blender/release/ui/buttons_data_modifier.py

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Python
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import bpy
class DataButtonsPanel(bpy.types.Panel):
__space_type__ = "BUTTONS_WINDOW"
__region_type__ = "WINDOW"
__context__ = "modifier"
class DATA_PT_modifiers(DataButtonsPanel):
__idname__ = "DATA_PT_modifiers"
__label__ = "Modifiers"
def draw(self, context):
ob = context.object
layout = self.layout
row = layout.row()
row.item_menu_enumO("object.modifier_add", "type")
row.itemL();
for md in ob.modifiers:
box = layout.template_modifier(md)
if box:
if md.type == 'ARMATURE':
self.armature(box, ob, md)
elif md.type == 'ARRAY':
self.array(box, ob, md)
elif md.type == 'BEVEL':
self.bevel(box, ob, md)
elif md.type == 'BOOLEAN':
self.boolean(box, ob, md)
elif md.type == 'BUILD':
self.build(box, ob, md)
elif md.type == 'CAST':
self.cast(box, ob, md)
elif md.type == 'CLOTH':
self.cloth(box, ob, md)
elif md.type == 'COLLISION':
self.collision(box, ob, md)
elif md.type == 'CURVE':
self.curve(box, ob, md)
elif md.type == 'DECIMATE':
self.decimate(box, ob, md)
elif md.type == 'DISPLACE':
self.displace(box, ob, md)
elif md.type == 'EDGE_SPLIT':
self.edgesplit(box, ob, md)
elif md.type == 'EXPLODE':
self.explode(box, ob, md)
elif md.type == 'FLUID_SIMULATION':
self.fluid(box, ob, md)
elif md.type == 'HOOK':
self.hook(box, ob, md)
elif md.type == 'LATTICE':
self.lattice(box, ob, md)
elif md.type == 'MASK':
self.mask(box, ob, md)
elif md.type == 'MESH_DEFORM':
self.mesh_deform(box, ob, md)
elif md.type == 'MIRROR':
self.mirror(box, ob, md)
elif md.type == 'MULTIRES':
self.multires(box, ob, md)
elif md.type == 'PARTICLE_INSTANCE':
self.particleinstance(box, ob, md)
elif md.type == 'PARTICLE_SYSTEM':
self.particlesystem(box, ob, md)
elif md.type == 'SHRINKWRAP':
self.shrinkwrap(box, ob, md)
elif md.type == 'SIMPLE_DEFORM':
self.simpledeform(box, ob, md)
elif md.type == 'SMOOTH':
self.smooth(box, ob, md)
elif md.type == 'SOFTBODY':
self.softbody(box, ob, md)
elif md.type == 'SUBSURF':
self.subsurf(box, ob, md)
elif md.type == 'SURFACE':
self.surface(box, ob, md)
elif md.type == 'UV_PROJECT':
self.uvproject(box, ob, md)
elif md.type == 'WAVE':
self.wave(box, ob, md)
def armature(self, layout, ob, md):
layout.itemR(md, "object")
UI: Layout Engine * Buttons are now created first, and after that the layout is computed. This means the layout engine now works at button level, and makes it easier to write templates. Otherwise you had to store all info and create the buttons later. * Added interface_templates.c as a separate file to put templates in. These can contain regular buttons, and can be put in a Free layout, which means you can specify manual coordinates, but still get nested correct inside other layouts. * API was changed to allow better nesting. Previously items were added in the last added layout specifier, i.e. one level up in the layout hierarchy. This doesn't work well in always, so now when creating things like rows or columns it always returns a layout which you have to add the items in. All py scripts were updated to follow this. * Computing the layout now goes in two passes, first estimating the required width/height of all nested layouts, and then in the second pass using the results of that to decide on the actual locations. * Enum and array buttons now follow the direction of the layout, i.e. they are vertical or horizontal depending if they are in a column or row. * Color properties now get a color picker, and only get the additional RGB sliders with Expand=True. * File/directory string properties now get a button next to them for opening the file browse, though this is not implemented yet. * Layout items can now be aligned, set align=True when creating a column, row, etc. * Buttons now get a minimum width of one icon (avoids squashing icon buttons). * Moved some more space variables into Style.
