Esempio n. 1
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def create_dimension(element, point1, point2, reference_names_list, view, direction_to_move=XYZ(0, 0, 0)):
    line = Line.CreateBound(point1, point2)
    refArray = ReferenceArray()
    for ref in reference_names_list:
        refArray.Append(element.GetReferenceByName(ref))
    dim = doc.Create.NewDimension(view, line, refArray)
    ElementTransformUtils.MoveElement(doc, dim.Id, direction_to_move)
    return dim
Esempio n. 2
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def CreateDimensions(filledRegion, dimensionDirection):
    document = filledRegion.Document
    view = filledRegion.Document.GetElement(filledRegion.OwnerViewId)
    edgesDirection = dimensionDirection.CrossProduct(view.ViewDirection)
    edges = []
    for x in FindRegionEdges(filledRegion):
        if IsEdgeDirectionSatisfied(x, edgesDirection):
            edges.append(x)
    if len(edges) < 2:
        return
    shift = UnitUtils.ConvertToInternalUnits(
        -10 * view.Scale, DisplayUnitType.DUT_MILLIMETERS) * edgesDirection
    dimensionLine = Line.CreateUnbound(
        filledRegion.get_BoundingBox(view).Min + shift, dimensionDirection)
    references = ReferenceArray()
    for edge in edges:
        references.Append(edge.Reference)
    document.Create.NewDimension(view, dimensionLine, references)
Esempio n. 3
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#         import sys
#         sys.exit()

from Autodesk.Revit.DB import DatumExtentType, FilteredElementCollector, BuiltInCategory, Line, Reference, ReferenceArray, Options, XYZ

import rpw
from rpw import revit

doc = revit.doc
uidoc = revit.uidoc

selection = FilteredElementCollector(doc).OfCategory(
    BuiltInCategory.OST_Levels).WhereElementIsNotElementType()

# All reference in reference will be dimensioned
reference_array = ReferenceArray()

options = Options(ComputeReferences=True, IncludeNonVisibleObjects=True)

for element in selection:
    reference_array.Append(Reference(element))

crvs = []

ends = []

for element in selection:
    crvs.extend(
        element.GetCurvesInView(DatumExtentType.ViewSpecific, doc.ActiveView))

for crv in crvs:
Esempio n. 4
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geo = element_type.get_Geometry(opt)
geometry_instance = [
    g for g in geo if g.GetType().Name == 'Solid' and g.Volume > 0
][0]

new_list = []
edges = geometry_instance.Edges

for e in edges:
    curve = e.AsCurve()
    if curve.GetType().Name == 'Line':
        direction = curve.Direction
        if direction.X > 0:
            new_list.append(e.AsCurve().ToProtoType())

refArray = ReferenceArray()

# ref = [l.Reference for l in geometry_instance.SymbolGeometry if l.GetType().Name == 'Line']

# for r in new_list:
#     refArray.Append(r)

# refArray.Append(new_list[0])
# refArray.Append(new_list[1])
# refArray.Append(ref[4])

# TransactionManager.Instance.EnsureInTransaction(doc)
# bnews = []

# pt1 = XYZ(-2.89579276782608E-19, 6.22647337376248E-15, 0)
# pt2 = XYZ(-2.01413037506538E-15, -1.24671916017717, 0)
Esempio n. 5
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# def isParallel(v1,v2):
#     return v1.CrossProduct(v2).IsAlmostEqualTo(XYZ(0,0,0))


el = UnwrapElement(IN[1])  # noqa
crv = el.Location.Curve
linedir = crv.GetEndPoint(1) - crv.GetEndPoint(0)

opt = Options()
opt.ComputeReferences = True
opt.IncludeNonVisibleObjects = True
opt.View = doc.ActiveView

gem = el.get_Geometry(opt)

ref = ReferenceArray()

for g in gem:
    if isinstance(g, Solid):
        faces = g.Faces
        for face in faces:
            if face:
                faceNormal = face.FaceNormal
                if faceNormal.CrossProduct(linedir).IsAlmostEqualTo(XYZ(0, 0, 0)):
                    ref.Append(face.Reference)


TransactionManager.Instance.EnsureInTransaction(doc)

dim = doc.Create.NewDimension(doc.ActiveView, crv, ref)
Esempio n. 6
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from Autodesk.Revit.Creation.ItemFactoryBase import NewDimension

# Store current document into variable
doc = __revit__.ActiveUIDocument.Document
uidoc = __revit__.ActiveUIDocument

# Get current view
view = doc.ActiveView

# Select all grids by filter
gridsFilter = ElementCategoryFilter(BuiltInCategory.OST_Grids)
gridsCollector = FilteredElementCollector(doc).WherePasses(gridsFilter) \
    .WhereElementIsNotElementType()

# Variables to split grids into columns and rows
gridsColumn = ReferenceArray()
gridsRow = ReferenceArray()
gridsC = []
gridsR = []

# Check grids name and split in groups
for grid in gridsCollector:
    gridName = grid.LookupParameter("Name").AsString()
    if any(char.isdigit() for char in gridName):
        gridsColumn.Append(Reference(grid))
        gridsC.append(grid)
    else:
        gridsRow.Append(Reference(grid))
        gridsR.append(grid)

# Retrieve endpoints