'''
Created on 07-May-2015
@author: deepa
'''
from PyQt4.QtCore import QString
from PyQt4.QtGui import QMessageBox
'''
Created on 21-Aug-2014
@author: deepa
'''
import sys
from OCC import VERSION
#from PyQt4 import QtGui,QtCore
from ui_finPlate import Ui_MainWindow
from model import *
#from finPlateCalc import finConn
from finplate_calc1 import finConn
import yaml
import pickle
import logging
#from exampleSimpleGUI import init_display
from OCC.BRepAlgoAPI import BRepAlgoAPI_Fuse
from OCC._Quantity import Quantity_NOC_RED,Quantity_NOC_BLUE1,Quantity_NOC_SADDLEBROWN
from ISection import ISection
import numpy
from OCC.Graphic3d import Graphic3d_NOT_2D_ALUMINUM
from weld import Weld
from plate import Plate
from bolt import Bolt
from nut import Nut
import os.path
from utilities import osdagDisplayShape
from OCC.Display.pyqt4Display import qtViewer3d
from colWebBeamWebConnectivity import ColWebBeamWeb
from colFlangeBeamWebConnectivity import ColFlangeBeamWeb
from OCC import IGESControl
from filletweld import FilletWeld
class MainController(QtGui.QMainWindow):
def __init__(self):
QtGui.QMainWindow.__init__(self)
self.ui = Ui_MainWindow()
self.ui.setupUi(self)
self.ui.inputDock.setFixedSize(310,710)
self.gradeType ={'Please Select Type':'',
'HSFG': [8.8,10.8],
'Black Bolt':[3.6,4.6,4.8,5.6,5.8,6.8,9.8,12.9]}
self.ui.comboType.addItems(self.gradeType.keys())
self.ui.comboType.currentIndexChanged[str].connect(self.combotype_currentindexchanged)
self.ui.comboType.setCurrentIndex(0)
self.ui.comboConnLoc.currentIndexChanged[str].connect(self.setimage_connection)
self.ui.btn_Reset.clicked.connect(self.resetbtn_clicked)
self.ui.btn_Design.clicked.connect(self.design_btnclicked)
self.ui.btnInput.clicked.connect(lambda: self.dockbtn_clicked(self.ui.inputDock))
self.ui.btnOutput.clicked.connect(lambda: self.dockbtn_clicked(self.ui.outputDock))
self.ui.btn_front.clicked.connect(self.call_Frontview)
self.ui.btn_top.clicked.connect(self.call_Topview)
self.ui.btn_side.clicked.connect(self.call_Sideview)
self.ui.btn3D.clicked.connect(self.call_3DModel)
self.ui.chkBxBeam.clicked.connect(self.call_3DBeam)
self.ui.chkBxCol.clicked.connect(self.call_3DColumn)
self.ui.chkBxFinplate.clicked.connect(self.call_3DFinplate)
validator = QtGui.QIntValidator()
self.ui.txtFu.setValidator(validator)
self.ui.txtFy.setValidator(validator)
dbl_validator = QtGui.QDoubleValidator()
self.ui.txtPlateLen.setValidator(dbl_validator)
self.ui.txtPlateLen.setMaxLength(7)
self.ui.txtPlateWidth.setValidator(dbl_validator)
self.ui.txtPlateWidth.setMaxLength(7)
self.ui.txtShear.setValidator(dbl_validator)
self.ui.txtShear.setMaxLength(7)
minfuVal = 290
maxfuVal = 590
self.ui.txtFu.editingFinished.connect(lambda: self.check_range(self.ui.txtFu,self.ui.lbl_fu, minfuVal, maxfuVal))
minfyVal = 165
maxfyVal = 450
self.ui.txtFy.editingFinished.connect(lambda: self.check_range(self.ui.txtFy,self.ui.lbl_fy, minfyVal, maxfyVal))
self.ui.combo_Beam.addItems(get_beamcombolist())
self.ui.comboColSec.addItems(get_columncombolist())
self.ui.menuView.addAction(self.ui.inputDock.toggleViewAction())
self.ui.menuView.addAction(self.ui.outputDock.toggleViewAction())
self.ui.btn_CreateDesign.clicked.connect(self.save_design)
#self.ui.btn_Saveoutput.clicked.connect(self.save_design)
self.ui.btn_SaveMessages.clicked.connect(self.save_log)
#self.ui.btn_Savelog.clicked.connect(self.save_log)
