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class RENDER_PT_povray_radiosity(RenderButtonsPanel, bpy.types.Panel):
bl_options = {'DEFAULT_CLOSED'}
def draw_header(self, context):
scene = context.scene
if scene.pov.radio_enable:
self.layout.prop(scene.pov, "radio_enable", text="", icon='OUTLINER_OB_LIGHTPROBE')
self.layout.prop(scene.pov, "radio_enable", text="", icon='LIGHTPROBE_CUBEMAP')
def draw(self, context):
layout = self.layout
scene = context.scene
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layout.active = scene.pov.radio_enable
split = layout.split()
col = split.column()
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col.prop(scene.pov, "radio_count", text="Rays")
col.prop(scene.pov, "radio_recursion_limit", text="Recursions")
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split.prop(scene.pov, "radio_error_bound", text="Error Bound")
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layout.prop(scene.pov, "radio_display_advanced")
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if scene.pov.radio_display_advanced:
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col.prop(scene.pov, "radio_adc_bailout", slider=True)
col.prop(scene.pov, "radio_minimum_reuse", text="Min Reuse")
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col.prop(scene.pov, "radio_gray_threshold", slider=True)
col.prop(scene.pov, "radio_pretrace_start", slider=True)
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col.prop(scene.pov, "radio_low_error_factor", slider=True)
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col.prop(scene.pov, "radio_brightness")
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col.prop(scene.pov, "radio_maximum_reuse", text="Max Reuse")
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col.prop(scene.pov, "radio_nearest_count")
col.prop(scene.pov, "radio_pretrace_end", slider=True)
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col = layout.column()
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col.prop(scene.pov, "radio_always_sample")
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col.prop(scene.pov, "radio_normal")
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col.prop(scene.pov, "radio_media")
col.prop(scene.pov, "radio_subsurface")
class POV_RADIOSITY_MT_presets(bpy.types.Menu):
bl_label = "Radiosity Presets"
preset_subdir = "pov/radiosity"
preset_operator = "script.execute_preset"
draw = bpy.types.Menu.draw_preset
class AddPresetRadiosity(AddPresetBase, Operator):
'''Add a Radiosity Preset'''
bl_idname = "scene.radiosity_preset_add"
bl_label = "Add Radiosity Preset"
preset_menu = "POV_RADIOSITY_MT_presets"
# variable used for all preset values
preset_defines = [
"scene = bpy.context.scene"
]
# properties to store in the preset
preset_values = [
"scene.pov.radio_adc_bailout",
"scene.pov.radio_always_sample",
"scene.pov.radio_brightness",
"scene.pov.radio_count",
"scene.pov.radio_error_bound",
"scene.pov.radio_gray_threshold",
"scene.pov.radio_low_error_factor",
"scene.pov.radio_media",
"scene.pov.radio_subsurface",
"scene.pov.radio_minimum_reuse",
"scene.pov.radio_maximum_reuse",
"scene.pov.radio_nearest_count",
"scene.pov.radio_normal",
"scene.pov.radio_recursion_limit",
"scene.pov.radio_pretrace_start",
]
# where to store the preset
preset_subdir = "pov/radiosity"
# Draw into an existing panel
def rad_panel_func(self, context):
layout = self.layout
row = layout.row(align=True)
row.menu(POV_RADIOSITY_MT_presets.__name__, text=POV_RADIOSITY_MT_presets.bl_label)
row.operator(AddPresetRadiosity.bl_idname, text="", icon='ADD')
row.operator(AddPresetRadiosity.bl_idname, text="", icon='REMOVE').remove_active = True
class RENDER_PT_povray_media(WorldButtonsPanel, bpy.types.Panel):
bl_label = "Atmosphere Media"
COMPAT_ENGINES = {'POVRAY_RENDER'}
def draw_header(self, context):
scene = context.scene
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self.layout.prop(scene.pov, "media_enable", text="")
def draw(self, context):
layout = self.layout
scene = context.scene
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layout.active = scene.pov.media_enable
col = layout.column()
col.prop(scene.pov, "media_scattering_type", text="")
col = layout.column()
col.prop(scene.pov, "media_samples", text="Samples")
col = split.column(align=True)
col.label(text="Scattering:")
col.prop(scene.pov, "media_diffusion_scale")
col.prop(scene.pov, "media_diffusion_color", text="")
col = split.column(align=True)
col.label(text="Absorption:")
col.prop(scene.pov, "media_absorption_scale")
