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####################################################################################################
#
# Patro - A Python implementation of Valentina Pattern Drafting Software
# Copyright (C) 2017 Fabrice Salvaire
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
####################################################################################################
"""This module implements the val XML file format and is designed so as to decouple the XML details
and the calculation API.
The purpose of each XmlObjectAdaptator sub-classes is to serve as a bidirectional adaptor between
the XML format and the API.
"""
####################################################################################################
import logging
from pathlib import Path
from lxml import etree
from Patro.Geometry.Vector import Vector2D
from Patro.Pattern.Measurement import Measurements, Measurement
from Patro.Pattern.Pattern import Pattern
from Patro.Xml.Objectivity import (BoolAttribute,
IntAttribute, FloatAttribute,
StringAttribute,
from .Measurements import VitFile
####################################################################################################
_module_logger = logging.getLogger(__name__)
####################################################################################################
FloatAttribute('mx'),
FloatAttribute('my'),
####################################################################################################
class CalculationMixin:
__attributes__ = (
IntAttribute('id'),
)
__calculation__ = None
##############################################
def call_calculation_function(self, pattern, kwargs):
return getattr(pattern, self.__calculation__.__name__)(**kwargs)
##############################################
def to_calculation(self, pattern):
raise NotImplementedError
##############################################
@classmethod
def from_calculation(calculation):
raise NotImplementedError
####################################################################################################
class CalculationTypeMixin(CalculationMixin):
##############################################
def to_xml(self):
return XmlObjectAdaptator.to_xml(self, type=self.__type__)
####################################################################################################
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class LinePropertiesMixin:
__attributes__ = (
StringAttribute('line_color', 'lineColor'),
StringAttribute('line_style', 'typeLine'),
)
__COLORS__ = (
'black',
'blue',
'cornflowerblue',
'darkBlue',
'darkGreen',
'darkRed',
'darkviolet',
'deeppink',
'deepskyblue',
'goldenrod',
'green',
'lightsalmon',
'lime',
'mediumseagreen',
'orange',
'violet',
'yellow',
)
__LINE_STYLE__ = (
'dashDotDotLine',
'dashDotLine',
'dashLine',
'dotLine',
'hair', # should be solid
'none',
)
####################################################################################################
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# angle
# angle1
# angle2
# arc
# axisP1
# axisP2
# axisType
# baseLineP1
# baseLineP2
# basePoint
# c1Center
# c1Radius
# c2Center
# c2Radius
# cCenter
# center
# color
# cRadius
# crossPoint
# curve
# curve1
# curve2
# dartP1
# dartP2
# dartP3
# duplicate
# firstArc
# firstPoint
# hCrossPoint
# id
# idObject
# length
# length1
# length2
# lineColor
# mx
# mx1
# mx2
# my
# my1
# my2
# name
# name1
# name2
# object (group)
# p1Line
# p1Line1
# p1Line2
# p2Line
# p2Line1
# p2Line2
# point1
# point2
# point3
# point4
# pShoulder
# pSpline
# radius
# radius1
# radius2
# rotationAngle
# secondArc
# secondPoint
# spline
# splinePath
# suffix
# tangent
# thirdPoint
# tool
# type
# typeLine
# vCrossPoint
# visible (group)
# x
# y
class XyMixin:
__attributes__ = (
StringAttribute('x'),
StringAttribute('y'),
)
class FirstSecondPointMixin:
__attributes__ = (
IntAttribute('first_point', 'firstPoint'),
IntAttribute('second_point', 'secondPoint'),
)
class FirstSecondThirdPointMixin(FirstSecondPointMixin):
