235 lines
6.2 KiB
Python
235 lines
6.2 KiB
Python
from collections import OrderedDict
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from itertools import combinations
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from migen.fhdl.structure import *
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class _Node:
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def __init__(self):
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self.signal_count = 0
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self.numbers = set()
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self.use_name = False
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self.use_number = False
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self.children = OrderedDict()
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def _display_tree(filename, tree):
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from migen.util.treeviz import RenderNode
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def _to_render_node(name, node):
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children = [_to_render_node(k, v) for k, v in node.children.items()]
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if node.use_name:
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if node.use_number:
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color = (0.5, 0.9, 0.8)
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else:
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color = (0.8, 0.5, 0.9)
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else:
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if node.use_number:
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color = (0.9, 0.8, 0.5)
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else:
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color = (0.8, 0.8, 0.8)
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label = "{0}\n{1} signals\n{2}".format(name, node.signal_count, node.numbers)
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return RenderNode(label, children, color=color)
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top = _to_render_node("top", tree)
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top.to_svg(filename)
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def _build_tree(signals, basic_tree=None):
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root = _Node()
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for signal in signals:
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current_b = basic_tree
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current = root
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current.signal_count += 1
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for name, number in signal.backtrace:
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if basic_tree is None:
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use_number = False
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else:
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current_b = current_b.children[name]
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use_number = current_b.use_number
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if use_number:
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key = (name, number)
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else:
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key = name
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try:
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current = current.children[key]
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except KeyError:
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new = _Node()
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current.children[key] = new
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current = new
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current.numbers.add(number)
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if use_number:
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current.all_numbers = sorted(current_b.numbers)
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current.signal_count += 1
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return root
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def _set_use_name(node, node_name=""):
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cnames = [(k, _set_use_name(v, k)) for k, v in node.children.items()]
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for (c1_prefix, c1_names), (c2_prefix, c2_names) in combinations(cnames, 2):
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if not c1_names.isdisjoint(c2_names):
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node.children[c1_prefix].use_name = True
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node.children[c2_prefix].use_name = True
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r = set()
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for c_prefix, c_names in cnames:
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if node.children[c_prefix].use_name:
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for c_name in c_names:
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r.add((c_prefix, ) + c_name)
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else:
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r |= c_names
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if node.signal_count > sum(c.signal_count for c in node.children.values()):
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node.use_name = True
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r.add((node_name, ))
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return r
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def _name_signal(tree, signal):
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elements = []
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treepos = tree
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for step_name, step_n in signal.backtrace:
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try:
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treepos = treepos.children[(step_name, step_n)]
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use_number = True
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except KeyError:
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treepos = treepos.children[step_name]
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use_number = False
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if treepos.use_name:
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elname = step_name
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if use_number:
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elname += str(treepos.all_numbers.index(step_n))
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elements.append(elname)
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return "_".join(elements)
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def _build_pnd_from_tree(tree, signals):
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return dict((signal, _name_signal(tree, signal)) for signal in signals)
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def _invert_pnd(pnd):
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inv_pnd = dict()
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for k, v in pnd.items():
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inv_pnd[v] = inv_pnd.get(v, [])
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inv_pnd[v].append(k)
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return inv_pnd
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def _list_conflicting_signals(pnd):
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inv_pnd = _invert_pnd(pnd)
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r = set()
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for k, v in inv_pnd.items():
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if len(v) > 1:
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r.update(v)
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return r
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def _set_use_number(tree, signals):
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for signal in signals:
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current = tree
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for step_name, step_n in signal.backtrace:
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current = current.children[step_name]
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current.use_number = current.signal_count > len(current.numbers) and len(current.numbers) > 1
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_debug = False
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def _build_pnd_for_group(group_n, signals):
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basic_tree = _build_tree(signals)
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_set_use_name(basic_tree)
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if _debug:
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_display_tree("tree{0}_basic.svg".format(group_n), basic_tree)
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pnd = _build_pnd_from_tree(basic_tree, signals)
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# If there are conflicts, try splitting the tree by numbers
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# on paths taken by conflicting signals.
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conflicting_signals = _list_conflicting_signals(pnd)
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if conflicting_signals:
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_set_use_number(basic_tree, conflicting_signals)
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if _debug:
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print("namer: using split-by-number strategy (group {0})".format(group_n))
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_display_tree("tree{0}_marked.svg".format(group_n), basic_tree)
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numbered_tree = _build_tree(signals, basic_tree)
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_set_use_name(numbered_tree)
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if _debug:
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_display_tree("tree{0}_numbered.svg".format(group_n), numbered_tree)
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pnd = _build_pnd_from_tree(numbered_tree, signals)
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else:
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if _debug:
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print("namer: using basic strategy (group {0})".format(group_n))
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# ...then add number suffixes by HUID
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inv_pnd = _invert_pnd(pnd)
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huid_suffixed = False
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for name, signals in inv_pnd.items():
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if len(signals) > 1:
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huid_suffixed = True
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for n, signal in enumerate(sorted(signals, key=lambda x: x.huid)):
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pnd[signal] += str(n)
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if _debug and huid_suffixed:
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print("namer: using HUID suffixes (group {0})".format(group_n))
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return pnd
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def _build_signal_groups(signals):
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r = []
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for signal in signals:
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# build chain of related signals
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related_list = []
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cur_signal = signal
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while cur_signal is not None:
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related_list.insert(0, cur_signal)
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cur_signal = cur_signal.related
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# add to groups
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r += [set()]*(len(related_list) - len(r))
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for target_set, source_set in zip(r, related_list):
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target_set.add(source_set)
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# with the algorithm above and a list of all signals,
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# a signal appears in all groups of a lower number than its.
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# make signals appear only in their group of highest number.
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for s1, s2 in zip(r, r[1:]):
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s1 -= s2
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return r
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def _build_pnd(signals):
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groups = _build_signal_groups(signals)
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gpnds = [_build_pnd_for_group(n, gsignals) for n, gsignals in enumerate(groups)]
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pnd = dict()
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for gn, gpnd in enumerate(gpnds):
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for signal, name in gpnd.items():
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result = name
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cur_gn = gn
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cur_signal = signal
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while cur_signal.related is not None:
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cur_signal = cur_signal.related
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cur_gn -= 1
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result = gpnds[cur_gn][cur_signal] + "_" + result
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pnd[signal] = result
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return pnd
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def build_namespace(signals):
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pnd = _build_pnd(signals)
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ns = Namespace(pnd)
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# register signals with name_override
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for signal in signals:
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if signal.name_override is not None:
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ns.get_name(signal)
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return ns
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class Namespace:
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def __init__(self, pnd):
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self.counts = {}
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self.sigs = {}
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self.pnd = pnd
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def get_name(self, sig):
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if sig.name_override is not None:
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sig_name = sig.name_override
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else:
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sig_name = self.pnd[sig]
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try:
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n = self.sigs[sig]
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except KeyError:
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try:
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n = self.counts[sig_name]
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except KeyError:
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n = 0
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self.sigs[sig] = n
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self.counts[sig_name] = n + 1
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if n:
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return sig_name + "_" + str(n)
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else:
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return sig_name
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