2009-05-15 11:19:59 +00:00
row = layout.row()
row.item_pointerR(md, "vertex_group", ob, "vertex_groups")
UI: Layout Engine * Buttons are now created first, and after that the layout is computed. This means the layout engine now works at button level, and makes it easier to write templates. Otherwise you had to store all info and create the buttons later. * Added interface_templates.c as a separate file to put templates in. These can contain regular buttons, and can be put in a Free layout, which means you can specify manual coordinates, but still get nested correct inside other layouts. * API was changed to allow better nesting. Previously items were added in the last added layout specifier, i.e. one level up in the layout hierarchy. This doesn't work well in always, so now when creating things like rows or columns it always returns a layout which you have to add the items in. All py scripts were updated to follow this. * Computing the layout now goes in two passes, first estimating the required width/height of all nested layouts, and then in the second pass using the results of that to decide on the actual locations. * Enum and array buttons now follow the direction of the layout, i.e. they are vertical or horizontal depending if they are in a column or row. * Color properties now get a color picker, and only get the additional RGB sliders with Expand=True. * File/directory string properties now get a button next to them for opening the file browse, though this is not implemented yet. * Layout items can now be aligned, set align=True when creating a column, row, etc. * Buttons now get a minimum width of one icon (avoids squashing icon buttons). * Moved some more space variables into Style.
2009-05-15 11:19:59 +00:00
row.itemR(md, "invert")
flow = layout.column_flow()
flow.itemR(md, "use_vertex_groups", text="Vertex Groups")
flow.itemR(md, "use_bone_envelopes", text="Bone Envelopes")
UI: Layout Engine * Buttons are now created first, and after that the layout is computed. This means the layout engine now works at button level, and makes it easier to write templates. Otherwise you had to store all info and create the buttons later. * Added interface_templates.c as a separate file to put templates in. These can contain regular buttons, and can be put in a Free layout, which means you can specify manual coordinates, but still get nested correct inside other layouts. * API was changed to allow better nesting. Previously items were added in the last added layout specifier, i.e. one level up in the layout hierarchy. This doesn't work well in always, so now when creating things like rows or columns it always returns a layout which you have to add the items in. All py scripts were updated to follow this. * Computing the layout now goes in two passes, first estimating the required width/height of all nested layouts, and then in the second pass using the results of that to decide on the actual locations. * Enum and array buttons now follow the direction of the layout, i.e. they are vertical or horizontal depending if they are in a column or row. * Color properties now get a color picker, and only get the additional RGB sliders with Expand=True. * File/directory string properties now get a button next to them for opening the file browse, though this is not implemented yet. * Layout items can now be aligned, set align=True when creating a column, row, etc. * Buttons now get a minimum width of one icon (avoids squashing icon buttons). * Moved some more space variables into Style.
