mirror of https://github.com/python/cpython
a few small optimizations that seem to give a 5-10% speedup; the
further optimization of com_node makes the most difference.
This commit is contained in:
parent
eefaeb78b3
commit
4ebf3be407
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@ -82,10 +82,19 @@ class Transformer:
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"""
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def __init__(self):
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self._dispatch = { }
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self._dispatch = {}
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for value, name in symbol.sym_name.items():
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if hasattr(self, name):
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self._dispatch[value] = getattr(self, name)
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self._dispatch[token.NEWLINE] = self.com_NEWLINE
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self._atom_dispatch = {token.LPAR: self.atom_lpar,
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token.LSQB: self.atom_lsqb,
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token.LBRACE: self.atom_lbrace,
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token.BACKQUOTE: self.atom_backquote,
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token.NUMBER: self.atom_number,
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token.STRING: self.atom_string,
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token.NAME: self.atom_name,
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}
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def transform(self, tree):
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"""Transform an AST into a modified parse tree."""
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@ -484,7 +493,7 @@ class Transformer:
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def testlist(self, nodelist):
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# testlist: expr (',' expr)* [',']
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# exprlist: expr (',' expr)* [',']
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return self.com_binary('tuple', nodelist)
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return self.com_binary(Tuple, nodelist)
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exprlist = testlist
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@ -492,11 +501,11 @@ class Transformer:
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# and_test ('or' and_test)* | lambdef
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if len(nodelist) == 1 and nodelist[0][0] == symbol.lambdef:
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return self.lambdef(nodelist[0])
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return self.com_binary('or', nodelist)
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return self.com_binary(Or, nodelist)
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def and_test(self, nodelist):
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# not_test ('and' not_test)*
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return self.com_binary('and', nodelist)
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return self.com_binary(And, nodelist)
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def not_test(self, nodelist):
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# 'not' not_test | comparison
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@ -544,15 +553,15 @@ class Transformer:
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def expr(self, nodelist):
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# xor_expr ('|' xor_expr)*
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return self.com_binary('bitor', nodelist)
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return self.com_binary(Bitor, nodelist)
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def xor_expr(self, nodelist):
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# xor_expr ('^' xor_expr)*
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return self.com_binary('bitxor', nodelist)
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return self.com_binary(Bitxor, nodelist)
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def and_expr(self, nodelist):
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# xor_expr ('&' xor_expr)*
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return self.com_binary('bitand', nodelist)
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return self.com_binary(Bitand, nodelist)
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def shift_expr(self, nodelist):
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# shift_expr ('<<'|'>>' shift_expr)*
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@ -583,93 +592,93 @@ class Transformer:
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node = self.com_node(nodelist[0])
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for i in range(2, len(nodelist), 2):
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right = self.com_node(nodelist[i])
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if nodelist[i-1][0] == token.STAR:
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t = nodelist[i-1][0]
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if t == token.STAR:
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node = Mul([node, right])
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node.lineno = nodelist[1][2]
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elif nodelist[i-1][0] == token.SLASH:
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elif t == token.SLASH:
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node = Div([node, right])
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node.lineno = nodelist[1][2]
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else:
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node = Mod([node, right])
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node.lineno = nodelist[1][2]
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node.lineno = nodelist[1][2]
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return node
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def factor(self, nodelist):
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t = nodelist[0][0]
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elt = nodelist[0]
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t = elt[0]
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node = self.com_node(nodelist[-1])
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if t == token.PLUS:
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node = UnaryAdd(node)
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node.lineno = nodelist[0][2]
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node.lineno = elt[2]
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elif t == token.MINUS:
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node = UnarySub(node)
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node.lineno = nodelist[0][2]
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node.lineno = elt[2]
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elif t == token.TILDE:
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node = Invert(node)
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node.lineno = nodelist[0][2]
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node.lineno = elt[2]
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return node
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def power(self, nodelist):
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# power: atom trailer* ('**' factor)*
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node = self.com_node(nodelist[0])
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for i in range(1, len(nodelist)):
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if nodelist[i][0] == token.DOUBLESTAR:
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elt = nodelist[i]
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if elt[0] == token.DOUBLESTAR:
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n = Power([node, self.com_node(nodelist[i+1])])
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n.lineno = nodelist[i][2]
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n.lineno = elt[2]
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return n
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node = self.com_apply_trailer(node, nodelist[i])
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node = self.com_apply_trailer(node, elt)
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return node
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def atom(self, nodelist):
