historical/toontown-classic.git/panda/include/animInterface.I

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/**
* PANDA 3D SOFTWARE
* Copyright (c) Carnegie Mellon University. All rights reserved.
*
* All use of this software is subject to the terms of the revised BSD
* license. You should have received a copy of this license along
* with this source code in a file named "LICENSE."
*
* @file animInterface.I
* @author drose
* @date 2005-09-20
*/
/**
* Runs the entire animation from beginning to end and stops.
*/
INLINE void AnimInterface::
play() {
play(0, get_num_frames() - 1);
}
/**
* Runs the animation from the frame "from" to and including the frame "to",
* at which point the animation is stopped. Both "from" and "to" frame
* numbers may be outside the range (0, get_num_frames()) and the animation
* will follow the range correctly, reporting numbers modulo get_num_frames().
* For instance, play(0, get_num_frames() * 2) will play the animation twice
* and then stop.
*/
INLINE void AnimInterface::
play(double from, double to) {
{
CDWriter cdata(_cycler);
cdata->play(from, to);
}
animation_activated();
}
/**
* Starts the entire animation looping. If restart is true, the animation is
* restarted from the beginning; otherwise, it continues from the current
* frame.
*/
INLINE void AnimInterface::
loop(bool restart) {
loop(restart, 0, get_num_frames() - 1);
}
/**
* Loops the animation from the frame "from" to and including the frame "to",
* indefinitely. If restart is true, the animation is restarted from the
* beginning; otherwise, it continues from the current frame.
*/
INLINE void AnimInterface::
loop(bool restart, double from, double to) {
{
CDWriter cdata(_cycler);
cdata->loop(restart, from, to);
}
animation_activated();
}
/**
* Starts the entire animation bouncing back and forth between its first frame
* and last frame. If restart is true, the animation is restarted from the
* beginning; otherwise, it continues from the current frame.
*/
INLINE void AnimInterface::
pingpong(bool restart) {
pingpong(restart, 0, get_num_frames() - 1);
}
/**
* Loops the animation from the frame "from" to and including the frame "to",
* and then back in the opposite direction, indefinitely.
*/
INLINE void AnimInterface::
pingpong(bool restart, double from, double to) {
{
CDWriter cdata(_cycler);
cdata->pingpong(restart, from, to);
}
animation_activated();
}
/**
* Stops a currently playing or looping animation right where it is. The
* animation remains posed at the current frame.
*/
INLINE void AnimInterface::
stop() {
CDWriter cdata(_cycler);
cdata->pose(cdata->get_full_fframe());
// Don't call animation_activated() here; stopping an animation should not
// activate it.
}
/**
* Sets the animation to the indicated frame and holds it there.
*/
INLINE void AnimInterface::
pose(double frame) {
{
CDWriter cdata(_cycler);
cdata->pose(frame);
}
animation_activated();
}
/**
* Changes the rate at which the animation plays. 1.0 is the normal speed,
* 2.0 is twice normal speed, and 0.5 is half normal speed. 0.0 is legal to
* pause the animation, and a negative value will play the animation
* backwards.
*/
INLINE void AnimInterface::
set_play_rate(double play_rate) {
CDWriter cdata(_cycler);
cdata->internal_set_rate(cdata->_frame_rate, play_rate);
}
/**
* Returns the rate at which the animation plays. See set_play_rate().
*/
INLINE double AnimInterface::
get_play_rate() const {
CDReader cdata(_cycler);
return cdata->_play_rate;
}
/**
* Returns the native frame rate of the animation. This is the number of
* frames per second that will elapse when the play_rate is set to 1.0. It is
* a fixed property of the animation and may not be adjusted by the user.
*/
INLINE double AnimInterface::
get_frame_rate() const {
CDReader cdata(_cycler);
return cdata->_frame_rate;
}
/**
* Returns the current integer frame number. This number will be in the range
* 0 <= f < get_num_frames().
*/
INLINE int AnimInterface::
get_frame() const {
int num_frames = get_num_frames();
if (num_frames <= 0) {
return 0;
}
CDReader cdata(_cycler);
return cmod(cdata->get_full_frame(0), num_frames);
}
/**
* Returns the current integer frame number + 1, constrained to the range 0 <=
* f < get_num_frames().
*
* If the play mode is PM_play, this will clamp to the same value as
* get_frame() at the end of the animation. If the play mode is any other
* value, this will wrap around to frame 0 at the end of the animation.
*/
INLINE int AnimInterface::
get_next_frame() const {
int num_frames = get_num_frames();
if (num_frames <= 0) {
return 0;
}
CDReader cdata(_cycler);
return cmod(cdata->get_full_frame(1), num_frames);
}
/**
* Returns the fractional part of the current frame. Normally, this is in the
* range 0.0 <= f < 1.0, but in the one special case of an animation playing
* to its end frame and stopping, it might exactly equal 1.0.
*
* It will always be true that get_full_frame() + get_frac() ==
* get_full_fframe().
*/
INLINE double AnimInterface::
get_frac() const {
CDReader cdata(_cycler);
return cdata->get_frac();
}
/**
* Returns the current integer frame number.
*
* Unlike the value returned by get_frame(), this frame number may extend
* beyond the range of get_num_frames() if the frame range passed to play(),
* loop(), etc. did.
*
* Unlike the value returned by get_full_fframe(), this return value will
* never exceed the value passed to to_frame in the play() method.
*/
INLINE int AnimInterface::
get_full_frame() const {
CDReader cdata(_cycler);
return cdata->get_full_frame(0);
}
/**
* Returns the current floating-point frame number.
*
* Unlike the value returned by get_frame(), this frame number may extend
* beyond the range of get_num_frames() if the frame range passed to play(),
* loop(), etc. did.
*
* Unlike the value returned by get_full_frame(), this return value may equal
* (to_frame + 1.0), when the animation has played to its natural end.
* However, in this case the return value of get_full_frame() will be
* to_frame, not (to_frame + 1).
*/
INLINE double AnimInterface::
get_full_fframe() const {
CDReader cdata(_cycler);
return cdata->get_full_fframe();
}
/**
* Returns true if the animation is currently playing, false if it is stopped
* (e.g. because stop() or pose() was called, or because it reached the end
* of the animation after play() was called).
*/
INLINE bool AnimInterface::
is_playing() const {
CDReader cdata(_cycler);
return cdata->is_playing();
}
/**
* Should be called by a derived class to specify the native frame rate of the
* animation. It is legal to call this after the animation has already
* started.
*/
INLINE void AnimInterface::
set_frame_rate(double frame_rate) {
CDWriter cdata(_cycler);
cdata->internal_set_rate(frame_rate, cdata->_play_rate);
}
/**
* Should be called by a derived class to specify the number of frames of the
* animation. It is legal to call this after the animation has already
* started, but doing so may suddenly change the apparent current frame
* number.
*/
INLINE void AnimInterface::
set_num_frames(int num_frames) {
_num_frames = num_frames;
}
/**
* Returns the fractional part of the current frame. Normally, this is in the
* range 0.0 <= f < 1.0, but in the one special case of an animation playing
* to its end frame and stopping, it might exactly equal 1.0.
*
* It will always be true that get_full_frame() + get_frac() ==
* get_full_fframe().
*/
INLINE double AnimInterface::CData::
get_frac() const {
return get_full_fframe() - (double)get_full_frame(0);
}
INLINE std::ostream &
operator << (std::ostream &out, const AnimInterface &ai) {
ai.output(out);
return out;
}