# Saving and Restoring the finPlate window state.
self.retrieve_prevstate()
# Initialising the qtviewer
self.display,_ = self.init_display(backend_str="pyqt4")
self.ui.btnSvgSave.clicked.connect(self.save3DtoIGES)
#self.ui.btnSvgSave.clicked.connect(lambda:self.saveTopng(self.display))
def saveTopng(self,display):
display.ExportToImage('/home/Pictures/cad.png')
def retrieve_prevstate(self):
uiObj = self.get_prevstate()
if(uiObj != None):
self.ui.combo_Beam.setCurrentIndex(self.ui.combo_Beam.findText(uiObj['Member']['beamSection']))
self.ui.comboColSec.setCurrentIndex(self.ui.comboColSec.findText(uiObj['Member']['columSection']))
self.ui.txtFu.setText(str(uiObj['Member']['fu(MPa)']))
self.ui.txtFy.setText(str(uiObj['Member']['fy(MPa)']))
self.ui.comboConnLoc.setCurrentIndex(self.ui.comboConnLoc.findText(str(uiObj['Member']['connectivity'])))
self.ui.txtShear.setText(str(uiObj['Load']['shearForce(kN)']))
self.ui.comboDaimeter.setCurrentIndex(self.ui.comboDaimeter.findText(str(uiObj['Bolt']['diameter(mm)'])))
comboTypeIndex = self.ui.comboType.findText(str(uiObj['Bolt']['type']))
self.ui.comboType.setCurrentIndex(comboTypeIndex)
self.combotype_currentindexchanged(str(uiObj['Bolt']['type']))
prevValue = str(uiObj['Bolt']['grade'])
comboGradeIndex = self.ui.comboGrade.findText(prevValue)
self.ui.comboGrade.setCurrentIndex(comboGradeIndex)
#self.ui.comboDaimeter.currentText(str(uiObj['Bolt']['diameter(mm)']))
#self.ui.comboType.currentText(str(uiObj['Bolt']['diameter(mm)']))
#self.ui.comboGrade.currentText(str(uiObj['Bolt']['grade']))
self.ui.comboPlateThick_2.setCurrentIndex(self.ui.comboPlateThick_2.findText(str(uiObj['Plate']['thickness(mm)'])))
#self.ui.comboPlateThick_2.currentText(str(uiObj['Plate']['thickness(mm)']))
self.ui.txtPlateLen.setText(str(uiObj['Plate']['length(mm)']))
self.ui.txtPlateWidth.setText(str(uiObj['Plate']['width(mm)']))
self.ui.comboWldSize.setCurrentIndex(self.ui.comboWldSize.findText(str(uiObj['Weld']['size(mm)'])))
#self.ui.comboWldSize.currentText(str(uiObj['Weld']['size(mm)']))
#else:
# self.btnreset_clicked()
def setimage_connection(self):
'''
Setting image to connctivity.
'''
self.ui.lbl_connectivity.show()
loc = self.ui.comboConnLoc.currentText()
if loc == "Column flange-Beam web":
pixmap = QtGui.QPixmap(":/newPrefix/images/beam2.jpg")
pixmap.scaledToHeight(50)
pixmap.scaledToWidth(60)
self.ui.lbl_connectivity.setPixmap(pixmap)
#self.ui.lbl_connectivity.show()
elif(loc == "Column web-Beam web"):
picmap = QtGui.QPixmap(":/newPrefix/images/beam.jpg")
picmap.scaledToHeight(50)
picmap.scaledToWidth(60)
self.ui.lbl_connectivity.setPixmap(picmap)
else:
self.ui.lbl_connectivity.hide()
def getuser_inputs(self):
'''(nothing) -> Dictionary
Returns the dictionary object with the user input fields for designing fin plate connection
'''
uiObj = {}
uiObj["Bolt"] = {}
uiObj["Bolt"]["diameter(mm)"] = self.ui.comboDaimeter.currentText().toInt()[0]
uiObj["Bolt"]["grade"] = float(self.ui.comboGrade.currentText())
uiObj["Bolt"]["type"] = str(self.ui.comboType.currentText())
uiObj["Weld"] = {}
uiObj["Weld"]['size(mm)'] = self.ui.comboWldSize.currentText().toInt()[0]
uiObj['Member'] = {}
uiObj['Member']['beamSection'] = str(self.ui.combo_Beam.currentText())
uiObj['Member']['columSection'] = str(self.ui.comboColSec.currentText())
uiObj['Member']['connectivity'] = str(self.ui.comboConnLoc.currentText())
uiObj['Member']['fu(MPa)'] = self.ui.txtFu.text().toInt()[0]
uiObj['Member']['fy(MPa)'] = self.ui.txtFy.text().toInt()[0]
uiObj['Plate'] = {}
uiObj['Plate']['thickness(mm)'] = self.ui.comboPlateThick_2.currentText().toInt()[0]
uiObj['Plate']['height(mm)'] = self.ui.txtPlateLen.text().toInt()[0] # changes the label length to height
uiObj['Plate']['width(mm)'] = self.ui.txtPlateWidth.text().toInt()[0]
uiObj['Load'] = {}
uiObj['Load']['shearForce(kN)'] = self.ui.txtShear.text().toInt()[0]
return uiObj
def save_inputs(self,uiObj):
'''(Dictionary)--> None
'''
inputFile = QtCore.QFile('saveINPUT.txt')
if not inputFile.open(QtCore.QFile.WriteOnly | QtCore.QFile.Text):
QtGui.QMessageBox.warning(self, "Application",
"Cannot write file %s:\n%s." % (inputFile, file.errorString()))
#yaml.dump(uiObj, inputFile,allow_unicode=True, default_flow_style = False)
pickle.dump(uiObj, inputFile)
def get_prevstate(self):
'''
'''
fileName = 'saveINPUT.txt'
if os.path.isfile(fileName):
fileObject = open(fileName,'r')
uiObj = pickle.load(fileObject)
return uiObj
else:
return None
def outputdict(self):
''' Returns the output of design in dictionary object.
