Ejemplo n.º 1
0
def Main():

    jointno = 4

    list = []

    dir0 = rs.GetPoint("from")
    dir1 = rs.GetPoint("hub")
    dir2 = rs.GetPoints(False, False, "outline_left_to_right")

    #THIS VECTOR WILL ALLOW US TO TAKE INTO ACCOUNT POSSIBLE LAYOUT OF DRAWN JOINTS ON THE PAGE
    fix = rs.VectorSubtract([0, 0, 0], dir1)

    dir0 = rs.VectorAdd(dir0, fix)
    dir1 = rs.VectorAdd(dir1, fix)
    indir = rs.VectorSubtract(dir1, dir0)

    for j in range(len(dir2)):
        pt = rs.VectorAdd(dir2[j], fix)
        dir2[j] = pt

    list.append([dir1, indir, dir2])

    for i in (range(jointno)[1:]):

        dir0 = rs.GetPoint("from")
        dir1 = rs.GetPoint("hub")
        dir2 = rs.GetPoint("to")

        #THIS VECTOR WILL ALLOW US TO TAKR INTO ACCOUNT POSSIBLE LAYOUT OF DRAWN JOINTS ON THE PAGE
        fix = rs.VectorSubtract([0, 0, 0], dir1)

        #What is this line doing???
        dir0 = rs.VectorAdd(dir0, fix)
        dir1 = rs.VectorAdd(dir1, fix)
        dir2 = rs.VectorAdd(dir2, fix)

        #Setting up direction vectors!
        indir = rs.VectorSubtract(dir1, dir0)
        outdir = rs.VectorSubtract(dir2, dir1)

        lside = rs.GetPoints(False, False, "left")
        rside = rs.GetPoints(False, False, "right")

        for j in range(len(lside)):
            pt = rs.VectorAdd(lside[j], fix)
            lside[j] = pt

        for j in range(len(rside)):
            pt = rs.VectorAdd(rside[j], fix)
            rside[j] = pt

        list.append([dir1, indir, lside, rside, outdir])

    WritePolies(addresss, list)
Ejemplo n.º 2
0
 def get_points():
     """Prompts for a point triple. Returns a list of the points:
         [<iter>, ...]
     """
     points = rs.GetPoints(draw_lines=False,
                           in_plane=False,
                           message1='Select first tail',
                           message2='Select heads',
                           max_points=None,
                           base_point=None)
     return points
Ejemplo n.º 3
0
def SampleBlockLeader():
    go = Rhino.Input.Custom.GetObject()
    go.SetCommandPrompt("Select block instance to annotate")
    go.GeometryFilter = Rhino.DocObjects.ObjectType.InstanceReference
    go.EnablePreSelect(False, True)
    go.InactiveDetailPickEnabled = True
    rc = go.Get()
    if rc == Rhino.Input.GetResult.Object:
        prompt0 = "First point of leader"
        prompt1 = "Next point of leader. Press Enter when done"
        points = rs.GetPoints(True, True, prompt0, prompt1)
        if points is not None:
            objref = go.Object(0)
            obj = objref.Object()
            name = rs.BlockInstanceName(obj.Id)
            rs.AddLeader(points, None, name)
Ejemplo n.º 4
0
def addArcLeader():
    """
    Automatically calculates and annotates the length of a curve object,
    used primarily for arc length
    
    Input parameters: None    
    
    Returns: Guid if successful
             None if failure    
    """

    try:
        #assign empty variables
        points = []
        leader = None

        #get curve
        crv = rs.GetCurveObject("Select curve object")
        crvLen = rs.CurveLength(crv[0])  #get curve's length

        #get points
        pts = rs.GetPoints("AddPoints, press enter when done")
        points = rs.AddPoints(pts)

        #make leader
        leader = rs.AddLeader(points,
                              text="ArcLength: " + str(round(crvLen, 3)))
        return leader

    except Exception:
        pass

    finally:
        if points:
            rs.DeleteObjects(
                points)  #points will be deleted even upon exception
        return leader
Ejemplo n.º 5
0
def dividePointsInX():
    points = rs.GetPoints()
    x = 0
    for point in points:
        arCoord = rs.GetPointCoordinates();
Ejemplo n.º 6
0
#Python Workshop Lesson:04
#http://designalyze.com/int2pythonscripting04_listscurvetypes
#Lists of Points + Curve Types
#Bonus simple for loop
import rhinoscriptsyntax as rs

listPoints = []
listPoints = rs.GetPoints(True, True, "Pick a starting point",
                          "Keep picking points until you get tired")

#Curve Types
myPolyline = rs.AddPolyline(listPoints)
myCurve = rs.AddCurve(listPoints)
myIntpCurve = rs.AddInterpCurve(listPoints)

