blender/release/ui/buttons_particle.py

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Python
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import bpy
def particle_panel_enabled(psys):
Point cache editing: - Baked point caches for particles, cloth and softbody can now be edited in particle mode. * This overwrites the old cloth/sb cache editmode editing. * The type of editable system is chosen from a menu. * For particles the current particle system and it's current cache are used. - Currently this only works for caches that are in memory, but some automatic conversion from disk to memory and back can be implemented later. - All tools from hair editing can't be applied to point caches and are hidden in the tool panel and specials menu. Some functionality like subdividing paths can be later implemented in a slightly different way from how it works for hair. - Code is not yet optimized for speed, so editing might be slow sometimes. Known issues: - Cloth doesn't update properly while in particle mode, due to the way cloth modifier currently works. Daniel can you check on this? - As "particle mode" is not only for particles any more some other name would be in place? - Better icons are needed for the path, point, and tip-modes as the current icons from mesh edit mode are quite misleading. - Direct editing of point velocities is not yet implemented, but will be in the future. Other changes: - Hair editing doesn't require a "make editable" button press any more. - Multiple caches in single particle system disables changing emission properties. - Unified ui code for all point cache panels. * Defined in buttons_particle.py and imported for cloth, smoke & softbody. - Proper disabling of properties in ui after baking point caches. (Daniel could you please make needed disable code for smoke panels as their functionality is not familiar to me.) - Hair weight brush has been removed. Once hair dynamics is re-implemented I'll code a more useable alternative to the functionality. Bug fixes: - Unlinking particle settings crashed. - Deleting the active object with particles in the scene crashed. - Softbody didn't write point caches correctly on save.
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return psys.point_cache.baked==False and psys.edited==False
def particle_panel_poll(context):
psys = context.particle_system
if psys==None: return False
if psys.settings==None: return False
return psys.settings.type in ('EMITTER', 'REACTOR', 'HAIR')
Point cache editing: - Baked point caches for particles, cloth and softbody can now be edited in particle mode. * This overwrites the old cloth/sb cache editmode editing. * The type of editable system is chosen from a menu. * For particles the current particle system and it's current cache are used. - Currently this only works for caches that are in memory, but some automatic conversion from disk to memory and back can be implemented later. - All tools from hair editing can't be applied to point caches and are hidden in the tool panel and specials menu. Some functionality like subdividing paths can be later implemented in a slightly different way from how it works for hair. - Code is not yet optimized for speed, so editing might be slow sometimes. Known issues: - Cloth doesn't update properly while in particle mode, due to the way cloth modifier currently works. Daniel can you check on this? - As "particle mode" is not only for particles any more some other name would be in place? - Better icons are needed for the path, point, and tip-modes as the current icons from mesh edit mode are quite misleading. - Direct editing of point velocities is not yet implemented, but will be in the future. Other changes: - Hair editing doesn't require a "make editable" button press any more. - Multiple caches in single particle system disables changing emission properties. - Unified ui code for all point cache panels. * Defined in buttons_particle.py and imported for cloth, smoke & softbody. - Proper disabling of properties in ui after baking point caches. (Daniel could you please make needed disable code for smoke panels as their functionality is not familiar to me.) - Hair weight brush has been removed. Once hair dynamics is re-implemented I'll code a more useable alternative to the functionality. Bug fixes: - Unlinking particle settings crashed. - Deleting the active object with particles in the scene crashed. - Softbody didn't write point caches correctly on save.
2009-08-29 15:20:36 +00:00
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")
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")
class ParticleButtonsPanel(bpy.types.Panel):
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__space_type__ = 'PROPERTIES'
__region_type__ = 'WINDOW'
__context__ = "particle"
def poll(self, context):
return particle_panel_poll(context)
class PARTICLE_PT_particles(ParticleButtonsPanel):
__show_header__ = False
def poll(self, context):
return (context.particle_system or context.object)
def draw(self, context):
layout = self.layout
ob = context.object
psys = context.particle_system
if ob:
row = layout.row()
row.template_list(ob, "particle_systems", ob, "active_particle_system_index", rows=2)
col = row.column(align=True)
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col.itemO("object.particle_system_add", icon='ICON_ZOOMIN', text="")
col.itemO("object.particle_system_remove", icon='ICON_ZOOMOUT', text="")
Point cache editing: - Baked point caches for particles, cloth and softbody can now be edited in particle mode. * This overwrites the old cloth/sb cache editmode editing. * The type of editable system is chosen from a menu. * For particles the current particle system and it's current cache are used. - Currently this only works for caches that are in memory, but some automatic conversion from disk to memory and back can be implemented later. - All tools from hair editing can't be applied to point caches and are hidden in the tool panel and specials menu. Some functionality like subdividing paths can be later implemented in a slightly different way from how it works for hair. - Code is not yet optimized for speed, so editing might be slow sometimes. Known issues: - Cloth doesn't update properly while in particle mode, due to the way cloth modifier currently works. Daniel can you check on this? - As "particle mode" is not only for particles any more some other name would be in place? - Better icons are needed for the path, point, and tip-modes as the current icons from mesh edit mode are quite misleading. - Direct editing of point velocities is not yet implemented, but will be in the future. Other changes: - Hair editing doesn't require a "make editable" button press any more. - Multiple caches in single particle system disables changing emission properties. - Unified ui code for all point cache panels. * Defined in buttons_particle.py and imported for cloth, smoke & softbody. - Proper disabling of properties in ui after baking point caches. (Daniel could you please make needed disable code for smoke panels as their functionality is not familiar to me.) - Hair weight brush has been removed. Once hair dynamics is re-implemented I'll code a more useable alternative to the functionality. Bug fixes: - Unlinking particle settings crashed. - Deleting the active object with particles in the scene crashed. - Softbody didn't write point caches correctly on save.
