roar/roar-python/libcanvas/CanvasImportStore.py

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#!/usr/bin/env python3
#
# CanvasImportStore.py
# Copyright (c) 2018, 2019 Lucio Andrés Illanes Albornoz <lucio@lucioillanes.de>
# This project is licensed under the terms of the MIT licence.
#
from CanvasColours import AnsiBgToMiRCARTColours, AnsiFgToMiRCARTColours, AnsiFgBoldToMiRCARTColours
import io, os, re, struct, sys
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class CanvasImportStore():
class _CellState():
CS_NONE = 0x00
CS_BOLD = 0x01
CS_UNDERLINE = 0x02
def _flipCellStateBit(self, bit, cellState):
return cellState & ~bit if cellState & bit else cellState | bit
def importAnsiBuffer(self, inBuffer, encoding="cp437", width=None):
curBg, curBgAnsi, curBoldAnsi, curFg, curFgAnsi = -1, 30, False, 15, 37
done, outMap, outMaxCols = False, [[]], 0
inBufferData = inBuffer.decode(encoding)
inBufferChar, inBufferCharMax = 0, len(inBufferData)
while True:
if inBufferChar >= inBufferCharMax:
break
else:
m = re.match("\x1b\[((?:\d{1,3};?)+m|\d+[ABCDEFG])", inBufferData[inBufferChar:])
if m:
if m[1][-1] == "C":
outMap[-1] += [[curFg, curBg, self._CellState.CS_NONE, " "]] * int(m[1][:-1])
elif m[1][-1] == "m":
newBg, newFg = -1, -1
for ansiCode in [int(c) for c in m[1][:-1].split(";")]:
if ansiCode == 0:
curBgAnsi, curBoldAnsi, curFgAnsi, newBg, newFg = 30, False, 37, -1, 15
elif ansiCode == 1:
curBoldAnsi, newFg = True, AnsiFgBoldToMiRCARTColours[curFgAnsi]
elif ansiCode == 2:
curBoldAnsi, newFg = False, AnsiFgToMiRCARTColours[curFgAnsi]
elif ansiCode == 7:
curBgAnsi, curFgAnsi, newBg, newFg = curFgAnsi, curBgAnsi, curFg, curBg
elif (not curBoldAnsi) and (ansiCode in AnsiBgToMiRCARTColours):
curBgAnsi, newBg = ansiCode, AnsiBgToMiRCARTColours[ansiCode]
elif curBoldAnsi and (ansiCode in AnsiFgBoldToMiRCARTColours):
curFgAnsi, newFg = ansiCode, AnsiFgBoldToMiRCARTColours[ansiCode]
elif ansiCode in AnsiFgToMiRCARTColours:
newFg = AnsiFgBoldToMiRCARTColours[ansiCode] if curBoldAnsi else AnsiFgToMiRCARTColours[ansiCode]
curFgAnsi = ansiCode
curBg = newBg if newBg != -1 else curBg; curFg = newFg if newFg != -1 else curFg;
inBufferChar += len(m[0])
elif inBufferData[inBufferChar:inBufferChar + 2] == "\r\n":
done = True; inBufferChar += 2;
elif inBufferData[inBufferChar] in set("\r\n"):
done = True; inBufferChar += 1;
else:
outMap[-1].append([curFg, curBg, self._CellState.CS_NONE, inBufferData[inBufferChar]])
inBufferChar += 1
if done or (width == len(outMap[-1])):
done, outMaxCols, = False, max(outMaxCols, len(outMap[-1])); outMap.append([]);
if (len(outMap) > 1) \
or ((len(outMap) == 1) and len(outMap[0])):
for numRow in range(len(outMap)):
for numCol in range(len(outMap[numRow]), outMaxCols):
outMap[numRow].append([15, -1, self._CellState.CS_NONE, " "])
self.inSize, self.outMap = [outMaxCols, len(outMap)], outMap
return (True, None)
else:
return (False, "empty output map")
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def importAnsiFile(self, inPathName, encoding="cp437"):
return self.importAnsiBuffer(open(inPathName, "rb").read(), encoding)
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def importSauceFile(self, inPathName, encoding="cp437"):
with open(inPathName, "rb") as inFile:
inFileStat = os.stat(inPathName)
inFile.seek(inFileStat.st_size - 128, os.SEEK_SET); inFile.seek(94, os.SEEK_CUR);
if inFile.read(2) == b'\x01\x01':
width = struct.unpack("H", inFile.read(2))[0]
inFile.seek(0, 0); inFileData = inFile.read(inFileStat.st_size - 128);
return self.importAnsiBuffer(inFileData, encoding, width)
else:
return (False, "only character based ANSi SAUCE files are supported")
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def importTextBuffer(self, inFile):
try:
inLine, outMap, outMaxCols = inFile.readline(), [], 0
while inLine:
inCellState, inCurCol, inCurColours, inMaxCol = self._CellState.CS_NONE, 0, (15, -1), len(inLine); outMap.append([]);
while inCurCol < inMaxCol:
inChar = inLine[inCurCol]
if inChar in set("\r\n"):
inCurCol += 1
elif inChar == "\u0002":
inCellState = self._flipCellStateBit(self._CellState.CS_BOLD, inCellState); inCurCol += 1;
elif inChar == "\u0003":
m = re.match("\u0003((1[0-5]|0?[0-9])?(?:,(1[0-5]|0?[0-9]))?)", inLine[inCurCol:])
if m:
if (m[2] != None) and (m[3] != None):
inCurColours = (int(m[2]), int(m[3]))
elif (m[2] != None) and (m[3] == None):
inCurColours = (int(m[2]), int(inCurColours[1]))
elif (m[2] == None) and (m[3] != None):
inCurColours = (int(inCurColours[0]), int(m[3]))
else:
inCurColours = (15, -1)
inCurCol += len(m[0])
else:
inCurColours = (15, -1); inCurCol += 1;
elif inChar == "\u0006":
inCurCol += 1
elif inChar == "\u000f":
inCellState |= self._CellState.CS_NONE; inCurColours = (15, -1); inCurCol += 1;
elif inChar == "\u0016":
inCurColours = (inCurColours[1], inCurColours[0]); inCurCol += 1;
elif inChar == "\u001f":
inCellState = self._flipCellStateBit(self._CellState.CS_UNDERLINE, inCellState); inCurCol += 1;
elif inChar == "\t":
for tabChar in range(8 - len(outMap[-1]) % 8):
outMap[-1].append([*inCurColours, inCellState, inChar])
inCurCol += 1
else:
outMap[-1].append([*inCurColours, inCellState, inChar]); inCurCol += 1;
inLine, outMaxCols = inFile.readline(), max(outMaxCols, len(outMap[-1]))
if (len(outMap) > 1) \
or ((len(outMap) == 1) and len(outMap[0])):
for numRow in range(len(outMap)):
for numCol in range(len(outMap[numRow]), outMaxCols):
outMap[numRow].append([15, -1, self._CellState.CS_NONE, " "])
self.inSize, self.outMap = [outMaxCols, len(outMap)], outMap
return (True, None)
else:
return (False, "empty output map")
except:
return (False, sys.exc_info()[1])
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def importTextFile(self, pathName):
with open(pathName, "r", encoding="utf-8-sig") as inFile:
return self.importTextBuffer(inFile)
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def __init__(self, inFile=None):
self.inSize, self.outMap = None, None
if inFile != None:
self.importTextFile(inFile)
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