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|
#!/usr/bin/env python3
###########################################################################
#
# xasy2asy provides a Python interface to Asymptote
#
#
# Authors: Orest Shardt, Supakorn Rassameemasmuang, and John C. Bowman
#
###########################################################################
import PyQt5.QtWidgets as Qw
import PyQt5.QtGui as Qg
import PyQt5.QtCore as Qc
import PyQt5.QtSvg as Qs
import numpy as np
import sys
import os
import signal
import threading
import string
import subprocess
import tempfile
import re
import shutil
import copy
import queue
import io
import atexit
import DebugFlags
import xasyUtils as xu
import xasyArgs as xa
import xasyOptions as xo
import xasySvg as xs
class AsymptoteEngine:
xasy=chr(4)+"\n"
def __init__(self, path=None, keepFiles=DebugFlags.keepFiles, keepDefaultArgs=True):
if path is None:
path = xa.getArgs().asypath
if path is None:
opt = xo.BasicConfigs.defaultOpt
opt.load()
path = opt['asyPath']
if sys.platform[:3] == 'win':
rx = 0 # stdin
wa = 2 # stderr
else:
rx, wx = os.pipe()
ra, wa = os.pipe()
os.set_inheritable(rx, True)
os.set_inheritable(wx, True)
os.set_inheritable(ra, True)
os.set_inheritable(wa, True)
self.ostream = os.fdopen(wx, 'w')
self.istream = os.fdopen(ra, 'r')
self.keepFiles = keepFiles
if sys.platform[:3] == 'win':
self.tmpdir = tempfile.mkdtemp(prefix='xasyData_',dir='./')+'/'
else:
self.tmpdir = tempfile.mkdtemp(prefix='xasyData_')+os.sep
self.args=['-xasy', '-noV', '-q', '-inpipe=' + str(rx), '-outpipe=' + str(wa), '-o', self.tmpdir]
self.asyPath = path
self.asyProcess = None
def start(self):
try:
if sys.platform[:3] == 'win':
self.asyProcess = subprocess.Popen([self.asyPath] + self.args,
stdin=subprocess.PIPE, stderr=subprocess.PIPE,
universal_newlines=True)
self.ostream = self.asyProcess.stdin
self.istream = self.asyProcess.stderr
else:
self.asyProcess = subprocess.Popen([self.asyPath] + self.args,close_fds=False)
finally:
atexit.register(self.cleanup)
def wait(self):
if self.asyProcess.returncode is not None:
return
else:
return self.asyProcess.wait()
def __enter__(self):
self.start()
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self.stop()
self.wait()
@property
def tempDirName(self):
return self.tmpdir
def startThenStop(self):
self.start()
self.stop()
self.wait()
@property
def active(self):
if self.asyProcess is None:
return False
return self.asyProcess.returncode is None
def stop(self):
if self.active:
self.asyProcess.kill()
def cleanup(self):
self.stop()
if self.asyProcess is not None:
self.asyProcess.wait()
if not self.keepFiles:
if os.path.isdir(self.tempDirName + os.sep):
shutil.rmtree(self.tempDirName, ignore_errors=True)
class asyTransform(Qc.QObject):
"""A python implementation of an asy transform"""
def __init__(self, initTuple, delete=False):
"""Initialize the transform with a 6 entry tuple"""
super().__init__()
if isinstance(initTuple, (tuple, list)) and len(initTuple) == 6:
self.t = initTuple
self.x, self.y, self.xx, self.xy, self.yx, self.yy = initTuple
self._deleted = delete
else:
raise TypeError("Illegal initializer for asyTransform")
@property
def deleted(self):
return self._deleted
@deleted.setter
def deleted(self, value):
self._deleted = value
@classmethod
def zero(cls):
return asyTransform((0, 0, 0, 0, 0, 0))
@classmethod
def fromQTransform(cls, transform: Qg.QTransform):
tx, ty = transform.dx(), transform.dy()
xx, xy, yx, yy = transform.m11(), transform.m21(), transform.m12(), transform.m22()
return asyTransform((tx, ty, xx, xy, yx, yy))
@classmethod
def fromNumpyMatrix(cls, transform: np.ndarray):
assert transform.shape == (3, 3)
tx = transform[0, 2]
ty = transform[1, 2]
xx, xy, yx, yy = transform[0:2, 0:2].ravel().tolist()[0]
return asyTransform((tx, ty, xx, xy, yx, yy))
def getRawCode(self):
return xu.tuple2StrWOspaces(self.t)
def getCode(self, asy2psmap=None):
"""Obtain the asy code that represents this transform"""
if asy2psmap is None:
asy2psmap = asyTransform((0, 0, 1, 0, 0, 1))
if self.deleted:
return 'zeroTransform'
else:
return (asy2psmap.inverted() * self * asy2psmap).getRawCode()
def scale(self, s):
return asyTransform((0, 0, s, 0, 0, s)) * self
def toQTransform(self):
return Qg.QTransform(self.xx, self.yx, self.xy, self.yy, self.x, self.y)
def __str__(self):
"""Equivalent functionality to getCode(). It allows the expression str(asyTransform) to be meaningful."""
return self.getCode()
def isIdentity(self):
return self == identity()
def inverted(self):
return asyTransform.fromQTransform(self.toQTransform().inverted()[0])
def __eq__(self, other):
return list(self.t) == list(other.t)
def __mul__(self, other):
"""Define multiplication of transforms as composition."""
