f = g.gen.gi_frame
tree = g.ast
tree.symdict = f.f_globals.copy()
tree.symdict.update(f.f_locals)
tree.nonlocaldict = {}
tree.callstack = []
tree.name = absnames.get(id(g), str(_Label("BLOCK"))).upper()
v = _AttrRefTransformer(tree)
v.visit(tree)
v = _FirstPassVisitor(tree)
v.visit(tree)
v = _AnalyzeBlockVisitor(tree)
v.visit(tree)
genlist.append(tree)
return genlist
def always_comb(func):
if not isinstance( func, FunctionType):
raise AlwaysCombError(_error.ArgType)
if _isGenFunc(func):
raise AlwaysCombError(_error.ArgType)
if func.func_code.co_argcount > 0:
raise AlwaysCombError(_error.NrOfArgs)
varnames = func.func_code.co_varnames
symdict = {}
for n, v in func.func_globals.items():
if n not in varnames:
symdict[n] = v
# handle free variables
if func.func_code.co_freevars:
for n, c in zip(func.func_code.co_freevars, func.func_closure):
obj = _cell_deref(c)
symdict[n] = obj
c = _AlwaysComb(func, symdict)
return c
def always_comb(func):
if not isinstance(func, FunctionType):
raise AlwaysCombError(_error.ArgType)
if _isGenFunc(func):
raise AlwaysCombError(_error.ArgType)
if func.__code__.co_argcount > 0:
raise AlwaysCombError(_error.NrOfArgs)
varnames = func.__code__.co_varnames
symdict = {}
for n, v in func.__globals__.items():
if n not in varnames:
symdict[n] = v
# handle free variables
if func.__code__.co_freevars:
for n, c in zip(func.__code__.co_freevars, func.__closure__):
try:
obj = _cell_deref(c)
symdict[n] = obj
except NameError:
raise NameError(n)
c = _AlwaysComb(func, symdict)
return c
else:
W = _EdgeTupleWaiter
self.waiter = W(self.gen)
# find symdict
# similar to always_comb, but in class constructor
varnames = func.func_code.co_varnames
symdict = {}
for n, v in func.func_globals.items():
if n not in varnames:
symdict[n] = v
# handle free variables
if func.func_code.co_freevars:
for n, c in zip(func.func_code.co_freevars, func.func_closure):
try:
obj = _cell_deref(c)
symdict[n] = obj
except NameError:
raise NameError(n)
self.symdict = symdict
# now infer outputs to be reset
s = inspect.getsource(func)
s = _dedent(s)
tree = ast.parse(s)
# print ast.dump(tree)
v = _AttrRefTransformer(self)
v.visit(tree)
v = _SigNameVisitor(self.symdict)
v.visit(tree)
sigregs = self.sigregs = []
self.genfunc = self.genfunc_no_reset
super(_AlwaysSeq, self).__init__(func, senslist)
# find symdict
# similar to always_comb, but in class constructor
varnames = func.__code__.co_varnames
symdict = {}
for n, v in func.__globals__.items():
if n not in varnames:
symdict[n] = v
# handle free variables
if func.__code__.co_freevars:
for n, c in zip(func.__code__.co_freevars, func.__closure__):
try:
obj = _cell_deref(c)
symdict[n] = obj
except NameError:
raise NameError(n)
self.symdict = symdict
# now infer outputs to be reset
s = inspect.getsource(func)
s = _dedent(s)
tree = ast.parse(s)
# print ast.dump(tree)
v = _AttrRefTransformer(self)
v.visit(tree)
v = _SigNameVisitor(self.symdict)
v.visit(tree)
def visit_Call(self, node):
self.visit(node.func)
self.access = _access.UNKNOWN
for arg in node.args:
self.visit(arg)
for kw in node.keywords:
self.visit(kw)
self.access = _access.INPUT
argsAreInputs = True
f = self.getObj(node.func)
node.obj = None
if type(f) is type and issubclass(f, intbv):
node.obj = self.getVal(node)
elif f is concat:
node.obj = self.getVal(node)
elif f is len:
self.access = _access.UNKNOWN
node.obj = int(0) # XXX
elif f is bool:
node.obj = bool()
elif f in (int, long, ord):
node.obj = int(-1)
## elif f in (posedge , negedge):
## node.obj = _EdgeDetector()
elif f is delay:
node.obj = delay(0)