'''
outObj = {}
outObj['Plate'] ={}
#outObj['Plate']["Thickness(mm)"] = float(self.ui.txtPlateThick.text())
outObj['Plate']["External Moment(kNm)"] = float(self.ui.txtExtMomnt.text())
outObj['Plate']["Moment Capacity(kNm)"] = float(self.ui.txtMomntCapacity.text())
outObj['Weld'] ={}
#outObj['Weld']["Weld Thickness(mm)"] = float(self.ui.txtWeldThick.text())
outObj['Weld']["Resultant Shear(kN/mm)"] = float(self.ui.txtResltShr.text())
outObj['Weld']["Weld Strength(kN/mm)"] = float(self.ui.txtWeldStrng.text())
outObj['Bolt'] = {}
outObj['Bolt']["Shear Capacity(kN)"] = float(self.ui.txtShrCapacity.text())
outObj['Bolt']["Bearing Capacity(kN)"] = float(self.ui.txtbearCapacity.text())
outObj['Bolt']["Capacity Of Bolt(kN)"] = float(self.ui.txtBoltCapacity.text())
outObj['Bolt']["No Of Bolts"] = float(self.ui.txtNoBolts.text())
outObj['Bolt']["No.Of Row"] = int(self.ui.txt_row.text())
outObj['Bolt']["No.Of Column"] = int(self.ui.txt_col.text())
outObj['Bolt']["Pitch Distance(mm)"] = float(self.ui.txtPitch.text())
outObj['Bolt']["Guage Distance(mm)"] = float(self.ui.txtGuage.text())
outObj['Bolt']["End Distance(mm)"]= float(self.ui.txtEndDist.text())
outObj['Bolt']["Edge Distance(mm)"]= float(self.ui.txtEdgeDist.text())
return outObj
def save_design(self):
self.outdict = self.outputdict()
self.inputdict = self.getuser_inputs()
self.save_yaml(self.outdict,self.inputdict)
#self.save(self.outdict,self.inputdict)
def save_log(self):
fileName,pat =QtGui.QFileDialog.getSaveFileNameAndFilter(self,"Save File As","/home/deepa/SaveMessages","Text files (*.txt)")
return self.save_file(fileName+".txt")
def save_file(self, fileName):
'''(file open for writing)-> boolean
'''
fname = QtCore.QFile(fileName)
if not fname.open(QtCore.QFile.WriteOnly | QtCore.QFile.Text):
QtGui.QMessageBox.warning(self, "Application",
"Cannot write file %s:\n%s." % (fileName, fname.errorString()))
return False
outf = QtCore.QTextStream(fname)
QtGui.QApplication.setOverrideCursor(QtCore.Qt.WaitCursor)
outf << self.ui.textEdit.toPlainText()
QtGui.QApplication.restoreOverrideCursor()
#self.setCurrentFile(fileName);
QtGui.QMessageBox.about(self,'Information',"File saved")
return True
def save_yaml(self,outObj,uiObj):
'''(dictiionary,dictionary) -> NoneType
Saving input and output to file in following format.