if isinstance(other, tuple):
if len(other) == 6:
return self * asyTransform(other)
elif len(other) == 2:
return ((self.t[0] + self.t[2] * other[0] + self.t[3] * other[1]),
(self.t[1] + self.t[4] * other[0] + self.t[5] * other[1]))
else:
raise Exception("Illegal multiplier of {:s}".format(str(type(other))))
elif isinstance(other, asyTransform):
result = asyTransform((0, 0, 0, 0, 0, 0))
result.x = self.x + self.xx * other.x + self.xy * other.y
result.y = self.y + self.yx * other.x + self.yy * other.y
result.xx = self.xx * other.xx + self.xy * other.yx
result.xy = self.xx * other.xy + self.xy * other.yy
result.yx = self.yx * other.xx + self.yy * other.yx
result.yy = self.yx * other.xy + self.yy * other.yy
result.t = (result.x, result.y, result.xx, result.xy, result.yx, result.yy)
return result
elif isinstance(other, str):
if other != 'cycle':
raise TypeError
else:
return 'cycle'
else:
raise TypeError("Illegal multiplier of {:s}".format(str(type(other))))
def identity():
return asyTransform((0, 0, 1, 0, 0, 1))
def yflip():
return asyTransform((0, 0, 1, 0, 0, -1))
class asyObj(Qc.QObject):
"""A base class for asy objects: an item represented by asymptote code."""
def __init__(self):
"""Initialize the object"""
super().__init__()
self.asyCode = ''
def updateCode(self, ps2asymap=identity()):
"""Update the object's code: should be overriden."""
raise NotImplementedError
def getCode(self, ps2asymap=identity()):
"""Return the code describing the object"""
self.updateCode(ps2asymap)
return self.asyCode
class asyPen(asyObj):
"""A python wrapper for an asymptote pen"""
@staticmethod
def getColorFromQColor(color):
return color.redF(), color.greenF(), color.blueF()
@staticmethod
def convertToQColor(color):
r, g, b = color
return Qg.QColor.fromRgbF(r, g, b)
@classmethod
def fromAsyPen(cls, pen):
assert isinstance(pen, cls)
return cls(asyengine=pen._asyengine, color=pen.color, width=pen.width, pen_options=pen.options)
def __init__(self, asyengine=None, color=(0, 0, 0), width=0.5, pen_options=""):
"""Initialize the pen"""
asyObj.__init__(self)
self.color = (0, 0, 0)
self.options = pen_options
self.width = width
self._asyengine = asyengine
self._deferAsyfy = False
if pen_options:
self._deferAsyfy = True
self.updateCode()
self.setColor(color)
@property
def asyEngine(self):
return self._asyengine
@asyEngine.setter
def asyEngine(self, value):
self._asyengine = value
def updateCode(self, asy2psmap=identity()):
"""Generate the pen's code"""
if self._deferAsyfy:
self.computeColor()
self.asyCode = 'rgb({:g},{:g},{:g})+{:s}'.format(self.color[0], self.color[1], self.color[2], str(self.width))
if len(self.options) > 0:
self.asyCode = self.asyCode + '+' + self.options
def setWidth(self, newWidth):
"""Set the pen's width"""
self.width = newWidth
self.updateCode()
def setColor(self, color):
"""Set the pen's color"""
if isinstance(color, tuple) and len(color) == 3:
self.color = color
else:
self.color = (0, 0, 0)
self.updateCode()
def setColorFromQColor(self, color):
self.setColor(asyPen.getColorFromQColor(color))
def computeColor(self):
"""Find out the color of an arbitrary asymptote pen."""
assert isinstance(self.asyEngine, AsymptoteEngine)
assert self.asyEngine.active
fout = self.asyEngine.ostream
fin = self.asyEngine.istream
fout.write("pen p=" + self.getCode() + ';\n')
fout.write("write(_outpipe,colorspace(p),newl);\n")
fout.write("write(_outpipe,colors(p));\n")
fout.write("flush(_outpipe);\n")
fout.write(self.asyEngine.xasy)
fout.flush()
colorspace = fin.readline()
if colorspace.find("cmyk") != -1:
lines = fin.readline() + fin.readline() + fin.readline() + fin.readline()
parts = lines.split()
c, m, y, k = eval(parts[0]), eval(parts[1]), eval(parts[2]), eval(parts[3])
k = 1 - k
r, g, b = ((1 - c) * k, (1 - m) * k, (1 - y) * k)
elif colorspace.find("rgb") != -1:
lines = fin.readline() + fin.readline() + fin.readline()
parts = lines.split()
r, g, b = eval(parts[0]), eval(parts[1]), eval(parts[2])
elif colorspace.find("gray") != -1:
lines = fin.readline()
parts = lines.split()
r = g = b = eval(parts[0])
else:
raise ChildProcessError('Asymptote error.')
self.color = (r, g, b)
self._deferAsyfy = False
def tkColor(self):
"""Return the tk version of the pen's color"""
self.computeColor()
return '#{}'.format("".join(["{:02x}".format(min(int(256 * a), 255)) for a in self.color]))
def toQPen(self):
if self._deferAsyfy:
self.computeColor()
newPen = Qg.QPen()
newPen.setColor(asyPen.convertToQColor(self.color))
newPen.setWidthF(self.width)
return newPen
class asyPath(asyObj):
"""A python wrapper for an asymptote path"""
def __init__(self, asyengine: AsymptoteEngine=None, forceCurve=False):
"""Initialize the path to be an empty path: a path with no nodes, control points, or links."""