__attributes__ = (
IntAttribute('third_point', 'thirdPoint'),
)
class BasePointMixin:
__attributes__ = (
IntAttribute('base_point', 'basePoint'),
)
__attributes__ = (
IntAttribute('point1_line1', 'p1Line1'),
IntAttribute('point2_line1', 'p2Line1'),
)
class Line2Mixin:
__attributes__ = (
IntAttribute('point1_line2', 'p1Line2'),
IntAttribute('point2_line2', 'p2Line2'),
)
class Line12Mixin(Line1Mixin, Line2Mixin):
pass
class LengthMixin:
__attributes__ = (
StringAttribute('length'),
)
class AngleMixin:
__attributes__ = (
StringAttribute('angle'),
)
class LengthAngleMixin(LengthMixin, AngleMixin):
pass
####################################################################################################
class PointMixin(CalculationTypeMixin, MxMyMixin):
__tag__ = 'point'
__attributes__ = (
StringAttribute('name'),
)
##############################################
def to_calculation(self, pattern):
kwargs = self.to_dict(exclude=('mx', 'my')) # id'
kwargs['label_offset'] = Vector2D(self.mx, self.my)
return self.call_calculation_function(pattern, kwargs)
##############################################
@classmethod
def from_calculation(cls, calculation):
kwargs = cls.get_dict(calculation, exclude=('mx', 'my'))
label_offset = calculation.label_offset
kwargs['mx'] = label_offset.x
kwargs['my'] = label_offset.y
return cls(**kwargs)
####################################################################################################
class PointLinePropertiesMixin(PointMixin, LinePropertiesMixin):
pass
####################################################################################################
class AlongLinePoint(PointLinePropertiesMixin, FirstSecondPointMixin, LengthMixin, XmlObjectAdaptator):
# <point id="27" firstPoint="25" typeLine="none" mx="0.1" secondPoint="26"
# length="-Line_Bt_Ct" name="Dt" lineColor="black" type="alongLine" my="0.2"/>
__type__ = 'alongLine'
__calculation__ = Calculation.AlongLinePoint
####################################################################################################
class BissectorPoint(PointLinePropertiesMixin, FirstSecondThirdPointMixin, LengthMixin, XmlObjectAdaptator):
# <point id="13" firstPoint="2" thirdPoint="5" typeLine="hair" mx="0.1" secondPoint="1"
# length="Line_A_X" name="B" lineColor="deepskyblue" type="bisector" my="0.2"/>
__type__ = 'bisector'
# __calculation__ = Calculation.BissectorPoint
####################################################################################################
# __type__ = 'curveIntersectAxis'
# <point id="68" basePoint="64" typeLine="hair" mx="0.5" name="Cax1" lineColor="blue"
# type="curveIntersectAxis" angle="10" curve="59" my="-3.1"/>
# __type__ = 'cutArc'
# <point id="73" mx="-3.7" length="30" arc="72" name="Cl3" type="cutArc" my="1.4"/>
# __type__ = 'cutSpline'
# <point id="54" spline="53" mx="0.1" length="10" name="Cl1" type="cutSpline" my="0.2"/>
# __type__ = 'cutSplinePath'
# <point id="60" mx="0.1" splinePath="59" length="20" name="CI2" type="cutSplinePath" my="0.2"/>
####################################################################################################
class EndLinePoint(PointLinePropertiesMixin, BasePointMixin, LengthAngleMixin, XmlObjectAdaptator):
# <point id="2" basePoint="1" typeLine="hair" mx="0.1" length="10" name="X"
# lineColor="blue" type="endLine" angle="360" my="0.25"/>
__type__ = 'endLine'
__calculation__ = Calculation.EndLinePoint
####################################################################################################
class HeightPoint(PointLinePropertiesMixin, BasePointMixin, Line1Mixin, XmlObjectAdaptator):
# <point id="18" basePoint="7" typeLine="hair" mx="0.1" p2Line="14" name="P" p1Line="2"
# lineColor="mediumseagreen" type="height" my="0.2"/>
__type__ = 'height'
# __calculation__ = Calculation.HeightPoint
####################################################################################################
class LineIntersectPoint(PointMixin, Line12Mixin, XmlObjectAdaptator):
