Beispiel #1
0
def CreateDesignOption():
    objs = rs.GetObjects("Select objects to create design option with",
                         preselect=True)
    if objs is None: return None
    try:
        date = utils.GetDatePrefix()
        origName = date + '_OPTION_00'
        defaultName = origName
        for i in range(100):
            defaultName = utils.UpdateString(defaultName)
            if origName == defaultName:
                break
            if rs.IsBlock(defaultName) == False:
                break

        looping = True
        while looping:
            designOptionName = rs.StringBox("Design Option Name", defaultName,
                                            "Create Design Option")
            if designOptionName is None: return None
            if rs.IsBlock(designOptionName):
                print "Block name already exists"
            elif len(designOptionName) == 0:
                print "Must specify a name"
            else:
                looping = False
        block = rs.AddBlock(objs, (0, 0, 0), designOptionName, True)
        blockInstance = rs.InsertBlock(designOptionName, (0, 0, 0))

        #Add user text
        rs.SetUserText(blockInstance, 'Design Option History',
                       designOptionName)

        #Ensure 3_DESIGN OPTIONS already exists
        layers.AddLayerByNumber(3000, False)

        #Create new layer
        parentLayer = layers.GetLayerNameByNumber(3000)
        designOptionLayer = rs.AddLayer(parentLayer + "::" + designOptionName,
                                        color=utils.GetRandomColor())
        rs.ObjectLayer(blockInstance, designOptionLayer)
        utils.SaveFunctionData('Blocks-Create Design Option',
                               [__version__, designOptionName])
        return True
    except:
        print "Failed to create design option"
        utils.SaveFunctionData('Blocks-Create Design Option',
                               [__version__, '', 'Failed'])
        return None
Beispiel #2
0
def BatchPrintLayouts():
    print "BatchPrintLayout is WIP. Use with caution."
    try:
        pages = sc.doc.Views.GetPageViews()
        if pages is None or len(pages) < 1:
            print "No layouts in file"
            return

        defaultPath = rs.DocumentPath()

        defaultName = utils.GetDatePrefix() + "_Rhino"

        filename = rs.SaveFileName("Save",
                                   "PDF (*.pdf)|*.pdf||",
                                   folder=defaultPath,
                                   filename=defaultName)
        if filename is None: return

        names = []
        for page in pages:
            names.append([page.PageName, False])
        selectedLayouts = rs.CheckListBox(names, "Select Layouts to print",
                                          "Batch Print")
        if selectedLayouts is None: return

        stop = False
        for layout in selectedLayouts:
            if layout[1] == True:
                stop = True
                break
        if stop == False:
            print "No layouts selected"
            return
        try:
            pdf = Rhino.FileIO.FilePdf.Create()
        except:
            print "Failed to load Rhino.FileIO.FilePdf.Create()"
            return
        dpi = 300
        for i, page in enumerate(pages):
            if selectedLayouts[i][1]:
                capture = Rhino.Display.ViewCaptureSettings(page, dpi)
                pdf.AddPage(capture)
        pdf.Write(filename)
        print "PDF saved to {}".format(filename)
    except IOError, e:
        print str(e)
        return
Beispiel #3
0
def SafeCaptureButton():
    #Save file name
    defaultFilename = utils.GetDatePrefix() + '_FILENAME'
    #path = rs.SaveFileName('Save view location', "PNG (*.png)||", filename = defaultFilename, extension = ".png")
    #path = rs.SaveFileName('Save view location', "JPEG (*.jpg)||", filename = defaultFilename, extension = ".jpg")
    path = rs.SaveFileName('Save view location', "PNG (*.png)|*.png|JPEG (*jpg; *.jpeg)|*.jpg; *.jpeg||", filename = defaultFilename, extension = ".png")
    if path is None: return

