importIFClegacy Namespace Reference


class  IfcDocument
class  IfcEntity
class  IfcFile
class  IfcSchema
class  IfcWriter


def create (ifcdoc=None, ifcname=None, arguments=[])
def decode (name)
def explore (filename=None)
def explorer (filename, schema="IFC2X3_TC1.exp")
def export (exportList, filename)
def getAttr (entity, attr)
def getCleanName (name, ifcid, ifctype)
def getConfig ()
def getIfcBrepFacesData (obj, scale=1, sub=False, tessellation=1)
def getIfcElevation (obj)
def getIfcExtrusionData (obj, scale=1, nosubs=False)
def getIfcOpenShell ()
def getMesh (obj)
def getPlacement (entity)
def getPropertyNames (entity)
def getSchema ()
def getShape (obj, objid)
def getTuple (vec)
def getTuples (data, scale=1, placement=None, normal=None, close=True)
def getValueAndDirection (vec)
def getVector (entity)
def getWire (entity, placement=None)
def group (entity, ifc, mode=None)
def insert (filename, docname, skip=None)
def makeRoof (entity, shape=None, name="Roof")
def makeSite (entity, shape=None, name="Site")
def makeSpace (entity, shape=None, name="Space")
def makeStructure (entity, shape=None, ifctype=None, name="Structure")
def makeWall (entity, shape=None, name="Wall")
def makeWindow (entity, shape=None, name="Window")
def now (string=False)
def open (filename, skip=None)
def read (filename, skip=None)
def uid ()


bool APPLYFIX = True
bool DEBUG = True
 holder = _tempEntityHolder()
 IFCLINE_RE = re.compile("#(\d+)[ ]?=[ ]?(.*?)\((.*)\);[\\r]?$")
 pyopen = open
string SCHEMA = ""
list SKIP = ["IfcBuildingElementProxy","IfcFlowTerminal","IfcFurnishingElement"]
list subtractiveTypes = ["IfcOpeningElement"]
list supportedIfcTypes

Function Documentation

def importIFClegacy.decode (   name)

Referenced by open().

def importIFClegacy.explore (   filename = None)

References explorer(), getConfig(), and getSchema().

def importIFClegacy.explorer (   filename,
  schema = "IFC2X3_TC1.exp" 

Referenced by explore().

def importIFClegacy.export (   exportList,
def importIFClegacy.getAttr (   entity,
def importIFClegacy.getCleanName (   name,

Referenced by read().

def importIFClegacy.getConfig ( )

Referenced by explore(), export(), insert(), and open().

def importIFClegacy.getIfcBrepFacesData (   obj,
  scale = 1,
  sub = False,
  tessellation = 1 
getIfcBrepFacesData(obj,[scale,tesselation]): returns a list(0) of lists(1) of lists(2) of lists(3), 
list(3) being a list of vertices defining a loop, list(2) describing a face from one or 
more loops, list(1) being the whole solid made of several faces, list(0) being the list
of solids inside the object. Scale can indicate a scaling factor. Tesselation is the tesselation
factor to apply on curved faces.

References getTuples(), and DraftVecUtils.neg().

Referenced by export().

def importIFClegacy.getIfcElevation (   obj)
getIfcElevation(obj): Returns the lowest height (Z coordinate) of this object

Referenced by export().

def importIFClegacy.getIfcExtrusionData (   obj,
  scale = 1,
  nosubs = False 
getIfcExtrusionData(obj,[scale,nosubs]): returns a closed path (a list of tuples), a tuple expressing an extrusion
vector, and a list of 3 tuples for base position, x axis and z axis. Or returns None, if a base loop and 
an extrusion direction cannot be extracted. Scale can indicate a scale factor.

References DraftVecUtils.angle(), DraftVecUtils.equals(), getTuples(), and DraftVecUtils.rounded().

Referenced by export().

def importIFClegacy.getIfcOpenShell ( )

Referenced by read().

def importIFClegacy.getMesh (   obj)

Referenced by read().

def importIFClegacy.getPlacement (   entity)
def importIFClegacy.getPropertyNames (   entity)
getPropertyNames(entity): Returns a dictionary with 
the numbers and names of the pythonproperties available for
this entity

Referenced by importIFClegacy.IfcWriter.addProduct().

def importIFClegacy.getSchema ( )


Referenced by explore(), and read().

def importIFClegacy.getShape (   obj,

References getAttr(), getPlacement(), and pyopen.