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t = nodelist[0][0]
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if t == token.LPAR:
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if nodelist[1][0] == token.RPAR:
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n = Tuple(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_node(nodelist[1])
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return self._atom_dispatch[nodelist[0][0]](nodelist)
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if t == token.LSQB:
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if nodelist[1][0] == token.RSQB:
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n = List(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_list_constructor(nodelist[1])
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if t == token.LBRACE:
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if nodelist[1][0] == token.RBRACE:
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return Dict(())
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return self.com_dictmaker(nodelist[1])
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if t == token.BACKQUOTE:
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n = Backquote(self.com_node(nodelist[1]))
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def atom_lpar(self, nodelist):
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if nodelist[1][0] == token.RPAR:
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n = Tuple(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_node(nodelist[1])
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if t == token.NUMBER:
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### need to verify this matches compile.c
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k = eval(nodelist[0][1])
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n = Const(k)
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def atom_lsqb(self, nodelist):
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if nodelist[1][0] == token.RSQB:
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n = List(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_list_constructor(nodelist[1])
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if t == token.STRING:
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### need to verify this matches compile.c
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k = ''
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for node in nodelist:
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k = k + eval(node[1])
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n = Const(k)
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n.lineno = nodelist[0][2]
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return n
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def atom_lbrace(self, nodelist):
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if nodelist[1][0] == token.RBRACE:
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return Dict(())
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return self.com_dictmaker(nodelist[1])
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if t == token.NAME:
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### any processing to do?
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n = Name(nodelist[0][1])
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n.lineno = nodelist[0][2]
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return n
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def atom_backquote(self, nodelist):
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n = Backquote(self.com_node(nodelist[1]))
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n.lineno = nodelist[0][2]
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return n
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def atom_number(self, nodelist):
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### need to verify this matches compile.c
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k = eval(nodelist[0][1])
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n = Const(k)
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n.lineno = nodelist[0][2]
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return n
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def atom_string(self, nodelist):
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### need to verify this matches compile.c
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k = ''
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for node in nodelist:
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k = k + eval(node[1])
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n = Const(k)
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n.lineno = nodelist[0][2]
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return n
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raise error, "unknown node type"
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def atom_name(self, nodelist):
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### any processing to do?
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n = Name(nodelist[0][1])
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n.lineno = nodelist[0][2]
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return n
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# --------------------------------------------------------------
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#
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@ -681,20 +690,13 @@ class Transformer:
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# break_stmt, stmt, small_stmt, flow_stmt, simple_stmt,
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# and compound_stmt.
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# We'll just dispatch them.
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return self._dispatch[node[0]](node[1:])
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def com_NEWLINE(self):
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# A ';' at the end of a line can make a NEWLINE token appear
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# here, Render it harmless. (genc discards ('discard',
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# ('const', xxxx)) Nodes)
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key = node[0]
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meth = self._dispatch.get(key, None)
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if meth:
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return meth(node[1:])
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else:
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if key == token.NEWLINE:
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return Discard(Const(None))
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raise error, 'illegal node passed to com_node: %s' % `node`
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return Discard(Const(None))
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def com_arglist(self, nodelist):
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# varargslist:
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@ -907,18 +909,18 @@ class Transformer:
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def com_assign_trailer(self, primary, node, assigning):
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t = node[1][0]
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if t == token.LPAR:
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raise SyntaxError, "can't assign to function call"
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if t == token.DOT:
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return self.com_assign_attr(primary, node[2], assigning)
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if t == token.LSQB:
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return self.com_subscriptlist(primary, node[2], assigning)
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if t == token.LPAR:
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raise SyntaxError, "can't assign to function call"
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raise SyntaxError, "unknown trailer type: %s" % t
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def com_assign_attr(self, primary, node, assigning):
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return AssAttr(primary, node[1], assigning)
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def com_binary(self, type, nodelist):
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def com_binary(self, constructor, nodelist):
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"Compile 'NODE (OP NODE)*' into (type, [ node1, ..., nodeN ])."