2009-08-29 15:20:36 +00:00
if psys and not psys.settings:
split = layout.split(percentage=0.32)
col = split.column()
col.itemL(text="Name:")
col.itemL(text="Settings:")
col = split.column()
col.itemR(psys, "name", text="")
col.template_ID(psys, "settings", new="particle.new")
elif psys:
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
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part = psys.settings
split = layout.split(percentage=0.32)
col = split.column()
col.itemL(text="Name:")
if part.type in ('EMITTER', 'REACTOR', 'HAIR'):
col.itemL(text="Settings:")
col.itemL(text="Type:")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
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col = split.column()
col.itemR(psys, "name", text="")
if part.type in ('EMITTER', 'REACTOR', 'HAIR'):
col.template_ID(psys, "settings", new="particle.new")
#row = layout.row()
#row.itemL(text="Viewport")
#row.itemL(text="Render")
if part:
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
if part.type not in ('EMITTER', 'REACTOR', 'HAIR'):
layout.itemL(text="No settings for fluid particles")
return
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
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row=col.row()
row.enabled = particle_panel_enabled(psys)
row.itemR(part, "type", text="")
row.itemR(psys, "seed")
split = layout.split(percentage=0.65)
if part.type=='HAIR':
Point cache editing: - Baked point caches for particles, cloth and softbody can now be edited in particle mode. * This overwrites the old cloth/sb cache editmode editing. * The type of editable system is chosen from a menu. * For particles the current particle system and it's current cache are used. - Currently this only works for caches that are in memory, but some automatic conversion from disk to memory and back can be implemented later. - All tools from hair editing can't be applied to point caches and are hidden in the tool panel and specials menu. Some functionality like subdividing paths can be later implemented in a slightly different way from how it works for hair. - Code is not yet optimized for speed, so editing might be slow sometimes. Known issues: - Cloth doesn't update properly while in particle mode, due to the way cloth modifier currently works. Daniel can you check on this? - As "particle mode" is not only for particles any more some other name would be in place? - Better icons are needed for the path, point, and tip-modes as the current icons from mesh edit mode are quite misleading. - Direct editing of point velocities is not yet implemented, but will be in the future. Other changes: - Hair editing doesn't require a "make editable" button press any more. - Multiple caches in single particle system disables changing emission properties. - Unified ui code for all point cache panels. * Defined in buttons_particle.py and imported for cloth, smoke & softbody. - Proper disabling of properties in ui after baking point caches. (Daniel could you please make needed disable code for smoke panels as their functionality is not familiar to me.) - Hair weight brush has been removed. Once hair dynamics is re-implemented I'll code a more useable alternative to the functionality. Bug fixes: - Unlinking particle settings crashed. - Deleting the active object with particles in the scene crashed. - Softbody didn't write point caches correctly on save.
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if psys.edited==True:
split.itemO("particle.edited_clear", text="Free Edit")
else:
Point cache editing: - Baked point caches for particles, cloth and softbody can now be edited in particle mode. * This overwrites the old cloth/sb cache editmode editing. * The type of editable system is chosen from a menu. * For particles the current particle system and it's current cache are used. - Currently this only works for caches that are in memory, but some automatic conversion from disk to memory and back can be implemented later. - All tools from hair editing can't be applied to point caches and are hidden in the tool panel and specials menu. Some functionality like subdividing paths can be later implemented in a slightly different way from how it works for hair. - Code is not yet optimized for speed, so editing might be slow sometimes. Known issues: - Cloth doesn't update properly while in particle mode, due to the way cloth modifier currently works. Daniel can you check on this? - As "particle mode" is not only for particles any more some other name would be in place? - Better icons are needed for the path, point, and tip-modes as the current icons from mesh edit mode are quite misleading. - Direct editing of point velocities is not yet implemented, but will be in the future. Other changes: - Hair editing doesn't require a "make editable" button press any more. - Multiple caches in single particle system disables changing emission properties. - Unified ui code for all point cache panels. * Defined in buttons_particle.py and imported for cloth, smoke & softbody. - Proper disabling of properties in ui after baking point caches. (Daniel could you please make needed disable code for smoke panels as their functionality is not familiar to me.) - Hair weight brush has been removed. Once hair dynamics is re-implemented I'll code a more useable alternative to the functionality. Bug fixes: - Unlinking particle settings crashed. - Deleting the active object with particles in the scene crashed. - Softbody didn't write point caches correctly on save.
2009-08-29 15:20:36 +00:00
split.itemL(text="")
row = split.row()
row.enabled = particle_panel_enabled(psys)
row.itemR(part, "hair_step")
if psys.edited==True:
if psys.global_hair:
layout.itemO("particle.connect_hair")
layout.itemL(text="Hair is disconnected.")
else:
layout.itemO("particle.disconnect_hair")
layout.itemL(text="")
elif part.type=='REACTOR':
split.enabled = particle_panel_enabled(psys)
split.itemR(psys, "reactor_target_object")
split.itemR(psys, "reactor_target_particle_system", text="Particle System")
class PARTICLE_PT_emission(ParticleButtonsPanel):
__label__ = "Emission"
External cache Particle point cache can now be loaded from external files. - Activated by "external" checkbox in cache panel and giving proper folder path and file name identifier. - External cache panel has controls for particle emission start, end, lifetime and random lifetime. These should be set according to the external data for correct playback. - External files should be named "identifier_frame_index.bphys" or "identifier_frame.bphys" where: * "identifier" is a freely choseable name. * "frame" is the cached frame number. ** Six digits padded with zeros!, for example "000024". * "index" can be used to tell caches with the same identifier apart. ** Two digits starting from zero. ** The index and the underscore before are optional. If no index is present the index number in ui should be set to -1. - Cache file format is pure floating point numbers (in binary, not text!) with each particle's data one after the other with the following data members: * 3 floats: particle's location vector * 3 floats: particle's velocity vector (per second) * 4 floats: particle's rotation quaternion * 3 floats: particle's angular velocity vector (per second) * 1 float: frame of the actual data (this can be non-integer for particles that are born or die between two integer frames, but otherwise should be the same as the "frame" in the file name) - Cache files don't have to exist for each frame. * Frames without actual data are interpolated from surrounding frames that have data (extrapolation is not supported). - Cache file formats with extended (or reduced even) data members are in future plans for easier usage. - Current code only does particles, don't yet know if it's applicable to cloth or sb. - Known issue: endianness can't yet be handled in any way. Other changes: New hard limits for many particle parameters. Some examples: - Maximum amount of particles: 10M particles :) And before you all go and crash your Blender trying this out remember that this limit is only for those freaks who really have the machine power to handle it. 10M particles alone take around 2.2 Gb of memory / disk space in saved file and each cached frame takes around 0.5 Gb of memory / disk space depending on cache mode. * Known issue: To actually use this many particles they most likely need to be allocated in parts as taking hold of a 2.2Gb chunk of memory at once is probably not ok with any operating system. - Maximum amount of children: 100k children/particle (1T childparticles here we come :D) - Kink frequency: -100k to 100k half-rotations (really strange the previous limit was only from zero upwards) - Path draw steps: 10 (power of 2 remember) - Path render steps: 20 (power of 2 also!! If over 1M segments doesn't get you smooth paths then I think nothing will!)
