/usr/lib/python3/dist-packages/antlr3/streams.py is in python3-antlr3 3.5.2-4.
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# begin[licence]
#
# [The "BSD licence"]
# Copyright (c) 2005-2012 Terence Parr
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# 3. The name of the author may not be used to endorse or promote products
# derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# end[licence]
from io import StringIO
from .constants import DEFAULT_CHANNEL, EOF
from .tokens import Token
############################################################################
#
# basic interfaces
# IntStream
# +- CharStream
# \- TokenStream
#
# subclasses must implemented all methods
#
############################################################################
class IntStream(object):
"""
@brief Base interface for streams of integer values.
A simple stream of integers used when all I care about is the char
or token type sequence (such as interpretation).
"""
def consume(self):
raise NotImplementedError
def LA(self, i):
"""Get int at current input pointer + i ahead where i=1 is next int.
Negative indexes are allowed. LA(-1) is previous token (token
just matched). LA(-i) where i is before first token should
yield -1, invalid char / EOF.
"""
raise NotImplementedError
def mark(self):
"""
Tell the stream to start buffering if it hasn't already. Return
current input position, index(), or some other marker so that
when passed to rewind() you get back to the same spot.
rewind(mark()) should not affect the input cursor. The Lexer
track line/col info as well as input index so its markers are
not pure input indexes. Same for tree node streams.
"""
raise NotImplementedError
def index(self):
"""
Return the current input symbol index 0..n where n indicates the
last symbol has been read. The index is the symbol about to be
read not the most recently read symbol.
"""
raise NotImplementedError
def rewind(self, marker=None):
"""
Reset the stream so that next call to index would return marker.
The marker will usually be index() but it doesn't have to be. It's
just a marker to indicate what state the stream was in. This is
essentially calling release() and seek(). If there are markers
created after this marker argument, this routine must unroll them
like a stack. Assume the state the stream was in when this marker
was created.
If marker is None:
Rewind to the input position of the last marker.
Used currently only after a cyclic DFA and just
before starting a sem/syn predicate to get the
input position back to the start of the decision.
Do not "pop" the marker off the state. mark(i)
and rewind(i) should balance still. It is
like invoking rewind(last marker) but it should not "pop"
the marker off. It's like seek(last marker's input position).
"""
raise NotImplementedError
def release(self, marker=None):
"""
You may want to commit to a backtrack but don't want to force the
stream to keep bookkeeping objects around for a marker that is
no longer necessary. This will have the same behavior as
rewind() except it releases resources without the backward seek.
This must throw away resources for all markers back to the marker
argument. So if you're nested 5 levels of mark(), and then release(2)
you have to release resources for depths 2..5.
"""
raise NotImplementedError
def seek(self, index):
"""
Set the input cursor to the position indicated by index. This is
normally used to seek ahead in the input stream. No buffering is
required to do this unless you know your stream will use seek to
move backwards such as when backtracking.
This is different from rewind in its multi-directional
requirement and in that its argument is strictly an input cursor
(index).
For char streams, seeking forward must update the stream state such
as line number. For seeking backwards, you will be presumably
backtracking using the mark/rewind mechanism that restores state and
so this method does not need to update state when seeking backwards.
Currently, this method is only used for efficient backtracking using
memoization, but in the future it may be used for incremental parsing.
The index is 0..n-1. A seek to position i means that LA(1) will
return the ith symbol. So, seeking to 0 means LA(1) will return the
first element in the stream.
"""
raise NotImplementedError
def size(self):
"""
Only makes sense for streams that buffer everything up probably, but
might be useful to display the entire stream or for testing. This
value includes a single EOF.
"""
raise NotImplementedError
def getSourceName(self):
"""
Where are you getting symbols from? Normally, implementations will
pass the buck all the way to the lexer who can ask its input stream
for the file name or whatever.
"""
raise NotImplementedError
class CharStream(IntStream):
"""
@brief A source of characters for an ANTLR lexer.
This is an abstract class that must be implemented by a subclass.