Referenced by read().

def importIFClegacy.getTuple (   vec)
getTuple(vec): returns a tuple from other coordinate
structures: tuple, list, 3d vector, or occ vertex

Referenced by importIFClegacy.IfcWriter.addFace(), importIFClegacy.IfcWriter.addPlacement(), importIFClegacy.IfcWriter.addProfile(), and getValueAndDirection().

def importIFClegacy.getTuples (   data,
  scale = 1,
  placement = None,
  normal = None,
  close = True 
getTuples(data,[scale,placement,normal,close]): returns a tuple or a list of tuples from a vector
or from the vertices of a shape. Scale can indicate a scale factor

References DraftVecUtils.angle(), and DraftVecUtils.rounded().

Referenced by getIfcBrepFacesData(), and getIfcExtrusionData().

def importIFClegacy.getValueAndDirection (   vec)
getValueAndDirection(vec): returns a length and a tuple
representing a normalized vector from a tuple

References getTuple().

Referenced by importIFClegacy.IfcWriter.addExtrusion().

def importIFClegacy.getVector (   entity)

References getAttr().

Referenced by getPlacement(), getWire(), and makeWall().

def importIFClegacy.getWire (   entity,
  placement = None 

References getVector().

Referenced by makeStructure(), makeWall(), and makeWindow().

def (   entity,
  mode = None 

References getPlacement().

Referenced by read().

def importIFClegacy.insert (   filename,
  skip = None 

References getConfig(), and read().

def importIFClegacy.makeRoof (   entity,
  shape = None,
  name = "Roof" 

Referenced by read().

def importIFClegacy.makeSite (   entity,
  shape = None,
  name = "Site" 

Referenced by read().

def importIFClegacy.makeSpace (   entity,
  shape = None,
  name = "Space" 

Referenced by read().

def importIFClegacy.makeStructure (   entity,
  shape = None,
  ifctype = None,
  name = "Structure" 

References getPlacement(), and getWire().

Referenced by read().

def importIFClegacy.makeWall (   entity,
  shape = None,
  name = "Wall" 

References getPlacement(), getVector(), and getWire().

Referenced by read().

def importIFClegacy.makeWindow (   entity,
  shape = None,
  name = "Window" 

References getPlacement(), and getWire().

Referenced by read().

def (   string = False)
def (   filename,
  skip = None 

References decode(), getConfig(), and read().

Variable Documentation

bool importIFClegacy.APPLYFIX = True
bool importIFClegacy.DEBUG = True
importIFClegacy.holder = _tempEntityHolder()
importIFClegacy.IFCLINE_RE = re.compile("#(\d+)[ ]?=[ ]?(.*?)\((.*)\);[\\r]?$")
bool importIFClegacy.MAKETEMPFILES = False
int importIFClegacy.PRECISION = 4
importIFClegacy.pyopen = open
string importIFClegacy.SCHEMA = ""
list importIFClegacy.SKIP = ["IfcBuildingElementProxy","IfcFlowTerminal","IfcFurnishingElement"]
list importIFClegacy.subtractiveTypes = ["IfcOpeningElement"]
list importIFClegacy.supportedIfcTypes
Initial value:
1 = ["IfcSite", "IfcBuilding", "IfcBuildingStorey", "IfcBeam", "IfcBeamStandardCase",
2  "IfcChimney", "IfcColumn", "IfcColumnStandardCase", "IfcCovering", "IfcCurtainWall",
3  "IfcDoor", "IfcDoorStandardCase", "IfcMember", "IfcMemberStandardCase", "IfcPlate",
4  "IfcPlateStandardCase", "IfcRailing", "IfcRamp", "IfcRampFlight", "IfcRoof",
5  "IfcSlab", "IfcStair", "IfcStairFlight", "IfcWall","IfcSpace",
6  "IfcWallStandardCase", "IfcWindow", "IfcWindowStandardCase", "IfcBuildingElementProxy",
7  "IfcPile", "IfcFooting", "IfcReinforcingBar", "IfcTendon"]