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XMLlib.py
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XMLlib.py
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# -*- coding: utf-8 -*-
'''
Library to parse XML codes such as those used for the FreeCAD view result, as to get graphics elements out.
'''
# Future Work,
# - replace custom XML parser lib with an established svg library ...
#
import numpy
from numpy import sin, cos, dot
def findOffset( text, subtext, p_start ):
p = text.find(subtext, p_start)
return p + len(subtext) if p > -1 else -1
def splitMultiSep( text, seperators ):
parts = []
i = 0
j = 0
while i < len(text):
for s in seperators:
if text[i:i+len(s)] == s:
parts.append( text[j:i] )
i = i + len(s)
j = i
continue
i = i + 1
if j < len(text):
parts.append( text[j:] )
return parts
def extractParms( text, p_start, startText, sep, endText ):
p1 = findOffset( text, startText, p_start)
assert p1 > -1
p2 = text.find( endText , p1 )
assert p2 > p1
return [ part for part in splitMultiSep(text[p1:p2], sep) if len(part) > 0 ]
def findClose_sub(text, subText, pStart):
p = text.find(subText, pStart)
return p if p <> -1 else len(text)-1 #if p == -1 then broken XML
def findClose(text, closingOptions, pStart):
return min( [ findClose_sub(text, subText, pStart) for subText in closingOptions ] )
class SvgXMLTreeNode:
def __init__(self, XML, pStart, parent=None):
self.XML = XML
self.pStart = pStart
self.parent = parent
self.children = []
assert XML[pStart] == '<'
pNextElement = XML.find('<', pStart + 1)
pClose = findClose( XML, ['/','-->'], pStart)
while pNextElement > -1 and pNextElement +1 < pClose: #+1 to handle '</svg>' styled close tags
child = SvgXMLTreeNode( XML, pNextElement, self )
self.children.append(child)
pNextElement = XML.find('<', child.pEnd)
pClose = findClose(XML, ['/','-->'], child.pEnd)
self.pClose = pClose
self.pEnd = findClose(XML, '>', pClose)+1
if len(self.children) == 0:
if XML[ pClose-1 ] == '<':
self.header = XML[ pStart:pClose-1 ]
self.footer = XML[ pClose-1:self.pEnd ]
else:
self.header = XML[ pStart:pClose ]
self.footer = XML[ pClose:self.pEnd ]
else:
self.header = XML[ pStart: self.children[0].pStart ]
self.footer = XML[ self.children[-1].pEnd : self.pEnd ]
self.header = self.header.replace('\n','').replace('\t',' ')
self.footer = self.footer.replace('\n','')
self.tag = self.header.split()[0][1:]
if self.tag.startswith('!--'): #comment special case
self.tag = '!--'
self.parms = {}
h = self.header
p = h.find('=')
while p > -1:
i = p-1
key = ''
while key == '' or h[i] <> ' ':
if h[i] <> ' ':
key = h[i] + key
i = i - 1
p1 = h.find('"', p)
p2 = h.find('"', p1+1)
self.parms[key] = h[p1+1:p2]
p = self.header.find('=', p+1)
#print(self.parms)
def rootNode(self):
if self.parent==None:
return self
else:
return self.parent.rootNode()
def prettify(self, indent='', indentIncrease=' '):
if len(self.children) == 0:
return indent + self.header + self.footer
else:
return indent + self.header + '\n' + '\n'.join([c.prettify( indent+indentIncrease ) for c in self.children]) + '\n' + indent + self.footer
def __repr__(self):
return self.prettify()