"""
# pylint does not realize that this is an interface, too
#pylint: disable-msg=W0223
EOF = -1
def __init__(self):
# line number 1..n within the input
self._line = 1
# The index of the character relative to the beginning of the
# line 0..n-1
self._charPositionInLine = 0
def substring(self, start, stop):
"""
For infinite streams, you don't need this; primarily I'm providing
a useful interface for action code. Just make sure actions don't
use this on streams that don't support it.
"""
raise NotImplementedError
def LT(self, i):
"""
Get the ith character of lookahead. This is the same usually as
LA(i). This will be used for labels in the generated
lexer code. I'd prefer to return a char here type-wise, but it's
probably better to be 32-bit clean and be consistent with LA.
"""
raise NotImplementedError
@property
def line(self):
"""ANTLR tracks the line information automatically"""
return self._line
@line.setter
def line(self, value):
"""
Because this stream can rewind, we need to be able to reset the line
"""
self._line = value
@property
def charPositionInLine(self):
"""
The index of the character relative to the beginning of the line 0..n-1
"""
return self._charPositionInLine
@charPositionInLine.setter
def charPositionInLine(self, pos):
self._charPositionInLine = pos
class TokenStream(IntStream):
"""
@brief A stream of tokens accessing tokens from a TokenSource
This is an abstract class that must be implemented by a subclass.
"""
# pylint does not realize that this is an interface, too
#pylint: disable-msg=W0223
def LT(self, k):
"""
Get Token at current input pointer + i ahead where i=1 is next Token.
i<0 indicates tokens in the past. So -1 is previous token and -2 is
two tokens ago. LT(0) is undefined. For i>=n, return Token.EOFToken.
Return null for LT(0) and any index that results in an absolute address
that is negative.
"""
raise NotImplementedError
def range(self):
"""
How far ahead has the stream been asked to look? The return
value is a valid index from 0..n-1.
"""
raise NotImplementedError
def get(self, i):
"""
Get a token at an absolute index i; 0..n-1. This is really only
needed for profiling and debugging and token stream rewriting.
If you don't want to buffer up tokens, then this method makes no
sense for you. Naturally you can't use the rewrite stream feature.
I believe DebugTokenStream can easily be altered to not use
this method, removing the dependency.
"""
raise NotImplementedError
def getTokenSource(self):
"""
Where is this stream pulling tokens from? This is not the name, but
the object that provides Token objects.
"""
raise NotImplementedError
def toString(self, start=None, stop=None):
"""
Return the text of all tokens from start to stop, inclusive.
If the stream does not buffer all the tokens then it can just
return "" or null; Users should not access $ruleLabel.text in
an action of course in that case.
Because the user is not required to use a token with an index stored
in it, we must provide a means for two token objects themselves to
indicate the start/end location. Most often this will just delegate
to the other toString(int,int). This is also parallel with
the TreeNodeStream.toString(Object,Object).
"""
raise NotImplementedError
############################################################################
#
# character streams for use in lexers
# CharStream
# \- ANTLRStringStream
#
############################################################################
class ANTLRStringStream(CharStream):
"""
@brief CharStream that pull data from a unicode string.
A pretty quick CharStream that pulls all data from an array
directly. Every method call counts in the lexer.
"""
def __init__(self, data):
"""
@param data This should be a unicode string holding the data you want
to parse. If you pass in a byte string, the Lexer will choke on
non-ascii data.
"""
super().__init__()
# The data being scanned
self.strdata = str(data)
self.data = [ord(c) for c in self.strdata]
# How many characters are actually in the buffer
self.n = len(data)
# 0..n-1 index into string of next char
self.p = 0
# A list of CharStreamState objects that tracks the stream state
# values line, charPositionInLine, and p that can change as you
# move through the input stream. Indexed from 0..markDepth-1.
self._markers = [ ]
self.lastMarker = None
self.markDepth = 0
# What is name or source of this char stream?
self.name = None
def reset(self):
"""
Reset the stream so that it's in the same state it was
when the object was created *except* the data array is not
touched.