Bolt:
diameter: 6
grade: 8.800000190734863
type: HSFG
Load:
shearForce: 100
'''
newDict = {"INPUT": uiObj, "OUTPUT": outObj}
fileName = QtGui.QFileDialog.getSaveFileName(self,"Save File As","/home/deepa/SaveDesign","Text File (*.txt)")
f = open(fileName,'w')
yaml.dump(newDict,f,allow_unicode=True, default_flow_style=False)
return self.save_file(fileName+".txt")
def resetbtn_clicked(self):
'''(NoneType) -> NoneType
Resets all fields in input as well as output window
'''
# user Inputs
self.ui.combo_Beam.setCurrentIndex((0))
self.ui.comboColSec.setCurrentIndex((0))
self.ui.comboConnLoc.setCurrentIndex((0))
self.ui.txtFu.clear()
self.ui.txtFy.clear()
self.ui.txtShear.clear()
self.ui.comboDaimeter.setCurrentIndex(0)
self.ui.comboType.setCurrentIndex((0))
self.ui.comboGrade.setCurrentIndex((0))
self.ui.comboPlateThick_2.setCurrentIndex((0))
self.ui.txtPlateLen.clear()
self.ui.txtPlateWidth.clear()
self.ui.comboWldSize.setCurrentIndex((0))
#----Output
self.ui.txtShrCapacity.clear()
self.ui.txtbearCapacity.clear()
self.ui.txtBoltCapacity.clear()
self.ui.txtNoBolts.clear()
self.ui.txtboltgrpcapacity.clear()
self.ui.txt_row.clear()
self.ui.txt_col.clear()
self.ui.txtPitch.clear()
self.ui.txtGuage.clear()
self.ui.txtEndDist.clear()
self.ui.txtEdgeDist.clear()
#self.ui.txtPlateThick.clear()
self.ui.txtplate_ht.clear()
self.ui.txtplate_width.clear()
self.ui.txtExtMomnt.clear()
self.ui.txtMomntCapacity.clear()
#self.ui.txtWeldThick.clear()
self.ui.txtResltShr.clear()
self.ui.txtWeldStrng.clear()
self.ui.textEdit.clear()
def dockbtn_clicked(self,widget):
'''(QWidget) -> NoneType
This method dock and undock widget(QdockWidget)
'''
flag = widget.isHidden()
if(flag):
widget.show()
else:
widget.hide()
def combotype_currentindexchanged(self,index):
'''(Number) -> NoneType
'''
items = self.gradeType[str(index)]
self.ui.comboGrade.clear()
strItems = []
for val in items:
strItems.append(str(val))
self.ui.comboGrade.addItems(strItems)
def check_range(self, widget,lblwidget, minVal, maxVal):
'''(QlineEdit,QLable,Number,Number)---> NoneType
Validating F_u(ultimate Strength) and F_y (Yeild Strength) textfields
'''
textStr = widget.text()
val = int(textStr)
if( val < minVal or val > maxVal):
QtGui.QMessageBox.about(self,'Error','Please Enter a value between %s-%s' %(minVal, maxVal))
widget.clear()
widget.setFocus()
palette = QtGui.QPalette()
palette.setColor(QtGui.QPalette.Foreground,QtCore.Qt.red)
lblwidget.setPalette(palette)
else:
palette = QtGui.QPalette()
lblwidget.setPalette(palette)
def display_output(self, resultObj):
'''(dictionary) --> NoneType
Setting design result values to the respective textboxes in the output window
'''
# resultObj['Bolt']
shear_capacity = resultObj['Bolt']['shearcapacity']
self.ui.txtShrCapacity.setText(str(shear_capacity))
bearing_capacity = resultObj['Bolt']['bearingcapacity']
self.ui.txtbearCapacity.setText(str(bearing_capacity))
bolt_capacity = resultObj['Bolt']['boltcapacity']
self.ui.txtBoltCapacity.setText(str(bolt_capacity))
no_ofbolts = resultObj['Bolt']['numofbolts']
self.ui.txtNoBolts.setText(str(no_ofbolts))
#newly added field
boltGrp_capacity = resultObj['Bolt']['boltgrpcapacity']
self.ui.txtboltgrpcapacity.setText(str(boltGrp_capacity))
no_ofrows = resultObj['Bolt']['numofrow']
self.ui.txt_row.setText(str(no_ofrows))
no_ofcol = resultObj['Bolt']['numofcol']
self.ui.txt_col.setText(str(no_ofcol))
pitch_dist = resultObj['Bolt']['pitch']
self.ui.txtPitch.setText(str(pitch_dist))
gauge_dist = resultObj['Bolt']['gauge']
self.ui.txtGuage.setText(str(gauge_dist))
end_dist = resultObj['Bolt']['enddist']
self.ui.txtEndDist.setText(str(end_dist))
edge_dist = resultObj['Bolt']['edge']
self.ui.txtEdgeDist.setText(str(edge_dist))
# resultObj['Weld']
# weld_thickness = resultObj['Weld']['thickness']
# self.ui.txtWeldThick.setText(str(weld_thickness))
resultant_shear = resultObj['Weld']['resultantshear']
self.ui.txtResltShr.setText(str(resultant_shear))
weld_strength = resultObj['Weld']['weldstrength']
self.ui.txtWeldStrng.setText(str(weld_strength))
# Newly included fields
plate_ht = resultObj['Plate']['height']
self.ui.txtplate_ht.setText(str(plate_ht))
plate_width = resultObj['Plate']['width']
self.ui.txtplate_width.setText(str(plate_width))
moment_demand = resultObj['Plate']['externalmoment']
self.ui.txtExtMomnt.setText(str(moment_demand))
moment_capacity = resultObj['Plate']['momentcapacity']
self.ui.txtMomntCapacity.setText(str(moment_capacity))
def displaylog_totextedit(self):
'''
This method displaying Design messages(log messages)to textedit widget.