# <point id="17" mx="0.1" p1Line2="2" p1Line1="1" name="I" type="lineIntersect" my="0.2"
# p2Line1="12" p2Line2="14"/>
__type__ = 'lineIntersect'
__calculation__ = Calculation.LineIntersectPoint
####################################################################################################
class LineIntersectAxisPoint(PointLinePropertiesMixin, BasePointMixin, Line1Mixin, AngleMixin, XmlObjectAdaptator):
# <point id="20" basePoint="14" typeLine="hair" mx="0.4" p2Line="1" name="AxAn" p1Line="5"
# lineColor="goldenrod" type="lineIntersectAxis" angle="150" my="-1.8"/>
__type__ = 'lineIntersectAxis'
# __calculation__ = Calculation.LineIntersectAxisPoint
####################################################################################################
class NormalPoint(PointLinePropertiesMixin, FirstSecondPointMixin, LengthAngleMixin, XmlObjectAdaptator):
# <point id="26" firstPoint="25" typeLine="hair" mx="0.1" secondPoint="24" length="5"
# name="Ct" lineColor="blue" type="normal" angle="0" my="0.1"/>
__type__ = 'normal'
__calculation__ = Calculation.NormalPoint
####################################################################################################
# __type__ = 'pointFromArcAndTangent'
# <point id="84" tangent="83" mx="-1.3" crossPoint="1" arc="77" name="Ctan" type="pointFromArcAndTangent" my="1.7"/>
# __type__ = 'pointFromCircleAndTangent'
# <point id="81" tangent="80" mx="-2.9" cRadius="3" cCenter="71" crossPoint="1" name="Cp1" type="pointFromCircleAndTangent" my="-2.7"/>
# __type__ = 'pointOfContact'
# <point id="19" radius="Line_A_M*3/2" center="4" firstPoint="1" mx="0.1" secondPoint="5" name="R" type="pointOfContact" my="0.2"/>
####################################################################################################
class PointOfIntersection(PointMixin, FirstSecondPointMixin, XmlObjectAdaptator):
# <point id="14" firstPoint="2" mx="0.1" secondPoint="5" name="XY" type="pointOfIntersection" my="0.2"/>
__type__ = 'pointOfIntersection'
__calculation__ = Calculation.PointOfIntersection
####################################################################################################
# __type__ = 'pointOfIntersectionArcs'
# <point id="78" firstArc="72" mx="-1.3" secondArc="77" crossPoint="1" name="Ci2" type="pointOfIntersectionArcs" my="2."/>
# __type__ = 'pointOfIntersectionCircles'
# <point id="79" c1Center="71" mx="0.1" crossPoint="1" c1Radius="15" name="Ci3" c2Radius="18"
# type="pointOfIntersectionCircles" my="0.2" c2Center="76"/>
# __type__ = 'pointOfIntersectionCurves'
# <point id="67" mx="0.9" curve1="59" vCrossPoint="1" curve2="66" hCrossPoint="1" name="Ci1"
# type="pointOfIntersectionCurves" my="-3.8"/>
####################################################################################################
class ShoulderPoint(PointLinePropertiesMixin, Line1Mixin, LengthMixin, XmlObjectAdaptator):
# <point id="21" typeLine="hair" mx="0.7" p2Line="14" length="Line_X_XY*2" pShoulder="20" name="Sh"
# p1Line="5" lineColor="lightsalmon" type="shoulder" my="-1.3"/>
__type__ = 'shoulder'
# __calculation__ = Calculation.ShoulderPoint
__attributes__ = (
IntAttribute('shoulder_point', 'pShoulder'),
)
####################################################################################################
class SinglePoint(PointMixin, XyMixin, XmlObjectAdaptator):
# <point id="1" mx="0.1" x="0.79375" y="1.05833" name="A" type="single" my="0.2"/>
__type__ = 'single'
__calculation__ = Calculation.SinglePoint
####################################################################################################
# __type__ = 'triangle'
# <point id="28" axisP2="25" axisP1="24" firstPoint="27" mx="0.8" secondPoint="26" name="T1"
# type="triangle" my="1.4"/>
# __type__ = 'trueDarts'
# <point id="44" mx2="-3.9" baseLineP2="39" baseLineP1="38" mx1="0.2" dartP3="42" name1="Td1"
# dartP2="41" point2="46" point1="45" name2="Td2" my2="-0.1" type="trueDarts" my1="-2.5"
# dartP1="43"/>
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####################################################################################################
class Point:
# We cannot use a metaclass to auto-register due to XmlObjectAdaptator (right ?)
__TYPES__ = {
'alongLine': AlongLinePoint,
'bisector': None,
'curveIntersectAxis': None,
'cutArc': None,
'cutSpline': None,
'cutSplinePath': None,
'endLine': EndLinePoint,
'height': None,
'lineIntersect': LineIntersectPoint,
'lineIntersectAxis': None,
'normal': NormalPoint,
'pointFromArcAndTangent': None,
'pointFromCircleAndTangent': None,
'pointOfContact': None,
'pointOfIntersection': PointOfIntersection,
'pointOfIntersectionArcs': None,
'pointOfIntersectionCircles': None,
'pointOfIntersectionCurves': None,
'shoulder': None,
'single': SinglePoint,
'triangle': None,
'trueDarts': None,
}
####################################################################################################
class Line(CalculationMixin, LinePropertiesMixin, FirstSecondPointMixin, XmlObjectAdaptator):
# <line id="47" firstPoint="38" typeLine="hair" secondPoint="45" lineColor="blue"/>
##############################################
def to_calculation(self, pattern):
return self.call_calculation_function(pattern, self.to_dict()) # exclude=('id')
##############################################
@classmethod
def from_calculation(cls, calculation):
kwargs = cls.get_dict(calculation)
return cls(**kwargs)
####################################################################################################
__tag__ = 'spline'
####################################################################################################
class SimpleInteractiveSpline(SplineMixin, XmlObjectAdaptator):
# <spline id="53" angle2="138.403" length2="14.0301" angle1="329.987" length1="18.2062"
# point4="52" type="simpleInteractive" point1="51" color="blue"/>
__type__ = 'simpleInteractive'
__attributes__ = (
IntAttribute('first_point', 'point1'),
IntAttribute('second_point', 'point4'),
StringAttribute('length1'),
StringAttribute('length2'),
StringAttribute('angle1'),
StringAttribute('angle2'),
StringAttribute('line_color', 'color'),
)
__calculation__ = Calculation.SimpleInteractiveSpline
##############################################
def to_calculation(self, pattern):
return self.call_calculation_function(pattern, self.to_dict()) # exclude=('id')
##############################################
@classmethod
def from_calculation(cls, calculation):
kwargs = cls.get_dict(calculation)
return cls(**kwargs)
####################################################################################################
# <spline id="57" duplicate="1" point4="52" point2="55" point3="56" type="cubicBezier" point1="51" color="goldenrod"/>
# <spline id="66" type="cubicBezierPath" color="deepskyblue">
# <pathPoint pSpline="51"/>
# <pathPoint pSpline="52"/>
# <pathPoint pSpline="58"/>
# <pathPoint pSpline="61"/>
# <pathPoint pSpline="63"/>
# <pathPoint pSpline="64"/>
# <pathPoint pSpline="65"/>
# </spline>
# <spline id="59" type="pathInteractive" color="violet">
# <pathPoint angle2="333.352" length2="25.9685" length1="0" angle1="153.352" pSpline="51"/>
# <pathPoint angle2="82.712" length2="15.9887" length1="9.36267" angle1="262.712" pSpline="52"/>
# <pathPoint angle2="254.923" length2="1.78344" length1="7.70133" angle1="74.9232" pSpline="58"/>
# </spline>
####################################################################################################
class Spline:
# We cannot use a metaclass to auto-register due to XmlObjectAdaptator (right ?)
__TYPES__ = {
'cubicBezier': None,
'cubicBezierPath': None,
'pathInteractive': None,
'simpleInteractive': SimpleInteractiveSpline,
}
####################################################################################################
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# <arc id="86" radius="10" center="83" angle1="45" length="30" type="arcWithLength" color="black"/>
# <arc id="72" radius="10" angle2="-30" center="71" angle1="30" type="simple" color="black"/>
# __ARC_TYPE__ = (
# 'arcWithLength',
# 'simple',
# )
# <elArc id="87" angle2="300" center="83" radius2="15" rotationAngle="60" radius1="10" angle1="30" type="simple" color="lime"/>
# __ELLIPSE_TYPE__ = (
# 'simple',
# )
# <operation id="110" center="89" suffix="mir2" axisType="1" type="flippingByAxis">
# <source>
# <item idObject="88"/>
# </source>
# <destination>
# <item idObject="111" mx="0.132292" my="0.264583"/>
# </destination>
# </operation>
# <operation id="108" suffix="mir" p2Line="89" p1Line="88" type="flippingByLine">
# <source>
# <item idObject="90"/>
# </source>
# <destination>
# <item idObject="109" mx="0.132292" my="0.264583"/>
# </destination>
# </operation>
# <operation id="113" suffix="mov" length="15" type="moving" angle="160">
# <source>
# <item idObject="88"/>
# </source>
# <destination>
# <item idObject="114" mx="-1.4973" my="1.56825"/>
# </destination>
# </operation>
# <operation id="101" center="94" suffix="rot" type="rotation" angle="30">
# <source>
# <item idObject="88"/>
# </source>
# <destination>
# <item idObject="102" mx="-0.193626" my="0.738642"/>
# </destination>
# </operation>
# __OPERATION_TYPE__ = (
# 'flippingByAxis',
# 'flippingByLine',
# 'moving',
# 'rotation',
# )
####################################################################################################