"""
self.p = 0
self._line = 1
self.charPositionInLine = 0
self._markers = [ ]
self.lastMarker = None
self.markDepth = 0
def consume(self):
if self.p < self.n:
if self.data[self.p] == 10: # ord('\n')
self._line += 1
self.charPositionInLine = 0
else:
self.charPositionInLine += 1
self.p += 1
# else we reached EOF
# just do nothing
def LA(self, i):
if i == 0:
return 0 # undefined
if i < 0:
i += 1 # e.g., translate LA(-1) to use offset i=0; then data[p+0-1]
if self.p + i - 1 < self.n:
return self.data[self.p + i - 1]
else:
return EOF
def LT(self, i):
if i == 0:
return 0 # undefined
if i < 0:
i += 1 # e.g., translate LA(-1) to use offset i=0; then data[p+0-1]
if self.p + i - 1 < self.n:
return self.strdata[self.p + i - 1]
else:
return EOF
def index(self):
"""
Return the current input symbol index 0..n where n indicates the
last symbol has been read. The index is the index of char to
be returned from LA(1).
"""
return self.p
def size(self):
return self.n
def mark(self):
state = (self.p, self.line, self.charPositionInLine)
if self.markDepth < len(self._markers):
self._markers[self.markDepth] = state
else:
self._markers.append(state)
self.markDepth += 1
self.lastMarker = self.markDepth
return self.lastMarker
def rewind(self, marker=None):
if marker is None:
marker = self.lastMarker
p, line, charPositionInLine = self._markers[marker - 1]
self.seek(p)
self._line = line
self.charPositionInLine = charPositionInLine
self.release(marker)
def release(self, marker=None):
if marker is None:
marker = self.lastMarker
self.markDepth = marker - 1
def seek(self, index):
"""
consume() ahead until p==index; can't just set p=index as we must
update line and charPositionInLine.
"""
if index <= self.p:
self.p = index # just jump; don't update stream state (line, ...)
return
# seek forward, consume until p hits index
while self.p < index:
self.consume()
def substring(self, start, stop):
return self.strdata[start:stop + 1]
def getSourceName(self):
return self.name
class ANTLRFileStream(ANTLRStringStream):
"""
@brief CharStream that opens a file to read the data.
This is a char buffer stream that is loaded from a file
all at once when you construct the object.
"""
def __init__(self, fileName):
"""
@param fileName The path to the file to be opened. The file will be
opened with mode 'r'.
"""
self._fileName = fileName
with open(fileName, 'r', encoding='utf8') as fp:
super().__init__(fp.read())
@property
def fileName(self):
return self._fileName
class ANTLRInputStream(ANTLRStringStream):
"""
@brief CharStream that reads data from a file-like object.
This is a char buffer stream that is loaded from a file like object
all at once when you construct the object.
All input is consumed from the file, but it is not closed.
"""
def __init__(self, file):
"""
@param file A file-like object holding your input. Only the read()
method must be implemented.
"""
data = file.read()
super().__init__(data)
# I guess the ANTLR prefix exists only to avoid a name clash with some Java
# mumbojumbo. A plain "StringStream" looks better to me, which should be
# the preferred name in Python.
StringStream = ANTLRStringStream
FileStream = ANTLRFileStream
InputStream = ANTLRInputStream
############################################################################
#
# Token streams
# TokenStream
# +- CommonTokenStream
# \- TokenRewriteStream
#
############################################################################
class CommonTokenStream(TokenStream):
"""
@brief The most common stream of tokens
The most common stream of tokens is one where every token is buffered up
and tokens are prefiltered for a certain channel (the parser will only
see these tokens and cannot change the filter channel number during the
parse).
"""
def __init__(self, tokenSource=None, channel=DEFAULT_CHANNEL):
"""
@param tokenSource A TokenSource instance (usually a Lexer) to pull
the tokens from.
@param channel Skip tokens on any channel but this one; this is how we
skip whitespace...