col.prop(scene.pov, "media_absorption_color", text="")
if scene.pov.media_scattering_type == '5':
col = layout.column()
col.prop(scene.pov, "media_eccentricity", text="Eccentricity")
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##class RENDER_PT_povray_baking(RenderButtonsPanel, bpy.types.Panel):
## bl_label = "Baking"
## COMPAT_ENGINES = {'POVRAY_RENDER'}
##
## def draw_header(self, context):
## scene = context.scene
##
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## self.layout.prop(scene.pov, "baking_enable", text="")
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##
## def draw(self, context):
## layout = self.layout
##
## scene = context.scene
## rd = scene.render
##
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## layout.active = scene.pov.baking_enable
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class MODIFIERS_PT_povray_modifiers(ModifierButtonsPanel, bpy.types.Panel):
bl_label = "POV-Ray"
COMPAT_ENGINES = {'POVRAY_RENDER'}
#def draw_header(self, context):
#scene = context.scene
#self.layout.prop(scene.pov, "boolean_mod", text="")
def draw(self, context):
scene = context.scene
layout = self.layout
ob = context.object
mod = ob.modifiers
col = layout.column()
# Find Boolean Modifiers for displaying CSG option
onceCSG = 0
for mod in ob.modifiers:
if onceCSG == 0:
if mod :
if mod.type == 'BOOLEAN':
col.prop(ob.pov, "boolean_mod")
onceCSG = 1
split = layout.split()
col = layout.column()
# Inside Vector for CSG
col.prop(ob.pov, "inside_vector")
class MATERIAL_MT_POV_sss_presets(bpy.types.Menu):
bl_label = "SSS Presets"
preset_subdir = "pov/material/sss"
preset_operator = "script.execute_preset"
draw = bpy.types.Menu.draw_preset
class AddPresetSSS(AddPresetBase, Operator):
'''Add an SSS Preset'''
bl_idname = "material.sss_preset_add"
bl_label = "Add SSS Preset"
preset_menu = "MATERIAL_MT_POV_sss_presets"
# variable used for all preset values
preset_defines = [
"material = bpy.context.material"
]
# properties to store in the preset
preset_values = [
"material.pov_subsurface_scattering.radius",
"material.pov_subsurface_scattering.color",
]
# where to store the preset
preset_subdir = "pov/material/sss"
class MATERIAL_PT_POV_sss(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "Subsurface Scattering"
bl_options = {'DEFAULT_CLOSED'}
COMPAT_ENGINES = {'POVRAY_RENDER'}
@classmethod
def poll(cls, context):
mat = context.material
engine = context.scene.render.engine
return check_material(mat) and (mat.pov.type in {'SURFACE', 'WIRE'}) and (engine in cls.COMPAT_ENGINES)
def draw_header(self, context):
mat = context.material #FORMERLY : #active_node_mat(context.material)
sss = mat.pov_subsurface_scattering
self.layout.active = (not mat.pov.use_shadeless)
self.layout.prop(sss, "use", text="")
def draw(self, context):
layout = self.layout
mat = context.material #FORMERLY : #active_node_mat(context.material)
sss = mat.pov_subsurface_scattering
layout.active = (sss.use) and (not mat.pov.use_shadeless)
row = layout.row().split()
sub = row.row(align=True).split(align=True, factor=0.75)
sub.menu(MATERIAL_MT_POV_sss_presets.__name__, text=MATERIAL_MT_POV_sss_presets.bl_label)
sub.operator(AddPresetSSS.bl_idname, text="", icon='ADD')
sub.operator(AddPresetSSS.bl_idname, text="", icon='REMOVE').remove_active = True
split = layout.split()
col = split.column()
col.prop(sss, "ior")
col.prop(sss, "scale")
col.prop(sss, "color", text="")
col.prop(sss, "radius", text="RGB Radius", expand=True)
col = split.column()
sub = col.column(align=True)
sub.label(text="Blend:")
sub.prop(sss, "color_factor", text="Color")
sub.prop(sss, "texture_factor", text="Texture")
sub.label(text="Scattering Weight:")
sub.prop(sss, "front")
sub.prop(sss, "back")
col.separator()
col.prop(sss, "error_threshold", text="Error")
class MATERIAL_PT_povray_activate_node(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "Activate Node Settings"
bl_context = "material"
bl_options = {'HIDE_HEADER'}
COMPAT_ENGINES = {'POVRAY_RENDER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
mat=context.material
ob = context.object
return mat and mat.pov.type == "SURFACE" and (engine in cls.COMPAT_ENGINES) and not (mat.pov.material_use_nodes or mat.use_nodes)
def draw(self, context):
layout = self.layout
# layout.operator("pov.material_use_nodes", icon='SOUND')#'NODETREE')
# the above replaced with a context hook below:
layout.operator("WM_OT_context_toggle", text="Use POV-Ray Nodes", icon='NODETREE').data_path = \
"material.pov.material_use_nodes"
