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author
Pierre Ratinaud
<ratinaud@univ-tlse2.fr>
Sun, 10 Sep 2017 16:56:38 +0000
(18:56 +0200)
committer
Pierre Ratinaud
<ratinaud@univ-tlse2.fr>
Sun, 10 Sep 2017 16:56:38 +0000
(18:56 +0200)
network_to_blender.py
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diff --git
a/network_to_blender.py
b/network_to_blender.py
index
8972ffc
..
1e969d1
100644
(file)
--- a/
network_to_blender.py
+++ b/
network_to_blender.py
@@
-24,7
+24,7
@@
import sys
# "green": (114, 195, 0), "red": (255, 0, 75),
# "blue": (0, 131, 255), "clear": (0, 131, 255),
# "yellow": (255, 187, 0), "light_gray": (118, 118, 118)}
# "green": (114, 195, 0), "red": (255, 0, 75),
# "blue": (0, 131, 255), "clear": (0, 131, 255),
# "yellow": (255, 187, 0), "light_gray": (118, 118, 118)}
-
+
# Normalize to [0,1] and make blender materials
def make_colors(colors):
# Normalize to [0,1] and make blender materials
def make_colors(colors):
@@
-83,7
+83,7
@@
def draw_network(network, edge_thickness=0.25, node_size=3, directed=False, sphe
# Keep separate references to shapes to be smoothed
shapes_to_smooth = []
#val to div coordonnate
# Keep separate references to shapes to be smoothed
shapes_to_smooth = []
#val to div coordonnate
- divval = 0.
1
+ divval = 0.
05
# Draw nodes
for key, node in network["nodes"].items():
# Draw nodes
for key, node in network["nodes"].items():
@@
-98,7
+98,7
@@
def draw_network(network, edge_thickness=0.25, node_size=3, directed=False, sphe
node_sphere.data = sphere.data.copy()
node_sphere.location = [val/divval for val in node["location"]]
#node_sphere.dimensions = [node_size] * 3
node_sphere.data = sphere.data.copy()
node_sphere.location = [val/divval for val in node["location"]]
#node_sphere.dimensions = [node_size] * 3
- node_sphere.dimensions = [node["weight"]
/10
] * 3
+ node_sphere.dimensions = [node["weight"]] * 3
#newmat = bpy.data.materials[col]
#newmat.alpha = 0.01
node_sphere.active_material = bpy.data.materials[col + 'sphere']
#newmat = bpy.data.materials[col]
#newmat.alpha = 0.01
node_sphere.active_material = bpy.data.materials[col + 'sphere']
@@
-114,15
+114,21
@@
def draw_network(network, edge_thickness=0.25, node_size=3, directed=False, sphe
bpy.ops.object.editmode_toggle()
bpy.ops.font.delete()
bpy.ops.font.text_insert(text=key)
bpy.ops.object.editmode_toggle()
bpy.ops.font.delete()
bpy.ops.font.text_insert(text=key)
-
bpy.ops.object.editmode_toggle()
bpy.ops.object.editmode_toggle()
- bpy.data.curves[bpy.context.active_object.name].size = node["weight"]
/10
+ bpy.data.curves[bpy.context.active_object.name].size = node["weight"]
/2
bpy.data.curves[bpy.context.active_object.name].bevel_depth = 0.044
bpy.data.curves[bpy.context.active_object.name].offset = 0
bpy.data.curves[bpy.context.active_object.name].extrude = 0.2
bpy.data.curves[bpy.context.active_object.name].align = "CENTER"
bpy.context.active_object.rotation_euler = [1.5708,0,1.5708]
bpy.context.active_object.active_material = bpy.data.materials[col]
bpy.data.curves[bpy.context.active_object.name].bevel_depth = 0.044
bpy.data.curves[bpy.context.active_object.name].offset = 0
bpy.data.curves[bpy.context.active_object.name].extrude = 0.2
bpy.data.curves[bpy.context.active_object.name].align = "CENTER"
bpy.context.active_object.rotation_euler = [1.5708,0,1.5708]
bpy.context.active_object.active_material = bpy.data.materials[col]
+ #bpy.ops.object.mode_set(mode='OBJECT')
+
+ #Extrude the text
+ #bpy.context.object.data.extrude = 0.03
+
+ #Convert text to mesh
+ #bpy.context.active_object.convert(target='MESH', keep_original=False)
const = bpy.context.active_object.constraints.new(type='TRACK_TO')
const.target = bpy.data.objects['Camera']
const.track_axis = "TRACK_Z"
const = bpy.context.active_object.constraints.new(type='TRACK_TO')
const.target = bpy.data.objects['Camera']
const.track_axis = "TRACK_Z"
@@
-156,7
+162,7
@@
def draw_network(network, edge_thickness=0.25, node_size=3, directed=False, sphe
# Copy mesh primitive to create edge
edge_cylinder = cylinder.copy()
edge_cylinder.data = cylinder.data.copy()
# Copy mesh primitive to create edge
edge_cylinder = cylinder.copy()
edge_cylinder.data = cylinder.data.copy()
- edge_cylinder.dimensions = [float(edge['weight'])
*
10] * 2 + [mag - node_size]
+ edge_cylinder.dimensions = [float(edge['weight'])
/
10] * 2 + [mag - node_size]
#edge_cylinder.dimensions = [edge_thickness] * 2 + [mag - node_size]
edge_cylinder.location = cent
edge_cylinder.rotation_mode = "AXIS_ANGLE"
#edge_cylinder.dimensions = [edge_thickness] * 2 + [mag - node_size]
edge_cylinder.location = cent
edge_cylinder.rotation_mode = "AXIS_ANGLE"