"""
super().__init__()
self.tokenSource = tokenSource
# Record every single token pulled from the source so we can reproduce
# chunks of it later.
self.tokens = []
# Map<tokentype, channel> to override some Tokens' channel numbers
self.channelOverrideMap = {}
# Set<tokentype>; discard any tokens with this type
self.discardSet = set()
# Skip tokens on any channel but this one; this is how we skip
# whitespace...
self.channel = channel
# By default, track all incoming tokens
self.discardOffChannelTokens = False
# The index into the tokens list of the current token (next token
# to consume). p==-1 indicates that the tokens list is empty
self.p = -1
# Remember last marked position
self.lastMarker = None
# how deep have we gone?
self._range = -1
def makeEOFToken(self):
return self.tokenSource.makeEOFToken()
def setTokenSource(self, tokenSource):
"""Reset this token stream by setting its token source."""
self.tokenSource = tokenSource
self.tokens = []
self.p = -1
self.channel = DEFAULT_CHANNEL
def reset(self):
self.p = 0
self.lastMarker = None
def fillBuffer(self):
"""
Load all tokens from the token source and put in tokens.
This is done upon first LT request because you might want to
set some token type / channel overrides before filling buffer.
"""
index = 0
t = self.tokenSource.nextToken()
while t and t.type != EOF:
discard = False
if self.discardSet and t.type in self.discardSet:
discard = True
elif self.discardOffChannelTokens and t.channel != self.channel:
discard = True
# is there a channel override for token type?
if t.type in self.channelOverrideMap:
overrideChannel = self.channelOverrideMap[t.type]
if overrideChannel == self.channel:
t.channel = overrideChannel
else:
discard = True
if not discard:
t.index = index
self.tokens.append(t)
index += 1
t = self.tokenSource.nextToken()
# leave p pointing at first token on channel
self.p = 0
self.p = self.skipOffTokenChannels(self.p)
def consume(self):
"""
Move the input pointer to the next incoming token. The stream
must become active with LT(1) available. consume() simply
moves the input pointer so that LT(1) points at the next
input symbol. Consume at least one token.
Walk past any token not on the channel the parser is listening to.
"""
if self.p < len(self.tokens):
self.p += 1
self.p = self.skipOffTokenChannels(self.p) # leave p on valid token
def skipOffTokenChannels(self, i):
"""
Given a starting index, return the index of the first on-channel
token.
"""
n = len(self.tokens)
while i < n and self.tokens[i].channel != self.channel:
i += 1
return i
def skipOffTokenChannelsReverse(self, i):
while i >= 0 and self.tokens[i].channel != self.channel:
i -= 1
return i
def setTokenTypeChannel(self, ttype, channel):
"""
A simple filter mechanism whereby you can tell this token stream
to force all tokens of type ttype to be on channel. For example,
when interpreting, we cannot exec actions so we need to tell
the stream to force all WS and NEWLINE to be a different, ignored
channel.
"""
self.channelOverrideMap[ttype] = channel
def discardTokenType(self, ttype):
self.discardSet.add(ttype)
def getTokens(self, start=None, stop=None, types=None):
"""
Given a start and stop index, return a list of all tokens in
the token type set. Return None if no tokens were found. This
method looks at both on and off channel tokens.
"""
if self.p == -1:
self.fillBuffer()
if stop is None or stop > len(self.tokens):
stop = len(self.tokens)
if start is None or start < 0:
start = 0
if start > stop:
return None
if isinstance(types, int):
# called with a single type, wrap into set
types = set([types])
filteredTokens = [
token for token in self.tokens[start:stop]
if types is None or token.type in types
]
if len(filteredTokens) == 0:
return None
return filteredTokens
def LT(self, k):
"""
Get the ith token from the current position 1..n where k=1 is the
first symbol of lookahead.
"""
if self.p == -1:
self.fillBuffer()
if k == 0:
return None
if k < 0:
return self.LB(-k)
i = self.p
n = 1
# find k good tokens
while n < k:
# skip off-channel tokens
i = self.skipOffTokenChannels(i + 1) # leave p on valid token
n += 1
if i > self._range:
self._range = i
if i < len(self.tokens):
return self.tokens[i]
else:
return self.makeEOFToken()
def LB(self, k):
"""Look backwards k tokens on-channel tokens"""
if self.p == -1:
self.fillBuffer()
if k == 0:
return None
if self.p - k < 0:
return None
i = self.p
n = 1
# find k good tokens looking backwards
while n <= k:
# skip off-channel tokens
i = self.skipOffTokenChannelsReverse(i - 1) # leave p on valid token
n += 1
if i < 0:
return None
return self.tokens[i]
def get(self, i):
"""
Return absolute token i; ignore which channel the tokens are on;
that is, count all tokens not just on-channel tokens.