class MATERIAL_PT_povray_active_node(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "Active Node Settings"
bl_context = "material"
bl_options = {'HIDE_HEADER'}
COMPAT_ENGINES = {'POVRAY_RENDER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
mat=context.material
ob = context.object
return mat and mat.pov.type == "SURFACE" and (engine in cls.COMPAT_ENGINES) and mat.pov.material_use_nodes
def draw(self, context):
layout = self.layout
mat = context.material
node_tree = mat.node_tree
if node_tree:
node = node_tree.nodes.active
if mat.use_nodes:
if node:
layout.prop(mat.pov,"material_active_node")
if node.bl_idname=="PovrayMaterialNode":
layout.context_pointer_set("node", node)
if hasattr(node, "draw_buttons_ext"):
node.draw_buttons_ext(context, layout)
elif hasattr(node, "draw_buttons"):
node.draw_buttons(context, layout)
value_inputs = [socket for socket in node.inputs if socket.enabled and not socket.is_linked]
if value_inputs:
layout.separator()
for socket in value_inputs:
row = layout.row()
socket.draw(context, row, node, socket.name)
else:
layout.context_pointer_set("node", node)
if hasattr(node, "draw_buttons_ext"):
node.draw_buttons_ext(context, layout)
elif hasattr(node, "draw_buttons"):
node.draw_buttons(context, layout)
value_inputs = [socket for socket in node.inputs if socket.enabled and not socket.is_linked]
if value_inputs:
layout.separator()
for socket in value_inputs:
row = layout.row()
socket.draw(context, row, node, socket.name)
else:
class MATERIAL_PT_POV_mirror(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "Mirror"
bl_options = {'DEFAULT_CLOSED'}
COMPAT_ENGINES = {'POVRAY_RENDER'}
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@classmethod
def poll(cls, context):
mat = context.material
engine = context.scene.render.engine
return check_material(mat) and (mat.pov.type in {'SURFACE', 'WIRE'}) and (engine in cls.COMPAT_ENGINES)
def draw_header(self, context):
mat = context.material
raym = mat.pov_raytrace_mirror
self.layout.prop(raym, "use", text="")
def draw(self, context):
layout = self.layout
mat = context.material #Formerly : #mat = active_node_mat(context.material)
raym = mat.pov_raytrace_mirror
layout.active = raym.use
split = layout.split()
col = split.column()
col.prop(raym, "reflect_factor")
col.prop(raym, "mirror_color", text="")
col = split.column()
col.prop(raym, "fresnel")
sub = col.column()
sub.active = (raym.fresnel > 0.0)
sub.prop(raym, "fresnel_factor", text="Blend")
split = layout.split()
col = split.column()
col.separator()
col.prop(raym, "depth")
col.prop(raym, "distance", text="Max Dist")
col.separator()
sub.active = (raym.distance > 0.0)
sub.label(text="Fade To:")
sub.prop(raym, "fade_to", text="")
col = split.column()
col.label(text="Gloss:")
col.prop(raym, "gloss_factor", text="Amount")
sub = col.column()
sub.active = (raym.gloss_factor < 1.0)
sub.prop(raym, "gloss_threshold", text="Threshold")
sub.prop(raym, "gloss_samples", text="Samples")
sub.prop(raym, "gloss_anisotropic", text="Anisotropic")
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class MATERIAL_PT_povray_reflection(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "POV-Ray Reflection"
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
mat=context.material
ob = context.object
return mat and mat.pov.type == "SURFACE" and (engine in cls.COMPAT_ENGINES) and not (mat.pov.material_use_nodes or mat.use_nodes)
def draw(self, context):
layout = self.layout
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col = layout.column()
col.prop(mat.pov, "irid_enable")
if mat.pov.irid_enable:
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col.prop(mat.pov, "irid_amount", slider=True)
col.prop(mat.pov, "irid_thickness", slider=True)
col.prop(mat.pov, "irid_turbulence", slider=True)
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col.prop(mat.pov, "conserve_energy")
col2=col.split().column()
if not mat.pov_raytrace_mirror.use:
col2.label(text="Please Check Mirror settings :")
col2.active = mat.pov_raytrace_mirror.use
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col2.prop(mat.pov, "mirror_use_IOR")
if mat.pov.mirror_use_IOR:
col2.alignment = 'CENTER'
col2.label(text="The current Raytrace ")
col2.label(text="Transparency IOR is: " + str(mat.raytrace_transparency.ior))
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col2.prop(mat.pov, "mirror_metallic")
class MATERIAL_PT_povray_fade_color(MaterialButtonsPanel, bpy.types.Panel):
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bl_label = "POV-Ray Absorption"