class Dispatcher:
__TAGS__ = {}
##############################################
def from_xml(self, element):
tag_class = self.__TAGS__[element.tag]
if tag_class is not None:
return tag_class(element)
else:
raise NotImplementedError
####################################################################################################
class CalculationDispatcher:
_logger = _module_logger.getChild('CalculationDispatcher')
__TAGS__ = {
'arc': None,
'ellipse': None,
'line': Line,
'operation': None,
'point': Point,
'spline': Spline,
}
##############################################
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def __init__(self):
self._mapping = {}
self._init_mapper()
##############################################
def _register_mapping(self, xml_class):
calculation_class = xml_class.__calculation__
if calculation_class:
self._mapping[xml_class] = calculation_class
self._mapping[calculation_class] = xml_class
##############################################
def _init_mapper(self):
for tag_class in self.__TAGS__.values():
if tag_class is not None:
if hasattr(tag_class, '__TYPES__'):
for xml_class in tag_class.__TYPES__.values():
if xml_class is not None:
self._register_mapping(xml_class)
else:
self._register_mapping(tag_class)
##############################################
def from_xml(self, element):
tag_class = self.__TAGS__[element.tag]
if hasattr(tag_class, '__TYPES__'):
cls = tag_class.__TYPES__[element.attrib['type']]
else:
cls = tag_class
if cls is not None:
return cls(element)
else:
raise NotImplementedError
##############################################
def from_calculation(self, calculation):
return self._mapping[calculation.__class__].from_calculation(calculation)
####################################################################################################
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class ModelingItemMixin:
__attributes__ = (
IntAttribute('id'),
IntAttribute('object_id', 'idObject'),
StringAttribute('type'),
BoolAttribute('in_use', 'inUse'),
)
###################################################################################################
class ModelingPoint(ModelingItemMixin, MxMyMixin, XmlObjectAdaptator):
# <point id="108" idObject="66" inUse="true" mx="0.132292" type="modeling" my="0.264583"/>
pass
####################################################################################################
class ModelingSpline(ModelingItemMixin, XmlObjectAdaptator):
# <spline id="111" idObject="107" inUse="true" type="modelingSpline"/>
pass
####################################################################################################
class ModelingDispatcher(Dispatcher):
__TAGS__ = {
'point': ModelingPoint,
'spline': ModelingSpline,
}
####################################################################################################
class Modeling:
##############################################
def __init__(self):
self._items = []
self._id_map = {}
##############################################
def __getitem__(self, id):
return self._id_map[id]
##############################################
def append(self, item):
self._items.append(item)
self._id_map[item.id] = item
####################################################################################################
class Detail(MxMyMixin, XmlObjectAdaptator):
# <detail id="118" version="2" forbidFlipping="false" width="1" united="false" mx="0"
# name="Devant" inLayout="true" seamAllowance="true" my="0">
__attributes__ = (
IntAttribute('id'),
IntAttribute('version'),
BoolAttribute('forbidFlipping'),
IntAttribute('width'),
BoolAttribute('united'),
StringAttribute('name'),
BoolAttribute('inLayout'),
BoolAttribute('seamAllowance'),
)
##############################################
def __init__(self, modeling, *args, **kwargs):
XmlObjectAdaptator.__init__(self, *args, **kwargs)
self._modeling = modeling
self._nodes = []
##############################################
def append_node(self, node):
self._nodes.append(node)
##############################################
def iter_on_nodes(self):
for node in self._nodes:
yield node, self._modeling[node.object_id]
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####################################################################################################
class VisibleRotationMixin:
__attributes__ = (
BoolAttribute('visible'),
IntAttribute('rotation'),
)
####################################################################################################