"""
return self.tokens[i]
def slice(self, start, stop):
if self.p == -1:
self.fillBuffer()
if start < 0 or stop < 0:
return None
return self.tokens[start:stop + 1]
def LA(self, i):
return self.LT(i).type
def mark(self):
self.lastMarker = self.index()
return self.lastMarker
def release(self, marker=None):
# no resources to release
pass
def size(self):
return len(self.tokens)
def range(self):
return self._range
def index(self):
return self.p
def rewind(self, marker=None):
if marker is None:
marker = self.lastMarker
self.seek(marker)
def seek(self, index):
self.p = index
def getTokenSource(self):
return self.tokenSource
def getSourceName(self):
return self.tokenSource.getSourceName()
def toString(self, start=None, stop=None):
"""Returns a string of all tokens between start and stop (inclusive)."""
if self.p == -1:
self.fillBuffer()
if start is None:
start = 0
elif not isinstance(start, int):
start = start.index
if stop is None:
stop = len(self.tokens) - 1
elif not isinstance(stop, int):
stop = stop.index
if stop >= len(self.tokens):
stop = len(self.tokens) - 1
return ''.join([t.text for t in self.tokens[start:stop + 1]])
class RewriteOperation(object):
"""@brief Internal helper class."""
def __init__(self, stream, index, text):
self.stream = stream
# What index into rewrites List are we?
self.instructionIndex = None
# Token buffer index.
self.index = index
self.text = text
def execute(self, buf):
"""Execute the rewrite operation by possibly adding to the buffer.
Return the index of the next token to operate on.
"""
return self.index
def toString(self):
opName = self.__class__.__name__
return '<{opName}@{0.index}:"{0.text}">'.format(self, opName=opName)
__str__ = toString
__repr__ = toString
class InsertBeforeOp(RewriteOperation):
"""@brief Internal helper class."""
def execute(self, buf):
buf.write(self.text)
if self.stream.tokens[self.index].type != EOF:
buf.write(self.stream.tokens[self.index].text)
return self.index + 1
class ReplaceOp(RewriteOperation):
"""
@brief Internal helper class.
I'm going to try replacing range from x..y with (y-x)+1 ReplaceOp
instructions.
"""
def __init__(self, stream, first, last, text):
super().__init__(stream, first, text)
self.lastIndex = last
def execute(self, buf):
if self.text is not None:
buf.write(self.text)
return self.lastIndex + 1
def toString(self):
if self.text is None:
return '<DeleteOp@{0.index}..{0.lastindex}>'.format(self)
return '<ReplaceOp@{0.index}..{0.lastIndex}:"{0.text}">'.format(self)
__str__ = toString
__repr__ = toString
class TokenRewriteStream(CommonTokenStream):
"""@brief CommonTokenStream that can be modified.
Useful for dumping out the input stream after doing some
augmentation or other manipulations.
You can insert stuff, replace, and delete chunks. Note that the
operations are done lazily--only if you convert the buffer to a
String. This is very efficient because you are not moving data around
all the time. As the buffer of tokens is converted to strings, the
toString() method(s) check to see if there is an operation at the
current index. If so, the operation is done and then normal String
rendering continues on the buffer. This is like having multiple Turing
machine instruction streams (programs) operating on a single input tape. :)
Since the operations are done lazily at toString-time, operations do not
screw up the token index values. That is, an insert operation at token
index i does not change the index values for tokens i+1..n-1.
Because operations never actually alter the buffer, you may always get
the original token stream back without undoing anything. Since
the instructions are queued up, you can easily simulate transactions and
roll back any changes if there is an error just by removing instructions.
