コード例 #1
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import compas_rhino
import compas_tna

from compas_tna.diagrams import FormDiagram
from compas_tna.rhino import DiagramHelper

# create a form diagram from a set of lines

guid = compas_rhino.select_mesh()
form = FormDiagram.from_rhinomesh(guid)

# identify the supports
# as the vertices that lie on the support curves

guids = compas_rhino.select_curves()
keys = DiagramHelper.identify_vertices_on_curves(form, guids)

form.set_vertices_attribute('is_anchor', True, keys)

# update the boundaries to include the horizontal reaction forces

form.update_boundaries()

# serialise the result

form.to_json('aag_01_formdiagram_from_mesh.json')

# draw the result in the layer AAG > FormDiagram

form.draw(layer='AAG::FormDiagram')
コード例 #2
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    formdata, scale = tna.vertical_from_zmax_proxy(form.to_data(), zmax)
    form.data = formdata
    return scale


# 1. make the form diagram from selected line elements

guids = compas_rhino.select_lines()
rs.HideObjects(guids)

form = FormDiagram.from_rhinolines(guids)
form.draw(layer='TNA::FormDiagram', clear_layer=True)

# 2. identify the supports

keys = DiagramHelper.select_vertices(form)

if keys:
    form.set_vertices_attributes(['is_anchor', 'is_fixed'], [True, True],
                                 keys=keys)
    form.draw(layer='TNA::FormDiagram', clear_layer=True)

# 3. update the boundaries
# Note: add only one foot per support to control the direction of the horizontal component
#       of the reaction force

form.update_boundaries(feet=1)
form.draw(layer='TNA::FormDiagram', clear_layer=True)

# move the "feet" such that the horizontal reaction forces are constrained in the correct direction
コード例 #3
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from compas_tna.equilibrium import vertical_from_zmax_rhino as vertical

# create diagrams from serialised files

form = FormDiagram.from_json('aag_06_distribution_formdiagram.json')
force = ForceDiagram.from_json('aag_06_distribution_forcediagram.json')

# visualise the diagrams

form.draw(layer='AAG::FormDiagram')
force.draw(layer='AAG::ForceDiagram')

# update the force bounds on the edges of the form diagram

while True:
    keys = DiagramHelper.select_continuous_edges(form)
    if not keys:
        break
    DiagramHelper.update_edge_attributes(form, keys)

# update the horizontal equilibrium

horizontal(form, force, alpha=100, kmax=1000)

# compute the scale of the force diagram
# such that the highest vertex of the form diagram is at a prescribed value

zmax = 3
force.attributes['scale'] = vertical(form, zmax, kmax=100)

# draw the result
コード例 #4
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form = FormDiagram.from_json('aag_02_formdiagram.json')


# create a force diagram from the form diagram

force = ForceDiagram.from_formdiagram(form)


# visualise the result

force.draw(layer='AAG::ForceDiagram')


# move the force diagram to a different location

DiagramHelper.move(force)

force.draw(layer='AAG::ForceDiagram')


# fix one of the force diagram vertices to keep it there in the future

key = DiagramHelper.select_vertex(force)

if key is not None:
    DiagramHelper.update_vertex_attributes(force, [key])


# redraw the force diagram

force.draw(layer='AAG::ForceDiagram')
コード例 #5
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    formdata, scale = tna.vertical_from_zmax_proxy(form.to_data(), zmax)
    form.data = formdata
    return scale


# make the form diagram from selected line elements

guids = compas_rhino.select_lines()

form = FormDiagram.from_rhinolines(guids)
form.draw(layer='TNA::FormDiagram', clear_layer=True)

# identify the supports

guids = compas_rhino.select_curves()
keys = DiagramHelper.identify_vertices_on_curves(form, guids)

if keys:
    form.set_vertices_attributes(['is_anchor', 'is_fixed'], [True, True], keys=keys)
    form.draw(layer='TNA::FormDiagram', clear_layer=True)

# update the boundaries
# Note: add only one foot per support to control the direction of the horizontal component
#       of the reaction force

form.update_boundaries(feet=1)
form.draw(layer='TNA::FormDiagram', clear_layer=True)

# move the "feet" such that the horizontal reaction forces are constrained in the correct direction

while True:
コード例 #6
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    # except BrokenPipeError:
    #     return None
    form.data = formdata
    return scale


# make the form diagram from selected line elements

guids = compas_rhino.select_lines()

form = FormDiagram.from_rhinolines(guids)
form.draw(layer='TNA::FormDiagram', clear_layer=True)

# identify the supports

keys = DiagramHelper.select_vertices(form)

if keys:
    form.vertices_attributes(['is_anchor', 'is_fixed'], [True, True],
                             keys=keys)
    form.draw(layer='TNA::FormDiagram', clear_layer=True)

# update the boundaries
# Note: two feet per support to allow for non-symmetrical force distributions
#       in the different webs of the cross-vault

form.update_boundaries(feet=2)
form.draw(layer='TNA::FormDiagram', clear_layer=True)

# make the force diagram
コード例 #7
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ファイル: TNA_select_cmd.py プロジェクト: feihln/compas_tna
def RunCommand(is_interactive):
    if 'TNA' not in sc.sticky:
        raise Exception("Initialise the plugin first!")