### suprize: identity comparison on unbound methods doesn't work in python 2.5??
elif f == intbv.signed:
node.obj = int(-1)
elif f in myhdlObjects:
pass
elif f in builtinObjects:
pass
elif type(f) is FunctionType:
argsAreInputs = False
s = inspect.getsource(f)
s = _dedent(s)
tree = ast.parse(s)
# print ast.dump(tree)
# print tree
fname = f.__name__
tree.name = _Label(fname)
tree.sourcefile = inspect.getsourcefile(f)
tree.lineoffset = inspect.getsourcelines(f)[1]-1
tree.symdict = f.func_globals.copy()
tree.nonlocaldict = {}
if fname in self.tree.callstack:
self.raiseError(node, _error.NotSupported, "Recursive call")
tree.callstack = self.tree.callstack[:]
tree.callstack.append(fname)
# handle free variables
if f.func_code.co_freevars:
for n, c in zip(f.func_code.co_freevars, f.func_closure):
obj = _cell_deref(c)
if not isinstance(obj, (int, long, _Signal)):
self.raiseError(node, _error.FreeVarTypeError, n)
tree.symdict[n] = obj
v = _FirstPassVisitor(tree)
v.visit(tree)
v = _AnalyzeFuncVisitor(tree, node.args, node.keywords)
v.visit(tree)
node.obj = tree.returnObj
node.tree = tree
tree.argnames = argnames = [arg.id for arg in tree.body[0].args.args]
# extend argument list with keyword arguments on the correct position
node.args.extend([None]*len(node.keywords))
for kw in node.keywords:
node.args[argnames.index(kw.arg)] = kw.value
for n, arg in zip(argnames, node.args):
if n in tree.outputs:
self.access = _access.OUTPUT
self.visit(arg)
self.access = _access.INPUT
if n in tree.inputs:
self.visit(arg)
elif type(f) is MethodType:
self.raiseError(node,_error.NotSupported, "method call: '%s'" % f.__name__)
else:
debug_info = [e for e in ast.iter_fields(node.func)]
raise AssertionError("Unexpected callable %s" % str(debug_info))
if argsAreInputs:
for arg in node.args:
self.visit(arg)
def visit_Call(self, node):
self.visit(node.func)
self.access = _access.UNKNOWN
for arg in node.args:
self.visit(arg)
for kw in node.keywords:
self.visit(kw)
self.access = _access.INPUT
argsAreInputs = True
f = self.getObj(node.func)
node.obj = None
if type(f) is type and issubclass(f, intbv):
node.obj = self.getVal(node)
elif f is concat:
node.obj = self.getVal(node)
elif f is len:
self.access = _access.UNKNOWN
node.obj = int(0) # XXX
elif f is bool:
node.obj = bool()
elif f in (int, long, ord):
node.obj = int(-1)
## elif f in (posedge , negedge):
## node.obj = _EdgeDetector()
elif f is delay:
node.obj = delay(0)