For example,
CharStream input = new ANTLRFileStream("input");
TLexer lex = new TLexer(input);
TokenRewriteStream tokens = new TokenRewriteStream(lex);
T parser = new T(tokens);
parser.startRule();
Then in the rules, you can execute
Token t,u;
...
input.insertAfter(t, "text to put after t");}
input.insertAfter(u, "text after u");}
System.out.println(tokens.toString());
Actually, you have to cast the 'input' to a TokenRewriteStream. :(
You can also have multiple "instruction streams" and get multiple
rewrites from a single pass over the input. Just name the instruction
streams and use that name again when printing the buffer. This could be
useful for generating a C file and also its header file--all from the
same buffer:
tokens.insertAfter("pass1", t, "text to put after t");}
tokens.insertAfter("pass2", u, "text after u");}
System.out.println(tokens.toString("pass1"));
System.out.println(tokens.toString("pass2"));
If you don't use named rewrite streams, a "default" stream is used as
the first example shows.
"""
DEFAULT_PROGRAM_NAME = "default"
MIN_TOKEN_INDEX = 0
def __init__(self, tokenSource=None, channel=DEFAULT_CHANNEL):
super().__init__(tokenSource, channel)
# You may have multiple, named streams of rewrite operations.
# I'm calling these things "programs."
# Maps String (name) -> rewrite (List)
self.programs = {}
self.programs[self.DEFAULT_PROGRAM_NAME] = []
# Map String (program name) -> Integer index
self.lastRewriteTokenIndexes = {}
def rollback(self, *args):
"""
Rollback the instruction stream for a program so that
the indicated instruction (via instructionIndex) is no
longer in the stream. UNTESTED!
"""
if len(args) == 2:
programName = args[0]
instructionIndex = args[1]
elif len(args) == 1:
programName = self.DEFAULT_PROGRAM_NAME
instructionIndex = args[0]
else:
raise TypeError("Invalid arguments")
p = self.programs.get(programName)
if p:
self.programs[programName] = (
p[self.MIN_TOKEN_INDEX:instructionIndex])
def deleteProgram(self, programName=DEFAULT_PROGRAM_NAME):
"""Reset the program so that no instructions exist"""
self.rollback(programName, self.MIN_TOKEN_INDEX)
def insertAfter(self, *args):
if len(args) == 2:
programName = self.DEFAULT_PROGRAM_NAME
index = args[0]
text = args[1]
elif len(args) == 3:
programName = args[0]
index = args[1]
text = args[2]
else:
raise TypeError("Invalid arguments")
if isinstance(index, Token):
# index is a Token, grap the stream index from it
index = index.index
# to insert after, just insert before next index (even if past end)
self.insertBefore(programName, index + 1, text)
def insertBefore(self, *args):
if len(args) == 2:
programName = self.DEFAULT_PROGRAM_NAME
index = args[0]
text = args[1]
elif len(args) == 3:
programName = args[0]
index = args[1]
text = args[2]
else:
raise TypeError("Invalid arguments")
if isinstance(index, Token):
# index is a Token, grab the stream index from it
index = index.index
op = InsertBeforeOp(self, index, text)
rewrites = self.getProgram(programName)
op.instructionIndex = len(rewrites)
rewrites.append(op)
def replace(self, *args):
if len(args) == 2:
programName = self.DEFAULT_PROGRAM_NAME
first = args[0]
last = args[0]
text = args[1]
elif len(args) == 3:
programName = self.DEFAULT_PROGRAM_NAME
first = args[0]
last = args[1]
text = args[2]
elif len(args) == 4:
programName = args[0]
first = args[1]
last = args[2]
text = args[3]
else:
raise TypeError("Invalid arguments")
if isinstance(first, Token):
# first is a Token, grap the stream index from it
first = first.index
if isinstance(last, Token):
# last is a Token, grap the stream index from it
last = last.index
if first > last or first < 0 or last < 0 or last >= len(self.tokens):
raise ValueError(
"replace: range invalid: {}..{} (size={})"
.format(first, last, len(self.tokens)))
op = ReplaceOp(self, first, last, text)
rewrites = self.getProgram(programName)
