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# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8-80 compliant>
from mathutils import Vector
import bpy
from bpy.types import Operator
from bpy.props import (BoolProperty,
EnumProperty,
IntProperty,
FloatProperty,
FloatVectorProperty,
)
from blf import gettext as _
def object_ensure_material(obj, mat_name):
""" Use an existing material or add a new one.
"""
mat = mat_slot = None
for mat_slot in obj.material_slots:
mat = mat_slot.material
if mat:
break
if mat is None:
mat = bpy.data.materials.new(mat_name)
if mat_slot:
mat_slot.material = mat
else:
obj.data.materials.append(mat)
return mat
class QuickFur(Operator):
bl_idname = "object.quick_fur"
bl_label = "Quick Fur"
bl_options = {'REGISTER', 'UNDO'}
density = EnumProperty(
name="Fur Density",
items=(('LIGHT', "Light", ""),
('MEDIUM', "Medium", ""),
('HEAVY', "Heavy", "")),
default='MEDIUM',
)
view_percentage = IntProperty(
name="View %",
min=1, max=100,
soft_min=1, soft_max=100,
default=10,
)
length = FloatProperty(
name="Length",
min=0.001, max=100,
soft_min=0.01, soft_max=10,
default=0.1,
)
def execute(self, context):
fake_context = bpy.context.copy()
mesh_objects = [obj for obj in context.selected_objects
if obj.type == 'MESH']
if not mesh_objects:
self.report({'ERROR'}, "Select at least one mesh object.")
return {'CANCELLED'}
mat = bpy.data.materials.new("Fur Material")
mat.strand.tip_size = 0.25
mat.strand.blend_distance = 0.5
for obj in mesh_objects:
fake_context["object"] = obj
bpy.ops.object.particle_system_add(fake_context)
psys = obj.particle_systems[-1]
psys.settings.type = 'HAIR'
if self.density == 'LIGHT':
psys.settings.count = 100
elif self.density == 'MEDIUM':
psys.settings.count = 1000
elif self.density == 'HEAVY':
psys.settings.count = 10000
psys.settings.child_nbr = self.view_percentage
psys.settings.hair_length = self.length
psys.settings.use_strand_primitive = True
psys.settings.use_hair_bspline = True
psys.settings.child_type = 'INTERPOLATED'
obj.data.materials.append(mat)
obj.particle_systems[-1].settings.material = \
len(obj.data.materials)
return {'FINISHED'}
class QuickExplode(Operator):
bl_idname = "object.quick_explode"
bl_label = "Quick Explode"
bl_options = {'REGISTER', 'UNDO'}
style = EnumProperty(
name="Explode Style",
items=(('EXPLODE', "Explode", ""),
('BLEND', "Blend", "")),
default='EXPLODE',
)
amount = IntProperty(
name="Amount of pieces",
min=2, max=10000,
soft_min=2, soft_max=10000,
default=100,
)
frame_duration = IntProperty(
name="Duration",
min=1, max=300000,
soft_min=1, soft_max=10000,
default=50,
)
frame_start = IntProperty(
name="Start Frame",
min=1, max=300000,
soft_min=1, soft_max=10000,
default=1,
)
frame_end = IntProperty(
name="End Frame",
min=1, max=300000,
soft_min=1, soft_max=10000,
default=10,
)
velocity = FloatProperty(
name="Outwards Velocity",
min=0, max=300000,
soft_min=0, soft_max=10,
default=1,
)
fade = BoolProperty(
name="Fade",
description="Fade the pieces over time.",
default=True,
)
def execute(self, context):
fake_context = bpy.context.copy()
obj_act = context.active_object
if obj_act is None or obj_act.type != 'MESH':
self.report({'ERROR'}, "Active object is not a mesh")
return {'CANCELLED'}
mesh_objects = [obj for obj in context.selected_objects
if obj.type == 'MESH' and obj != obj_act]
mesh_objects.insert(0, obj_act)
if self.style == 'BLEND' and len(mesh_objects) != 2:
self.report({'ERROR'}, "Select two mesh objects")
return {'CANCELLED'}
elif not mesh_objects:
self.report({'ERROR'}, "Select at least one mesh object")
return {'CANCELLED'}
for obj in mesh_objects:
if obj.particle_systems:
self.report({'ERROR'},
"Object %r already has a "
"particle system" % obj.name)
return {'CANCELLED'}
if self.fade:
tex = bpy.data.textures.new("Explode fade", 'BLEND')
tex.use_color_ramp = True
if self.style == 'BLEND':
tex.color_ramp.elements[0].position = 0.333
tex.color_ramp.elements[1].position = 0.666
tex.color_ramp.elements[0].color[3] = 1.0
tex.color_ramp.elements[1].color[3] = 0.0
if self.style == 'BLEND':
from_obj = mesh_objects[1]
to_obj = mesh_objects[0]
for obj in mesh_objects:
fake_context["object"] = obj