    #Check if in stick
    if 'safeCapture-width' in sc.sticky:
        defaultWidth = sc.sticky['safeCapture-width']
    else:
        defaultWidth = 5100
    if 'safeCapture-height' in sc.sticky:
        defaultHeight = sc.sticky['safeCapture-height']
    else:
        defaultHeight = 3300

    #Get output width
    width =  rs.GetInteger('Width', defaultWidth, 200, 10000 )
    if width is None: return
    sc.sticky['safeCapture-width'] = width

    #Get output height
    height = rs.GetInteger('Height', defaultHeight, 200, 10000 )
    if height is None: return
    sc.sticky['safeCapture-height'] = height

    splitPath = path.Split(".")
    if splitPath[-1] == "png":
        result = SafeCapture_PNG(path, width, height)
    else:
        result = SafeCapture_JPG(path, width, height)

    if result:
        print "Image saved as {}".format(path)
        return True
    else:
        return None
Beispiel #4
0
def BatchCapture():
    try:
        namedViews = rs.NamedViews()
        if len(namedViews) < 1:
            print "There are no Named Views in this file."
            return None

        #Prepare checklis
        items = []
        for view in namedViews:
            items.append([view, False])

        #Checklist
        returnedVals = rs.CheckListBox(items, "Select Views to Export", "Batch Capture")
        if returnedVals is None: return

        chosenViews = []
        for val in returnedVals:
            if val[1]:
                chosenViews.append(val[0])
        if len(chosenViews) < 1: return

        defaultFilename = utils.GetDatePrefix() + '_FILENAME'
        #path = rs.SaveFileName('Batch Capture', "PNG (*.png)|*.png||", filename = date+'_FILENAME')
        path = rs.SaveFileName('Save view location', "PNG (*.png)|*.png|JPEG (*.jpeg)|*.jpeg||", filename = defaultFilename, extension = ".png")
        if path is None: return

        #Check if in stick
        if 'batchCapture-width' in sc.sticky:
            defaultWidth = sc.sticky['batchCapture-width']
        else:
            defaultWidth = 5100
        if 'batchCapture-height' in sc.sticky:
            defaultHeight = sc.sticky['batchCapture-height']
        else:
            defaultHeight = 3300

        #Get output width
        width =  rs.GetInteger('Width', defaultWidth, 200, 10000 )
        if width is None: return
        sc.sticky['batchCapture-width'] = width

        #Get output height
        height = rs.GetInteger('Height', defaultHeight, 200, 10000 )
        if height is None: return
        sc.sticky['batchCapture-height'] = height

        rs.AddNamedView("temp")

        baseName = os.path.splitext(path)[0]
        for eachView in chosenViews:
            rs.RestoreNamedView(eachView)

            splitPath = path.Split(".")
            if splitPath[-1] == "png":
                filePath = baseName + "_" + eachView + ".png"
                result = SafeCapture_PNG(filePath, width, height)
            else:
                filePath = baseName + "_" + eachView + ".jpg"
                result = SafeCapture_JPG(filePath, width, height)

        #return to original view
        rs.RestoreNamedView("temp")
        rs.DeleteNamedView("temp")


        result = True
    except:
        result = False
    utils.SaveFunctionData('IO-BatchCapture', [__version__] + chosenViews)
    return result
Beispiel #5
0
def importCAD(filePath, scaleDWG = False):
    explodeBlockBoo = True

    #setup the layers
    importLayerNumber = 6000
    importLayerObj = layers.AddLayerByNumber(importLayerNumber, False)
    importLayerName = layers.GetLayerNameByNumber(importLayerNumber)

    #Shorten cad file name
    fileNameExt = os.path.basename(filePath)
    fileName = os.path.splitext(fileNameExt)[0]

    #create layer name
    time = utils.GetDatePrefix()
    iter = "01"
    layerName = time+"_"+fileName+"_"+iter