def applyTransforms(self, x, y):
R = numpy.eye(2)
r_o = numpy.zeros(2)
tx, ty = 0, 0
sx, sy = 1.0, 1.0
if 'transform=' in self.header:
if 'rotate(' in self.header:
rotateParms = map(float, extractParms(self.header, 0, 'rotate(', ', ', ')'))
if len(rotateParms) == 3:
rotateDegrees, rx, ry = rotateParms
else:
assert len(rotateParms) == 1
rotateDegrees, rx, ry = rotateParms[0], 0.0, 0.0
rads = numpy.pi * rotateDegrees / 180
R = numpy.array([ [ cos(rads), -sin(rads)], [ sin(rads), cos(rads)] ])
r_o = numpy.array([ rx, ry])
if 'translate(' in self.header:
tx, ty = map(float, extractParms(self.header, 0, 'translate(', ', ', ')'))
if 'scale(' in self.header:
scaleParms = map(float, extractParms(self.header, 0, 'scale(', ', ', ')'))
if len(scaleParms) == 2:
sx, sy = scaleParms
else:
sx, sy = scaleParms[0], scaleParms[0]
if 'matrix(' in self.header: #"matrix(1.25,0,0,-1.25,-348.3393,383.537)"
sx, shear_1, shear_2, sy, tx, ty = map(float, extractParms(self.header, 0, 'matrix(', ', ', ')'))
if not shear_1 == 0 and shear_2 == 0:
raise NotImplementedError, " not shear_1 == 0 and shear_2 == 0! header %s" % self.header
p = numpy.array( [sx*x + tx, sy*y + ty] )
point = dot(R, p-r_o) +r_o
if self.parent <> None:
return self.parent.applyTransforms(*point)
else:
return point[0], point[1]
def Transforms( self, cumalative=True, T=None, c=None):
'y = dot(T,x) + c'
if T==None:
T = numpy.eye(2)
c = numpy.zeros(2)
R = numpy.eye(2)
r_o = numpy.zeros(2)
tx, ty = 0, 0
sx, sy = 1.0, 1.0
if 'transform=' in self.header:
if 'matrix(' in self.header: #"matrix(1.25,0,0,-1.25,-348.3393,383.537)"
t_11, t_12, t_21, t22, c1, c2 = map(float, extractParms(self.header, 0, 'matrix(', ', ', ')'))
T_e = numpy.array([[ t_11, t_12], [t_21, t22]])
c_e = numpy.array([c1,c2])
T = dot( T_e, T )
c = dot( T_e, c) + c_e
if 'translate(' in self.header:
tx, ty = map(float, extractParms(self.header, 0, 'translate(', ', ', ')'))
if 'scale(' in self.header:
scaleParms = map(float, extractParms(self.header, 0, 'scale(', ', ', ')'))
if len(scaleParms) == 2:
sx, sy = scaleParms
else:
sx, sy = scaleParms[0], scaleParms[0]
if 'rotate(' in self.header:
rotateParms = map(float, extractParms(self.header, 0, 'rotate(', ', ', ')'))
if len(rotateParms) == 3:
rotateDegrees, rx, ry = rotateParms
else:
assert len(rotateParms) == 1
rotateDegrees, rx, ry = rotateParms[0], 0.0, 0.0
rads = numpy.pi * rotateDegrees / 180
R = numpy.array([ [ cos(rads), -sin(rads)], [ sin(rads), cos(rads)] ])
r_o = numpy.array([ rx, ry])
T_e = numpy.array([[ sx, 0.0], [0.0, sy]])
c_e = numpy.array([tx,ty])
T = dot( T_e, T )
c = dot( T_e, c) + c_e
# z = dot(R, y - r_o) + r_o
# z = dot(R, dot(T,x) + c - r_o) + r_o
T = dot(R,T)
c = dot(R,c) - dot(R,r_o) + r_o
if self.parent <> None and cumalative:
return self.parent.Transforms(T=T, c=c)
else:
return T, c
def scaling(self):
sx = 1.0
if 'scale(' in self.header:
sx = map(float, extractParms(self.header, 0, 'scale(', ',', ')'))[0]
if len(self.children) == 1:
sx_child = self.children[0].scaling()
else:
sx_child = 1.0
return sx * sx_child
def scaling2(self, s=1.0):
'other scaling works only for drawingObject.ViewResult groups...'