2009-05-15 11:19:59 +00:00
flow.itemR(md, "quaternion")
flow.itemR(md, "multi_modifier")
def array(self, layout, ob, md):
layout.itemR(md, "fit_type")
if md.fit_type == 'FIXED_COUNT':
layout.itemR(md, "count")
elif md.fit_type == 'FIT_LENGTH':
layout.itemR(md, "length")
elif md.fit_type == 'FIT_CURVE':
layout.itemR(md, "curve")
layout.itemS()
split = layout.split()
col = split.column()
col = col.column()
col.itemR(md, "constant_offset")
colsub = col.column()
colsub.active = md.constant_offset
colsub.itemR(md, "constant_offset_displacement", text="")
col.itemS()
sub = col.row().itemR(md, "merge_adjacent_vertices", text="Merge")
colsub = col.column()
colsub.active = md.merge_adjacent_vertices
colsub.itemR(md, "merge_end_vertices", text="First Last")
colsub.itemR(md, "merge_distance", text="Distance")
col = split.column()
col = col.column()
col.itemR(md, "relative_offset")
colsub = col.column()
colsub.active = md.relative_offset
colsub.itemR(md, "relative_offset_displacement", text="")
col.itemS()
col = col.column()
col.itemR(md, "add_offset_object")
colsub = col.column()
colsub.active = md.add_offset_object
colsub.itemR(md, "offset_object", text="")
layout.itemS()
col = layout.column()
col.itemR(md, "start_cap")
col.itemR(md, "end_cap")
def bevel(self, layout, ob, md):
row = layout.row()
row.itemR(md, "width")
row.itemR(md, "only_vertices")
layout.itemL(text="Limit Method:")
row = layout.row()
row.itemR(md, "limit_method", expand=True)
if md.limit_method == 'ANGLE':
row = layout.row()
row.itemR(md, "angle")
elif md.limit_method == 'WEIGHT':
row = layout.row()
row.itemR(md, "edge_weight_method", expand=True)
def boolean(self, layout, ob, md):
layout.itemR(md, "operation")
layout.itemR(md, "object")
def build(self, layout, ob, md):
split = layout.split()
col = split.column()
col.itemR(md, "start")
col.itemR(md, "length")
col = split.column()
col.itemR(md, "randomize")
colsub = col.column()
colsub.active = md.randomize
colsub.itemR(md, "seed")
def cast(self, layout, ob, md):
layout.itemR(md, "cast_type")
col = layout.column_flow()
col.itemR(md, "x")
col.itemR(md, "y")
col.itemR(md, "z")
col.itemR(md, "factor")
col.itemR(md, "radius")
col.itemR(md, "size")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
#Missing: "OB" and "From Radius"
def cloth(self, layout, ob, md):
layout.itemL(text="See Cloth panel.")
def collision(self, layout, ob, md):
layout.itemL(text="See Collision panel.")
def curve(self, layout, ob, md):
layout.itemR(md, "object")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "deform_axis")
def decimate(self, layout, ob, md):
layout.itemR(md, "ratio")
layout.itemR(md, "face_count")
def displace(self, layout, ob, md):
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "texture")
layout.itemR(md, "midlevel")
layout.itemR(md, "strength")
layout.itemR(md, "direction")
layout.itemR(md, "texture_coordinates")
if md.texture_coordinates == 'OBJECT':
layout.itemR(md, "texture_coordinate_object", text="Object")
elif md.texture_coordinates == 'UV' and ob.type == 'MESH':
layout.item_pointerR(md, "uv_layer", ob.data, "uv_layers")
def edgesplit(self, layout, ob, md):
split = layout.split()
col = split.column()
col.itemR(md, "use_edge_angle", text="Edge Angle")
colsub = col.column()
colsub.active = md.use_edge_angle
colsub.itemR(md, "split_angle")
col = split.column()
col.itemR(md, "use_sharp", text="Sharp Edges")
def explode(self, layout, ob, md):
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "protect")
layout.itemR(md, "split_edges")
layout.itemR(md, "unborn")
layout.itemR(md, "alive")
layout.itemR(md, "dead")
# Missing: "Refresh" and "Clear Vertex Group" ?
def fluid(self, layout, ob, md):
layout.itemL(text="See Fluid panel.")