    #Check if this layer already exists
    while rs.IsLayer(importLayerName + "::" + time + "_" + fileName + "_" + iter):
        iterInt = int(iter)+1
        if len(str(iterInt))<2:
            iter = "0" + str(iterInt)
        else:
            iter = str(iterInt)

    elementLayerName = importLayerName + "::" + time + "_" + fileName + "_" + iter
    elementLayer = rs.AddLayer(elementLayerName)

    rs.CurrentLayer(elementLayer)

    #get intial list of all layers in the file
    currentLayers = rs.LayerNames()

    rs.Command('_-Import "' + filePath + '" _IgnoreThickness=Yes _ModelUnits=Inches _Enter', False)

    #get new layers added
    endLayersNames = rs.LayerNames()
    newLayers = diff(endLayersNames, currentLayers)

    for layer in newLayers:
        rs.ParentLayer(layer, elementLayer)
        objects = rs.ObjectsByLayer(layer)
        if rs.IsLayerEmpty(layer):
            rs.DeleteLayer(layer)
        else:
            for obj in objects:
                if rs.IsDimension(obj):
                    rs.DeleteObject(obj)
                elif rs.IsHatch(obj):
                    rs.DeleteObject(obj)

    #Get all the imported geometry
    allObjects = []
    finalLayers = rs.LayerChildren(rs.CurrentLayer())
    blockNames = []
    for finalLayer in finalLayers:
        layerObjects = rs.ObjectsByLayer(finalLayer)
        for layerObject in layerObjects:
            if rs.IsBlockInstance(layerObject):
                blockNames.append(rs.BlockInstanceName(layerObject))
                allObjects.append(rs.ExplodeBlockInstance(layerObject, True))
            else:
                allObjects.append(layerObject)
    finalAllObjects = list(flatten(allObjects))

    for eachBlock in blockNames:
        try:
            rs.DeleteBlock(eachBlock)
        except:
            pass

    #Scale objects
    if scaleDWG:
        rs.ScaleObjects(finalAllObjects, [0,0,0], [.001, .001, .001])

    #Collapse layers
    try:
        rootLay = sc.doc.Layers.FindId(rs.coerceguid(rs.LayerId(elementLayerName)))
        rootLay.IsExpanded = False
    except:
        pass
    print "Import Successful"
    return finalAllObjects
Beispiel #6
0
def CaptureDisplayModesToFile():
    try:
        displayModeNames = []
        displayModeBool = []
        displayModesChecked = []

        ########
        #Get current display mode
        originalDisplayMode = rc.RhinoDoc.ActiveDoc.Views.ActiveView.ActiveViewport.DisplayMode.LocalName

        ########
        #Get default display mode selection
        if 'CaptureDisplayModes-DisplayModes' in sc.sticky:
            dict = sc.sticky['CaptureDisplayModes-DisplayModes']
            for each in rc.Display.DisplayModeDescription.GetDisplayModes():
                displayModeNames.append(each.EnglishName)
                if each.EnglishName in dict:
                    displayModeBool.append(dict[each.EnglishName])
                else:
                    displayModeBool.append(False)
        else:
            for each in rc.Display.DisplayModeDescription.GetDisplayModes():
                displayModeNames.append(each.EnglishName)
                displayModeBool.append(False)

        results = rs.CheckListBox(zip(displayModeNames, displayModeBool), 'Select Display Modes', 'Capture Display Modes To File')
        if results is None: return

        ########
        #Save display modes to sticky
        resultDict = {}
        for each in results:
            resultDict[each[0]] = each[1]
        sc.sticky['CaptureDisplayModes-DisplayModes'] = resultDict

        for each in results:
            if each[1]:
                displayModesChecked.append(each[0])

        ########
        #Get default filename
        date = utils.GetDatePrefix()
        activeView = sc.doc.Views.ActiveView.ActiveViewport.Name
        if activeView is None: activeView = 'VIEW'
        path = rs.SaveFileName('Export All Display Modes', "PNG (*.png)|*.png||", filename = date+'_'+activeView)
        if path is None: return