'''
afile = QtCore.QFile('fin.log')
if not afile.open(QtCore.QIODevice.ReadOnly):#ReadOnly
QtGui.QMessageBox.information(None, 'info', afile.errorString())
stream = QtCore.QTextStream(afile)
#self.ui.textEdit.setFocus()
self.ui.textEdit.clear()
self.ui.textEdit.setHtml(stream.readAll())
afile.close()
def get_backend(self):
"""
loads a backend
backends are loaded in order of preference
since python comes with Tk included, but that PySide or PyQt4
is much preferred
"""
try:
from PySide import QtCore, QtGui
return 'pyside'
except:
pass
try:
from PyQt4 import QtCore, QtGui
return 'pyqt4'
except:
pass
# Check wxPython
try:
import wx
return 'wx'
except:
raise ImportError("No compliant GUI library found. You must have either PySide, PyQt4 or wxPython installed.")
sys.exit(1)
# QtViewer
def init_display(self,backend_str=None, size=(1024, 768)):
global display, start_display, app, _, USED_BACKEND
if not backend_str:
USED_BACKEND = self.get_backend()
elif backend_str in [ 'pyside', 'pyqt4']:
USED_BACKEND = backend_str
else:
raise ValueError("You should pass either 'qt' or 'tkinter' to the init_display function.")
sys.exit(1)
# Qt based simple GUI
if USED_BACKEND in ['pyqt4', 'pyside']:
if USED_BACKEND == 'pyqt4':
from PyQt4 import QtCore, QtGui, QtOpenGL
from OCC.Display.pyqt4Display import qtViewer3d
elif USED_BACKEND == 'pyside':
from PySide import QtCore, QtGui, QtOpenGL
from OCC.Display.pysideDisplay import qtViewer3d
self.ui.modelTab = qtViewer3d(self)
self.setWindowTitle("Osdag-%s 3d viewer ('%s' backend)" % (VERSION, USED_BACKEND))
self.ui.mytabWidget.resize(size[0], size[1])
self.ui.mytabWidget.addTab(self.ui.modelTab,"")
#self.ui.mytabWidget.setCentralWidget(self.ui.modelTab)
#self.ui.mytabWidget.centerOnScreen()
self.ui.modelTab.InitDriver()
display = self.ui.modelTab._display
#display_2d = self.ui.model2dTab._display
# background gradient
display.set_bg_gradient_color(23,1,32,23,1,32)
#display_2d.set_bg_gradient_color(255,255,255,255,255,255)
# display black trihedron
display.display_trihedron()
display.View.SetProj(1, 1, 1)
def centerOnScreen(self):
'''Centers the window on the screen.'''