bpy.ops.object.particle_system_add(fake_context)
settings = obj.particle_systems[-1].settings
settings.count = self.amount
settings.frame_start = self.frame_start
settings.frame_end = self.frame_end - self.frame_duration
settings.lifetime = self.frame_duration
settings.normal_factor = self.velocity
settings.render_type = 'NONE'
explode = obj.modifiers.new(name='Explode', type='EXPLODE')
explode.use_edge_cut = True
if self.fade:
explode.show_dead = False
uv = obj.data.uv_textures.new("Explode fade")
explode.particle_uv = uv.name
mat = object_ensure_material(obj, "Explode Fade")
mat.use_transparency = True
mat.use_transparent_shadows = True
mat.alpha = 0.0
mat.specular_alpha = 0.0
tex_slot = mat.texture_slots.add()
tex_slot.texture = tex
tex_slot.texture_coords = 'UV'
tex_slot.uv_layer = uv.name
tex_slot.use_map_alpha = True
if self.style == 'BLEND':
if obj == to_obj:
tex_slot.alpha_factor = -1.0
elem = tex.color_ramp.elements[1]
elem.color = mat.diffuse_color
else:
elem = tex.color_ramp.elements[0]
elem.color = mat.diffuse_color
else:
tex_slot.use_map_color_diffuse = False
if self.style == 'BLEND':
settings.physics_type = 'KEYED'
settings.use_emit_random = False
settings.rotation_mode = 'NOR'
psys = obj.particle_systems[-1]
fake_context["particle_system"] = obj.particle_systems[-1]
bpy.ops.particle.new_target(fake_context)
bpy.ops.particle.new_target(fake_context)
if obj == from_obj:
psys.targets[1].object = to_obj
else:
psys.targets[0].object = from_obj
settings.normal_factor = -self.velocity
explode.show_unborn = False
explode.show_dead = True
else:
settings.factor_random = self.velocity
settings.angular_velocity_factor = self.velocity / 10.0
return {'FINISHED'}
def invoke(self, context, event):
self.frame_start = context.scene.frame_current
self.frame_end = self.frame_start + self.frame_duration
return self.execute(context)
def obj_bb_minmax(obj, min_co, max_co):
for i in range(0, 8):
bb_vec = obj.matrix_world * Vector(obj.bound_box[i])
min_co[0] = min(bb_vec[0], min_co[0])
min_co[1] = min(bb_vec[1], min_co[1])
min_co[2] = min(bb_vec[2], min_co[2])
max_co[0] = max(bb_vec[0], max_co[0])
max_co[1] = max(bb_vec[1], max_co[1])
max_co[2] = max(bb_vec[2], max_co[2])
class QuickSmoke(Operator):
bl_idname = "object.quick_smoke"
bl_label = "Quick Smoke"
bl_options = {'REGISTER', 'UNDO'}
style = EnumProperty(
name="Smoke Style",
items=(('STREAM', "Stream", ""),
('PUFF', "Puff", ""),
('FIRE', "Fire", ""),
),
default='STREAM',
)
show_flows = BoolProperty(
name=_("Render Smoke Objects"),
description=_("Keep the smoke objects visible during rendering."),
default=False,
)
def execute(self, context):
fake_context = bpy.context.copy()
mesh_objects = [obj for obj in context.selected_objects
if obj.type == 'MESH']
min_co = Vector((100000.0, 100000.0, 100000.0))
max_co = -min_co
if not mesh_objects:
self.report({'ERROR'}, "Select at least one mesh object.")
return {'CANCELLED'}
for obj in mesh_objects:
fake_context["object"] = obj
# make each selected object a smoke flow
bpy.ops.object.modifier_add(fake_context, type='SMOKE')
obj.modifiers[-1].smoke_type = 'FLOW'
psys = obj.particle_systems[-1]
if self.style == 'PUFF':
psys.settings.frame_end = psys.settings.frame_start
psys.settings.emit_from = 'VOLUME'
psys.settings.distribution = 'RAND'
elif self.style == 'FIRE':
psys.settings.effector_weights.gravity = -1
psys.settings.lifetime = 5
psys.settings.count = 100000
obj.modifiers[-2].flow_settings.initial_velocity = True
obj.modifiers[-2].flow_settings.temperature = 2
psys.settings.use_render_emitter = self.show_flows
if not self.show_flows:
obj.draw_type = 'WIRE'
# store bounding box min/max for the domain object
obj_bb_minmax(obj, min_co, max_co)
# add the smoke domain object
bpy.ops.mesh.primitive_cube_add()
obj = context.active_object
obj.name = "Smoke Domain"
# give the smoke some room above the flows
obj.location = 0.5 * (max_co + min_co) + Vector((0.0, 0.0, 1.0))
obj.scale = 0.5 * (max_co - min_co) + Vector((1.0, 1.0, 2.0))
# setup smoke domain
bpy.ops.object.modifier_add(type='SMOKE')
obj.modifiers[-1].smoke_type = 'DOMAIN'
if self.style == 'FIRE':