### suprize: identity comparison on unbound methods doesn't work in python 2.5??
elif f == intbv.signed:
node.obj = int(-1)
elif f in myhdlObjects:
pass
elif f in builtinObjects:
pass
elif type(f) is FunctionType:
argsAreInputs = False
s = inspect.getsource(f)
s = _dedent(s)
tree = ast.parse(s)
# print ast.dump(tree)
# print tree
fname = f.__name__
tree.name = _Label(fname)
tree.sourcefile = inspect.getsourcefile(f)
tree.lineoffset = inspect.getsourcelines(f)[1]-1
tree.symdict = f.func_globals.copy()
tree.nonlocaldict = {}
if fname in self.tree.callstack:
self.raiseError(node, _error.NotSupported, "Recursive call")
tree.callstack = self.tree.callstack[:]
tree.callstack.append(fname)
# handle free variables
if f.func_code.co_freevars:
for n, c in zip(f.func_code.co_freevars, f.func_closure):
obj = _cell_deref(c)
if not isinstance(obj, (int, long, _Signal)):
self.raiseError(node, _error.FreeVarTypeError, n)
tree.symdict[n] = obj
v = _FirstPassVisitor(tree)
v.visit(tree)
v = _AnalyzeFuncVisitor(tree, node.args, node.keywords)
v.visit(tree)
node.obj = tree.returnObj
node.tree = tree
tree.argnames = argnames = [arg.id for arg in tree.body[0].args.args]
# extend argument list with keyword arguments on the correct position
node.args.extend([None]*len(node.keywords))
for kw in node.keywords:
node.args[argnames.index(kw.arg)] = kw.value
for n, arg in zip(argnames, node.args):
if n in tree.outputs:
self.access = _access.OUTPUT
self.visit(arg)
self.access = _access.INPUT
if n in tree.inputs:
self.visit(arg)
elif type(f) is MethodType:
self.raiseError(node,_error.NotSupported, "method call: '%s'" % f.__name__)
else:
debug_info = [e for e in ast.iter_fields(node.func)]
raise AssertionError("Unexpected callable %s" % str(debug_info))
if argsAreInputs:
for arg in node.args:
self.visit(arg)
def visitCallFunc(self, node, *args):
self.visit(node.node)
for arg in node.args:
self.visit(arg, _access.UNKNOWN)
argsAreInputs = True
f = self.getObj(node.node)
node.obj = None
node.signed = False
if type(f) is type and issubclass(f, intbv):
node.obj = self.getVal(node)
elif f is concat:
node.obj = self.getVal(node)
elif f is len:
node.obj = int(0) # XXX
elif f is bool:
node.obj = bool()
elif f in (int, long, ord):
node.obj = int(-1)
## elif f in (posedge , negedge):
## node.obj = _EdgeDetector()
elif f is delay:
node.obj = delay(0)
### suprize: identity comparison on unbound methods doesn't work in python 2.5??
elif f == intbv.signed:
node.obj = int(-1)
node.signed = True
elif f in myhdlObjects:
pass
elif f in builtinObjects:
pass
elif type(f) is FunctionType:
argsAreInputs = False
s = inspect.getsource(f)
s = s.lstrip()
ast = compiler.parse(s)
# print ast
fname = f.__name__
ast.name = _Label(fname)
ast.sourcefile = inspect.getsourcefile(f)
ast.lineoffset = inspect.getsourcelines(f)[1]-1
ast.symdict = f.func_globals.copy()
if fname in self.ast.callstack:
self.raiseError(node, _error.NotSupported, "Recursive call")
ast.callstack = self.ast.callstack[:]
ast.callstack.append(fname)
# handle free variables
if f.func_code.co_freevars:
for n, c in zip(f.func_code.co_freevars, f.func_closure):
obj = _cell_deref(c)
if not isinstance(obj, (int, long, Signal)):
self.raiseError(node, _error.FreeVarTypeError, n)
ast.symdict[n] = obj
v = _NotSupportedVisitor(ast)
compiler.walk(ast, v)
v = _AnalyzeFuncVisitor(ast, node.args)
compiler.walk(ast, v)
node.obj = ast.returnObj
node.ast = ast
for i, arg in enumerate(node.args):
if isinstance(arg, astNode.Keyword):
n = arg.name
else: # Name
n = ast.argnames[i]
if n in ast.outputs:
self.visit(arg, _access.OUTPUT)
if n in ast.inputs:
self.visit(arg, _access.INPUT)
elif type(f) is MethodType:
self.raiseError(node,_error.NotSupported, "method call: '%s'" % f.__name__)
else:
raise AssertionError("Unexpected callable")
if argsAreInputs:
for arg in node.args:
self.visit(arg, _access.INPUT)