super().__init__()
self.nodeSet = []
self.linkSet = []
self.forceCurve = forceCurve
self.controlSet = []
self.computed = False
self.asyengine = asyengine
@classmethod
def fromPath(cls, oldPath):
newObj = asyPath(None)
newObj.nodeSet = copy.copy(oldPath.nodeSet)
newObj.linkSet = copy.copy(oldPath.linkSet)
newObj.controlSet = copy.deepcopy(oldPath.controlSet)
newObj.computed = oldPath.computed
newObj.asyengine = oldPath.asyengine
return newObj
@classmethod
def fromBezierPoints(cls, pointList: list, engine=None):
if not pointList:
return None
assert isinstance(pointList[0], BezierCurveEditor.BezierPoint)
nodeList = []
controlList = []
for point in pointList:
nodeList.append(BezierCurveEditor.QPoint2Tuple(point.point))
if point.rCtrlPoint is not None: # first
controlList.append([BezierCurveEditor.QPoint2Tuple(point.rCtrlPoint)])
if point.lCtrlPoint is not None: # last
controlList[-1].append(BezierCurveEditor.QPoint2Tuple(point.lCtrlPoint))
newPath = asyPath(asyengine=engine)
newPath.initFromControls(nodeList, controlList)
return newPath
def setInfo(self, path):
self.nodeSet = copy.copy(path.nodeSet)
self.linkSet = copy.copy(path.linkSet)
self.controlSet = copy.deepcopy(path.controlSet)
self.computed = path.computed
@property
def isEmpty(self):
return len(self.nodeSet) == 0
@property
def isDrawable(self):
return len(self.nodeSet) >= 2
def toQPainterPath(self) -> Qg.QPainterPath:
return self.toQPainterPathCurve() if self.containsCurve else self.toQPainterPathLine()
def toQPainterPathLine(self):
baseX, baseY = self.nodeSet[0]
painterPath = Qg.QPainterPath(Qc.QPointF(baseX, baseY))
for pointIndex in range(1, len(self.nodeSet)):
node = self.nodeSet[pointIndex]
if self.nodeSet[pointIndex] == 'cycle':
node = self.nodeSet[0]
painterPath.lineTo(*node)
return painterPath
def toQPainterPathCurve(self):
if not self.computed:
self.computeControls()
baseX, baseY = self.nodeSet[0]
painterPath = Qg.QPainterPath(Qc.QPointF(baseX, baseY))
for pointIndex in range(1, len(self.nodeSet)):
node = self.nodeSet[pointIndex]
if self.nodeSet[pointIndex] == 'cycle':
node = self.nodeSet[0]
endPoint = Qc.QPointF(node[0], node[1])
ctrlPoint1 = Qc.QPointF(self.controlSet[pointIndex-1][0][0], self.controlSet[pointIndex-1][0][1])
ctrlPoint2 = Qc.QPointF(self.controlSet[pointIndex-1][1][0], self.controlSet[pointIndex-1][1][1])
painterPath.cubicTo(ctrlPoint1, ctrlPoint2, endPoint)
return painterPath
def initFromNodeList(self, nodeSet, linkSet):
"""Initialize the path from a set of nodes and link types, "--", "..", or "::" """
if len(nodeSet) > 0:
self.nodeSet = nodeSet[:]
self.linkSet = linkSet[:]
self.computed = False
def initFromControls(self, nodeSet, controlSet):
"""Initialize the path from nodes and control points"""
self.controlSet = controlSet[:]
self.nodeSet = nodeSet[:]
self.computed = True
def makeNodeStr(self, node):
"""Represent a node as a string"""
if node == 'cycle':
return node
else:
# if really want to, disable this rounding
# shouldn't be to much of a problem since 10e-6 is quite small...
return '({:.6g},{:.6g})'.format(node[0], node[1])
def updateCode(self, ps2asymap=identity()):
"""Generate the code describing the path"""
# currently at postscript. Convert to asy
asy2psmap = ps2asymap.inverted()
with io.StringIO() as rawAsyCode:
count = 0
rawAsyCode.write(self.makeNodeStr(asy2psmap * self.nodeSet[0]))
for node in self.nodeSet[1:]:
if not self.computed or count >= len(self.controlSet):
rawAsyCode.write(self.linkSet[count])
rawAsyCode.write(self.makeNodeStr(asy2psmap * node))
else:
rawAsyCode.write('..controls ')
rawAsyCode.write(self.makeNodeStr(asy2psmap * self.controlSet[count][0]))
rawAsyCode.write(' and ')
rawAsyCode.write(self.makeNodeStr(asy2psmap * self.controlSet[count][1]))
rawAsyCode.write(".." + self.makeNodeStr(asy2psmap * node))
count = count + 1
self.asyCode = rawAsyCode.getvalue()
@property
def containsCurve(self):
return '..' in self.linkSet or self.forceCurve
def getNode(self, index):
"""Return the requested node"""
return self.nodeSet[index]
def getLink(self, index):
"""Return the requested link"""
return self.linkSet[index]
def setNode(self, index, newNode):
"""Set a node to a new position"""
self.nodeSet[index] = newNode
def moveNode(self, index, offset):
"""Translate a node"""
if self.nodeSet[index] != "cycle":
self.nodeSet[index] = (self.nodeSet[index][0] + offset[0], self.nodeSet[index][1] + offset[1])
def setLink(self, index, ltype):
"""Change the specified link"""
self.linkSet[index] = ltype
def addNode(self, point, ltype):
"""Add a node to the end of a path"""
self.nodeSet.append(point)
if len(self.nodeSet) != 1:
self.linkSet.append(ltype)
if self.computed:
self.computeControls()
def insertNode(self, index, point, ltype=".."):
"""Insert a node, and its corresponding link, at the given index"""
self.nodeSet.insert(index, point)
self.linkSet.insert(index, ltype)
if self.computed:
self.computeControls()
def setControl(self, index, position):
"""Set a control point to a new position"""
self.controlSet[index] = position
def popNode(self):
if len(self.controlSet) == len(self.nodeSet):
self.controlSet.pop()
self.nodeSet.pop()
self.linkSet.pop()
def moveControl(self, index, offset):
"""Translate a control point"""
self.controlSet[index] = (self.controlSet[index][0] + offset[0], self.controlSet[index][1] + offset[1])
def computeControls(self):
"""Evaluate the code of the path to obtain its control points"""
