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utils.py
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utils.py
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#-------------------------------------------------------------
# tests and operations on AST nodes
#-------------------------------------------------------------
import os
import sys
import re
import cProfile
from ast import *
from parameters import *
# get list of fields from a node
def node_fields(node):
ret = []
for field in node._fields:
if field != 'ctx' and hasattr(node, field):
ret.append(getattr(node, field))
return ret
# get full source text where the node is from
def node_source(node):
if hasattr(node, 'node_source'):
return node.node_source
else:
return None
# utility for getting exact source code part of the node
def src(node):
return node.node_source[node.node_start : node.node_end]
def node_start(node):
if (hasattr(node, 'node_start')):
return node.node_start
else:
return 0
def node_end(node):
if hasattr(node, 'node_end'):
return node.node_end
else:
return None
def is_atom(x):
return type(x) in [int, str, bool, float]
def is_def(node):
return isinstance(node, FunctionDef) or isinstance(node, ClassDef)
# whether a node is a "frame" which can contain others and be
# labeled
def is_frame(node):
return type(node) in [ClassDef, FunctionDef, Import, ImportFrom]
def is_empty_container(node):
if isinstance(node, List) and node.elts == []:
return True
if isinstance(node, Tuple) and node.elts == []:
return True
if isinstance(node, Dict) and node.keys == []:
return True
return False
def same_def(node1, node2):
if isinstance(node1, FunctionDef) and isinstance(node2, FunctionDef):
return node1.name == node2.name
elif isinstance(node1, ClassDef) and isinstance(node2, ClassDef):
return node1.name == node2.name
else:
return False
def different_def(node1, node2):
if is_def(node1) and is_def(node2):
return node1.name != node2.name
return False
# decide whether it is reasonable to consider two nodes to be
# moves of each other
def can_move(node1, node2, cost):
return (same_def(node1, node2) or
cost <= (node_size(node1) + node_size(node2)) * MOVE_RATIO)
# whether the node is considered deleted or inserted because
# the other party matches a substructure of it.
def node_framed(node, changes):
for c in changes:
if (c.is_frame and (node == c.orig or node == c.cur)):
return True
return False
# helper for turning nested if statements into sequences,
# otherwise we will be trapped in the nested structure and find
# too many differences
def serialize_if(node):
if isinstance(node, If):
if not hasattr(node, 'node_end'):
print("has no end:", node)
newif = If(node.test, node.body, [])
newif.lineno = node.lineno
newif.col_offset = node.col_offset
newif.node_start = node.node_start
newif.node_end = node.node_end
newif.node_source = node.node_source
newif.fileName = node.fileName
return [newif] + serialize_if(node.orelse)
elif isinstance(node, list):
ret = []
for n in node:
ret += serialize_if(n)
return ret
else:
return [node]
def node_name(node):
if isinstance(node, Name):
return node.id
elif isinstance(node, FunctionDef) or isinstance(node, ClassDef):
return node.name
else:
return None
def attr_to_str(node):
if isinstance(node, Attribute):
vName = attr_to_str(node.value)
if vName != None:
return vName + "." + node.attr
else:
return None
elif isinstance(node, Name):
return node.id
else:
return None
### utility for counting size of terms
def node_size(node, test=False):
if not test and hasattr(node, 'node_size'):
ret = node.node_size
elif isinstance(node, list):
ret = sum(map(lambda x: node_size(x, test), node))
elif is_atom(node):
ret = 1
elif isinstance(node, Name):
ret = 1
elif isinstance(node, Num):
ret = 1
elif isinstance(node, Str):
ret = 1
elif isinstance(node, Expr):
ret = node_size(node.value, test)
elif isinstance(node, AST):
ret = 1 + sum(map(lambda x: node_size(x, test), node_fields(node)))
else:
ret = 0
if test:
print("node:", node, "size=", ret)
if isinstance(node, AST):
node.node_size = ret
return ret
#-------------------------------------------------------------
# utilities
#-------------------------------------------------------------
def debug(*args):
if DEBUG:
print(args)
def dot():
sys.stdout.write('.')
sys.stdout.flush()
def is_alpha(c):
return (c == '_'
or ('0' <= c <= '9')
or ('a' <= c <= 'z')
or ('A' <= c <= 'Z'))
def div(m, n):
if n == 0:
return m
else:
return m/float(n)
# for debugging
def ps(s):
v = parse(s).body[0]
if isinstance(v, Expr):
return v.value
else:
return v
def sz(s):
return node_size(parse(s), True) - 1
def dp(s):
return dump(parse(s))
def run(name, closure=True, debug=False):
fullname1 = name + '1.py'
fullname2 = name + '2.py'
global DEBUG
olddebug = DEBUG
DEBUG = debug
diff(fullname1, fullname2, closure)
DEBUG = olddebug
def demo():
run('demo')
def go():
run('heavy')
def pf():
cProfile.run("run('heavy')", sort="cumulative")
#------------------------ file system support -----------------------
def base_name(filename):
try:
start = filename.rindex('/') + 1
except ValueError:
start = 0
try:
end = filename.rindex('.py')
except ValueError:
end = 0
return filename[start:end]
## file system support
def parse_file(filename):
f = open(filename, 'r');
lines = f.read()
ast = parse(lines)
improve_ast(ast, lines, filename, 'left')
return ast
def get_install_path():
exec_name = os.path.abspath(__file__)
path = exec_name.rindex(os.sep) + 1
return exec_name[:path]
def lfilter(f, ls):
return list(filter(f, ls))