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def poll(self, context):
if particle_panel_poll(context):
return not context.particle_system.point_cache.external
else:
return False
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
Point cache editing: - Baked point caches for particles, cloth and softbody can now be edited in particle mode. * This overwrites the old cloth/sb cache editmode editing. * The type of editable system is chosen from a menu. * For particles the current particle system and it's current cache are used. - Currently this only works for caches that are in memory, but some automatic conversion from disk to memory and back can be implemented later. - All tools from hair editing can't be applied to point caches and are hidden in the tool panel and specials menu. Some functionality like subdividing paths can be later implemented in a slightly different way from how it works for hair. - Code is not yet optimized for speed, so editing might be slow sometimes. Known issues: - Cloth doesn't update properly while in particle mode, due to the way cloth modifier currently works. Daniel can you check on this? - As "particle mode" is not only for particles any more some other name would be in place? - Better icons are needed for the path, point, and tip-modes as the current icons from mesh edit mode are quite misleading. - Direct editing of point velocities is not yet implemented, but will be in the future. Other changes: - Hair editing doesn't require a "make editable" button press any more. - Multiple caches in single particle system disables changing emission properties. - Unified ui code for all point cache panels. * Defined in buttons_particle.py and imported for cloth, smoke & softbody. - Proper disabling of properties in ui after baking point caches. (Daniel could you please make needed disable code for smoke panels as their functionality is not familiar to me.) - Hair weight brush has been removed. Once hair dynamics is re-implemented I'll code a more useable alternative to the functionality. Bug fixes: - Unlinking particle settings crashed. - Deleting the active object with particles in the scene crashed. - Softbody didn't write point caches correctly on save.
2009-08-29 15:20:36 +00:00
layout.enabled = particle_panel_enabled(psys) and not psys.multiple_caches
row = layout.row()
row.itemR(part, "amount")
split = layout.split()
col = split.column(align=True)
col.itemR(part, "start")
col.itemR(part, "end")
col = split.column(align=True)
col.itemR(part, "lifetime")
col.itemR(part, "random_lifetime", slider=True)
layout.row().itemL(text="Emit From:")
row = layout.row()
row.itemR(part, "emit_from", expand=True)
row = layout.row()
row.itemR(part, "trand")
if part.distribution!='GRID':
row.itemR(part, "even_distribution")
if part.emit_from=='FACE' or part.emit_from=='VOLUME':
row = layout.row()
row.itemR(part, "distribution", expand=True)
row = layout.row()
if part.distribution=='JIT':
row.itemR(part, "userjit", text="Particles/Face")
row.itemR(part, "jitter_factor", text="Jittering Amount", slider=True)
elif part.distribution=='GRID':
row.itemR(part, "grid_resolution")
class PARTICLE_PT_hair_dynamics(ParticleButtonsPanel):
__label__ = "Hair dynamics"
__default_closed__ = True
def poll(self, context):
psys = context.particle_system
if psys==None: return False
if psys.settings==None: return False
return psys.settings.type == 'HAIR'
def draw_header(self, context):
#cloth = context.cloth.collision_settings
#self.layout.active = cloth_panel_enabled(context.cloth)
#self.layout.itemR(cloth, "enable_collision", text="")
psys = context.particle_system
self.layout.itemR(psys, "hair_dynamics", text="")
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
cloth = psys.cloth.settings
layout.enabled = psys.hair_dynamics
split = layout.split()
col = split.column()
col.itemL(text="Quality:")
col.itemR(cloth, "quality", text="Steps",slider=True)
col.itemL(text="Gravity:")
col.itemR(cloth, "gravity", text="")
col = split.column()
col.itemL(text="Material:")
sub = col.column(align=True)
sub.itemR(cloth, "pin_stiffness", text="Stiffness")
sub.itemR(cloth, "mass")
col.itemL(text="Damping:")
sub = col.column(align=True)
sub.itemR(cloth, "spring_damping", text="Spring")
sub.itemR(cloth, "air_damping", text="Air")
layout.itemR(cloth, "internal_friction", slider="True")
class PARTICLE_PT_cache(ParticleButtonsPanel):
__label__ = "Cache"
__default_closed__ = True
def poll(self, context):
psys = context.particle_system
if psys==None: return False
if psys.settings==None: return False
phystype = psys.settings.physics_type
if phystype == 'NO' or phystype == 'KEYED':
return False
return psys.settings.type in ('EMITTER', 'REACTOR') or (psys.settings.type == 'HAIR' and psys.hair_dynamics)
def draw(self, context):
layout = self.layout
psys = context.particle_system
point_cache_ui(self, psys.point_cache, particle_panel_enabled(psys), not psys.hair_dynamics, 0)
class PARTICLE_PT_initial(ParticleButtonsPanel):
__label__ = "Velocity"
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
def poll(self, context):
if particle_panel_poll(context):
psys = context.particle_system
External cache Particle point cache can now be loaded from external files. - Activated by "external" checkbox in cache panel and giving proper folder path and file name identifier. - External cache panel has controls for particle emission start, end, lifetime and random lifetime. These should be set according to the external data for correct playback. - External files should be named "identifier_frame_index.bphys" or "identifier_frame.bphys" where: * "identifier" is a freely choseable name. * "frame" is the cached frame number. ** Six digits padded with zeros!, for example "000024". * "index" can be used to tell caches with the same identifier apart. ** Two digits starting from zero. ** The index and the underscore before are optional. If no index is present the index number in ui should be set to -1. - Cache file format is pure floating point numbers (in binary, not text!) with each particle's data one after the other with the following data members: * 