if 'transform=' in self.header:
if 'scale(' in self.header:
scaleParms = map(float, extractParms(self.header, 0, 'scale(', ', ', ')'))
if len(scaleParms) == 2:
sx, sy = scaleParms
else:
sx, sy = scaleParms[0], scaleParms[0]
s = s * sx
elif 'matrix(' in self.header: #"matrix(1.25,0,0,-1.25,-348.3393,383.537)"
sx, shear_1, shear_2, sy, tx, ty = map(float, extractParms(self.header, 0, 'matrix(', ', ', ')'))
assert shear_1 == 0 and shear_2 == 0
s = s *sx
if self.parent <> None:
return self.parent.scaling2(s)
else:
return s
def getAllElements(self):
return [self] + sum([c.getAllElements() for c in self.children],[])
def replaceParm( xml, parm, newText ):
# <text x="50" y="-60" fill="blue" style="font-size:8" >256.426</text> '''
keyPos = xml.find(parm)
p1 = xml.find('"', keyPos)
p2 = xml.find('"', p1+1)
return xml[:p1+1] + newText + xml[p2:]
if __name__ == "__main__":
print('Testing XMLlib')
XML = '''<svg id="Ortho_0_1" width="640" height="480"
transform="rotate(90,122.43,123.757) translate(122.43,123.757) scale(1.5,1.5)"
>
<g stroke="rgb(0, 0, 0)"
stroke-width="0.233333"
stroke-linecap="butt"
stroke-linejoin="miter"
fill="none"
transform="scale(1,-1)"
>
<path id= "1" d=" M 65.9612 -59.6792 L -56.2041 -59.6792 " />
<path d="M-56.2041 -59.6792 A4.2 4.2 0 0 0 -60.4041 -55.4792" /><path id= "3" d=" M 65.9612 49.7729 L 65.9612 -59.6792 " />
<path id= "4" d=" M -60.4041 -55.4792 L -60.4041 49.7729 " />
<path id= "5" d=" M -60.4041 49.7729 L 65.9612 49.7729 " />
<circle cx ="22.2287" cy ="-15.2218" r ="13.8651" /><!--Comment-->
<path id= "7" d="M18,0 L17.9499,-4.32955e-16 L17.8019,-4.00111e-16 L17.5637,-3.47203e-16 L17.247,-2.76885e-16 L16.8678,-1.92683e-16 L16.445,-9.88191e-17 L16,-5.43852e-32 L15.555,9.88191e-17 L15.1322,1.92683e-16 L14.753,2.76885e-16 L14.4363,3.47203e-16 L14.1981,4.00111e-16 L14.0501,4.32955e-16 L14,4.44089e-16 " />
<path d="M12.7,-53.35 C13.0276,-53.3497 13.3353,-53.4484 13.5837,-53.6066 C13.8332,-53.7643 14.0231,-53.9807 14.1457,-54.2047 C14.4256,-54.721 14.41,-55.3038 14.1502,-55.787 C14.0319,-56.0053 13.8546,-56.213 13.6163,-56.3722 C13.3789,-56.5307 13.0795,-56.6413 12.7378,-56.6496 C12.3961,-56.6571 12.0892,-56.5598 11.8429,-56.4099 C11.5956,-56.2597 11.4083,-56.0565 11.282,-55.8436 C11.0014,-55.3672 10.9667,-54.7868 11.2231,-54.2642 C11.3401,-54.0279 11.5293,-53.7969 11.7844,-53.6273 C12.0382,-53.4574 12.3575,-53.3497 12.7,-53.35 " />
</g>
<text x="50" y="-60" fill="blue" style="font-size:8" transform="rotate(0.000000 50,-60)">256.426</text>
</svg>'''
print('parsing')
print(XML)
print('')
print('result:')
svg = SvgXMLTreeNode(XML,0)
print(svg)