# For now, if no asymptote process is given spawns a new one.
# Only happens if asyengine is None.
if self.asyengine is not None:
assert isinstance(self.asyengine, AsymptoteEngine)
assert self.asyengine.active
asy = self.asyengine
startUp = False
else:
startUp = True
asy = AsymptoteEngine()
asy.start()
fout = asy.ostream
fin = asy.istream
fout.write("path p=" + self.getCode() + ';\n')
fout.write("write(_outpipe,length(p),newl);\n")
fout.write("write(_outpipe,unstraighten(p),endl);\n")
fout.write(asy.xasy)
fout.flush()
lengthStr = fin.readline()
pathSegments = eval(lengthStr.split()[-1])
pathStrLines = []
for i in range(pathSegments + 1):
line = fin.readline()
line = line.replace("\n", "")
pathStrLines.append(line)
oneLiner = "".join(pathStrLines).replace(" ", "")
splitList = oneLiner.split("..")
nodes = [a for a in splitList if a.find("controls") == -1]
self.nodeSet = []
for a in nodes:
if a == 'cycle':
self.nodeSet.append(a)
else:
self.nodeSet.append(eval(a))
controls = [a.replace("controls", "").split("and") for a in splitList if a.find("controls") != -1]
self.controlSet = [[eval(a[0]), eval(a[1])] for a in controls]
self.computed = True
if startUp:
asy.stop()
class asyLabel(asyObj):
"""A python wrapper for an asy label"""
def __init__(self, text="", location=(0, 0), pen=None, align=None, fontSize:int=None):
"""Initialize the label with the given test, location, and pen"""
asyObj.__init__(self)
self.align = align
self.pen = pen
self.fontSize = fontSize
if align is None:
self.align = 'SE'
if pen is None:
self.pen = asyPen()
self.text = text
self.location = location
def updateCode(self, asy2psmap=identity()):
"""Generate the code describing the label"""
newLoc = asy2psmap.inverted() * self.location
locStr = xu.tuple2StrWOspaces(newLoc)
self.asyCode = 'Label("{0}",{1},p={2}{4},align={3})'.format(self.text, locStr, self.pen.getCode(), self.align,
self.getFontSizeText())
def getFontSizeText(self):
if self.fontSize is not None:
return '+fontsize({:.6g})'.format(self.fontSize)
else:
return ''
def setText(self, text):
"""Set the label's text"""
self.text = text
self.updateCode()
def setPen(self, pen):
"""Set the label's pen"""
self.pen = pen
self.updateCode()
def moveTo(self, newl):
"""Translate the label's location"""
self.location = newl
class asyImage:
"""A structure containing an image and its format, bbox, and IDTag"""
def __init__(self, image, format, bbox, transfKey=None, keyIndex=0):
self.image = image
self.format = format
self.bbox = bbox
self.IDTag = None
self.key = transfKey
self.keyIndex = keyIndex
class xasyItem(Qc.QObject):
"""A base class for items in the xasy GUI"""
mapString = 'xmap'
setKeyFormatStr = string.Template('$map("{:s}",{:s});').substitute(map=mapString)
setKeyAloneFormatStr = string.Template('$map("{:s}");').substitute(map=mapString)
resizeComment="// Resize to initial xasy transform"
asySize=""
def __init__(self, canvas=None, asyengine=None):
"""Initialize the item to an empty item"""
super().__init__()
self.transfKeymap = {} # the new keymap.
# should be a dictionary to a list...
self.asyCode = ''
self.imageList = []
self.IDTag = None
self.asyfied = False
self.onCanvas = canvas
self.keyBuffer = None
self._asyengine = asyengine
self.drawObjects = []
self.drawObjectsMap = {}
self.setKeyed = True
self.unsetKeys = set()
self.userKeys = set()
self.lineOffset = 0
self.imageHandleQueue = queue.Queue()
def updateCode(self, ps2asymap=identity()):
"""Update the item's code: to be overriden"""
with io.StringIO() as rawCode:
transfCode = self.getTransformCode()
objCode = self.getObjectCode()
rawCode.write(transfCode)
rawCode.write(objCode)
self.asyCode = rawCode.getvalue()
return len(transfCode.splitlines()), len(objCode.splitlines())
@property
def asyengine(self):
return self._asyengine
@asyengine.setter
def asyengine(self, value):
self._asyengine = value
def getCode(self, ps2asymap=identity()):
"""Return the code describing the item"""
self.updateCode(ps2asymap)
return self.asyCode
def getTransformCode(self, asy2psmap=identity()):
raise NotImplementedError
def getObjectCode(self, asy2psmap=identity()):
raise NotImplementedError
def generateDrawObjects(self):
raise NotImplementedError
def handleImageReception(self, file, fileformat, bbox, count, key=None, localCount=0, containsClip=False):
"""Receive an image from an asy deconstruction. It replaces the default n asyProcess."""