obj.modifiers[-1].domain_settings.use_dissolve_smoke = True
obj.modifiers[-1].domain_settings.dissolve_speed = 20
obj.modifiers[-1].domain_settings.use_high_resolution = True
# create a volume material with a voxel data texture for the domain
bpy.ops.object.material_slot_add()
mat = bpy.data.materials.new("Smoke Domain Material")
obj.material_slots[0].material = mat
mat.type = 'VOLUME'
mat.volume.density = 0
mat.volume.density_scale = 5
tex = bpy.data.textures.new("Smoke Density", 'VOXEL_DATA')
tex.voxel_data.domain_object = obj
tex_slot = mat.texture_slots.add()
tex_slot.texture = tex
tex_slot.use_map_color_emission = False
tex_slot.use_map_density = True
# for fire add a second texture for emission and emission color
if self.style == 'FIRE':
mat.volume.emission = 5
tex = bpy.data.textures.new("Smoke Heat", 'VOXEL_DATA')
tex.voxel_data.domain_object = obj
tex.use_color_ramp = True
tex_slot = mat.texture_slots.add()
tex_slot.texture = tex
ramp = tex.color_ramp
elem = ramp.elements.new(0.333)
elem.color[0] = elem.color[3] = 1
elem.color[1] = elem.color[2] = 0
elem = ramp.elements.new(0.666)
elem.color[0] = elem.color[1] = elem.color[3] = 1
elem.color[2] = 0
mat.texture_slots[1].use_map_emission = True
mat.texture_slots[1].blend_type = 'MULTIPLY'
return {'FINISHED'}
class QuickFluid(Operator):
bl_idname = "object.quick_fluid"
bl_label = "Quick Fluid"
bl_options = {'REGISTER', 'UNDO'}
style = EnumProperty(
name="Fluid Style",
items=(('INFLOW', "Inflow", ""),
('BASIC', "Basic", "")),
default='BASIC',
)
initial_velocity = FloatVectorProperty(
name=_("Initial Velocity"),
description=_("Initial velocity of the fluid"),
min=-100.0, max=100.0,
default=(0.0, 0.0, 0.0),
subtype='VELOCITY',
)
show_flows = BoolProperty(
name=_("Render Fluid Objects"),
description=_("Keep the fluid objects visible during rendering."),
default=False,
)
start_baking = BoolProperty(
name=_("Start Fluid Bake"),
description=_("Start baking the fluid immediately after creating the domain object"),
default=False,
)
def execute(self, context):
fake_context = bpy.context.copy()
mesh_objects = [obj for obj in context.selected_objects
if (obj.type == 'MESH' and not 0.0 in obj.dimensions)]
min_co = Vector((100000, 100000, 100000))
max_co = Vector((-100000, -100000, -100000))
if not mesh_objects:
self.report({'ERROR'}, "Select at least one mesh object.")
return {'CANCELLED'}
for obj in mesh_objects:
fake_context["object"] = obj
# make each selected object a fluid
bpy.ops.object.modifier_add(fake_context, type='FLUID_SIMULATION')
# fluid has to be before constructive modifiers,
# so it might not be the last modifier
for mod in obj.modifiers:
if mod.type == 'FLUID_SIMULATION':
break
if self.style == 'INFLOW':
mod.settings.type = 'INFLOW'
mod.settings.inflow_velocity = self.initial_velocity.copy()
else:
mod.settings.type = 'FLUID'
mod.settings.initial_velocity = self.initial_velocity.copy()
obj.hide_render = not self.show_flows
if not self.show_flows:
obj.draw_type = 'WIRE'
# store bounding box min/max for the domain object
obj_bb_minmax(obj, min_co, max_co)
# add the fluid domain object
bpy.ops.mesh.primitive_cube_add()
obj = context.active_object
obj.name = "Fluid Domain"
# give the fluid some room below the flows
# and scale with initial velocity
v = 0.5 * self.initial_velocity
obj.location = 0.5 * (max_co + min_co) + Vector((0.0, 0.0, -1.0)) + v
obj.scale = (0.5 * (max_co - min_co) +
Vector((1.0, 1.0, 2.0)) +
Vector((abs(v[0]), abs(v[1]), abs(v[2])))
)
# setup smoke domain
bpy.ops.object.modifier_add(type='FLUID_SIMULATION')
obj.modifiers[-1].settings.type = 'DOMAIN'
# make the domain smooth so it renders nicely
bpy.ops.object.shade_smooth()
# create a ray-transparent material for the domain
bpy.ops.object.material_slot_add()
mat = bpy.data.materials.new("Fluid Domain Material")
obj.material_slots[0].material = mat
mat.specular_intensity = 1
mat.specular_hardness = 100
mat.use_transparency = True
mat.alpha = 0.0
mat.transparency_method = 'RAYTRACE'
mat.raytrace_transparency.ior = 1.33
mat.raytrace_transparency.depth = 4
if self.start_baking:
bpy.ops.fluid.bake()
return {'FINISHED'}
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