Grasshopper

algorithmic modeling for Rhino

Hi,

This is my most humiliating post to date.

I am generating data series to generate a grid of points to form a grillage. As the series component relies on the parameter "S".

I can only translate my series of points with the help of a vector, copying the no. of points in the definition.

Can I have a steer in the direction of controlling the location of the series of points. I would like to be able to place the grillage origin at any point.

I've circled the control point which is off the global xy plane.

I did troll through the discussion forum.

rgds

kenyon

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Well ... this spaghetti is too chaotic for me ... thus I'm not at all sure that I've got correctly what you want (rather the opposite I suspect)

Anyway see this attached.

PS: what are you trying to achieve? some "inclined" grid? (if so is rather very simple).

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Hi Peter,

I am trying to generate an orthogonal grillage through the points contained within the extent of the rhombic shape defined by the points that I have grouped.

However I would like to control the points contained within it, using one data tree for ease of manipulation of the points.

My workflow was as follows:

•Define the points that define the skewed edge EBPt1 and Pt6
•Define the extent of the points ( grouping the 6 pts gave me a mental picture of the control points, ie. changes in direction)
•Divide the line determining the skew edge, these points determine the number of points
•Use the intervals between the points to get the x and y steps
•Use the indices to gain a starting point on the next point cloud ie. Triangular/rectangular/triangular point clouds, it may seem odd there was logic to it
•Once I have the extent of the points connect the points into longitudinal and transverse lines/curves using a data tree relative items approach.


The points contained within the rhombus are constrained by the condition that they require to be orthogonal, this is proving actually quite tricky as the lines intersect with the rhombus.

That's my stage 1

Not forgetting that I would like to move the grillage anywhere on the canvas linked to a key point, in this case EBPt1 (0,0.225,16.0) from memory, crudely achieved with the vector translation.

Aside from the geometry I am trying to organise my point data tree in a manner that captures the points in consecutive longitudinal or transverse branches. Avoiding unnecessary points

A while back I tried a different approach with three data trees, one of my addition constraints in this attempt is to avoid using a data panel to control the data tree parameters, allowing the grillage to be completely generative.


I'm sure you are glad that you asked.

Thanks and may the geometry be with you.

Kenyon

Er ... hmm ... let's spend 5 minutes on something: could we start from this ?

I mean what else (other than it does) you want/wish more? (I suspect some stuff, maybe patterns? maybe dogs? maybe cats?).

PS: by more I don't mean the way that the grid distances are defined (that's peanuts to modify).

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Thanks Peter always eye opening.

The arrangement will be the structural geomtery model for a bridge deck.

Generally the type of analysis for skews greater than 25deg requires an orthogonal grillage.

Hence the three sections. I've attached a sketch.

For me it is a data tree example, which appears simple, I suspect that its quite difficult (awkward).

The idea from working only from the points is to minimise the duplicates. When I import to my analysis package I generally have two issues tolerance and too many duplicate points.

It is also important for me to use grasshopper components possibly a teeny weeny bit of Python. We are also using Dynamo (nighmare!).

I wasn't sure about your ptree parameter and failed to get the C#to run.

I got 30 %, the refernvce origin, failed to suss the T input of the data tree component and humiliatingly the A point on the line component.

It is important that there are points at the intersections, connected to the grillage where the skewed edges meet the parallel edge lines.

Again thanks for your interest, oh!! no cats we have one of those and she reckions that I should merge the 3No. series.

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Hmm ... Appears (based on your sketch and a dose of good Karma) that you want this thingy attached.

PS: Dynamo is not nightmare in the sense that Generative Components is not a nightmare (the very same [Robert Aish ex Bentley Systems top-dog] did both).

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And this maybe can clarify things better

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That's definitely the result i am aspiring to.

Particularly the data tree structure.

My plan was/is to combine data trees, flatten, sort x then y, graft, the Y

You need to admire ambition

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Well ... this 3 branch approach of yours it doesn't make any sense to me (and violates 3.56 laws of chemistry and 5.34 laws of physics)  ... but I've added it as a s@$%t option (in the name of Science, as usual).

And the thing

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The script that you provided works very well. I converted it to Python, which i an equally rubbish at.

My aim has always been to keep it in GH minimising the need for input text panels, avoiding losing generative aspect.

The three section approach was to give direct control over the number of points in the central section only. Its relatively easy to generate the rows of points

Oh! I was looking at it as a datatree exercise with path mapper.

I was trying to get:

1.{0;0;0} to {0;0;5} consistent N of 17 and

2. reversed {0;0;0} to {0;0;17} varying N

I havent quite solved that yet, thanks all the same.

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