    TNA = sc.sticky['TNA']
    form = TNA['form']
    force = TNA['force']
    settings = TNA['settings']

    options = ['form', 'force']
    option = rs.GetString("Select a Diagram", options[0], options)
    if not option:
        return

    if option == 'form':
        if not form:
            return

        options = ['vertices', 'edges', 'faces']
        option = rs.GetString("Select a component", options[0], options)
        if not option:
            return

        if option == 'vertices':
            options = ['selection', 'boundary', 'anchors', 'external', 'all']
            option = rs.GetString("Selection mode", options[0], options)
            if not option:
                return

            if option == 'selection':
                keys = DiagramHelper.select_vertices(form)
            elif option == 'boundary':
                keys = list(form.vertices_on_boundary())
            elif option == 'anchors':
                keys = list(form.vertices_where({'is_anchor': True}))
            elif option == 'external':
                keys = list(form.vertices_where({'is_external': True}))
            elif option == 'all':
                keys = list(form.vertices())
            else:
                raise NotImplementedError

            if not keys:
                return

            if DiagramHelper.update_vertex_attributes(form, keys):
                form.draw(layer=settings['layer.form'],
                          clear_layer=True,
                          settings=settings)

        elif option == 'edges':
            options = [
                'selection', 'parallel', 'continuous', 'boundary', 'external',
                'all'
            ]
            option = rs.GetString("Selection mode", options[0], options)

            if option == 'selection':
                keys = DiagramHelper.select_edges(form)
            elif option == 'parallel':
                keys = DiagramHelper.select_parallel_edges(form)
            elif option == 'continuous':
                keys = DiagramHelper.select_continuous_edges(form)
            elif option == 'boundary':
                keys = list(form.edges_on_boundary())
            elif option == 'external':
                keys = list(form.edges_where({'is_external': True}))
            elif option == 'all':
                keys = list(form.edges())
            else:
                raise NotImplementedError

            if not keys:
                return

            if DiagramHelper.update_edge_attributes(form, keys):
                form.draw(layer=settings['layer.form'],
                          clear_layer=True,
                          settings=settings)

        elif option == 'faces':
            pass

        else:
            raise NotImplementedError
コード例 #8
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# # 3. update the boundaries
 # Note: add only one foot per support to control the direction of the horizontal component
 #       of the reaction force

form.update_boundaries(feet=1)
form.draw(layer='TNA::FormDiagram', clear_layer=True)


# # 4. make the force diagram

force = ForceDiagram.from_formdiagram(form)
force.draw(layer='TNA::ForceDiagram', clear_layer=True)

DiagramHelper.move(force)
force.draw(layer='TNA::ForceDiagram', clear_layer=True)


# # 5. compute horizontal equilibrium

horizontal(form, force, alpha=100, kmax=500)
force.draw(layer='TNA::ForceDiagram', clear_layer=True)


# # 6. compute vertical equilibrium based on a chosen height of the highest point of the equilibrium network

while True:
    zmax = rs.GetReal('Z Max')
   
    if not zmax:
コード例 #9
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def RunCommand(is_interactive):
    if 'TNA' not in sc.sticky:
        raise Exception("Initialise the plugin first!")

    TNA = sc.sticky['TNA']

    options = ['form', 'force']
    option = rs.GetString("Select a Diagram", options[0], options)
    if not option:
        return

    if option == 'form':
        form = TNA['form']
        if not form:
            return

        options = ['vertices', 'edges', 'faces']
        option = rs.GetString("Select a component type", options[0], options)
        if not option:
            return

        if option == 'vertices':
            keys = DiagramHelper.select_vertices(form)
            if not keys:
                return
            if DiagramHelper.update_vertex_attributes(form, keys):
                form.draw(layer=TNA['settings']['layer.form'],
                          clear_layer=True,
                          settings=TNA['settings'])

        elif option == 'edges':
            keys = DiagramHelper.select_edges(form)
            if not keys:
                return
            if DiagramHelper.update_edge_attributes(form, keys):
                form.draw(layer=TNA['settings']['layer.form'],
                          clear_layer=True,
                          settings=TNA['settings'])

        elif option == 'faces':
            keys = DiagramHelper.select_faces(form)
            if not keys:
                return
            if DiagramHelper.update_face_attributes(form, keys):
                form.draw(layer=TNA['settings']['layer.form'],
                          clear_layer=True,
                          settings=TNA['settings'])

    if option == 'force':
        force = TNA['force']
        if not force:
            return

        options = ['vertices', 'edges']
        option = rs.GetString("Select a component type", options[0], options)
        if not option:
            return

        if option == 'vertices':
            keys = DiagramHelper.select_vertices(force)
            if not keys:
                return
            if DiagramHelper.update_vertex_attributes(force, keys):
                force.draw(layer=TNA['settings']['layer.force'],
                           clear_layer=True,
                           settings=TNA['settings'])

        elif option == 'edges':
            keys = DiagramHelper.select_edges(force)
            if not keys:
                return
            if DiagramHelper.update_edge_attributes(force, keys):
                force.draw(layer=TNA['settings']['layer.force'],
                           clear_layer=True,
                           settings=TNA['settings'])