COMPAT_ENGINES = {'POVRAY_RENDER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
mat=context.material
ob = context.object
return mat and mat.pov.type == "SURFACE" and (engine in cls.COMPAT_ENGINES) and not (mat.pov.material_use_nodes or mat.use_nodes)
def draw_header(self, context):
mat = context.material
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self.layout.prop(mat.pov, "interior_fade_color", text="")
def draw(self, context):
layout = self.layout
mat = context.material
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# layout.active = mat.pov.interior_fade_color
if mat.pov.interior_fade_color != (0.0, 0.0, 0.0):
layout.label(text="Raytrace transparency")
layout.label(text="depth max Limit needs")
layout.label(text="to be non zero to fade")
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pass
class MATERIAL_PT_povray_caustics(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "Caustics"
COMPAT_ENGINES = {'POVRAY_RENDER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
mat=context.material
ob = context.object
return mat and mat.pov.type == "SURFACE" and (engine in cls.COMPAT_ENGINES) and not (mat.pov.material_use_nodes or mat.use_nodes)
def draw_header(self, context):
mat = context.material
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if mat.pov.caustics_enable:
self.layout.prop(mat.pov, "caustics_enable", text="", icon="PMARKER_SEL" )
else:
self.layout.prop(mat.pov, "caustics_enable", text="", icon="PMARKER" )
def draw(self, context):
layout = self.layout
mat = context.material
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layout.active = mat.pov.caustics_enable
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col = layout.column()
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if mat.pov.caustics_enable:
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col.prop(mat.pov, "refraction_caustics")
if mat.pov.refraction_caustics:
col.prop(mat.pov, "refraction_type", text="")
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if mat.pov.refraction_type == "1":
col.prop(mat.pov, "fake_caustics_power", slider=True)
elif mat.pov.refraction_type == "2":
col.prop(mat.pov, "photons_dispersion", slider=True)
col.prop(mat.pov, "photons_dispersion_samples", slider=True)
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col.prop(mat.pov, "photons_reflection")
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if not mat.pov.refraction_caustics and not mat.pov.photons_reflection:
col = layout.column()
col.alignment = 'CENTER'
col.label(text="Caustics override is on, ")
col.label(text="but you didn't chose any !")
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class MATERIAL_PT_povray_replacement_text(MaterialButtonsPanel, bpy.types.Panel):
bl_label = "Custom POV Code"
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COMPAT_ENGINES = {'POVRAY_RENDER'}
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def draw(self, context):
layout = self.layout
mat = context.material
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col.label(text="Replace properties with:")
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col.prop(mat.pov, "replacement_text", text="")
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class WORLD_TEXTURE_SLOTS_UL_List(UIList):
"""Texture Slots UIList."""
def draw_item(self, context, layout, world, item, icon, active_data,
world_texture_list_index, index):
world = context.world#.pov
active_data = world.pov
#tex = context.texture #may be needed later?
# We could write some code to decide which icon to use here...
custom_icon = 'TEXTURE'
# Make sure your code supports all 3 layout types
if self.layout_type in {'DEFAULT', 'COMPACT'}:
layout.label(item.name, icon = custom_icon)
elif self.layout_type in {'GRID'}:
layout.alignment = 'CENTER'
layout.label("", icon = custom_icon)
class TEXTURE_PT_povray_type(TextureButtonsPanel, bpy.types.Panel):
bl_label = "POV-ray Textures"
COMPAT_ENGINES = {'POVRAY_RENDER'}
bl_options = {'HIDE_HEADER'}
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def draw(self, context):
layout = self.layout
tex = context.texture
split.label(text="POV:")
split.prop(tex.pov, "tex_pattern_type", text="")
row = layout.row()
row.template_list("WORLD_TEXTURE_SLOTS_UL_List", "The_List", world,
"texture_slots", world, "world_texture_list_index")
class TEXTURE_PT_povray_preview(TextureButtonsPanel, bpy.types.Panel):
bl_label = "Preview"
COMPAT_ENGINES = {'POVRAY_RENDER'}
bl_options = {'HIDE_HEADER'}
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@classmethod