resolution = QtGui.QDesktopWidget().screenGeometry()
self.move((resolution.width() / 2) - (self.frameSize().width() / 2),
(resolution.height() / 2) - (self.frameSize().height() / 2))
def start_display():
self.ui.modelTab.raise_() # make the application float to the top
return display, start_display
def display3Dmodel(self,cadlist,component):
self.display,_ = self.init_display(backend_str="pyqt4")
self.display.set_bg_gradient_color(23,1,32,23,1,32)
if component == "Column":
self.display.EraseAll()
osdagDisplayShape(self.display, cadlist[0], update=True)
elif component == "Beam":
display.EraseAll()
osdagDisplayShape(self.display, cadlist[1],material = Graphic3d_NOT_2D_ALUMINUM, update=True)
elif component == "Finplate" :
display.EraseAll()
osdagDisplayShape(self.display,cadlist[2],color = 'red', update = True)
osdagDisplayShape(self.display, cadlist[3], color = 'red', update = True)
osdagDisplayShape(self.display, cadlist[4], color = 'blue', update = True)
self.display.DisplayShape(cadlist[5],color = Quantity_NOC_SADDLEBROWN, update=True)
self.display.DisplayShape(cadlist[6],color = Quantity_NOC_SADDLEBROWN, update = True)
elif component == "Model":
osdagDisplayShape(self.display, cadlist[0], update=True)
osdagDisplayShape(self.display, cadlist[1],material = Graphic3d_NOT_2D_ALUMINUM, update=True)
osdagDisplayShape(self.display,cadlist[2],color = 'red', update = True)
osdagDisplayShape(self.display,cadlist[3],color = 'red', update = True)
osdagDisplayShape(self.display, cadlist[4], color = 'blue', update = True)
self.display.DisplayShape(cadlist[5],color = Quantity_NOC_SADDLEBROWN, update=True)
self.display.DisplayShape(cadlist[6],color = Quantity_NOC_SADDLEBROWN, update = True)
else:
pass
start_display()
def create3DColWebBeamWeb(self):
'''
creating 3d cad model with column web beam web
'''
column = ISection(B = 83, T = 14.1, D = 250, t = 11, R1 = 12, R2 = 3.2, alpha = 98, length = 1000)
beam = ISection(B = 140, T = 16,D = 400,t = 8.9, R1 = 14, R2 = 7, alpha = 98,length = 500)
Fweld1 = FilletWeld(L= 300,b = 6, h = 6)
#Fweld1 = Weld(L= 300,W = beam.t, T = 8)
plate = Plate(L= 300,W =100, T = 10)
boltRadius = 10
nutRadius = 10
colwebconn = ColWebBeamWeb(column,beam,Fweld1,plate,boltRadius,nutRadius)
return colwebconn.create_3dmodel()
def createColFlangeBeamWeb(self):
'''
Creating 3d cad model with column flange beam web connection
'''
column = ISection(B = 83, T = 14.1, D = 250, t = 11, R1 = 12, R2 = 3.2, alpha = 98, length = 1000)
beam = ISection(B = 140, T = 16,D = 400,t = 8.9, R1 = 14, R2 = 7, alpha = 98,length = 500)
weld = Weld(L= 300,b = 6.0, T = 8)
plate = Plate(L= weld.L,W =100, T = 10)
boltRadius = 10
nutRadius = 10
colflangeconn = ColFlangeBeamWeb(column,beam,weld,plate,boltRadius,nutRadius)
return colflangeconn.create_3dmodel()
def call_3DModel(self):
if self.ui.btn3D.isEnabled():
self.ui.chkBxBeam.setChecked(QtCore.Qt.Unchecked)
self.ui.chkBxCol.setChecked(QtCore.Qt.Unchecked)
self.ui.chkBxFinplate.setChecked(QtCore.Qt.Unchecked)
self.ui.mytabWidget.setCurrentIndex(0)
if self.ui.comboConnLoc.currentText()== "Column web-Beam web":
memberlist = self.create3DColWebBeamWeb()
else:
self.ui.mytabWidget.setCurrentIndex(0)
memberlist = self.createColFlangeBeamWeb()
#memberlist = self.create_3dmodel()
#self.ui.btn3D.setStyleSheet("background-color: red")
self.display3Dmodel(memberlist, "Model")
def call_3DBeam(self):
'''
Creating and displaying 3D Beam
'''
memberlist = self.create3DColWebBeamWeb()
if self.ui.chkBxBeam.isChecked():
self.ui.chkBxCol.setChecked(QtCore.Qt.Unchecked)
self.ui.chkBxFinplate.setChecked(QtCore.Qt.Unchecked)
self.ui.mytabWidget.setCurrentIndex(0)
self.display3Dmodel(memberlist, "Beam")
#self.ui.chkBxBeam.setChecked(QtCore.Qt.Unchecked)
def call_3DColumn(self):
memberlist = self.create3DColWebBeamWeb()
if self.ui.chkBxCol.isChecked():
self.ui.chkBxBeam.setChecked(QtCore.Qt.Unchecked)
self.ui.chkBxFinplate.setChecked(QtCore.Qt.Unchecked)
self.ui.mytabWidget.setCurrentIndex(0)
self.display3Dmodel(memberlist, "Column")
#self.ui.chkBxBeam.setChecked(QtCore.Qt.Unchecked
def call_3DFinplate(self):
memberlist = self.create3DColWebBeamWeb()
if self.ui.chkBxFinplate.isChecked():
self.ui.chkBxBeam.setChecked(QtCore.Qt.Unchecked)
self.ui.chkBxCol.setChecked(QtCore.Qt.Unchecked)
self.ui.mytabWidget.setCurrentIndex(0)
self.display3Dmodel(memberlist, "Finplate")
#self.ui.chkBxBeam.setChecked(QtCore.Qt.Unchecked
def design_btnclicked(self):
self.ui.outputDock.setFixedSize(310,710)
# self.memberlist3D = self.createColFlangeBeamWeb()
# self.mmemberlist2D
# Getting User Inputs.
uiObj = self.getuser_inputs()
print uiObj
# FinPlate Design Calculations.
resultObj = finConn(uiObj)
# Displaying Design Calculations To Output Window
self.display_output(resultObj)
# Displaying Messages related to FinPlate Design.
self.displaylog_totextedit()
def close_event(self, event):
'''
Closing finPlate window.