class HeightWidthMixin:
__attributes__ = (
IntAttribute('height'),
IntAttribute('width'),
)
####################################################################################################
class FontSizeMixin:
__attributes__ = (
IntAttribute('fontSize'),
)
####################################################################################################
class DetailData(HeightWidthMixin, MxMyMixin, FontSizeMixin, VisibleRotationMixin, XmlObjectAdaptator):
# <data letter="" width="0" mx="0" height="0" fontSize="0" visible="false" rotation="0" my="0"/>
__attributes__ = (
StringAttribute('letter'),
)
####################################################################################################
class DetailPatternInfo(HeightWidthMixin, MxMyMixin, FontSizeMixin, VisibleRotationMixin, XmlObjectAdaptator):
# <patternInfo width="0" mx="0" height="0" fontSize="0" visible="false" rotation="0" my="0"/>
pass
####################################################################################################
class DetailGrainline(MxMyMixin, VisibleRotationMixin, XmlObjectAdaptator):
# <grainline arrows="0" mx="0" length="0" visible="false" rotation="90" my="0"/>
__attributes__ = (
IntAttribute('arrows'),
IntAttribute('length'),
)
####################################################################################################
class DetailNode(XmlObjectAdaptator):
# <node idObject="108" type="NodePoint"/>
# <node idObject="120" reverse="1" type="NodeSpline"/>
__attributes__ = (
IntAttribute('object_id', 'idObject'),
StringAttribute('type'),
BoolAttribute('reverse'),
)
####################################################################################################
class DetailDispatcher(Dispatcher):
__TAGS__ = {
'grainline': DetailGrainline,
'patternInfo': DetailPatternInfo,
'data': DetailData,
}
####################################################################################################
class ValFile(XmlFileMixin):
_logger = _module_logger.getChild('ValFile')
_calculation_dispatcher = CalculationDispatcher()
_modeling_dispatcher = ModelingDispatcher()
_detail_dispatcher = DetailDispatcher()
##############################################
def __init__(self, path=None):
if path is None:
path = ''
XmlFileMixin.__init__(self, path)
self._vit_file = None
self._pattern = None
# if path is not None:
if path != '':
self._read()
##############################################
def Write(self, path, vit_file, pattern):
self._vit_file = vit_file
self._pattern = pattern
self.write(path)
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##############################################
@property
def measurements(self):
return self._vit_file.measurements
@property
def pattern(self):
return self._pattern
##############################################
def _read(self):
# <?xml version='1.0' encoding='UTF-8'?>
# <pattern>
# <!--Pattern created with Valentina (http://www.valentina-project.org/).-->
# <version>0.4.0</version>
# <unit>cm</unit>
# <author/>
# <description/>
# <notes/>
# <measurements/>
# <increments/>
# <draw name="Pattern piece 1">
# <calculation/>
# <modeling/>
# <details/>
# <groups/>
# </draw>
# </pattern>
tree = self._parse()
measurements_path = Path(self._get_xpath_element(tree, 'measurements').text)
if not measurements_path.exists():
measurements_path = self._path.parent.joinpath(measurements_path)
if not measurements_path.exists():
raise NameError("Cannot find {}".format(measurements_path))
self._vit_file = VitFile(measurements_path)
unit = self._get_xpath_element(tree, 'unit').text
pattern = Pattern(self._vit_file.measurements, unit)
self._pattern = pattern
for element in self._get_xpath_element(tree, 'draw/calculation'):
xml_calculation = self._calculation_dispatcher.from_xml(element)
xml_calculation.to_calculation(pattern)
except NotImplementedError:
self._logger.warning('Not implemented calculation\n' + str(etree.tostring(element)))
modeling = Modeling()
for element in self._get_xpath_element(tree, 'draw/modeling'):
xml_modeling_item = self._modeling_dispatcher.from_xml(element)
modeling.append(xml_modeling_item)
details = []
for detail_element in self._get_xpath_element(tree, 'draw/details'):
xml_detail = Detail(modeling, detail_element)
details.append(xml_detail)
print(xml_detail)
for element in detail_element:
if element.tag == 'nodes':
for node in element:
xml_node = DetailNode(node)
xml_detail.append_node(xml_node)
else:
xml_modeling_item = self._detail_dispatcher.from_xml(element)
# Fixme: xml_detail. = xml_modeling_item
# print(xml_modeling_item)
for node, modeling_item in xml_detail.iter_on_nodes():
# print(node.object_id, '->', modeling_item, '->', modeling_item.object_id)
print(node, '->\n', modeling_item, '->\n', pattern.get_calculation(modeling_item.object_id))