def poll(cls, context):
engine = context.scene.render.engine
if not hasattr(context, "texture_slot"):
return False
tex=context.texture
mat=context.material
return (tex and (tex.pov.tex_pattern_type != 'emulator') and (engine in cls.COMPAT_ENGINES))
def draw(self, context):
tex = context.texture
slot = getattr(context, "texture_slot", None)
idblock = context_tex_datablock(context)
layout = self.layout
# if idblock:
# layout.template_preview(tex, parent=idblock, slot=slot)
if tex.pov.tex_pattern_type != 'emulator':
layout.operator("tex.preview_update")
else:
layout.template_preview(tex, slot=slot)
class TEXTURE_PT_povray_parameters(TextureButtonsPanel, bpy.types.Panel):
bl_label = "POV-ray Pattern Options"
COMPAT_ENGINES = {'POVRAY_RENDER'}
def draw(self, context):
mat = context.material
layout = self.layout
tex = context.texture
align=True
if tex is not None and tex.pov.tex_pattern_type != 'emulator':
if tex.pov.tex_pattern_type == 'agate':
layout.prop(tex.pov, "modifier_turbulence", text="Agate Turbulence")
if tex.pov.tex_pattern_type in {'spiral1', 'spiral2'}:
layout.prop(tex.pov, "modifier_numbers", text="Number of arms")
if tex.pov.tex_pattern_type == 'tiling':
layout.prop(tex.pov, "modifier_numbers", text="Pattern number")
if tex.pov.tex_pattern_type == 'magnet':
layout.prop(tex.pov, "magnet_style", text="Magnet style")
if tex.pov.tex_pattern_type == 'quilted':
row = layout.row(align=align)
row.prop(tex.pov, "modifier_control0", text="Control0")
row.prop(tex.pov, "modifier_control1", text="Control1")
if tex.pov.tex_pattern_type == 'brick':
col = layout.column(align=align)
row = col.row()
row.prop(tex.pov, "brick_size_x", text="Brick size X")
row.prop(tex.pov, "brick_size_y", text="Brick size Y")
row=col.row()
row.prop(tex.pov, "brick_size_z", text="Brick size Z")
row.prop(tex.pov, "brick_mortar", text="Brick mortar")
if tex.pov.tex_pattern_type in {'julia','mandel','magnet'}:
col = layout.column(align=align)
if tex.pov.tex_pattern_type == 'julia':
row = col.row()
row.prop(tex.pov, "julia_complex_1", text="Complex 1")
row.prop(tex.pov, "julia_complex_2", text="Complex 2")
if tex.pov.tex_pattern_type == 'magnet' and tex.pov.magnet_style == 'julia':
row = col.row()
row.prop(tex.pov, "julia_complex_1", text="Complex 1")
row.prop(tex.pov, "julia_complex_2", text="Complex 2")
row=col.row()
if tex.pov.tex_pattern_type in {'julia','mandel'}:
row.prop(tex.pov, "f_exponent", text="Exponent")
row.prop(tex.pov, "magnet_type", text="Type")
row.prop(tex.pov, "f_iter", text="Iterations")
row=col.row()
row.prop(tex.pov, "f_ior", text="Interior")
row.prop(tex.pov, "f_ior_fac", text="Factor I")
row=col.row()
row.prop(tex.pov, "f_eor", text="Exterior")
row.prop(tex.pov, "f_eor_fac", text="Factor E")
layout.label(text="Gradient orientation:")
column_flow = layout.column_flow(columns=3, align=True)
column_flow.prop(tex.pov, "grad_orient_x", text="X")
column_flow.prop(tex.pov, "grad_orient_y", text="Y")
column_flow.prop(tex.pov, "grad_orient_z", text="Z")
if tex.pov.tex_pattern_type == 'pavement':
layout.prop(tex.pov, "pave_sides", text="Pavement:number of sides")
col = layout.column(align=align)
column_flow = col.column_flow(columns=3, align=True)
column_flow.prop(tex.pov, "pave_tiles", text="Tiles")
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if tex.pov.pave_sides == '4' and tex.pov.pave_tiles == 6:
column_flow.prop(tex.pov, "pave_pat_35", text="Pattern")
if tex.pov.pave_sides == '6' and tex.pov.pave_tiles == 5:
column_flow.prop(tex.pov, "pave_pat_22", text="Pattern")
if tex.pov.pave_sides == '4' and tex.pov.pave_tiles == 5:
column_flow.prop(tex.pov, "pave_pat_12", text="Pattern")
if tex.pov.pave_sides == '3' and tex.pov.pave_tiles == 6:
column_flow.prop(tex.pov, "pave_pat_12", text="Pattern")
if tex.pov.pave_sides == '6' and tex.pov.pave_tiles == 4:
column_flow.prop(tex.pov, "pave_pat_7", text="Pattern")
if tex.pov.pave_sides == '4' and tex.pov.pave_tiles == 4:
column_flow.prop(tex.pov, "pave_pat_5", text="Pattern")
if tex.pov.pave_sides == '3' and tex.pov.pave_tiles == 5:
column_flow.prop(tex.pov, "pave_pat_4", text="Pattern")
if tex.pov.pave_sides == '6' and tex.pov.pave_tiles == 3:
column_flow.prop(tex.pov, "pave_pat_3", text="Pattern")
if tex.pov.pave_sides == '3' and tex.pov.pave_tiles == 4:
column_flow.prop(tex.pov, "pave_pat_3", text="Pattern")
if tex.pov.pave_sides == '4' and tex.pov.pave_tiles == 3:
column_flow.prop(tex.pov, "pave_pat_2", text="Pattern")
if tex.pov.pave_sides == '6' and tex.pov.pave_tiles == 6:
column_flow.label(text="!!! 5 tiles!")