'''
uiInput = self.getuser_inputs()
self.save_inputs(uiInput)
reply = QtGui.QMessageBox.question(self, 'Message',
"Are you sure to quit?", QtGui.QMessageBox.Yes, QtGui.QMessageBox.No)
if reply == QtGui.QMessageBox.Yes:
event.accept()
else:
event.ignore()
def create2Dcad(self):
# ISection COLUMN
origin1 = numpy.array([0, 0, 0])
uDir1 = numpy.array([1.0, 0, 0])
wDir1 = numpy.array([0.0, 0, 1.0])
t = 8.9
weldThick = 8
iSection1 = ISection(B = 83, T = 14.1, D = 250, t = 11, R1 = 12, R2 = 3.2, alpha = 98, length = 1000)
iSection1.place(origin1, uDir1, wDir1)
# ISection BEAM
uDir2 = numpy.array([0, 1.0, 0])
wDir2 = numpy.array([1.0, 0, 0.0])
d = t/2.0 + weldThick
origin2 = numpy.array([0, 0, 500]) + (d+7.55) * wDir2
iSection2 = ISection(B = 140, T = 16,D = 400,t = 8.9, R1 = 14, R2 = 7, alpha = 98,length = 400)
iSection2.place(origin2, uDir2, wDir2)
# WELD
weld = Weld(L= 300,W =iSection2.t, T = 8)
#plateThickness = 10
uDir3 = numpy.array([0, 1.0, 0])
wDir3 = numpy.array([1.0, 0, 0.0])
origin3 = (iSection1.secOrigin +
iSection1.t/2.0 * iSection1.uDir +
iSection1.length/2.0 * iSection1.wDir +
iSection2.t/2.0 * (-iSection2.uDir)+
weld.W/2.0 * (-iSection2.uDir))
#origin3 = numpy.array([0, 0, 500]) + t/2.0 *wDir3 + plateThickness/2.0 * (-iSection2.uDir)
weld.place(origin3, uDir3, wDir3)
# PLATE
plate = Plate(L= weld.L,W =100, T = 10)
uDir4 = numpy.array([0, 1.0, 0])
wDir4 = numpy.array([1.0, 0, 0.0])
origin4 = weld.secOrigin + weld.T * weld.wDir
plate.place(origin4, uDir4, wDir4)
# BOLT BODY
bolt_T = 6.0
origin51 = (plate.secOrigin + (-
plate.T/2.0 - bolt_T) * plate.uDir +
plate.W/2.0 * plate.wDir)
uDir5 = plate.wDir
wDir5 = plate.uDir
## Bolt1
bolt1 = Bolt(R = 10.0,T = bolt_T, H = 30.0, r = 4.0 )
bolt1.place(origin51, uDir5, wDir5)
## Bolt2
bolt2 = Bolt(R = 10.0,T = bolt_T, H = 30.0, r = 4.0 )
origin52 = origin51 + 50 *plate.vDir
bolt2.place(origin52, uDir5, wDir5)
## Bolt3
bolt3 = Bolt(R = 10.0,T = bolt_T, H = 30.0, r = 4.0 )
origin53 = origin51 - 50*plate.vDir
bolt3.place(origin53, uDir5, wDir5)
bolt_list =[bolt1,bolt2,bolt3]
# NUTBODY
## Nut1
nut1 = Nut(R = 10.0,T = 10.0, H = 6.1, innerR1 = 6.0, outerR2 = 8.3)
uDir = uDir5
wDir = wDir5
nut_Origin1 = origin51 + (bolt1.T/2 * plate.uDir)+(plate.T *plate.uDir)+ (iSection2.T/2 * plate.uDir)
nut1.place(nut_Origin1, uDir, wDir)
## Nut2
nut2 = Nut(R = 10.0,T = 10.0, H = 6.1, innerR1 = 6.0, outerR2 = 8.3)
nut_Origin2 = origin52 + (bolt1.T/2 * plate.uDir)+(plate.T *plate.uDir)+ (iSection2.T/2 * plate.uDir)
nut2.place(nut_Origin2, uDir, wDir)
## Nut3
nut3 =Nut(R = 10.0,T = 10.0, H = 6.1, innerR1 = 6.0, outerR2 = 8.3)
nut_Origin3 = origin53 + (bolt1.T/2 * plate.uDir)+(plate.T *plate.uDir)+ (iSection2.T/2 * plate.uDir)
nut3.place(nut_Origin3, uDir5, wDir5)
nut_list = [nut1,nut2,nut3]
# Call for createModel
iSectionModel1 = iSection1.createModel()
iSectionModel2 = iSection2.createModel()
weldModel = weld.createModel()
plateModel = plate.createModel()
boltModels = []
for bolt in bolt_list:
boltModels.append(bolt.createModel())
#color = Quantity_NOC_SADDLEBROWN,
nutModels = []
for nut in nut_list:
nutModels.append(nut.createModel())
