126 lines
3.3 KiB
Python
126 lines
3.3 KiB
Python
from migen.fhdl.structure import *
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from migen.fhdl.structure import _Operator, _Slice, _Assign, _StatementList
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def list_signals(node):
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if node is None:
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return set()
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elif isinstance(node, Constant):
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return set()
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elif isinstance(node, Signal):
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return {node}
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elif isinstance(node, _Operator):
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l = list(map(list_signals, node.operands))
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return set().union(*l)
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elif isinstance(node, _Slice):
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return list_signals(node.value)
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elif isinstance(node, Cat):
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l = list(map(list_signals, node.l))
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return set().union(*l)
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elif isinstance(node, Replicate):
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return list_signals(node.v)
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elif isinstance(node, _Assign):
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return list_signals(node.l) | list_signals(node.r)
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elif isinstance(node, _StatementList):
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l = list(map(list_signals, node.l))
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return set().union(*l)
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elif isinstance(node, If):
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return list_signals(node.cond) | list_signals(node.t) | list_signals(node.f)
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elif isinstance(node, Case):
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l = list(map(lambda x: list_signals(x[1]), node.cases))
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return list_signals(node.test).union(*l).union(list_signals(node.default))
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elif isinstance(node, Fragment):
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return list_signals(node.comb) | list_signals(node.sync)
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else:
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raise TypeError
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def list_targets(node):
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if node is None:
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return set()
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elif isinstance(node, Signal):
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return {node}
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elif isinstance(node, _Slice):
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return list_targets(node.value)
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elif isinstance(node, Cat):
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l = list(map(list_targets, node.l))
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return set().union(*l)
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elif isinstance(node, _Assign):
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return list_targets(node.l)
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elif isinstance(node, _StatementList):
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l = list(map(list_targets, node.l))
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return set().union(*l)
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elif isinstance(node, If):
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return list_targets(node.t) | list_targets(node.f)
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elif isinstance(node, Case):
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l = list(map(lambda x: list_targets(x[1]), node.cases))
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return list_targets(node.default).union(*l)
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elif isinstance(node, Fragment):
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return list_targets(node.comb) | list_targets(node.sync)
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else:
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raise TypeError
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def group_by_targets(sl):
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groups = []
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for statement in sl.l:
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targets = list_targets(statement)
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processed = False
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for g in groups:
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if not targets.isdisjoint(g[0]):
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g[0].update(targets)
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g[1].append(statement)
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processed = True
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break
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if not processed:
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groups.append((targets, [statement]))
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return groups
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def list_inst_ios(i, ins, outs, inouts):
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if isinstance(i, Fragment):
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return list_inst_ios(i.instances, ins, outs, inouts)
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else:
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l = []
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for x in i:
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if ins:
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l += x.ins.values()
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if outs:
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l += x.outs.values()
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if inouts:
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l += x.inouts.values()
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return set(l)
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def list_mem_ios(m, ins, outs):
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if isinstance(m, Fragment):
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return list_mem_ios(m.memories, ins, outs)
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else:
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s = set()
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def add(*sigs):
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for sig in sigs:
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if sig is not None:
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s.add(sig)
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for x in m:
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for p in x.ports:
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if ins:
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add(p.adr, p.we, p.dat_w, p.re)
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if outs:
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add(p.dat_r)
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return s
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def is_variable(node):
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if isinstance(node, Signal):
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return node.variable
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elif isinstance(node, _Slice):
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return is_variable(node.value)
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elif isinstance(node, Cat):
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arevars = list(map(is_variable, node.l))
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r = arevars[0]
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for x in arevars:
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if x != r:
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raise TypeError
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return r
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else:
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raise TypeError
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def insert_reset(rst, sl):
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targets = list_targets(sl)
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resetcode = [t.eq(t.reset) for t in targets]
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return If(rst, *resetcode).Else(*sl.l)
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