3 floats: particle's location vector * 3 floats: particle's velocity vector (per second) * 4 floats: particle's rotation quaternion * 3 floats: particle's angular velocity vector (per second) * 1 float: frame of the actual data (this can be non-integer for particles that are born or die between two integer frames, but otherwise should be the same as the "frame" in the file name) - Cache files don't have to exist for each frame. * Frames without actual data are interpolated from surrounding frames that have data (extrapolation is not supported). - Cache file formats with extended (or reduced even) data members are in future plans for easier usage. - Current code only does particles, don't yet know if it's applicable to cloth or sb. - Known issue: endianness can't yet be handled in any way. Other changes: New hard limits for many particle parameters. Some examples: - Maximum amount of particles: 10M particles :) And before you all go and crash your Blender trying this out remember that this limit is only for those freaks who really have the machine power to handle it. 10M particles alone take around 2.2 Gb of memory / disk space in saved file and each cached frame takes around 0.5 Gb of memory / disk space depending on cache mode. * Known issue: To actually use this many particles they most likely need to be allocated in parts as taking hold of a 2.2Gb chunk of memory at once is probably not ok with any operating system. - Maximum amount of children: 100k children/particle (1T childparticles here we come :D) - Kink frequency: -100k to 100k half-rotations (really strange the previous limit was only from zero upwards) - Path draw steps: 10 (power of 2 remember) - Path render steps: 20 (power of 2 also!! If over 1M segments doesn't get you smooth paths then I think nothing will!)
2009-07-23 00:19:01 +00:00
return psys.settings.physics_type != 'BOIDS' and not psys.point_cache.external
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
else:
return False
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
layout.enabled = particle_panel_enabled(psys)
layout.row().itemL(text="Direction:")
split = layout.split()
sub = split.column()
sub.itemR(part, "normal_factor")
if part.emit_from=='PARTICLE':
sub.itemR(part, "particle_factor")
else:
sub.itemR(part, "object_factor", slider=True)
sub.itemR(part, "random_factor")
sub.itemR(part, "tangent_factor")
sub.itemR(part, "tangent_phase", slider=True)
sub = split.column()
sub.itemL(text="TODO:")
sub.itemL(text="Object aligned")
sub.itemL(text="direction: X, Y, Z")
if part.type=='REACTOR':
sub.itemR(part, "reactor_factor")
sub.itemR(part, "reaction_shape", slider=True)
else:
sub.itemL(text="")
layout.row().itemL(text="Rotation:")
split = layout.split()
sub = split.column()
sub.itemR(part, "rotation_mode", text="Axis")
split = layout.split()
sub = split.column()
sub.itemR(part, "rotation_dynamic")
sub.itemR(part, "random_rotation_factor", slider=True)
sub = split.column()
sub.itemR(part, "phase_factor", slider=True)
sub.itemR(part, "random_phase_factor", text="Random", slider=True)
layout.row().itemL(text="Angular velocity:")
layout.row().itemR(part, "angular_velocity_mode", expand=True)
split = layout.split()
sub = split.column()
sub.itemR(part, "angular_velocity_factor", text="")
class PARTICLE_PT_physics(ParticleButtonsPanel):
__label__ = "Physics"
External cache Particle point cache can now be loaded from external files. - Activated by "external" checkbox in cache panel and giving proper folder path and file name identifier. - External cache panel has controls for particle emission start, end, lifetime and random lifetime. These should be set according to the external data for correct playback. - External files should be named "identifier_frame_index.bphys" or "identifier_frame.bphys" where: * "identifier" is a freely choseable name. * "frame" is the cached frame number. ** Six digits padded with zeros!, for example "000024". * "index" can be used to tell caches with the same identifier apart. ** Two digits starting from zero. ** The index and the underscore before are optional. If no index is present the index number in ui should be set to -1. - Cache file format is pure floating point numbers (in binary, not text!) with each particle's data one after the other with the following data members: * 3 floats: particle's location vector * 3 floats: particle's velocity vector (per second) * 4 floats: particle's rotation quaternion * 3 floats: particle's angular velocity vector (per second) * 1 float: frame of the actual data (this can be non-integer for particles that are born or die between two integer frames, but otherwise should be the same as the "frame" in the file name) - Cache files don't have to exist for each frame. * Frames without actual data are interpolated from surrounding frames that have data (extrapolation is not supported). - Cache file formats with extended (or reduced even) data members are in future plans for easier usage. - Current code only does particles, don't yet know if it's applicable to cloth or sb. - Known issue: endianness can't yet be handled in any way. Other changes: New hard limits for many particle parameters. Some examples: - Maximum amount of particles: 10M particles :) And before you all go and crash your Blender trying this out remember that this limit is only for those freaks who really have the machine power to handle it. 10M particles alone take around 2.2 Gb of memory / disk space in saved file and each cached frame takes around 0.5 Gb of memory / disk space depending on cache mode. * Known issue: To actually use this many particles they most likely need to be allocated in parts as taking hold of a 2.2Gb chunk of memory at once is probably not ok with any operating system. - Maximum amount of children: 100k children/particle (1T childparticles here we come :D) - Kink frequency: -100k to 100k half-rotations (really strange the previous limit was only from zero upwards) - Path draw steps: 10 (power of 2 remember) - Path render steps: 20 (power of 2 also!! If over 1M segments doesn't get you smooth paths then I think nothing will!)