isection = BRepAlgoAPI_Fuse(iSectionModel1,iSectionModel2).Shape()
weld_isection = BRepAlgoAPI_Fuse(isection,weldModel).Shape()
plate_weld = BRepAlgoAPI_Fuse(weld_isection,plateModel).Shape()
plate_weld_bolt = plate_weld
for bolt in boltModels:
plate_weld_bolt = BRepAlgoAPI_Fuse(plate_weld_bolt, bolt).Shape()
final_model = plate_weld_bolt
for nt in nutModels:
final_model = BRepAlgoAPI_Fuse(final_model,nt).Shape()
return final_model
# Export to IGES
def save3DtoIGES(self):
shape = self.create2Dcad()
i = IGESControl.IGESControl_Controller()
i.Init()
iges_writer = IGESControl.IGESControl_Writer()
iges_writer.AddShape(shape)
iges_writer.Write('/home/deepa/Pictures/osdag.iges')
def display2DModel(self, final_model, viewName):
#display, start_display, _, _ = self.simpleGUI()
self.display.set_bg_gradient_color(255, 255, 255, 255, 255, 255)
# Get Context
ais_context = self.display.GetContext().GetObject()
# Get Prs3d_drawer from previous context
drawer_handle = ais_context.DefaultDrawer()
drawer = drawer_handle.GetObject()
drawer.EnableDrawHiddenLine()
hla = drawer.HiddenLineAspect().GetObject()
hla.SetWidth(2)
hla.SetColor(Quantity_NOC_RED)
# increase line width in the current viewer
# This is only viewed in the HLR mode (hit 'e' key for instance)
line_aspect = drawer.SeenLineAspect().GetObject()
line_aspect.SetWidth(2.8)
line_aspect.SetColor(Quantity_NOC_BLUE1)
self.display.EraseAll()
self.display.DisplayShape(final_model, update = True)
self.display.SetModeHLR()
self.display.FitAll()
if (viewName == "Front"):
self.display.View_Front()
elif (viewName == "Top"):
self.display.View_Top()
elif (viewName == "Right"):
self.display.View_Right()
else:
pass
start_display()
def call_Frontview(self):
'''Displays front view of 2Dmodel
'''
self.ui.mytabWidget.setCurrentIndex(0)
final_model = self.create2Dcad()
self.display2DModel(final_model, "Front")
def call_Topview(self):
'''Displays Top view of 2Dmodel
'''
self.ui.mytabWidget.setCurrentIndex(0)
final_model = self.create2Dcad()
self.display2DModel(final_model, "Top")
def call_Sideview(self):
'''Displays Side view of the 2Dmodel'
'''
self.ui.mytabWidget.setCurrentIndex(0)
final_model = self.create2Dcad()
self.display2DModel(final_model, "Right")
def set_osdaglogger():
logger = logging.getLogger("osdag")
logger.setLevel(logging.DEBUG)
# create the logging file handler
fh = logging.FileHandler("fin.log", mode="a")
#,datefmt='%a, %d %b %Y %H:%M:%S'
#formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
formatter = logging.Formatter('''
%(asctime)s
%(levelname)s
%(message)s
''')
formatter.datefmt = '%a, %d %b %Y %H:%M:%S'
fh.setFormatter(formatter)
# add handler to logger object
logger.addHandler(fh)
if __name__ == '__main__':
# linking css to log file to display colour logs.
set_osdaglogger()
rawLogger = logging.getLogger("raw")
rawLogger.setLevel(logging.INFO)
fh = logging.FileHandler("fin.log", mode="w")
formatter = logging.Formatter('''%(message)s''')
fh.setFormatter(formatter)
rawLogger.addHandler(fh)
rawLogger.info('''''')
app = QtGui.QApplication(sys.argv)
window = MainController()
window.show()
sys.exit(app.exec_())