def hook(self, layout, ob, md):
layout.itemR(md, "falloff")
layout.itemR(md, "force", slider=True)
layout.itemR(md, "object")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
# Missing: "Reset" and "Recenter"
def lattice(self, layout, ob, md):
layout.itemR(md, "object")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
def mask(self, layout, ob, md):
layout.itemR(md, "mode")
if md.mode == 'ARMATURE':
layout.itemR(md, "armature")
elif md.mode == 'VERTEX_GROUP':
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "inverse")
def mesh_deform(self, layout, ob, md):
layout.itemR(md, "object")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "invert")
layout.itemS()
layout.itemO("object.modifier_mdef_bind", text="Bind")
row = layout.row()
row.itemR(md, "precision")
row.itemR(md, "dynamic")
def mirror(self, layout, ob, md):
layout.itemR(md, "merge_limit")
split = layout.split()
sub = split.column()
sub.itemR(md, "x")
sub.itemR(md, "y")
sub.itemR(md, "z")
sub = split.column()
sub.itemL(text="Textures:")
sub.itemR(md, "mirror_u")
sub.itemR(md, "mirror_v")
sub = split.column()
sub.itemR(md, "clip", text="Do Clipping")
sub.itemR(md, "mirror_vertex_groups", text="Vertex Group")
layout.itemR(md, "mirror_object")
def multires(self, layout, ob, md):
layout.itemR(md, "subdivision_type")
layout.itemO("object.multires_subdivide", text="Subdivide")
layout.itemR(md, "level")
def particleinstance(self, layout, ob, md):
layout.itemR(md, "object")
layout.itemR(md, "particle_system_number")
col = layout.column_flow()
col.itemR(md, "normal")
col.itemR(md, "children")
col.itemR(md, "size")
col.itemR(md, "path")
A bunch of fun stuff now possible because of new pointcache code: * Baked normal particles can now use the "Path" visualization. * Path "max length" & "abs length" are now history: - New option to set path start & end times + random variation to length. - Much more flexible (and calculated better) than previous options. - This works with parents, children, hair & normal particles unlike old length option. - Only known issue for now is that children from faces don't get calculated correctly when using path start time. * New option "trails" for "halo", "line" and "billboard" visualizations: - Draws user controllable number of particle instances along particles path backwards from current position. - Works with children too for cool/weird visualizations that weren't possible before. * Normal particle children's velocities are now approximated better when needed so that "line" visualization trails will look nice. * New particle instance modifier options: - "path"-option works better and has controllable (max)position along path (with random variation possible). - "keep shape"-option for hair, keyed, or baked particles allows to place the instances to a single point (with random variation possible) along particle path. - "axis" option to make rotation handling better (still not perfect, but will have to do for now). Some fixes & cleanup done along the way: * Random path length didn't work for non-child particles. * Cached & unborn particles weren't reset to emit locations. * Particle numbers weren't drawn in the correct place. * Setting proper render & draw visualizations was lost somewhere when initializing new particle settings. * Changing child mode wasn't working correctly. * Some cleanup & modularization of particle child effector code and particle drawing & rendering code. * Object & group visualizations didn't work. * Child simplification didn't work.
2009-07-04 03:50:12 +00:00
if md.path:
col.itemR(md, "keep_shape")
col.itemR(md, "unborn")
col.itemR(md, "alive")
col.itemR(md, "dead")
col.itemL(md, "")
A bunch of fun stuff now possible because of new pointcache code: * Baked normal particles can now use the "Path" visualization. * Path "max length" & "abs length" are now history: - New option to set path start & end times + random variation to length. - Much more flexible (and calculated better) than previous options. - This works with parents, children, hair & normal particles unlike old length option. - Only known issue for now is that children from faces don't get calculated correctly when using path start time. * New option "trails" for "halo", "line" and "billboard" visualizations: - Draws user controllable number of particle instances along particles path backwards from current position. - Works with children too for cool/weird visualizations that weren't possible before. * Normal particle children's velocities are now approximated better when needed so that "line" visualization trails will look nice. * New particle instance modifier options: - "path"-option works better and has controllable (max)position along path (with random variation possible). - "keep shape"-option for hair, keyed, or baked particles allows to place the instances to a single point (with random variation possible) along particle path. - "axis" option to make rotation handling better (still not perfect, but will have to do for now). Some fixes & cleanup done along the way: * Random path length didn't work for non-child particles. * Cached & unborn particles weren't reset to emit locations. * Particle numbers weren't drawn in the correct place. * Setting proper render & draw visualizations was lost somewhere when initializing new particle settings. * Changing child mode wasn't working correctly. * Some cleanup & modularization of particle child effector code and particle drawing & rendering code. * Object & group visualizations didn't work. * Child simplification didn't work.