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l = len(nodelist)
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if l == 1:
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@ -926,7 +928,7 @@ class Transformer:
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items = []
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for i in range(0, l, 2):
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items.append(self.com_node(nodelist[i]))
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return Node(type, items)
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return constructor(items)
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def com_stmt(self, node):
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result = self.com_node(node)
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@ -964,7 +966,8 @@ class Transformer:
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lineno = node[1][2]
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fors = []
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while node:
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if node[1][1] == 'for':
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t = node[1][1]
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if t == 'for':
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assignNode = self.com_assign(node[2], OP_ASSIGN)
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listNode = self.com_node(node[4])
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newfor = ListCompFor(assignNode, listNode, [])
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@ -974,7 +977,7 @@ class Transformer:
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node = None
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else:
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node = self.com_list_iter(node[5])
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elif node[1][1] == 'if':
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elif t == 'if':
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test = self.com_node(node[2])
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newif = ListCompIf(test)
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newif.lineno = node[1][2]
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@ -1101,9 +1104,10 @@ class Transformer:
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def com_subscript(self, node):
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# slice_item: expression | proper_slice | ellipsis
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ch = node[1]
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if ch[0] == token.DOT and node[2][0] == token.DOT:
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t = ch[0]
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if t == token.DOT and node[2][0] == token.DOT:
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return Ellipsis()
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if ch[0] == token.COLON or len(node) > 2:
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if t == token.COLON or len(node) > 2:
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return self.com_sliceobj(node)
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return self.com_node(ch)
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@ -82,10 +82,19 @@ class Transformer:
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"""
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def __init__(self):
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self._dispatch = { }
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self._dispatch = {}
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for value, name in symbol.sym_name.items():
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if hasattr(self, name):
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self._dispatch[value] = getattr(self, name)
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self._dispatch[token.NEWLINE] = self.com_NEWLINE
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self._atom_dispatch = {token.LPAR: self.atom_lpar,
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token.LSQB: self.atom_lsqb,
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token.LBRACE: self.atom_lbrace,
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token.BACKQUOTE: self.atom_backquote,
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token.NUMBER: self.atom_number,
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token.STRING: self.atom_string,
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token.NAME: self.atom_name,
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}
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def transform(self, tree):
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"""Transform an AST into a modified parse tree."""
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@ -484,7 +493,7 @@ class Transformer:
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def testlist(self, nodelist):
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# testlist: expr (',' expr)* [',']
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# exprlist: expr (',' expr)* [',']
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return self.com_binary('tuple', nodelist)
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return self.com_binary(Tuple, nodelist)
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exprlist = testlist
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@ -492,11 +501,11 @@ class Transformer:
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# and_test ('or' and_test)* | lambdef
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if len(nodelist) == 1 and nodelist[0][0] == symbol.lambdef:
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return self.lambdef(nodelist[0])
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return self.com_binary('or', nodelist)
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return self.com_binary(Or, nodelist)
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def and_test(self, nodelist):
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# not_test ('and' not_test)*
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return self.com_binary('and', nodelist)
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return self.com_binary(And, nodelist)
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def not_test(self, nodelist):
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# 'not' not_test | comparison
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@ -544,15 +553,15 @@ class Transformer:
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def expr(self, nodelist):
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# xor_expr ('|' xor_expr)*
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return self.com_binary('bitor', nodelist)
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return self.com_binary(Bitor, nodelist)
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def xor_expr(self, nodelist):
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# xor_expr ('^' xor_expr)*
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return self.com_binary('bitxor', nodelist)
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return self.com_binary(Bitxor, nodelist)
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def and_expr(self, nodelist):
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# xor_expr ('&' xor_expr)*
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return self.com_binary('bitand', nodelist)
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return self.com_binary(Bitand, nodelist)