# image = Image.open(file).transpose(Image.FLIP_TOP_BOTTOM)
if fileformat == 'png':
image = Qg.QImage(file)
elif fileformat == 'svg':
if containsClip:
image = xs.SvgObject(file)
else:
image = Qs.QSvgRenderer(file)
assert image.isValid()
else:
raise Exception('Format not supported!')
self.imageList.append(asyImage(image, fileformat, bbox, transfKey=key, keyIndex=localCount))
if self.onCanvas is not None:
# self.imageList[-1].iqt = ImageTk.PhotoImage(image)
currImage = self.imageList[-1]
currImage.iqt = image
currImage.originalImage = image
currImage.originalImage.theta = 0.0
currImage.originalImage.bbox = list(bbox)
currImage.performCanvasTransform = False
# handle this case if transform is not in the map yet.
# if deleted - set transform to 0, 0, 0, 0, 0
transfExists = key in self.transfKeymap.keys()
if transfExists:
transfExists = localCount <= len(self.transfKeymap[key]) - 1
if transfExists:
validKey = not self.transfKeymap[key][localCount].deleted
else:
validKey = False
if (not transfExists) or validKey:
currImage.IDTag = str(file)
newDrawObj = DrawObject(currImage.iqt, self.onCanvas['canvas'], transform=identity(),
btmRightanchor=Qc.QPointF(bbox[0], bbox[2]), drawOrder=-1, key=key,
parentObj=self, keyIndex=localCount)
newDrawObj.setBoundingBoxPs(bbox)
newDrawObj.setParent(self)
self.drawObjects.append(newDrawObj)
if key not in self.drawObjectsMap.keys():
self.drawObjectsMap[key] = [newDrawObj]
else:
self.drawObjectsMap[key].append(newDrawObj)
return containsClip
def asyfy(self, force=False):
if self.asyengine is None:
return 1
if self.asyfied and not force:
return
self.drawObjects = []
self.drawObjectsMap.clear()
assert isinstance(self.asyengine, AsymptoteEngine)
self.imageList = []
self.unsetKeys.clear()
self.userKeys.clear()
self.imageHandleQueue = queue.Queue()
worker = threading.Thread(target=self.asyfyThread, args=[])
worker.start()
item = self.imageHandleQueue.get()
cwd=os.getcwd();
os.chdir(self.asyengine.tempDirName)
while item != (None,) and item[0] != "ERROR":
if item[0] == "OUTPUT":
print(item[1])
else:
keepFile = self.handleImageReception(*item)
if not DebugFlags.keepFiles and not keepFile:
try:
os.remove(item[0])
pass
except OSError:
pass
finally:
pass
item = self.imageHandleQueue.get()
# self.imageHandleQueue.task_done()
os.chdir(cwd);
worker.join()
def asyfyThread(self):
"""Convert the item to a list of images by deconstructing this item's code"""
assert self.asyengine.active
fout = self.asyengine.ostream
fin = self.asyengine.istream
self.lineOffset = len(self.getTransformCode().splitlines())
fout.write("reset\n")
fout.flush();
for line in self.getCode().splitlines():
if DebugFlags.printDeconstTranscript:
print('fout:', line)
fout.write(line+"\n")
fout.write(self.asySize)
fout.write("deconstruct();\n")
fout.write('write(_outpipe,yscale(-1)*currentpicture.calculateTransform(),endl);\n')
fout.write(self.asyengine.xasy)
fout.flush()
imageInfos = [] # of (box, key)
n = 0
keyCounts = {}
def render():
for i in range(len(imageInfos)):
box, key, localCount, useClip = imageInfos[i]
l, b, r, t = [float(a) for a in box.split()]
name = "{:s}_{:d}.{:s}".format(self.asyengine.tempDirName, i, fileformat)
self.imageHandleQueue.put((name, fileformat, (l, -t, r, -b), i, key, localCount, useClip))
# key first, box second.
# if key is "Done"
raw_text = fin.readline()
text = ""
if DebugFlags.printDeconstTranscript:
print(raw_text.strip())
# template=AsyTempDir+"%d_%d.%s"
fileformat = 'svg'
while raw_text != "Done\n" and raw_text != "Error\n":
# print(raw_text)
text = fin.readline() # the actual bounding box.
# print('TESTING:', text)
keydata = raw_text.strip().replace('KEY=', '', 1) # key
clipflag = keydata[-1] == '1'
userkey = keydata[-2] == '1'
keydata = keydata[:-3]
if not userkey:
self.unsetKeys.add(keydata) # the line and column to replace.
else:
self.userKeys.add(keydata)
# print(line, col)
if keydata not in keyCounts.keys():
keyCounts[keydata] = 0
imageInfos.append((text, keydata, keyCounts[keydata], clipflag)) # key-data pair
# for the next item
keyCounts[keydata] += 1
raw_text = fin.readline()
if DebugFlags.printDeconstTranscript:
print(text.rstrip())
print(raw_text.rstrip())
n += 1
if text == "Error\n":
self.imageHandleQueue.put(("ERROR", fin.readline()))
else:
render()
self.asy2psmap = asyTransform(xu.listize(fin.readline().rstrip(),float))
self.imageHandleQueue.put((None,))
self.asyfied = True
class xasyDrawnItem(xasyItem):
"""A base class for GUI items was drawn by the user. It combines a path, a pen, and a transform."""
def __init__(self, path, engine, pen=None, transform=identity(), key=None):
"""Initialize the item with a path, pen, and transform"""
super().__init__(canvas=None, asyengine=engine)
if pen is None:
pen = asyPen()
self.path = path
self.path.asyengine = engine
self.asyfied = True
self.pen = pen
self._asyengine = engine
self.rawIdentifier = ''
self.transfKey = key
self.transfKeymap = {self.transfKey: [transform]}
@property
def asyengine(self):
return self._asyengine
@asyengine.setter
def asyengine(self, value: AsymptoteEngine):
self._asyengine = value
self.path.asyengine = value
def setKey(self, newKey=None):
transform = self.transfKeymap[self.transfKey][0]
self.transfKey = newKey
self.transfKeymap = {self.transfKey: [transform]}
def generateDrawObjects(self, forceUpdate=False):
raise NotImplementedError
def appendPoint(self, point, link=None):
"""Append a point to the path. If the path is cyclic, add this point before the 'cycle' node."""