2009-07-23 00:19:01 +00:00
def poll(self, context):
if particle_panel_poll(context):
return not context.particle_system.point_cache.external
else:
return False
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
layout.enabled = particle_panel_enabled(psys)
row = layout.row()
row.itemR(part, "physics_type", expand=True)
if part.physics_type != 'NO':
row = layout.row()
col = row.column(align=True)
col.itemR(part, "particle_size")
col.itemR(part, "random_size", slider=True)
col = row.column(align=True)
col.itemR(part, "mass")
col.itemR(part, "sizemass", text="Multiply mass with size")
if part.physics_type == 'NEWTON':
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
split = layout.split()
sub = split.column()
sub.itemL(text="Forces:")
sub.itemR(part, "brownian_factor")
sub.itemR(part, "drag_factor", slider=True)
sub.itemR(part, "damp_factor", slider=True)
sub.itemR(part, "integrator")
sub = split.column()
sub.itemR(part, "acceleration")
elif part.physics_type == 'KEYED':
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
split = layout.split()
sub = split.column()
row = layout.row()
col = row.column()
col.active = not psys.keyed_timing
col.itemR(part, "keyed_loops", text="Loops")
row.itemR(psys, "keyed_timing", text="Use Timing")
layout.itemL(text="Keys:")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
elif part.physics_type=='BOIDS':
boids = part.boids
row = layout.row()
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
row.itemR(boids, "allow_flight")
row.itemR(boids, "allow_land")
row.itemR(boids, "allow_climb")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
split = layout.split()
sub = split.column()
col = sub.column(align=True)
col.active = boids.allow_flight
col.itemR(boids, "air_max_speed")
col.itemR(boids, "air_min_speed", slider="True")
col.itemR(boids, "air_max_acc", slider="True")
col.itemR(boids, "air_max_ave", slider="True")
col.itemR(boids, "air_personal_space")
row = col.row()
row.active = (boids.allow_land or boids.allow_climb) and boids.allow_flight
row.itemR(boids, "landing_smoothness")
sub = split.column()
col = sub.column(align=True)
col.active = boids.allow_land or boids.allow_climb
col.itemR(boids, "land_max_speed")
col.itemR(boids, "land_jump_speed")
col.itemR(boids, "land_max_acc", slider="True")
col.itemR(boids, "land_max_ave", slider="True")
col.itemR(boids, "land_personal_space")
col.itemR(boids, "land_stick_force")
row = layout.row()
col = row.column(align=True)
col.itemL(text="Battle:")
col.itemR(boids, "health")
col.itemR(boids, "strength")
col.itemR(boids, "aggression")
col.itemR(boids, "accuracy")
col.itemR(boids, "range")
col = row.column()
col.itemL(text="Misc:")
col.itemR(part, "gravity")
col.itemR(boids, "banking", slider=True)
col.itemR(boids, "height", slider=True)
if part.physics_type=='NEWTON':
sub.itemR(part, "size_deflect")
sub.itemR(part, "die_on_collision")
elif part.physics_type=='KEYED' or part.physics_type=='BOIDS':
if part.physics_type=='BOIDS':
layout.itemL(text="Relations:")
row = layout.row()
row.template_list(psys, "targets", psys, "active_particle_target_index")
col = row.column()
subrow = col.row()
subcol = subrow.column(align=True)
2009-08-22 08:48:01 +00:00
subcol.itemO("particle.new_target", icon='ICON_ZOOMIN', text="")
subcol.itemO("particle.remove_target", icon='ICON_ZOOMOUT', text="")
subrow = col.row()
subcol = subrow.column(align=True)
2009-08-22 08:48:01 +00:00
subcol.itemO("particle.target_move_up", icon='VICON_MOVE_UP', text="")
subcol.itemO("particle.target_move_down", icon='VICON_MOVE_DOWN', text="")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
key = psys.active_particle_target
if key:
row = layout.row()
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
if part.physics_type=='KEYED':
col = row.column()
#doesn't work yet
#col.red_alert = key.valid
col.itemR(key, "object", text="")
col.itemR(key, "system", text="System")
col = row.column();
col.active = psys.keyed_timing
col.itemR(key, "time")
col.itemR(key, "duration")
else:
subrow = row.row()
#doesn't work yet
#subrow.red_alert = key.valid
subrow.itemR(key, "object", text="")
subrow.itemR(key, "system", text="System")
layout.itemR(key, "mode", expand=True)
class PARTICLE_PT_boidbrain(ParticleButtonsPanel):
__label__ = "Boid Brain"
def poll(self, context):
psys = context.particle_system
if psys==None: return False
if psys.settings==None: return False
External cache Particle point cache can now be loaded from external files. - Activated by "external" checkbox in cache panel and giving proper folder path and file name identifier. - External cache panel has controls for particle emission start, end, lifetime and random lifetime. These should be set according to the external data for correct playback. - External files should be named "identifier_frame_index.bphys" or "identifier_frame.bphys" where: * "identifier" is a freely choseable name. * "frame" is the cached frame number. ** Six digits padded with zeros!, for example "000024". * "index" can be used to tell caches with the same identifier apart. ** Two digits starting from zero. ** The index and the underscore before are optional. If no index is present the index number in ui should be set to -1. - Cache file format is pure floating point numbers (in binary, not text!) with each particle's data one after the other with the following data members: * 3 floats: particle's location vector * 3 floats: particle's velocity vector (per second) * 4 floats: particle's rotation quaternion * 3 floats: particle's angular velocity vector (per second) * 1 float: frame of the actual data (this can be non-integer for particles that are born or die between two integer frames, but otherwise should be the same as the "frame" in the file name) - Cache files don't have to exist for each frame. * Frames without actual data are interpolated from surrounding frames that have data (extrapolation is not supported). - Cache file formats with extended (or reduced even) data members are in future plans for easier usage. - Current code only does particles, don't yet know if it's applicable to cloth or sb. - Known issue: endianness can't yet be handled in any way. Other changes: New hard limits for many particle parameters. Some examples: - Maximum amount of particles: 10M particles :) And before you all go and crash your Blender trying this out remember that this limit is only for those freaks who really have the machine power to handle it. 10M particles alone take around 2.2 Gb of memory / disk space in saved file and each cached frame takes around 0.5 Gb of memory / disk space depending on cache mode. * Known issue: To actually use this many particles they most likely need to be allocated in parts as taking hold of a 2.2Gb chunk of memory at once is probably not ok with any operating system. - Maximum amount of children: 100k children/particle (1T childparticles here we come :D) - Kink frequency: -100k to 100k half-rotations (really strange the previous limit was only from zero upwards) - Path draw steps: 10 (power of 2 remember) - Path render steps: 20 (power of 2 also!! If over 1M segments doesn't get you smooth paths then I think nothing will!)