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def shift_expr(self, nodelist):
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# shift_expr ('<<'|'>>' shift_expr)*
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@ -583,93 +592,93 @@ class Transformer:
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node = self.com_node(nodelist[0])
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for i in range(2, len(nodelist), 2):
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right = self.com_node(nodelist[i])
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if nodelist[i-1][0] == token.STAR:
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t = nodelist[i-1][0]
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if t == token.STAR:
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node = Mul([node, right])
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node.lineno = nodelist[1][2]
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elif nodelist[i-1][0] == token.SLASH:
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elif t == token.SLASH:
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node = Div([node, right])
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node.lineno = nodelist[1][2]
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else:
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node = Mod([node, right])
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node.lineno = nodelist[1][2]
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node.lineno = nodelist[1][2]
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return node
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def factor(self, nodelist):
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t = nodelist[0][0]
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elt = nodelist[0]
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t = elt[0]
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node = self.com_node(nodelist[-1])
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if t == token.PLUS:
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node = UnaryAdd(node)
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node.lineno = nodelist[0][2]
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node.lineno = elt[2]
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elif t == token.MINUS:
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node = UnarySub(node)
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node.lineno = nodelist[0][2]
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node.lineno = elt[2]
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elif t == token.TILDE:
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node = Invert(node)
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node.lineno = nodelist[0][2]
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node.lineno = elt[2]
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return node
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def power(self, nodelist):
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# power: atom trailer* ('**' factor)*
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node = self.com_node(nodelist[0])
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for i in range(1, len(nodelist)):
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if nodelist[i][0] == token.DOUBLESTAR:
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elt = nodelist[i]
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if elt[0] == token.DOUBLESTAR:
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n = Power([node, self.com_node(nodelist[i+1])])
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n.lineno = nodelist[i][2]
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n.lineno = elt[2]
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return n
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node = self.com_apply_trailer(node, nodelist[i])
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node = self.com_apply_trailer(node, elt)
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return node
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def atom(self, nodelist):
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t = nodelist[0][0]
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if t == token.LPAR:
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if nodelist[1][0] == token.RPAR:
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n = Tuple(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_node(nodelist[1])
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return self._atom_dispatch[nodelist[0][0]](nodelist)
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if t == token.LSQB:
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if nodelist[1][0] == token.RSQB:
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n = List(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_list_constructor(nodelist[1])
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if t == token.LBRACE:
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if nodelist[1][0] == token.RBRACE:
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return Dict(())
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return self.com_dictmaker(nodelist[1])
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if t == token.BACKQUOTE:
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n = Backquote(self.com_node(nodelist[1]))
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def atom_lpar(self, nodelist):
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if nodelist[1][0] == token.RPAR:
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n = Tuple(())
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n.lineno = nodelist[0][2]
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return n
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return self.com_node(nodelist[1])
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if t == token.NUMBER:
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### need to verify this matches compile.c
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k = eval(nodelist[0][1])
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n = Const(k)
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def atom_lsqb(self, nodelist):
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if nodelist[1][0] == token.RSQB:
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n = List(())
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
return self.com_list_constructor(nodelist[1])
|
||||
|
||||
if t == token.STRING:
|
||||
### need to verify this matches compile.c
|
||||
k = ''
|
||||
for node in nodelist:
|
||||
k = k + eval(node[1])
|
||||
n = Const(k)
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
def atom_lbrace(self, nodelist):
|
||||
if nodelist[1][0] == token.RBRACE:
|
||||
return Dict(())
|
||||
return self.com_dictmaker(nodelist[1])
|
||||
|
||||
if t == token.NAME:
|
||||
### any processing to do?
|
||||
n = Name(nodelist[0][1])
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
def atom_backquote(self, nodelist):
|
||||
n = Backquote(self.com_node(nodelist[1]))
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
|
||||
def atom_number(self, nodelist):
|
||||
### need to verify this matches compile.c
|
||||
k = eval(nodelist[0][1])
|
||||
n = Const(k)
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
|
||||
def atom_string(self, nodelist):
|
||||
### need to verify this matches compile.c
|
||||
k = ''
|
||||
for node in nodelist:
|
||||
k = k + eval(node[1])
|
||||
n = Const(k)
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
|
||||
raise error, "unknown node type"
|
||||
def atom_name(self, nodelist):