2009-07-04 03:50:12 +00:00
if md.path:
col.itemR(md, "axis", text="")
if md.path:
row = layout.row()
row.itemR(md, "position", slider=True)
row.itemR(md, "random_position", text = "Random", slider=True)
def particlesystem(self, layout, ob, md):
layout.itemL(text="See Particle panel.")
def shrinkwrap(self, layout, ob, md):
layout.itemR(md, "target")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "offset")
layout.itemR(md, "subsurf_levels")
layout.itemR(md, "mode")
if md.mode == 'PROJECT':
layout.itemR(md, "subsurf_levels")
layout.itemR(md, "auxiliary_target")
row = layout.row()
row.itemR(md, "x")
row.itemR(md, "y")
row.itemR(md, "z")
col = layout.column_flow()
col.itemR(md, "negative")
col.itemR(md, "positive")
col.itemR(md, "cull_front_faces")
col.itemR(md, "cull_back_faces")
elif md.mode == 'NEAREST_SURFACEPOINT':
layout.itemR(md, "keep_above_surface")
# To-Do: Validate if structs
def simpledeform(self, layout, ob, md):
layout.itemR(md, "mode")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "origin")
layout.itemR(md, "relative")
layout.itemR(md, "factor")
layout.itemR(md, "limits")
if md.mode in ('TAPER', 'STRETCH'):
layout.itemR(md, "lock_x_axis")
layout.itemR(md, "lock_y_axis")
def smooth(self, layout, ob, md):
split = layout.split()
sub = split.column()
sub.itemR(md, "x")
sub.itemR(md, "y")
sub.itemR(md, "z")
sub = split.column()
sub.itemR(md, "factor")
sub.itemR(md, "repeat")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
def softbody(self, layout, ob, md):
layout.itemL(text="See Soft Body panel.")
def subsurf(self, layout, ob, md):
layout.itemR(md, "subdivision_type")
col = layout.column_flow()
col.itemR(md, "levels", text="Preview")
col.itemR(md, "render_levels", text="Render")
col.itemR(md, "optimal_draw", text="Optimal Display")
col.itemR(md, "subsurf_uv")
def surface(self, layout, ob, md):
layout.itemL(text="See Fields panel.")
def uvproject(self, layout, ob, md):
if ob.type == 'MESH':
layout.item_pointerR(md, "uv_layer", ob.data, "uv_layers")
layout.itemR(md, "projectors")
layout.itemR(md, "image")
layout.itemR(md, "horizontal_aspect_ratio")
layout.itemR(md, "vertical_aspect_ratio")
layout.itemR(md, "override_image")
#"Projectors" don't work.
def wave(self, layout, ob, md):
split = layout.split()
sub = split.column()
sub.itemL(text="Motion:")
sub.itemR(md, "x")
sub.itemR(md, "y")
sub.itemR(md, "cyclic")
sub = split.column()
sub.itemR(md, "normals")
row = sub.row(align=True)
row.active = md.normals
row.itemR(md, "x_normal", text="X", toggle=True)
row.itemR(md, "y_normal", text="Y", toggle=True)
row.itemR(md, "z_normal", text="Z", toggle=True)
col = layout.column_flow()
col.itemR(md, "time_offset")
col.itemR(md, "lifetime")
col.itemR(md, "damping_time")
col.itemR(md, "falloff_radius")
col.itemR(md, "start_position_x")
col.itemR(md, "start_position_y")
layout.itemR(md, "start_position_object")
layout.item_pointerR(md, "vertex_group", ob, "vertex_groups")
layout.itemR(md, "texture")
layout.itemR(md, "texture_coordinates")
if md.texture_coordinates == 'MAP_UV' and ob.type == 'MESH':
layout.item_pointerR(md, "uv_layer", ob.data, "uv_layers")
elif md.texture_coordinates == 'OBJECT':
layout.itemR(md, "texture_coordinates_object")
col = layout.column_flow()
col.itemR(md, "speed", slider=True)
col.itemR(md, "height", slider=True)
col.itemR(md, "width", slider=True)
col.itemR(md, "narrowness", slider=True)
bpy.types.register(DATA_PT_modifiers)