2009-07-23 00:19:01 +00:00
if psys.point_cache.external: return False
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
return psys.settings.physics_type=='BOIDS'
def draw(self, context):
boids = context.particle_system.settings.boids
layout = self.layout
External cache Particle point cache can now be loaded from external files. - Activated by "external" checkbox in cache panel and giving proper folder path and file name identifier. - External cache panel has controls for particle emission start, end, lifetime and random lifetime. These should be set according to the external data for correct playback. - External files should be named "identifier_frame_index.bphys" or "identifier_frame.bphys" where: * "identifier" is a freely choseable name. * "frame" is the cached frame number. ** Six digits padded with zeros!, for example "000024". * "index" can be used to tell caches with the same identifier apart. ** Two digits starting from zero. ** The index and the underscore before are optional. If no index is present the index number in ui should be set to -1. - Cache file format is pure floating point numbers (in binary, not text!) with each particle's data one after the other with the following data members: * 3 floats: particle's location vector * 3 floats: particle's velocity vector (per second) * 4 floats: particle's rotation quaternion * 3 floats: particle's angular velocity vector (per second) * 1 float: frame of the actual data (this can be non-integer for particles that are born or die between two integer frames, but otherwise should be the same as the "frame" in the file name) - Cache files don't have to exist for each frame. * Frames without actual data are interpolated from surrounding frames that have data (extrapolation is not supported). - Cache file formats with extended (or reduced even) data members are in future plans for easier usage. - Current code only does particles, don't yet know if it's applicable to cloth or sb. - Known issue: endianness can't yet be handled in any way. Other changes: New hard limits for many particle parameters. Some examples: - Maximum amount of particles: 10M particles :) And before you all go and crash your Blender trying this out remember that this limit is only for those freaks who really have the machine power to handle it. 10M particles alone take around 2.2 Gb of memory / disk space in saved file and each cached frame takes around 0.5 Gb of memory / disk space depending on cache mode. * Known issue: To actually use this many particles they most likely need to be allocated in parts as taking hold of a 2.2Gb chunk of memory at once is probably not ok with any operating system. - Maximum amount of children: 100k children/particle (1T childparticles here we come :D) - Kink frequency: -100k to 100k half-rotations (really strange the previous limit was only from zero upwards) - Path draw steps: 10 (power of 2 remember) - Path render steps: 20 (power of 2 also!! If over 1M segments doesn't get you smooth paths then I think nothing will!)
2009-07-23 00:19:01 +00:00
layout.enabled = particle_panel_enabled(psys)
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
# Currently boids can only use the first state so these are commented out for now.
#row = layout.row()
#row.template_list(boids, "states", boids, "active_boid_state_index", compact="True")
#col = row.row()
#subrow = col.row(align=True)
2009-08-22 08:48:01 +00:00
#subrow.itemO("boid.boidstate_add", icon='ICON_ZOOMIN', text="")
#subrow.itemO("boid.boidstate_del", icon='ICON_ZOOMOUT', text="")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
#subrow = row.row(align=True)
2009-08-22 08:48:01 +00:00
#subrow.itemO("boid.boidstate_move_up", icon='VICON_MOVE_UP', text="")
#subrow.itemO("boid.boidstate_move_down", icon='VICON_MOVE_DOWN', text="")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
state = boids.active_boid_state
#layout.itemR(state, "name", text="State name")
row = layout.row()
row.itemR(state, "ruleset_type")
if state.ruleset_type=='FUZZY':
row.itemR(state, "rule_fuzziness", slider=True)
else:
row.itemL(text="")
row = layout.row()
row.template_list(state, "rules", state, "active_boid_rule_index")
col = row.column()
subrow = col.row()
subcol = subrow.column(align=True)
2009-08-22 08:48:01 +00:00
subcol.item_menu_enumO("boid.boidrule_add", "type", icon='ICON_ZOOMIN', text="")
subcol.itemO("boid.boidrule_del", icon='ICON_ZOOMOUT', text="")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
subrow = col.row()
subcol = subrow.column(align=True)
2009-08-22 08:48:01 +00:00
subcol.itemO("boid.boidrule_move_up", icon='VICON_MOVE_UP', text="")
subcol.itemO("boid.boidrule_move_down", icon='VICON_MOVE_DOWN', text="")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
rule = state.active_boid_rule
if rule:
row = layout.row()
row.itemR(rule, "name", text="")
#somebody make nice icons for boids here please! -jahka
2009-08-22 08:48:01 +00:00
row.itemR(rule, "in_air", icon='VICON_MOVE_UP', text="")
row.itemR(rule, "on_land", icon='VICON_MOVE_DOWN', text="")
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
row = layout.row()
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
if rule.type == 'GOAL':
row.itemR(rule, "object")
row = layout.row()
row.itemR(rule, "predict")
elif rule.type == 'AVOID':
row.itemR(rule, "object")
row = layout.row()
row.itemR(rule, "predict")
row.itemR(rule, "fear_factor")
elif rule.type == 'FOLLOW_PATH':
row.itemL(text="Not yet functional.")