column_flow.prop(tex.pov, "pave_form", text="Form")
if tex.pov.tex_pattern_type == 'function':
layout.prop(tex.pov, "func_list", text="Functions")
if tex.pov.tex_pattern_type == 'function' and tex.pov.func_list != "NONE":
func = None
if tex.pov.func_list in {"f_noise3d", "f_ph", "f_r", "f_th"}:
func = 0
if tex.pov.func_list in {"f_comma","f_crossed_trough","f_cubic_saddle",
"f_cushion","f_devils_curve","f_enneper","f_glob",
"f_heart","f_hex_x","f_hex_y","f_hunt_surface",
"f_klein_bottle","f_kummer_surface_v1",
"f_lemniscate_of_gerono","f_mitre","f_nodal_cubic",
"f_noise_generator","f_odd","f_paraboloid","f_pillow",
"f_piriform","f_quantum","f_quartic_paraboloid",
"f_quartic_saddle","f_sphere","f_steiners_roman",
"f_torus_gumdrop","f_umbrella"}:
func = 1
if tex.pov.func_list in {"f_bicorn","f_bifolia","f_boy_surface","f_superellipsoid",
"f_torus"}:
func = 2
if tex.pov.func_list in {"f_ellipsoid","f_folium_surface","f_hyperbolic_torus",
"f_kampyle_of_eudoxus","f_parabolic_torus",
"f_quartic_cylinder","f_torus2"}:
func = 3
if tex.pov.func_list in {"f_blob2","f_cross_ellipsoids","f_flange_cover",
"f_isect_ellipsoids","f_kummer_surface_v2",
"f_ovals_of_cassini","f_rounded_box","f_spikes_2d",
"f_strophoid"}:
if tex.pov.func_list in {"f_algbr_cyl1","f_algbr_cyl2","f_algbr_cyl3",
"f_algbr_cyl4","f_blob","f_mesh1","f_poly4","f_spikes"}:
if tex.pov.func_list in {"f_devils_curve_2d","f_dupin_cyclid",
"f_folium_surface_2d","f_hetero_mf",
"f_kampyle_of_eudoxus_2d","f_lemniscate_of_gerono_2d",
"f_polytubes","f_ridge","f_ridged_mf","f_spiral",
"f_witch_of_agnesi"}:
func = 6
if tex.pov.func_list in {"f_helix1","f_helix2","f_piriform_2d","f_strophoid_2d"}:
func = 7
if tex.pov.func_list == "f_helical_torus":
func = 8
column_flow = layout.column_flow(columns=3, align=True)
column_flow.prop(tex.pov, "func_plus_x", text="")
column_flow.prop(tex.pov, "func_x", text="Value")
column_flow = layout.column_flow(columns=3, align=True)
column_flow.prop(tex.pov, "func_plus_y", text="")
column_flow.prop(tex.pov, "func_y", text="Value")
column_flow = layout.column_flow(columns=3, align=True)
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column_flow.prop(tex.pov, "func_plus_z", text="")
column_flow.prop(tex.pov, "func_z", text="Value")
row=layout.row(align=align)
if func > 0:
row.prop(tex.pov, "func_P0", text="P0")
if func > 1:
row.prop(tex.pov, "func_P1", text="P1")
row=layout.row(align=align)
if func > 2:
row.prop(tex.pov, "func_P2", text="P2")
if func > 3:
row.prop(tex.pov, "func_P3", text="P3")
row=layout.row(align=align)
if func > 4:
row.prop(tex.pov, "func_P4", text="P4")
if func > 5:
row.prop(tex.pov, "func_P5", text="P5")
row=layout.row(align=align)
if func > 6:
row.prop(tex.pov, "func_P6", text="P6")
if func > 7:
row.prop(tex.pov, "func_P7", text="P7")
row=layout.row(align=align)
row.prop(tex.pov, "func_P8", text="P8")
row.prop(tex.pov, "func_P9", text="P9")
###################################################End Patterns############################
layout.prop(tex.pov, "warp_types", text="Warp types") #warp
if tex.pov.warp_types == "TOROIDAL":
layout.prop(tex.pov, "warp_tor_major_radius", text="Major radius")
if tex.pov.warp_types not in {"CUBIC","NONE"}:
layout.prop(tex.pov, "warp_orientation", text="Warp orientation")
col = layout.column(align=align)
row = col.row()
row.prop(tex.pov, "warp_dist_exp", text="Distance exponent")
row = col.row()
row.prop(tex.pov, "modifier_frequency", text="Frequency")
row.prop(tex.pov, "modifier_phase", text="Phase")
row=layout.row()
row.label(text="Offset:")
row.label(text="Scale:")
row.label(text="Rotate:")
row=col.row()
row.prop(tex.pov, "tex_mov_x", text="X")