if self.path.nodeSet[-1] == 'cycle':
self.path.nodeSet[-1] = point
self.path.nodeSet.append('cycle')
else:
self.path.nodeSet.append(point)
self.path.computed = False
self.asyfied = False
if len(self.path.nodeSet) > 1 and link is not None:
self.path.linkSet.append(link)
def clearTransform(self):
"""Reset the item's transform"""
self.transform = [identity()]
self.asyfied = False
def removeLastPoint(self):
"""Remove the last point in the path. If the path is cyclic, remove the node before the 'cycle' node."""
if self.path.nodeSet[-1] == 'cycle':
del self.path.nodeSet[-2]
else:
del self.path.nodeSet[-1]
del self.path.linkSet[-1]
self.path.computed = False
self.asyfied = False
def setLastPoint(self, point):
"""Modify the last point in the path. If the path is cyclic, modify the node before the 'cycle' node."""
if self.path.nodeSet[-1] == 'cycle':
self.path.nodeSet[-2] = point
else:
self.path.nodeSet[-1] = point
self.path.computed = False
self.asyfied = False
class xasyShape(xasyDrawnItem):
"""An outlined shape drawn on the GUI"""
def __init__(self, path, asyengine, pen=None, transform=identity()):
"""Initialize the shape with a path, pen, and transform"""
super().__init__(path=path, engine=asyengine, pen=pen, transform=transform)
def getObjectCode(self, asy2psmap=identity()):
return 'draw(KEY="{0}",{1},{2});'.format(self.transfKey, self.path.getCode(asy2psmap), self.pen.getCode())+'\n\n'
def getTransformCode(self, asy2psmap=identity()):
transf = self.transfKeymap[self.transfKey][0]
if transf == identity():
return ''
else:
return xasyItem.setKeyFormatStr.format(self.transfKey, transf.getCode(asy2psmap))+'\n'
def generateDrawObjects(self, forceUpdate=False):
if self.path.containsCurve:
self.path.computeControls()
transf = self.transfKeymap[self.transfKey][0]
newObj = DrawObject(self.path.toQPainterPath(), None, drawOrder=0, transform=transf, pen=self.pen,
key=self.transfKey)
newObj.originalObj = self
newObj.setParent(self)
return [newObj]
def __str__(self):
"""Create a string describing this shape"""
return "xasyShape code:{:s}".format("\n\t".join(self.getCode().splitlines()))
class xasyFilledShape(xasyShape):
"""A filled shape drawn on the GUI"""
def __init__(self, path, asyengine, pen=None, transform=identity()):
"""Initialize this shape with a path, pen, and transform"""
if path.nodeSet[-1] != 'cycle':
raise Exception("Filled paths must be cyclic")
super().__init__(path, asyengine, pen, transform)
def getObjectCode(self, asy2psmap=identity()):
return 'fill(KEY="{0}",{1},{2});'.format(self.transfKey, self.path.getCode(asy2psmap), self.pen.getCode())+'\n\n'
def generateDrawObjects(self, forceUpdate=False):
if self.path.containsCurve:
self.path.computeControls()
newObj = DrawObject(self.path.toQPainterPath(), None, drawOrder=0, transform=self.transfKeymap[self.transfKey][0],
pen=self.pen, key=self.transfKey, fill=True)
newObj.originalObj = self
newObj.setParent(self)
return [newObj]
def __str__(self):
"""Return a string describing this shape"""
return "xasyFilledShape code:{:s}".format("\n\t".join(self.getCode().splitlines()))
class xasyText(xasyItem):
"""Text created by the GUI"""
def __init__(self, text, location, asyengine, pen=None, transform=yflip(), key=None, align=None, fontsize:int=None):
"""Initialize this item with text, a location, pen, and transform"""
super().__init__(asyengine=asyengine)
if pen is None:
pen = asyPen(asyengine=asyengine)
if pen.asyEngine is None:
pen.asyEngine = asyengine
self.label = asyLabel(text, location, pen, align, fontSize=fontsize)
# self.transform = [transform]
self.transfKey = key
self.transfKeymap = {self.transfKey: [transform]}
self.asyfied = False
self.onCanvas = None
def setKey(self, newKey=None):
transform = self.transfKeymap[self.transfKey][0]
self.transfKey = newKey
self.transfKeymap = {self.transfKey: [transform]}
def getTransformCode(self, asy2psmap=yflip()):
transf = self.transfKeymap[self.transfKey][0]
if transf == yflip():
# return xasyItem.setKeyAloneFormatStr.format(self.transfKey)
return ''
else:
return xasyItem.setKeyFormatStr.format(self.transfKey, transf.getCode(asy2psmap))+"\n"
def getObjectCode(self, asy2psmap=yflip()):
return 'label(KEY="{0}",{1});'.format(self.transfKey, self.label.getCode(asy2psmap))+'\n'
def generateDrawObjects(self, forceUpdate=False):
self.asyfy(forceUpdate)
return self.drawObjects
def getBoundingBox(self):
self.asyfy()
return self.imageList[0].bbox
def __str__(self):
return "xasyText code:{:s}".format("\n\t".join(self.getCode().splitlines()))
class xasyScript(xasyItem):
"""A set of images create from asymptote code. It is always deconstructed."""