elif rule.type == 'AVOID_COLLISION':
row.itemR(rule, "boids")
row.itemR(rule, "deflectors")
row.itemR(rule, "look_ahead")
elif rule.type == 'FOLLOW_LEADER':
row.itemR(rule, "object", text="")
row.itemR(rule, "distance")
row = layout.row()
row.itemR(rule, "line")
subrow = row.row()
subrow.active = rule.line
subrow.itemR(rule, "queue_size")
elif rule.type == 'AVERAGE_SPEED':
row.itemR(rule, "speed", slider=True)
row.itemR(rule, "wander", slider=True)
row.itemR(rule, "level", slider=True)
elif rule.type == 'FIGHT':
row.itemR(rule, "distance")
row.itemR(rule, "flee_distance")
class PARTICLE_PT_render(ParticleButtonsPanel):
__label__ = "Render"
def poll(self, context):
psys = context.particle_system
if psys==None: return False
if psys.settings==None: return False
return True;
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
row = layout.row()
row.itemR(part, "material")
row.itemR(psys, "parent");
split = layout.split()
sub = split.column()
sub.itemR(part, "emitter");
sub.itemR(part, "parent");
sub = split.column()
sub.itemR(part, "unborn");
sub.itemR(part, "died");
row = layout.row()
row.itemR(part, "ren_as", expand=True)
split = layout.split()
sub = split.column()
if part.ren_as == 'LINE':
sub.itemR(part, "line_length_tail")
sub.itemR(part, "line_length_head")
sub = split.column()
sub.itemR(part, "velocity_length")
elif part.ren_as == 'PATH':
if (part.type!='HAIR' and part.physics_type!='KEYED' and psys.point_cache.baked==False):
box = layout.box()
box.itemL(text="Baked or keyed particles needed for correct rendering.")
return
sub.itemR(part, "render_strand")
colsub = sub.column()
colsub.active = part.render_strand == False
colsub.itemR(part, "render_adaptive")
colsub = sub.column()
colsub.active = part.render_adaptive or part.render_strand == True
colsub.itemR(part, "adaptive_angle")
colsub = sub.column()
colsub.active = part.render_adaptive == True and part.render_strand == False
colsub.itemR(part, "adaptive_pix")
sub.itemR(part, "hair_bspline")
sub.itemR(part, "render_step", text="Steps")
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
sub = split.column()
sub.itemL(text="Timing:")
sub.itemR(part, "abs_path_time")
sub.itemR(part, "path_start", text="Start", slider= not part.abs_path_time)
sub.itemR(part, "path_end", text="End", slider= not part.abs_path_time)
sub.itemR(part, "random_length", text="Random", slider=True)
row = layout.row()
col = row.column()
if part.type=='HAIR' and part.render_strand==True and part.child_type=='FACES':
layout.itemR(part, "enable_simplify")
if part.enable_simplify==True:
row = layout.row()
row.itemR(part, "simplify_refsize")
row.itemR(part, "simplify_rate")
row.itemR(part, "simplify_transition")
row = layout.row()
row.itemR(part, "viewport")
subrow = row.row()
subrow.active = part.viewport==True
subrow.itemR(part, "simplify_viewport")
elif part.ren_as == 'OBJECT':
sub.itemR(part, "dupli_object")
elif part.ren_as == 'GROUP':
sub.itemR(part, "dupli_group")
split = layout.split()
sub = split.column()
sub.itemR(part, "whole_group")
sub = split.column()
colsub = sub.column()
colsub.active = part.whole_group == False
colsub.itemR(part, "rand_group")
elif part.ren_as == 'BILLBOARD':
sub.itemL(text="Align:")
row = layout.row()
row.itemR(part, "billboard_align", expand=True)
row.itemR(part, "billboard_lock", text="Lock")
row = layout.row()
row.itemR(part, "billboard_object")
row = layout.row()
col = row.column(align=True)
col.itemL(text="Tilt:")
col.itemR(part, "billboard_tilt", text="Angle", slider=True)
col.itemR(part, "billboard_random_tilt", slider=True)
col = row.column()
col.itemR(part, "billboard_offset")
row = layout.row()
row.itemR(psys, "billboard_normal_uv")
row = layout.row()
row.itemR(psys, "billboard_time_index_uv")
row = layout.row()
row.itemL(text="Split uv's:")
row.itemR(part, "billboard_uv_split", text="Number of splits")
row = layout.row()
row.itemR(psys, "billboard_split_uv")
row = layout.row()
row.itemL(text="Animate:")
row.itemR(part, "billboard_animation", expand=True)
row.itemL(text="Offset:")
row.itemR(part, "billboard_split_offset", expand=True)
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 part.ren_as == 'HALO' or part.ren_as == 'LINE' or part.ren_as=='BILLBOARD':
row = layout.row()
col = row.column()
col.itemR(part, "trail_count")
if part.trail_count > 1:
col.itemR(part, "abs_path_time", text="Length in frames")
col = row.column()
col.itemR(part, "path_end", text="Length", slider=not part.abs_path_time)
col.itemR(part, "random_length", text="Random", slider=True)
else:
col = row.column()
col.itemL(text="")
class PARTICLE_PT_draw(ParticleButtonsPanel):
__label__ = "Display"
__default_closed__ = True
def poll(self, context):
psys = context.particle_system
if psys==None: return False
if psys.settings==None: return False
return True;
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
row = layout.row()
row.itemR(part, "draw_as", expand=True)
if part.draw_as=='NONE' or (part.ren_as=='NONE' and part.draw_as=='RENDER'):
return
path = (part.ren_as=='PATH' and part.draw_as=='RENDER') or part.draw_as=='PATH'
if path and part.type!='HAIR' and part.physics_type!='KEYED' and psys.point_cache.baked==False:
box = layout.box()
box.itemL(text="Baked or keyed particles needed for correct drawing.")