row.prop(tex.pov, "tex_scale_x", text="X")
row.prop(tex.pov, "tex_rot_x", text="X")
row=col.row()
row.prop(tex.pov, "tex_mov_y", text="Y")
row.prop(tex.pov, "tex_scale_y", text="Y")
row.prop(tex.pov, "tex_rot_y", text="Y")
row=col.row()
row.prop(tex.pov, "tex_mov_z", text="Z")
row.prop(tex.pov, "tex_scale_z", text="Z")
row.prop(tex.pov, "tex_rot_z", text="Z")
row=layout.row()
row.label(text="Turbulence:")
row=col.row()
row.prop(tex.pov, "warp_turbulence_x", text="X")
row.prop(tex.pov, "modifier_octaves", text="Octaves")
row=col.row()
row.prop(tex.pov, "warp_turbulence_y", text="Y")
row.prop(tex.pov, "modifier_lambda", text="Lambda")
row=col.row()
row.prop(tex.pov, "warp_turbulence_z", text="Z")
row.prop(tex.pov, "modifier_omega", text="Omega")
class TEXTURE_PT_povray_tex_gamma(TextureButtonsPanel, bpy.types.Panel):
bl_label = "Image Gamma"
COMPAT_ENGINES = {'POVRAY_RENDER'}
def draw_header(self, context):
tex = context.texture
self.layout.prop(tex.pov, "tex_gamma_enable", text="", icon='SEQ_LUMA_WAVEFORM')
def draw(self, context):
layout = self.layout
tex = context.texture
Bastien Montagne
committed
layout.active = tex.pov.tex_gamma_enable
layout.prop(tex.pov, "tex_gamma_value", text="Gamma Value")
#commented out below UI for texture only custom code inside exported material:
# class TEXTURE_PT_povray_replacement_text(TextureButtonsPanel, bpy.types.Panel):
# bl_label = "Custom POV Code"
# COMPAT_ENGINES = {'POVRAY_RENDER'}
# def draw(self, context):
# layout = self.layout
Maurice Raybaud
committed
# tex = context.texture
Maurice Raybaud
committed
# col = layout.column()
# col.label(text="Replace properties with:")
# col.prop(tex.pov, "replacement_text", text="")
Maurice Raybaud
committed
class OBJECT_PT_povray_obj_parameters(ObjectButtonsPanel, bpy.types.Panel):
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
return (engine in cls.COMPAT_ENGINES)
def draw(self, context):
layout = self.layout
obj = context.object
split = layout.split()
col = split.column(align=True)
Bastien Montagne
committed
col.prop(obj.pov, "importance_value", text="Importance")
Bastien Montagne
committed
col.prop(obj.pov, "collect_photons", text="Receive Photon Caustics")
Maurice Raybaud
committed
if obj.pov.collect_photons:
col.prop(obj.pov, "spacing_multiplier", text="Photons Spacing Multiplier")
split = layout.split()
col = split.column()
col.prop(obj.pov,"hollow")
col.prop(obj.pov,"double_illuminate")
if obj.type == 'META' or obj.pov.curveshape == 'lathe':
#if obj.pov.curveshape == 'sor'
col.prop(obj.pov,"sturm")
col.prop(obj.pov,"no_shadow")
col.prop(obj.pov,"no_image")
col.prop(obj.pov,"no_reflection")
col.prop(obj.pov,"no_radiosity")
col.prop(obj.pov,"inverse")
col.prop(obj.pov,"hierarchy")
# col.prop(obj.pov,"boundorclip",text="Bound / Clip")
# if obj.pov.boundorclip != "none":
# col.prop_search(obj.pov,"boundorclipob",context.blend_data,"objects",text="Object")
# text = "Clipped by"
# if obj.pov.boundorclip == "clipped_by":
# text = "Bounded by"
# col.prop(obj.pov,"addboundorclip",text=text)
Campbell Barton
committed
class OBJECT_PT_povray_obj_sphere(PovDataButtonsPanel, bpy.types.Panel):
bl_label = "POV-Ray Sphere"
COMPAT_ENGINES = {'POVRAY_RENDER'}
#bl_options = {'HIDE_HEADER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
obj = context.object
return (obj and obj.pov.object_as == 'SPHERE' and (engine in cls.COMPAT_ENGINES))
def draw(self, context):
layout = self.layout
obj = context.object
col = layout.column()
if obj.pov.object_as == 'SPHERE':
if obj.pov.unlock_parameters == False:
col.prop(obj.pov, "unlock_parameters", text="Exported parameters below", icon='LOCKED')