def __init__(self, canvas, engine, script="", transforms=None, transfKeyMap=None):
"""Initialize this script item"""
super().__init__(canvas, asyengine=engine)
if transfKeyMap is not None:
self.transfKeymap = transfKeyMap
else:
self.transfKeymap = {}
self.script = script
self.key2imagemap = {}
self.namedUnsetKeys = {}
self.keyPrefix = ''
self.scriptAsyfied = False
self.updatedPrefix = True
def clearTransform(self):
"""Reset the transforms for each of the deconstructed images"""
# self.transform = [identity()] * len(self.imageList)
keyCount = {}
for im in self.imageList:
if im.key not in keyCount.keys():
keyCount[im.key] = 1
else:
keyCount[im.key] += 1
for key in keyCount:
self.transfKeymap[key] = [identity()] * keyCount[key]
def getMaxKeyCounter(self):
maxCounter = -1
for key in self.transfKeymap:
testNum = re.match(r'^x(\d+)$', key)
if testNum is not None:
maxCounter = max(maxCounter, int(testNum.group(1)))
return maxCounter + 1
def getTransformCode(self, asy2psmap=identity()):
with io.StringIO() as rawAsyCode:
if self.transfKeymap:
for key in self.transfKeymap.keys():
val = self.transfKeymap[key]
writeval = list(reversed(val))
# need to map all transforms in a list if there is any non-identity
# unfortunately, have to check all transformations in the list.
while not all(checktransf == identity() for checktransf in writeval) and writeval:
transf = writeval.pop()
if transf.deleted:
rawAsyCode.write(xasyItem.setKeyFormatStr.format(key, transf.getCode(asy2psmap)) + '\n//')
if transf == identity() and not transf.deleted:
rawAsyCode.write(xasyItem.setKeyAloneFormatStr.format(key))
else:
rawAsyCode.write(xasyItem.setKeyFormatStr.format(key, transf.getCode(asy2psmap)))
rawAsyCode.write('\n')
result = rawAsyCode.getvalue()
return result
def findNonIdKeys(self):
return {key for key in self.transfKeymap if not all(transf == identity() for transf in self.transfKeymap[key]) }
def getObjectCode(self, asy2psmap=identity()):
numeric=r'([-+]?(?:(?:\d*\.\d+)|(?:\d+\.?)))'
rSize=re.compile("size\(\("+numeric+","+numeric+","+numeric+","
+numeric+","+numeric+","+numeric+"\)\); "+
self.resizeComment)
newScript = self.getReplacedKeysCode(self.findNonIdKeys())
with io.StringIO() as rawAsyCode:
for line in newScript.splitlines():
if(rSize.match(line)):
self.asySize=line.rstrip()+'\n'
else:
raw_line = line.rstrip().replace('\t', ' ' * 4)
rawAsyCode.write(raw_line + '\n')
self.updatedCode = rawAsyCode.getvalue()
return self.updatedCode
def setScript(self, script):
"""Sets the content of the script item."""
self.script = script
self.updateCode()
def setKeyPrefix(self, newPrefix=''):
self.keyPrefix = newPrefix
self.updatedPrefix = False
def getReplacedKeysCode(self, key2replace: set=None) -> str:
keylist = {}
prefix = ''
key2replaceSet = self.unsetKeys if key2replace is None else \
self.unsetKeys & key2replace
linenum2key = {}
if not self.updatedPrefix:
prefix = self.keyPrefix
for key in key2replaceSet:
actualkey = key
key = key.split(':')[0]
raw_parsed = xu.tryParseKey(key)
assert raw_parsed is not None
line, col = [int(val) for val in raw_parsed.groups()]
if line not in keylist:
keylist[line] = set()
keylist[line].add(col)
linenum2key[(line, col)] = actualkey
self.unsetKeys.discard(key)
raw_code_lines = self.script.splitlines()
with io.StringIO() as raw_str:
for i_0 in range(len(raw_code_lines)):
i = i_0 + self.lineOffset
curr_str = raw_code_lines[i_0]
if i + 1 in keylist.keys():
# this case, we have a key.
with io.StringIO() as raw_line:
for j in range(len(curr_str)):
raw_line.write(curr_str[j])
if j + 1 in keylist[i + 1]:
# at this point, replace keys with xkey
raw_line.write('KEY="{0:s}",'.format(linenum2key[(i + 1, j + 1)]))
self.userKeys.add(linenum2key[(i + 1, j + 1)])
curr_str = raw_line.getvalue()
# else, skip and just write the line.
raw_str.write(curr_str + '\n')
return raw_str.getvalue()
def getUnusedKey(self, oldkey) -> str:
baseCounter = 0
newKey = oldkey
while newKey in self.userKeys:
newKey = oldkey + ':' + str(baseCounter)
baseCounter += 1
return newKey
def asyfy(self, keyOnly=False):
"""Generate the list of images described by this object and adjust the length of the transform list."""
super().asyfy()