return
row = layout.row()
row.itemR(part, "display", slider=True)
if part.draw_as!='RENDER' or part.ren_as=='HALO':
row.itemR(part, "draw_size")
else:
row.itemL(text="")
row = layout.row()
col = row.column()
col.itemR(part, "show_size")
col.itemR(part, "velocity")
col.itemR(part, "num")
if part.physics_type == 'BOIDS':
col.itemR(part, "draw_health")
col = row.column()
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
col.itemR(part, "material_color", text="Use material color")
if (path):
col.itemR(part, "draw_step")
else:
subcol = col.column()
subcol.active = part.material_color==False
#subcol.itemL(text="color")
#subcol.itemL(text="Override material color")
class PARTICLE_PT_children(ParticleButtonsPanel):
__label__ = "Children"
__default_closed__ = True
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
layout.row().itemR(part, "child_type", expand=True)
if part.child_type=='NONE':
return
row = layout.row()
col = row.column(align=True)
col.itemR(part, "child_nbr", text="Display")
col.itemR(part, "rendered_child_nbr", text="Render")
col = row.column(align=True)
if part.child_type=='FACES':
col.itemR(part, "virtual_parents", slider=True)
else:
col.itemR(part, "child_radius", text="Radius")
col.itemR(part, "child_roundness", text="Roundness", slider=True)
col = row.column(align=True)
col.itemR(part, "child_size", text="Size")
col.itemR(part, "child_random_size", text="Random")
layout.row().itemL(text="Effects:")
row = layout.row()
col = row.column(align=True)
col.itemR(part, "clump_factor", slider=True)
col.itemR(part, "clumppow", slider=True)
col = row.column(align=True)
col.itemR(part, "rough_endpoint")
col.itemR(part, "rough_end_shape")
row = layout.row()
col = row.column(align=True)
col.itemR(part, "rough1")
col.itemR(part, "rough1_size")
col = row.column(align=True)
col.itemR(part, "rough2")
col.itemR(part, "rough2_size")
col.itemR(part, "rough2_thres", slider=True)
row = layout.row()
col = row.column(align=True)
col.itemR(part, "child_length", slider=True)
col.itemR(part, "child_length_thres", slider=True)
col = row.column(align=True)
col.itemL(text="Space reserved for")
col.itemL(text="hair parting controls")
layout.row().itemL(text="Kink:")
layout.row().itemR(part, "kink", expand=True)
split = layout.split()
sub = split.column()
sub.itemR(part, "kink_amplitude")
sub.itemR(part, "kink_frequency")
sub = split.column()
sub.itemR(part, "kink_shape", slider=True)
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
class PARTICLE_PT_effectors(ParticleButtonsPanel):
__label__ = "Effectors"
__default_closed__ = True
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
layout.itemR(part, "effector_group")
layout.itemR(part, "eweight_all", slider=True)
layout.itemS()
layout.itemR(part, "eweight_spherical", slider=True)
layout.itemR(part, "eweight_vortex", slider=True)
layout.itemR(part, "eweight_magnetic", slider=True)
layout.itemR(part, "eweight_wind", slider=True)
layout.itemR(part, "eweight_curveguide", slider=True)
layout.itemR(part, "eweight_texture", slider=True)
layout.itemR(part, "eweight_harmonic", slider=True)
layout.itemR(part, "eweight_charge", slider=True)
layout.itemR(part, "eweight_lennardjones", slider=True)
class PARTICLE_PT_vertexgroups(ParticleButtonsPanel):
__label__ = "Vertexgroups"
__default_closed__ = True
def draw(self, context):
layout = self.layout
psys = context.particle_system
part = psys.settings
layout.itemL(text="Nothing here yet.")
#row = layout.row()
#row.itemL(text="Vertex Group")
#row.itemL(text="Negate")
#row = layout.row()
#row.itemR(psys, "vertex_group_density")
#row.itemR(psys, "vertex_group_density_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_velocity")
#row.itemR(psys, "vertex_group_velocity_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_length")
#row.itemR(psys, "vertex_group_length_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_clump")
#row.itemR(psys, "vertex_group_clump_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_kink")
#row.itemR(psys, "vertex_group_kink_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_roughness1")
#row.itemR(psys, "vertex_group_roughness1_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_roughness2")
#row.itemR(psys, "vertex_group_roughness2_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_roughness_end")
#row.itemR(psys, "vertex_group_roughness_end_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_size")
#row.itemR(psys, "vertex_group_size_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_tangent")
#row.itemR(psys, "vertex_group_tangent_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_rotation")
#row.itemR(psys, "vertex_group_rotation_negate", text="")
#row = layout.row()
#row.itemR(psys, "vertex_group_field")
#row.itemR(psys, "vertex_group_field_negate", text="")
bpy.types.register(PARTICLE_PT_particles)
bpy.types.register(PARTICLE_PT_hair_dynamics)
bpy.types.register(PARTICLE_PT_cache)
bpy.types.register(PARTICLE_PT_emission)
bpy.types.register(PARTICLE_PT_initial)
bpy.types.register(PARTICLE_PT_physics)
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
bpy.types.register(PARTICLE_PT_boidbrain)
bpy.types.register(PARTICLE_PT_render)
bpy.types.register(PARTICLE_PT_draw)
bpy.types.register(PARTICLE_PT_children)
Initial code for boids v2 Too many new features to list! But here are the biggies: - Boids can move on air and/or land, or climb a goal object. - Proper interaction with collision objects. * Closest collision object in negative z direction is considered as ground. * Other collision objects are obstacles and boids collide with them. - Boid behavior rules are now added to a dynamic list. * Many new rules and many still not implemented. * Different rule evaluation modes (fuzzy, random, average). - Only particle systems defined by per system "boid relations" are considered for simulation of that system. * This is in addition to the boids own system of course. * Relations define other systems as "neutral", "friend" or "enemy". - All effectors now effect boid physics, not boid brains. * This allows forcing boids somewhere. * Exception to this is new "boid" effector, which defines boid predators (positive strength) and goals (negative strength). Known issue: - Boid health isn't yet stored in pointcache so simulations with "fight" rule are not be read from cache properly. - Object/Group visualization object's animation is not played in "particle time". This is definately the wanted behavior, but isn't possible with the current state of dupliobject code. Other new features: - Particle systems can now be named separately from particle settings. * Default name for particle settings is now "ParticleSettings" instead of "PSys" - Per particle system list of particle effector weights. * Enables different effection strengths for particles from different particle systems with without messing around with effector group setting. Other code changes: - KDTree now supports range search as it's needed for new boids. - "Keyed particle targets" renamed as general "particle targets", as they're needed for boids too. (this might break some files saved with new keyed particles) Bug fixes: - Object & group visualizations didn't work. - Interpolating pointcache didn't do rotation.
2009-07-20 23:52:53 +00:00
bpy.types.register(PARTICLE_PT_effectors)
bpy.types.register(PARTICLE_PT_vertexgroups)