        ########
        #Get sizes from sticky
        if 'catpureDisplays-width' in sc.sticky:
            widthDefault = sc.sticky['catpureDisplays-width']
        else:
            widthDefault = 5100

        if 'catpureDisplays-height' in sc.sticky:
            heightDefault = sc.sticky['catpureDisplays-height']
        else:
            heightDefault = 3300

        width = rs.GetInteger('Image Width', number = widthDefault, minimum = 200, maximum = 20000)
        height = rs.GetInteger('Image Height', number = heightDefault, minimum = 200, maximum = 20000)

        ########
        #Save sizes to sticky
        sc.sticky['catpureDisplays-width'] = width
        sc.sticky['catpureDisplays-height'] = height

        #######################################################################
        #Export the images
        count = 0
        for name in displayModesChecked:
            try:
                rs.ViewDisplayMode(mode = name)
                exportImage(path, name, width, height)
                count += 1
            except:
                pass
        print "{} Images saved to {}".format(count , os.path.abspath(os.path.join(path, os.pardir)))
        result = True
    except:
        result = False
    ########
    #Restore original display mode
    if originalDisplayMode is not None:
        rs.ViewDisplayMode(mode = originalDisplayMode)

    ########
    #Save analytics
    try:
        utils.SaveFunctionData('IO-Capture Display Modes', [__version__, str(displayModesChecked), width, height, result])
    except: print "Failed to save function data"
    return result
Beispiel #7
0
def exportToRenderSKP():
    #try:
    #Get Objects
    objs = rs.GetObjects("Select objects to export", preselect = True)
    if objs is None: return
    
    #Default Name
    if 'exportToRenderSKP-prevName' in sc.sticky:
        prevName = sc.sticky['exportToRenderSKP-prevName']
        defaultFilename = utils.UpdateString(prevName)
    else:
        defaultFilename = utils.GetDatePrefix() + '_OPTION_01'
    
    #Default Folder
    if 'exportToRenderSKP-path' in sc.sticky:
        defaultFolder = sc.sticky['exportToRenderSKP-path']
    elif utils.IsSavedInProjectFolder():
        origPath = rs.DocumentPath()
        path = os.path.normpath(origPath)
        pathParts = path.split(os.sep)
        projectFolder = os.path.join(pathParts[0],'\\' ,pathParts[1])
        referenceFolder = os.path.join(projectFolder, r'03 DRAWINGS\02 RENDERING\0_copy 3d  folder structure\Reference')
        if os.path.isdir(referenceFolder):
            print "Reference folder exists"
            defaultFolder = referenceFolder
        else:
            print "Reference folder not found"
            defaultFolder = rs.DocumentPath()
    else:
        defaultFolder = rs.DocumentPath()
    fileName = rs.SaveFileName("Export to render", "Sketchup 2015 (*.skp)|*.skp||", folder = defaultFolder, filename = defaultFilename)
    if fileName is None: return
    sc.sticky['exportToRenderSKP-prevName'] = os.path.splitext(fileName)[0]
    sc.sticky['exportToRenderSKP-path'] = os.path.dirname(fileName)
    
    tempLayers = []
    copiedObjs = []
    seperator = ' > '
    baseName = os.path.splitext(os.path.basename(fileName))[0]

    #Copy all objects to export
    rs.StatusBarProgressMeterShow('Exporting to SKP', 0, len(objs))
    for i, obj in enumerate(objs):
        tempCopy = rs.CopyObject(obj)
        if rs.IsBlockInstance(tempCopy):
            explodedObjs = list(rs.ExplodeBlockInstance(obj, True))
            copiedObjs += explodedObjs
        else:
            copiedObjs.append(tempCopy)
        rs.StatusBarProgressMeterUpdate(i)