op.instructionIndex = len(rewrites)
rewrites.append(op)
def delete(self, *args):
self.replace(*(list(args) + [None]))
def getLastRewriteTokenIndex(self, programName=DEFAULT_PROGRAM_NAME):
return self.lastRewriteTokenIndexes.get(programName, -1)
def setLastRewriteTokenIndex(self, programName, i):
self.lastRewriteTokenIndexes[programName] = i
def getProgram(self, name):
p = self.programs.get(name)
if not p:
p = self.initializeProgram(name)
return p
def initializeProgram(self, name):
p = []
self.programs[name] = p
return p
def toOriginalString(self, start=None, end=None):
if self.p == -1:
self.fillBuffer()
if start is None:
start = self.MIN_TOKEN_INDEX
if end is None:
end = self.size() - 1
buf = StringIO()
i = start
while i >= self.MIN_TOKEN_INDEX and i <= end and i < len(self.tokens):
if self.get(i).type != EOF:
buf.write(self.get(i).text)
i += 1
return buf.getvalue()
def toString(self, *args):
if self.p == -1:
self.fillBuffer()
if len(args) == 0:
programName = self.DEFAULT_PROGRAM_NAME
start = self.MIN_TOKEN_INDEX
end = self.size() - 1
elif len(args) == 1:
programName = args[0]
start = self.MIN_TOKEN_INDEX
end = self.size() - 1
elif len(args) == 2:
programName = self.DEFAULT_PROGRAM_NAME
start = args[0]
end = args[1]
if start is None:
start = self.MIN_TOKEN_INDEX
elif not isinstance(start, int):
start = start.index
if end is None:
end = len(self.tokens) - 1
elif not isinstance(end, int):
end = end.index
# ensure start/end are in range
if end >= len(self.tokens):
end = len(self.tokens) - 1
if start < 0:
start = 0
rewrites = self.programs.get(programName)
if not rewrites:
# no instructions to execute
return self.toOriginalString(start, end)
buf = StringIO()
# First, optimize instruction stream
indexToOp = self.reduceToSingleOperationPerIndex(rewrites)
# Walk buffer, executing instructions and emitting tokens
i = start
while i <= end and i < len(self.tokens):
# remove so any left have index size-1
op = indexToOp.pop(i, None)
t = self.tokens[i]
if op is None:
# no operation at that index, just dump token
if t.type != EOF:
buf.write(t.text)
i += 1 # move to next token
else:
i = op.execute(buf) # execute operation and skip
# include stuff after end if it's last index in buffer
# So, if they did an insertAfter(lastValidIndex, "foo"), include
# foo if end == lastValidIndex.
if end == len(self.tokens) - 1:
# Scan any remaining operations after last token
# should be included (they will be inserts).
for i, op in sorted(indexToOp.items()):
if op.index >= len(self.tokens) - 1:
buf.write(op.text)
return buf.getvalue()
__str__ = toString
def reduceToSingleOperationPerIndex(self, rewrites):
"""
We need to combine operations and report invalid operations (like
overlapping replaces that are not completed nested). Inserts to
same index need to be combined etc... Here are the cases:
I.i.u I.j.v leave alone, nonoverlapping
I.i.u I.i.v combine: Iivu
R.i-j.u R.x-y.v | i-j in x-y delete first R
R.i-j.u R.i-j.v delete first R
R.i-j.u R.x-y.v | x-y in i-j ERROR
R.i-j.u R.x-y.v | boundaries overlap ERROR
Delete special case of replace (text==null):
D.i-j.u D.x-y.v | boundaries overlapcombine to
max(min)..max(right)
I.i.u R.x-y.v | i in (x+1)-ydelete I (since
insert before we're not deleting
i)
I.i.u R.x-y.v | i not in (x+1)-yleave alone,
nonoverlapping
R.x-y.v I.i.u | i in x-y ERROR
R.x-y.v I.x.u R.x-y.uv (combine, delete I)
R.x-y.v I.i.u | i not in x-y leave alone, nonoverlapping
I.i.u = insert u before op @ index i
R.x-y.u = replace x-y indexed tokens with u
First we need to examine replaces. For any replace op:
1. wipe out any insertions before op within that range.
2. Drop any replace op before that is contained completely within
that range.
3. Throw exception upon boundary overlap with any previous replace.
Then we can deal with inserts:
1. for any inserts to same index, combine even if not adjacent.
