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pretty.py
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pretty.py
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# Copyright 2014-2015 The Alive authors.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
'''
Simple pretty printer.
Based on "Lazy v. Yield: Incremental, Linear Pretty-Printing", by Kiselyov,
Peyton-Jones, and Sabry.
'''
from collections import deque
from itertools import chain
class Doc(object):
Text, Line, GBegin, GEnd = range(4)
def _items(self):
yield self
def __add__(self, other):
return seq(self, other)
def __radd__(self, other):
return seq(other, self)
def __or__(self, other):
return seq(self, line, other)
def __ror__(self, other):
return seq(other, line, self)
def nest(self, indent):
return _Nest(indent, self)
def format(self, width=80, indent=0):
return ''.join(text_events(width, findGroupEnds(width, addHP(self.events(indent)))))
def __str__(self):
return self.format()
def pprint(self, width=80, indent=0):
print self.format(width, indent)
class _Text(Doc):
def __init__(self, text):
assert '\n' not in text
self.text = text
def events(self, indent):
yield (Doc.Text, self.text)
def __nonzero__(self):
return bool(self.text)
def __repr__(self):
return '_Text({0.text!r})'.format(self)
class _Line(Doc):
def events(self, indent):
yield (Doc.Line, indent)
def __repr__(self):
return '_Line()'
class _Group(Doc):
def __init__(self, doc):
assert bool(doc)
self.doc = doc # need to normalize this. maybe before construction?
def events(self, indent):
yield (Doc.GBegin,)
for e in self.doc.events(indent):
yield e
yield (Doc.GEnd,)
def __repr__(self):
return '_Group({0.doc!r})'.format(self)
class _Seq(Doc):
def __init__(self, docs):
self.docs = docs
def events(self, indent):
return chain.from_iterable(doc.events(indent) for doc in self.docs)
def _items(self):
return iter(self.docs)
def __nonzero__(self):
return any(bool(doc) for doc in self.docs)
def __repr__(self):
return '_Seq({0.docs!r})'.format(self)
class _Nest(Doc):
def __init__(self, indent, doc):
self.indent = indent
self.doc = doc
def events(self, indent):
return self.doc.events(indent + self.indent)
def __nonzero__(self):
return bool(self.doc)
def __repr__(self):
return '_Nest({0.indent}, {0.doc!r})'.format(self)
def printit(iterable):
for x in iterable:
print x
def joinit(iterable, delimiter):
it = iter(iterable)
yield next(it)
for x in it:
yield delimiter
yield x
def addHP(event_it):
pos = 0
for event in event_it:
if event[0] == Doc.Text:
pos += len(event[1])
yield (Doc.Text, pos, event[1])
elif event[0] == Doc.Line:
pos += 1
yield (Doc.Line, pos, event[1])
else:
yield (event[0], pos)
class Buf(object):
def __init__(self):
self.iter = iter([])
def appendLeft(self, item):
self.iter = chain(iter([item]), self.iter)
def appendRight(self, item):
self.iter = chain(self.iter, iter([item]))
def concat(self, other):
self.iter = chain(self.iter, other.iter)
def emit(self):
return self.iter
def addGBeg(eventHP_it):
bufs = []
for event in eventHP_it:
if event[0] == Doc.GBegin:
bufs.append(Buf())
elif bufs and event[0] == Doc.GEnd:
pos = event[1]
buf = bufs.pop()
buf.appendLeft((Doc.GBegin, pos))
buf.appendRight(event)
if bufs:
bufs[-1].concat(buf)
else:
for event in buf.emit():
yield event
elif bufs:
bufs[-1].appendRight(event)
else:
yield event
def findGroupEnds(width, eventHP_it):
bufs = deque()
last_hp = 0
for event in eventHP_it:
#print 'got:', event, 'deque:', len(bufs), 'hpl:', last_hp, 'dl:', [b[0] for b in bufs]
if bufs:
if event[0] == Doc.GEnd:
(_, buf) = bufs.pop()
buf.appendLeft((Doc.GBegin, event[1]))
buf.appendRight((Doc.GEnd, event[1]))
if bufs:
(p, buf2) = bufs.pop()
buf2.concat(buf)
bufs.append((p, buf2))
else:
for event in buf.emit():
yield event
else:
if event[0] == Doc.GBegin:
bufs.append((event[1] + width, Buf()))
else:
(p, buf) = bufs.pop()
buf.appendRight(event)
bufs.append((p, buf))
while last_hp < event[1] or len(bufs) > width:
yield (Doc.GBegin, None)
(p, buf) = bufs.popleft()
for event in buf.emit():
yield event
if bufs:
last_hp = bufs[0][0]
else:
break
elif event[0] == Doc.GBegin:
last_hp = event[1] + width
bufs.append((last_hp, Buf()))
else:
yield event
def text_events(width, event_it):
fits = 0
hpl = width
for event in event_it:
if event[0] == Doc.Text:
yield event[2]
elif event[0] == Doc.Line:
if fits:
yield ' '
else:
yield '\n' + ' ' * event[2]
hpl = event[1] + width - event[2]
elif event[0] == Doc.GBegin:
if fits:
fits += 1
elif event[1] != None:
fits = 1 if event[1] <= hpl else 0
else:
if fits:
fits -= 1
line = _Line()
def nest(indent, doc):
return _Nest(indent, doc)
def text(string):
if isinstance(string, Doc):
return string
if isinstance(string, str):
return _Text(string)
return _Text(str(string))
def seq(*docs):
return iter_seq(docs)
def iter_seq(doc_it):
docs = tuple(chain.from_iterable(text(doc)._items() for doc in doc_it))
if len(docs) == 1:
return docs[0]
return _Seq(docs)
def group(doc):
if isinstance(doc, _Group):
return doc
if not bool(doc):
return doc
return _Group(doc)