    #Move all copies to a different layer
    for i, obj in enumerate(copiedObjs):
        layerFullName = rs.ObjectLayer(obj)
        shortName = layerFullName.replace('::', seperator)
        layerName = baseName + seperator + shortName
        if rs.IsLayer(layerName):
            rs.ObjectLayer(obj, layerName)
        else:
            matIndex = rs.LayerMaterialIndex(rs.ObjectLayer(obj))
            newLayer = rs.AddLayer(layerName, rs.LayerColor(rs.ObjectLayer(obj)))
            rs.LayerMaterialIndex(newLayer, matIndex)
            tempLayers.append(newLayer)
            rs.ObjectLayer(obj, newLayer)
    rs.StatusBarProgressMeterHide()

    try:
        rs.SelectObjects(copiedObjs)
        rs.Command('-_Export ' + '"' + fileName + '"' + ' s SketchUp2015 Enter ', False)

        #CLEANUP
        rs.UnselectAllObjects()
        try:
            rs.DeleteObjects(copiedObjs)
        except:
            rs.DeleteObject(copiedObjs)
        for layer in tempLayers:
            rs.DeleteLayer(layer)
    except:
        print "export failed"
    result = True
    #except:
    #    result = False
    try:
        pass
        #utils.SaveFunctionData('IO-Export to Render[SKP]', [fileName, baseName, os.path.getsize(fileName),len(objs), result])
    except:
        print "Failed to save function data"
    return result
Beispiel #8
0
def exportToRenderDWG():
    try:
        fileLocations = config.GetDict()

        print "Exporting to 3ds max"
        objs = rs.GetObjects("Select objects to export", preselect=True)
        if objs is None: return

        #SAVE FILE NAME
        defaultFolder = rs.DocumentPath()
        defaultFilename = utils.GetDatePrefix() + '_OPTION_01'
        fileName = rs.SaveFileName("Export to render", "Autocad (*.dwg)|*.dwg||", defaultFolder, defaultFilename)
        if fileName is None: return
        base=os.path.basename(fileName)
        cadName = os.path.splitext(base)[0]

        #SUPER EXPLODE
        #EXPLODE SELECTED BLOCKS (CHECKLIST)
            #blockNames = rs.BlockNames(True)
            #print blockNames

            #results = rs.CheckListBox(blockNames, "Select blocks to explode", "Explode for render")
        #CHECK BACKFACES
        #CHECK GEOMETRY
        #EXPORT EACH LAYER AS SAT FILE.
        #CHECK ORIGIN
        #INSERT ORIGIN

        #CHECK SCALE (Units)
        if rs.UnitSystem() == 8:
            print "Units checked"
        else:
            print "This model is in {}, it should be in Inches".format(rs.UnitSystemName(singular=False))

        #UNIFY MESH NORMALS
        #MERGE ALL EDGES
        #MERGE ALL FACES

        #DELETE DUPS
        #rs.UnselectAllObjects()
        #rs.Command('-_Seldup ', echo=False)
        #dupObjs = rs.SelectedObjects()
        #if len(dupObjs) > 0:
        #    rs.DeleteObjects(dupObjs)
        #    print "{} duplicate objects deleted".format(len(dupObjs))

        #JOIN BY LAYER

        #PLACE UNDER A PARENT LAYER W/ DATESTAMP
        AddMasterRootLayer(cadName)

        #CHANGE LAYER NAMES?

        #IMPORT ACAD SCHEME
        standards.LoadAcadSchemes(fileLocations['ACAD Scheme Folder'])

        #SET DEFAULT FOLDER TO REFERENCE FOLDER UNDER RENDERING

        #EXPORT TO DWG
        rs.SelectObjects(objs)
        exportScheme = 'PCPA_MaxSolids'
        rs.Command('-_Export ' + '"' + fileName + '" S ' + '"' + exportScheme + '"' + ' Enter P 100 Enter', False)

        #REMOVE MASTER ROOT LAYER
        RemoveMasterRootLayer(cadName)
        return True
    except:
        return False