|
||||
### any processing to do?
|
||||
n = Name(nodelist[0][1])
|
||||
n.lineno = nodelist[0][2]
|
||||
return n
|
||||
|
||||
# --------------------------------------------------------------
|
||||
#
|
||||
|
@ -681,20 +690,13 @@ class Transformer:
|
|||
# break_stmt, stmt, small_stmt, flow_stmt, simple_stmt,
|
||||
# and compound_stmt.
|
||||
# We'll just dispatch them.
|
||||
return self._dispatch[node[0]](node[1:])
|
||||
|
||||
def com_NEWLINE(self):
|
||||
# A ';' at the end of a line can make a NEWLINE token appear
|
||||
# here, Render it harmless. (genc discards ('discard',
|
||||
# ('const', xxxx)) Nodes)
|
||||
key = node[0]
|
||||
|
||||
meth = self._dispatch.get(key, None)
|
||||
if meth:
|
||||
return meth(node[1:])
|
||||
else:
|
||||
if key == token.NEWLINE:
|
||||
return Discard(Const(None))
|
||||
|
||||
raise error, 'illegal node passed to com_node: %s' % `node`
|
||||
return Discard(Const(None))
|
||||
|
||||
def com_arglist(self, nodelist):
|
||||
# varargslist:
|
||||
|
@ -907,18 +909,18 @@ class Transformer:
|
|||
|
||||
def com_assign_trailer(self, primary, node, assigning):
|
||||
t = node[1][0]
|
||||
if t == token.LPAR:
|
||||
raise SyntaxError, "can't assign to function call"
|
||||
if t == token.DOT:
|
||||
return self.com_assign_attr(primary, node[2], assigning)
|
||||
if t == token.LSQB:
|
||||
return self.com_subscriptlist(primary, node[2], assigning)
|
||||
if t == token.LPAR:
|
||||
raise SyntaxError, "can't assign to function call"
|
||||
raise SyntaxError, "unknown trailer type: %s" % t
|
||||
|
||||
def com_assign_attr(self, primary, node, assigning):
|
||||
return AssAttr(primary, node[1], assigning)
|
||||
|
||||
def com_binary(self, type, nodelist):
|
||||
def com_binary(self, constructor, nodelist):
|
||||
"Compile 'NODE (OP NODE)*' into (type, [ node1, ..., nodeN ])."
|
||||
l = len(nodelist)
|
||||
if l == 1:
|
||||
|
@ -926,7 +928,7 @@ class Transformer:
|
|||
items = []
|
||||
for i in range(0, l, 2):
|
||||
items.append(self.com_node(nodelist[i]))
|
||||
return Node(type, items)
|
||||
return constructor(items)
|
||||
|
||||
def com_stmt(self, node):
|
||||
result = self.com_node(node)
|
||||
|
@ -964,7 +966,8 @@ class Transformer:
|
|||
lineno = node[1][2]
|
||||
fors = []
|
||||
while node:
|
||||
if node[1][1] == 'for':
|
||||
t = node[1][1]
|
||||
if t == 'for':
|
||||
assignNode = self.com_assign(node[2], OP_ASSIGN)
|
||||
listNode = self.com_node(node[4])
|
||||
newfor = ListCompFor(assignNode, listNode, [])
|
||||
|
@ -974,7 +977,7 @@ class Transformer:
|
|||
node = None
|
||||
else:
|
||||
node = self.com_list_iter(node[5])
|
||||
elif node[1][1] == 'if':
|
||||
elif t == 'if':
|
||||
test = self.com_node(node[2])
|
||||
newif = ListCompIf(test)
|
||||
newif.lineno = node[1][2]
|
||||
|
@ -1101,9 +1104,10 @@ class Transformer:
|
|||
def com_subscript(self, node):
|
||||
# slice_item: expression | proper_slice | ellipsis
|
||||
ch = node[1]
|
||||
if ch[0] == token.DOT and node[2][0] == token.DOT:
|
||||
t = ch[0]
|
||||
if t == token.DOT and node[2][0] == token.DOT:
|
||||
return Ellipsis()
|
||||
if ch[0] == token.COLON or len(node) > 2:
|
||||
if t == token.COLON or len(node) > 2:
|
||||
return self.com_sliceobj(node)
|
||||
return self.com_node(ch)
|
||||
|
||||
|
|
Loading…
Reference in New Issue