col.label(text="Sphere radius: " + str(obj.pov.sphere_radius))
else:
col.prop(obj.pov, "unlock_parameters", text="Edit exported parameters", icon='UNLOCKED')
col.label(text="3D view proxy may get out of synch")
col.active = obj.pov.unlock_parameters
layout.operator("pov.sphere_update", text="Update",icon="SOLID")
#col.label(text="Parameters:")
col.prop(obj.pov, "sphere_radius", text="Radius of Sphere")
Maurice Raybaud
committed
class OBJECT_PT_povray_obj_cylinder(PovDataButtonsPanel, bpy.types.Panel):
bl_label = "POV-Ray Cylinder"
COMPAT_ENGINES = {'POVRAY_RENDER'}
#bl_options = {'HIDE_HEADER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
obj = context.object
return (obj and obj.pov.object_as == 'CYLINDER' and (engine in cls.COMPAT_ENGINES))
Maurice Raybaud
committed
def draw(self, context):
layout = self.layout
obj = context.object
Maurice Raybaud
committed
col = layout.column()
if obj.pov.object_as == 'CYLINDER':
if obj.pov.unlock_parameters == False:
col.prop(obj.pov, "unlock_parameters", text="Exported parameters below", icon='LOCKED')
Maurice Raybaud
committed
col.label(text="Cylinder radius: " + str(obj.pov.cylinder_radius))
col.label(text="Cylinder cap location: " + str(obj.pov.cylinder_location_cap))
else:
col.prop(obj.pov, "unlock_parameters", text="Edit exported parameters", icon='UNLOCKED')
Maurice Raybaud
committed
col.label(text="3D view proxy may get out of synch")
col.active = obj.pov.unlock_parameters
layout.operator("pov.cylinder_update", text="Update",icon="MESH_CYLINDER")
Maurice Raybaud
committed
#col.label(text="Parameters:")
col.prop(obj.pov, "cylinder_radius")
col.prop(obj.pov, "cylinder_location_cap")
class OBJECT_PT_povray_obj_cone(PovDataButtonsPanel, bpy.types.Panel):
bl_label = "POV-Ray Cone"
COMPAT_ENGINES = {'POVRAY_RENDER'}
#bl_options = {'HIDE_HEADER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
obj = context.object
return (obj and obj.pov.object_as == 'CONE' and (engine in cls.COMPAT_ENGINES))
def draw(self, context):
layout = self.layout
obj = context.object
col = layout.column()
if obj.pov.object_as == 'CONE':
if obj.pov.unlock_parameters == False:
col.prop(obj.pov, "unlock_parameters", text="Exported parameters below", icon='LOCKED')
col.label(text="Cone base radius: " + str(obj.pov.cone_base_radius))
col.label(text="Cone cap radius: " + str(obj.pov.cone_cap_radius))
col.label(text="Cone proxy segments: " + str(obj.pov.cone_segments))
col.label(text="Cone height: " + str(obj.pov.cone_height))
else:
col.prop(obj.pov, "unlock_parameters", text="Edit exported parameters", icon='UNLOCKED')
col.label(text="3D view proxy may get out of synch")
col.active = obj.pov.unlock_parameters
layout.operator("pov.cone_update", text="Update",icon="MESH_CONE")
#col.label(text="Parameters:")
col.prop(obj.pov, "cone_base_radius", text="Radius of Cone Base")
col.prop(obj.pov, "cone_cap_radius", text="Radius of Cone Cap")
col.prop(obj.pov, "cone_segments", text="Segmentation of Cone proxy")
col.prop(obj.pov, "cone_height", text="Height of the cone")
class OBJECT_PT_povray_obj_superellipsoid(PovDataButtonsPanel, bpy.types.Panel):
bl_label = "POV-Ray Superquadric ellipsoid"
COMPAT_ENGINES = {'POVRAY_RENDER'}
#bl_options = {'HIDE_HEADER'}
@classmethod
def poll(cls, context):
engine = context.scene.render.engine
obj = context.object
return (obj and obj.pov.object_as == 'SUPERELLIPSOID' and (engine in cls.COMPAT_ENGINES))
def draw(self, context):
layout = self.layout
obj = context.object
col = layout.column()
if obj.pov.object_as == 'SUPERELLIPSOID':
if obj.pov.unlock_parameters == False:
col.prop(obj.pov, "unlock_parameters", text="Exported parameters below", icon='LOCKED')