# Id --> Transf --> asy-fied --> Transf
# Transf should keep the original, raw transformation
# but for all new drawn objects - assign Id as transform.
if self.scriptAsyfied:
return
keyCount = {}
settedKey = {}
for im in self.imageList:
if im.key in self.unsetKeys and im.key not in settedKey.keys():
oldkey = im.key
self.unsetKeys.remove(im.key)
im.key = self.getUnusedKey(im.key)
self.unsetKeys.add(im.key)
for drawobj in self.drawObjectsMap[oldkey]:
drawobj.key = im.key
self.drawObjectsMap[im.key] = self.drawObjectsMap[oldkey]
self.drawObjectsMap.pop(oldkey)
settedKey[oldkey] = im.key
elif im.key in settedKey.keys():
im.key = settedKey[im.key]
if im.key not in keyCount.keys():
keyCount[im.key] = 1
else:
keyCount[im.key] += 1
if im.key not in self.key2imagemap.keys():
self.key2imagemap[im.key] = [im]
else:
self.key2imagemap[im.key].append(im)
for key in keyCount:
if key not in self.transfKeymap.keys():
self.transfKeymap[key] = [identity()] * keyCount[key]
else:
while len(self.transfKeymap[key]) < keyCount[key]:
self.transfKeymap[key].append(identity())
# while len(self.transfKeymap[key]) > keyCount[key]:
# self.transfKeymap[key].pop()
# change of basis
for keylist in self.transfKeymap.values():
for i in range(len(keylist)):
if keylist[i] != identity():
keylist[i] = self.asy2psmap * keylist[i] * self.asy2psmap.inverted()
self.updateCode()
self.scriptAsyfied = True
def generateDrawObjects(self, forceUpdate=False):
self.asyfy(forceUpdate)
return self.drawObjects
def __str__(self):
"""Return a string describing this script"""
retVal = "xasyScript\n\tTransforms:\n"
for xform in self.transform:
retVal += "\t" + str(xform) + "\n"
retVal += "\tCode Ommitted"
return retVal
class DrawObject(Qc.QObject):
def __init__(self, drawObject, mainCanvas=None, transform=identity(), btmRightanchor=Qc.QPointF(0, 0),
drawOrder=(-1, -1), pen=None, key=None, parentObj=None, fill=False, keyIndex=0):
super().__init__()
self.drawObject = drawObject
self.mainCanvas = mainCanvas
self.pTransform = transform
self.baseTransform = transform
self.drawOrder = drawOrder
self.btmRightAnchor = btmRightanchor
self.originalObj = parentObj
self.explicitBoundingBox = None
self.useCanvasTransformation = False
self.key = key
self.cachedSvgImg = None
self.cachedDPI = None
self.maxDPI=0
self.keyIndex = keyIndex
self.pen = pen
self.fill = fill
def getInteriorScrTransform(self, transform):
"""Generates the transform with Interior transform applied beforehand."""
if isinstance(transform, Qg.QTransform):
transform = asyTransform.fromQTransform(transform)
return self.transform * transform * self.baseTransform.inverted()
@property
def transform(self):
return self.pTransform
@transform.setter
def transform(self, value):
self.pTransform = value
def setBoundingBoxPs(self, bbox):
l, b, r, t = bbox
self.explicitBoundingBox = Qc.QRectF(Qc.QPointF(l, b), Qc.QPointF(r, t))
# self.explicitBoundingBox = Qc.QRectF(0, 0, 100, 100)
@property
def boundingBox(self):
if self.explicitBoundingBox is not None:
testBbox = self.explicitBoundingBox
else:
if isinstance(self.drawObject, Qg.QImage):
testBbox = self.drawObject.rect()
testBbox.moveTo(self.btmRightAnchor.toPoint())
elif isinstance(self.drawObject, Qg.QPainterPath):
testBbox = self.baseTransform.toQTransform().mapRect(self.drawObject.boundingRect())
else:
raise TypeError('drawObject is not a valid type!')
pointList = [self.getScreenTransform().toQTransform().map(point) for point in [
testBbox.topLeft(), testBbox.topRight(), testBbox.bottomLeft(), testBbox.bottomRight()
]]
return Qg.QPolygonF(pointList).boundingRect()
@property
def localBoundingBox(self):
testBbox = self.drawObject.rect()
testBbox.moveTo(self.btmRightAnchor.toPoint())
return testBbox
def getScreenTransform(self):
scrTransf = self.baseTransform.toQTransform().inverted()[0] * self.pTransform.toQTransform()
return asyTransform.fromQTransform(scrTransf)
def draw(self, additionalTransformation=None, applyReverse=False, canvas: Qg.QPainter=None, dpi=300):
if canvas is None:
canvas = self.mainCanvas
if additionalTransformation is None:
additionalTransformation = Qg.QTransform()
assert canvas.isActive()
canvas.save()
if self.pen:
oldPen = Qg.QPen(canvas.pen())
canvas.setPen(self.pen.toQPen())
else:
oldPen = Qg.QPen()
if not applyReverse:
canvas.setTransform(additionalTransformation, True)
canvas.setTransform(self.transform.toQTransform(), True)
else:
canvas.setTransform(self.transform.toQTransform(), True)
canvas.setTransform(additionalTransformation, True)
canvas.setTransform(self.baseTransform.toQTransform().inverted()[0], True)
if isinstance(self.drawObject, Qg.QImage):
canvas.drawImage(self.explicitBoundingBox, self.drawObject)
elif isinstance(self.drawObject, xs.SvgObject):
threshold = 1.44
if self.cachedDPI is None or self.cachedSvgImg is None \
or dpi > self.maxDPI*threshold:
self.cachedDPI = dpi
self.maxDPI=max(self.maxDPI,dpi)
self.cachedSvgImg = self.drawObject.render(dpi)
canvas.drawImage(self.explicitBoundingBox, self.cachedSvgImg)
elif isinstance(self.drawObject, Qs.QSvgRenderer):
self.drawObject.render(canvas, self.explicitBoundingBox)
elif isinstance(self.drawObject, Qg.QPainterPath):
path = self.baseTransform.toQTransform().map(self.drawObject)
if self.fill:
if self.pen:
brush = self.pen.toQPen().brush()
else:
brush = Qg.QBrush()
canvas.fillPath(path, brush)
else:
canvas.drawPath(path)
if self.pen:
canvas.setPen(oldPen)
canvas.restore()
def collide(self, coords, canvasCoordinates=True):
# modify these values to grow/shrink the fuzz.
fuzzTolerance = 1
marginGrowth = 1
leftMargin = marginGrowth if self.boundingBox.width() < fuzzTolerance else 0
topMargin = marginGrowth if self.boundingBox.height() < fuzzTolerance else 0
newMargin = Qc.QMarginsF(leftMargin, topMargin, leftMargin, topMargin)
return self.boundingBox.marginsAdded(newMargin).contains(coords)
def getID(self):
return self.originalObj
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