#Curve Colors
#Colors are Arrays of [r,g,b]
color01 = [0, 255, 255]  #cyan
color02 = [255, 0, 255]  #magenta
color03 = [255, 255, 0]  #yellow

#Change Color of Curves
rs.ObjectColor(myPolyline, color01)
rs.ObjectColor(myCurve, color02)
rs.ObjectColor(myIntpCurve, color03)

#Bonus For Loop
for point in listPoints:
    rs.AddPoint(point)
# -- coding: utf-8 --
#这段代码的功能是画一个引线标注,自动给出起点的XY坐标,第一个点是需要标注的坐标点位置
#注意: rhino的单位默认为MM, 测绘图的坐标体系X为建筑专业平面图竖坐标,Y为横坐标
#引线的默认尺寸画完后在属性里可以改
import rhinoscriptsyntax as rs

leaderB = rs.GetPoints(True, False, "Select leader points")
PC_B = leaderB[0]
PS_B = repr(PC_B)

#Attention that the Mapping Drawing X is the vertical co-ordinates in CAD plan
XB0 = float(PS_B.split('[')[-1].split(',')[1])
YB0 = float(PS_B.split('[')[-1].split(',')[0])
#When the rhino Unit is mm,IF not comment out the next line 注意rhino的单位默认为MM,测绘图为米,如果都是米则下面一行前加#号
XB0 = XB0 / 1000
XB = round(XB0, 3)
#When the rhino Unit is mm,IF not comment out the next line 注意rhino的单位默认为MM,测绘图为米,如果都是米则下面一行前加#号
YB0 = YB0 / 1000
YB = round(YB0, 3)

if PS_B:
    rs.AddLeader(leaderB, None, "X=%s\nY=%s" % (XB, YB))
Ejemplo n.º 8
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def get_polyline():
    points = rs.GetPoints(draw_lines = True, in_plane = True, max_points = 3)
    if points and len(points)>1:
        return Rhino.Geometry.Polyline(points)
    return False
Ejemplo n.º 9
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# Lists of Points and Curve Types

#import the Rhinoscript Library and set the reference to 'rs'
import rhinoscriptsyntax as rs

#create and empty list to store points
ptList = []

#prompt user to select points
ptList = rs.GetPoints(True, True, "Please select start point", "Select next point, Enter When finished")

#print contents of list
print(ptList)

#Create some Curves of different types from our Point List
myPolyLine = rs.AddPolyline(ptList)
myCurve = rs.AddCurve(ptList)
myIntpCurve = rs.AddInterpCurve(ptList)

#output type and GUID
print type(myPolyLine)
print myCurve
print myIntpCurve

#Color Curves
#Colors are tuples
color01 = (255, 0, 0) #red
color02 = (0, 255, 0) #green
color03 = (0, 0, 255) #blue

#Change Color of Curves
Ejemplo n.º 10
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#define imputs for brick wall
height = rs.GetReal('Please enter brick height',2.25)
length = rs.GetReal('Please enter brick length',7.625)
width = rs.GetReal('Please enter brick width',3.325)
gap = rs.GetReal('Please enter desired gap between bricks',.9)
spaceBetweenBricks = length+gap
rowCount = rs.GetInteger('Please enter desired number of rows of bricks',10)
rotation = rs.GetReal('Please enter brick rotation in degrees',0)

#create the world axis as vectors
worldZAxis = rs.VectorCreate([0,0,1],[0,0,0])

#create curves to define wall and loft to get wall surface
#upperCurve = rs.AddCurve([[7,7,0],[15,-8,0],[0,-16,0]])
#lowerCurve = rs.AddCurve([[12,12,0],[1,11,0],[-3,8,0],[6,-2,0],[-7,-11,0]])
lowerCurve = rs.AddCurve(rs.GetPoints(True,True,'Please select points to create lower curve of wall'))
upperCurve = rs.AddCurve(rs.GetPoints(True,True,'Please select points to create upper curve of wall, be sure to start on the same end of the wall as the lower curve'))
upperCurve2 = rs.CopyObject(upperCurve,rs.VectorScale(worldZAxis,(height*rowCount)))
loftedSurface = rs.AddLoftSrf([lowerCurve,upperCurve2])
rs.HideObjects([loftedSurface,lowerCurve,upperCurve,upperCurve2])

#intersect planes with surface to get the profile of the wall at each row
intersected = rs.AddSrfContourCrvs(loftedSurface,([0,0,0], [0,0,(height*rowCount)]),height)
rs.HideObjects(intersected)

#make list of even and list of odd row profiles
intersectedEven = []
intersectedOdd = []
for i in range(len(intersected)):
    if i%2 == 0 :
        intersectedEven.append(intersected[i])
Ejemplo n.º 11
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def getPolyline():
    points = rs.GetPoints(draw_lines=True, in_plane=True, max_points=3)
    if points:
        return Rhino.Geometry.Polyline(points)
    else:
        return False