historical/toontown-classic.git/panda/etc/Confauto.prc
2024-01-16 11:20:27 -06:00

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###########################################################
### ###
### Panda3D Configuration File - Auto-Generated Portion ###
### ###
### Editing this file is not recommended. Most of these ###
### directives can be overriden in Config.prc ###
### ###
###########################################################
# The egg loader is handy to have available by default. This allows
# clients to load egg files. (The bam loader is built-in so bam files
# are always loadable).
# By qualifying with the extension "egg", we indicate the egg loader
# should be made available only if you explicitly name a file with an
# .egg extension.
# Also see ptloader, which is built as part of pandatool; it allows
# files of more exotic types (like .flt, .mb, .lwo, and .dxf) to be
# loaded directly into Panda.
load-file-type egg pandaegg
# If we built with Assimp support, we can enable the Assimp loader,
# which allows us to load many model formats natively.
load-file-type p3assimp
# These entries work very similar to load-file-type, except they are
# used by the MovieVideo and MovieAudio code to determine which module
# should be loaded in order to decode files of the given extension.
# ffmpeg is added by default because it used to be compiled in.
# The * is a special catch-all extension that is consulted unless a
# loader has been defined with an explicit extension.
load-audio-type * p3ffmpeg
load-video-type * p3ffmpeg
# The following lines define some handy object types to use within the
# egg syntax. This remaps <ObjectType> { name } into whatever egg
# syntax is given by egg-object-type-name, which makes a handy
# abbreviation for modeling packages (like Maya) to insert
# sophisticated egg syntax into the generated egg file, using a single
# object type string.
egg-object-type-portal <Scalar> portal { 1 }
egg-object-type-polylight <Scalar> polylight { 1 }
egg-object-type-seq24 <Switch> { 1 } <Scalar> fps { 24 }
egg-object-type-seq12 <Switch> { 1 } <Scalar> fps { 12 }
egg-object-type-indexed <Scalar> indexed { 1 }
egg-object-type-seq10 <Switch> { 1 } <Scalar> fps { 10 }
egg-object-type-seq8 <Switch> { 1 } <Scalar> fps { 8 }
egg-object-type-seq6 <Switch> { 1 } <Scalar> fps { 6 }
egg-object-type-seq4 <Switch> { 1 } <Scalar> fps { 4 }
egg-object-type-seq2 <Switch> { 1 } <Scalar> fps { 2 }
egg-object-type-binary <Scalar> alpha { binary }
egg-object-type-dual <Scalar> alpha { dual }
egg-object-type-glass <Scalar> alpha { blend_no_occlude }
# These are just shortcuts to define the Model and DCS flags, which
# indicate nodes that should not be flattened out of the hierarchy
# during the conversion process. DCS goes one step further and
# indicates that the node's transform is important and should be
# preserved (DCS stands for Dynamic Coordinate System). Notouch is
# even stronger, and means not to do any flattening below the node at
# all.
egg-object-type-model <Model> { 1 }
egg-object-type-dcs <DCS> { 1 }
egg-object-type-notouch <DCS> { no_touch }
# The following define various kinds of collision geometry. These
# mark the geometry at this level and below as invisible collision
# polygons, which can be used by Panda's collision system to detect
# collisions more optimally than regular visible polygons.
egg-object-type-barrier <Collide> { Polyset descend }
egg-object-type-sphere <Collide> { Sphere descend }
egg-object-type-invsphere <Collide> { InvSphere descend }
egg-object-type-tube <Collide> { Tube descend }
# As above, but these are flagged to be "intangible", so that they
# will trigger an event but not stop an object from passing through.
egg-object-type-trigger <Collide> { Polyset descend intangible }
egg-object-type-trigger-sphere <Collide> { Sphere descend intangible }
# "floor" and "dupefloor" define the nodes in question as floor
# polygons. dupefloor means to duplicate the geometry first so that
# the same polygons serve both as visible geometry and as collision
# polygons.
egg-object-type-floor <Collide> { Polyset descend level }
egg-object-type-dupefloor <Collide> { Polyset keep descend level }
# "bubble" puts an invisible bubble around an object, but does not
# otherwise remove the geometry.
egg-object-type-bubble <Collide> { Sphere keep descend }
# "ghost" turns off the normal collide bit that is set on visible
# geometry by default, so that if you are using visible geometry for
# collisions, this particular geometry will not be part of those
# collisions--it is ghostlike.
egg-object-type-ghost <Scalar> collide-mask { 0 }
# "glow" is useful for halo effects and things of that ilk. It
# renders the object in add mode instead of the normal opaque mode.
egg-object-type-glow <Scalar> blend { add }
# This module allows direct loading of formats like .flt, .mb, or .dxf
load-file-type p3ptloader
# Define a new egg object type. See the comments in _panda.prc about this.
egg-object-type-direct-widget <Scalar> collide-mask { 0x80000000 } <Collide> { Polyset descend }
# Define a new cull bin that will render on top of everything else.
cull-bin gui-popup 60 unsorted
# The following two lines are a fix for flaky hardware clocks.
# Nowadays, lock-to-one-cpu is probably more trouble than it's worth.
#lock-to-one-cpu #t
# So is paranoid-clock.
#paranoid-clock 1
# This default only comes into play if you try to load a model
# and don't specify an extension.
default-model-extension .egg
# If we have the SpeedTree library available, we'll want to use it for
# loading compiled SpeedTree tree objects, and SpeedTree forest
# tables.
#load-file-type srt pandaspeedtree
#load-file-type stf pandaspeedtree