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import bpy
def point_cache_ui(self, cache, enabled, particles, smoke):
layout = self.layout
layout.set_context_pointer("PointCache", cache)
row = layout.row()
row.template_list(cache, "point_cache_list", cache, "active_point_cache_index", rows=2 )
col = row.column(align=True)
col.itemO("ptcache.add_new", icon='ICON_ZOOMIN', text="")
col.itemO("ptcache.remove", icon='ICON_ZOOMOUT', text="")
row = layout.row()
row.itemL(text="File Name:")
if particles:
row.itemR(cache, "external")
if cache.external:
split = layout.split(percentage=0.80)
split.itemR(cache, "name", text="")
split.itemR(cache, "index", text="")
layout.itemL(text="File Path:")
layout.itemR(cache, "filepath", text="")
layout.itemL(text=cache.info)
else:
layout.itemR(cache, "name", text="")
if not particles:
row = layout.row()
row.enabled = enabled
row.itemR(cache, "start_frame")
row.itemR(cache, "end_frame")
row = layout.row()
if cache.baked == True:
row.itemO("ptcache.free_bake", text="Free Bake")
else:
row.item_booleanO("ptcache.bake", "bake", True, text="Bake")
sub = row.row()
sub.enabled = (cache.frames_skipped or cache.outdated) and enabled
sub.itemO("ptcache.bake", "bake", False, text="Calculate to Current Frame")
row = layout.row()
row.enabled = enabled
row.itemO("ptcache.bake_from_cache", text="Current Cache to Bake")
if not smoke:
row.itemR(cache, "step");
if not smoke:
row = layout.row()
sub = row.row()
sub.enabled = enabled
sub.itemR(cache, "quick_cache")
row.itemR(cache, "disk_cache")
layout.itemL(text=cache.info)
layout.itemS()
row = layout.row()
row.item_booleanO("ptcache.bake_all", "bake", True, text="Bake All Dynamics")
row.itemO("ptcache.free_bake_all", text="Free All Bakes")
layout.itemO("ptcache.bake_all", "bake", False, text="Update All Dynamics to current frame")
def effector_weights_ui(self, weights):
layout = self.layout
layout.itemR(weights, "group")
split = layout.split()
split.itemR(weights, "gravity", slider=True)
split.itemR(weights, "all", slider=True)
layout.itemS()
flow = layout.column_flow()
flow.itemR(weights, "force", slider=True)
flow.itemR(weights, "vortex", slider=True)
flow.itemR(weights, "magnetic", slider=True)
flow.itemR(weights, "wind", slider=True)
flow.itemR(weights, "curveguide", slider=True)
flow.itemR(weights, "texture", slider=True)
flow.itemR(weights, "harmonic", slider=True)
flow.itemR(weights, "charge", slider=True)
flow.itemR(weights, "lennardjones", slider=True)
flow.itemR(weights, "turbulence", slider=True)
flow.itemR(weights, "drag", slider=True)
flow.itemR(weights, "boid", slider=True)
def basic_force_field_settings_ui(self, field):
layout = self.layout
split = layout.split()
if not field or field.type == 'NONE':
return
col = split.column()
if field.type == 'DRAG':
col.itemR(field, "linear_drag", text="Linear")
else:
col.itemR(field, "strength")
if field.type == 'TURBULENCE':
col.itemR(field, "size")
col.itemR(field, "flow")
elif field.type == 'HARMONIC':
col.itemR(field, "harmonic_damping", text="Damping")
elif field.type == 'VORTEX' and field.shape != 'POINT':
col.itemR(field, "inflow")
elif field.type == 'DRAG':
col.itemR(field, "quadratic_drag", text="Quadratic")
else:
col.itemR(field, "flow")
col = split.column()
col.itemR(field, "noise")
col.itemR(field, "seed")
if field.type == 'TURBULENCE':
col.itemR(field, "global_coordinates", text="Global")
row = layout.row()
row.itemL(text="Effect point:")
row.itemR(field, "do_location")
row.itemR(field, "do_rotation")
def basic_force_field_falloff_ui(self, field):
layout = self.layout
split = layout.split(percentage=0.35)
if not field or field.type == 'NONE':
return
col = split.column()
col.itemR(field, "z_direction", text="")
col.itemR(field, "use_min_distance", text="Use Minimum")
col.itemR(field, "use_max_distance", text="Use Maximum")
col.itemR(field, "do_absorption")
col = split.column()
col.itemR(field, "falloff_power", text="Power")
sub = col.column()
sub.active = field.use_min_distance
sub.itemR(field, "minimum_distance", text="Distance")
sub = col.column()
sub.active = field.use_max_distance
sub.itemR(field, "maximum_distance", text="Distance")
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