2. for any prior replace with same left boundary, combine this
insert with replace and delete this replace.
3. throw exception if index in same range as previous replace
Don't actually delete; make op null in list. Easier to walk list.
Later we can throw as we add to index -> op map.
Note that I.2 R.2-2 will wipe out I.2 even though, technically, the
inserted stuff would be before the replace range. But, if you
add tokens in front of a method body '{' and then delete the method
body, I think the stuff before the '{' you added should disappear too.
Return a map from token index to operation.
"""
# WALK REPLACES
for i, rop in enumerate(rewrites):
if not rop:
continue
if not isinstance(rop, ReplaceOp):
continue
# Wipe prior inserts within range
for j, iop in self.getKindOfOps(rewrites, InsertBeforeOp, i):
if iop.index == rop.index:
# E.g., insert before 2, delete 2..2; update replace
# text to include insert before, kill insert
rewrites[iop.instructionIndex] = None
rop.text = self.catOpText(iop.text, rop.text)
elif iop.index > rop.index and iop.index <= rop.lastIndex:
# delete insert as it's a no-op.
rewrites[j] = None
# Drop any prior replaces contained within
for j, prevRop in self.getKindOfOps(rewrites, ReplaceOp, i):
if (prevRop.index >= rop.index
and prevRop.lastIndex <= rop.lastIndex):
# delete replace as it's a no-op.
rewrites[j] = None
continue
# throw exception unless disjoint or identical
disjoint = (prevRop.lastIndex < rop.index
or prevRop.index > rop.lastIndex)
same = (prevRop.index == rop.index
and prevRop.lastIndex == rop.lastIndex)
# Delete special case of replace (text==null):
# D.i-j.u D.x-y.v| boundaries overlapcombine to
# max(min)..max(right)
if prevRop.text is None and rop.text is None and not disjoint:
# kill first delete
rewrites[prevRop.instructionIndex] = None
rop.index = min(prevRop.index, rop.index)
rop.lastIndex = max(prevRop.lastIndex, rop.lastIndex)
elif not disjoint and not same:
raise ValueError(
"replace op boundaries of {} overlap with previous {}"
.format(rop, prevRop))
# WALK INSERTS
for i, iop in enumerate(rewrites):
if iop is None:
continue
if not isinstance(iop, InsertBeforeOp):
continue
# combine current insert with prior if any at same index
for j, prevIop in self.getKindOfOps(rewrites, InsertBeforeOp, i):
if prevIop.index == iop.index: # combine objects
# convert to strings...we're in process of toString'ing
# whole token buffer so no lazy eval issue with any
# templates
iop.text = self.catOpText(iop.text, prevIop.text)
# delete redundant prior insert
rewrites[j] = None
# look for replaces where iop.index is in range; error
for j, rop in self.getKindOfOps(rewrites, ReplaceOp, i):
if iop.index == rop.index:
rop.text = self.catOpText(iop.text, rop.text)
# delete current insert
rewrites[i] = None
continue
if iop.index >= rop.index and iop.index <= rop.lastIndex:
raise ValueError(
"insert op {} within boundaries of previous {}"
.format(iop, rop))
m = {}
for i, op in enumerate(rewrites):
if op is None:
# ignore deleted ops
continue
assert op.index not in m, "should only be one op per index"
m[op.index] = op
return m
def catOpText(self, a, b):
x = ""
y = ""
if a:
x = a
if b:
y = b
return x + y
def getKindOfOps(self, rewrites, kind, before=None):
"""Get all operations before an index of a particular kind."""
if before is None:
before = len(rewrites)
elif before > len(rewrites):
before = len(rewrites)
for i, op in enumerate(rewrites[:before]):
# ignore deleted
if op and op.__class__ == kind:
yield i, op
def toDebugString(self, start=None, end=None):
if start is None:
start = self.MIN_TOKEN_INDEX
if end is None:
end = self.size() - 1
buf = StringIO()
i = start
while i >= self.MIN_TOKEN_INDEX and i <= end and i < len(self.tokens):
buf.write(self.get(i))
i += 1
return buf.getvalue()
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