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/**************************************************************************/
/* tween.cpp */
/**************************************************************************/
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/* GODOT ENGINE */
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/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
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# include "tween.h"
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# include "core/method_bind_ext.gen.inc"
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# include "scene/animation/easing_equations.h"
Tween : : interpolater Tween : : interpolaters [ Tween : : TRANS_COUNT ] [ Tween : : EASE_COUNT ] = {
{ & linear : : in , & linear : : in , & linear : : in , & linear : : in } , // Linear is the same for each easing.
{ & sine : : in , & sine : : out , & sine : : in_out , & sine : : out_in } ,
{ & quint : : in , & quint : : out , & quint : : in_out , & quint : : out_in } ,
{ & quart : : in , & quart : : out , & quart : : in_out , & quart : : out_in } ,
{ & quad : : in , & quad : : out , & quad : : in_out , & quad : : out_in } ,
{ & expo : : in , & expo : : out , & expo : : in_out , & expo : : out_in } ,
{ & elastic : : in , & elastic : : out , & elastic : : in_out , & elastic : : out_in } ,
{ & cubic : : in , & cubic : : out , & cubic : : in_out , & cubic : : out_in } ,
{ & circ : : in , & circ : : out , & circ : : in_out , & circ : : out_in } ,
{ & bounce : : in , & bounce : : out , & bounce : : in_out , & bounce : : out_in } ,
{ & back : : in , & back : : out , & back : : in_out , & back : : out_in } ,
} ;
real_t Tween : : run_equation ( Tween : : TransitionType p_trans_type , Tween : : EaseType p_ease_type , real_t p_time , real_t p_initial , real_t p_delta , real_t p_duration ) {
if ( p_duration = = 0 ) {
// Special case to avoid dividing by 0 in equations.
return p_initial + p_delta ;
}
interpolater func = interpolaters [ p_trans_type ] [ p_ease_type ] ;
ERR_FAIL_NULL_V ( func , p_initial ) ;
return func ( p_time , p_initial , p_delta , p_duration ) ;
}
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void Tween : : _add_pending_command ( StringName p_key , const Variant & p_arg1 , const Variant & p_arg2 , const Variant & p_arg3 , const Variant & p_arg4 , const Variant & p_arg5 , const Variant & p_arg6 , const Variant & p_arg7 , const Variant & p_arg8 , const Variant & p_arg9 , const Variant & p_arg10 ) {
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// Add a new pending command and reference it
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pending_commands . push_back ( PendingCommand ( ) ) ;
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PendingCommand & cmd = pending_commands . back ( ) - > get ( ) ;
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// Update the command with the target key
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cmd . key = p_key ;
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// Determine command argument count
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int & count = cmd . args ;
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if ( p_arg10 . get_type ( ) ! = Variant : : NIL ) {
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count = 10 ;
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} else if ( p_arg9 . get_type ( ) ! = Variant : : NIL ) {
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count = 9 ;
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} else if ( p_arg8 . get_type ( ) ! = Variant : : NIL ) {
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count = 8 ;
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} else if ( p_arg7 . get_type ( ) ! = Variant : : NIL ) {
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count = 7 ;
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} else if ( p_arg6 . get_type ( ) ! = Variant : : NIL ) {
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count = 6 ;
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} else if ( p_arg5 . get_type ( ) ! = Variant : : NIL ) {
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count = 5 ;
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} else if ( p_arg4 . get_type ( ) ! = Variant : : NIL ) {
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count = 4 ;
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} else if ( p_arg3 . get_type ( ) ! = Variant : : NIL ) {
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count = 3 ;
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} else if ( p_arg2 . get_type ( ) ! = Variant : : NIL ) {
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count = 2 ;
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} else if ( p_arg1 . get_type ( ) ! = Variant : : NIL ) {
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count = 1 ;
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} else {
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count = 0 ;
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}
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// Add the specified arguments to the command
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if ( count > 0 ) {
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cmd . arg [ 0 ] = p_arg1 ;
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}
if ( count > 1 ) {
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cmd . arg [ 1 ] = p_arg2 ;
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}
if ( count > 2 ) {
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cmd . arg [ 2 ] = p_arg3 ;
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}
if ( count > 3 ) {
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cmd . arg [ 3 ] = p_arg4 ;
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}
if ( count > 4 ) {
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cmd . arg [ 4 ] = p_arg5 ;
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}
if ( count > 5 ) {
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cmd . arg [ 5 ] = p_arg6 ;
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}
if ( count > 6 ) {
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cmd . arg [ 6 ] = p_arg7 ;
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}
if ( count > 7 ) {
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cmd . arg [ 7 ] = p_arg8 ;
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}
if ( count > 8 ) {
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cmd . arg [ 8 ] = p_arg9 ;
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}
if ( count > 9 ) {
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cmd . arg [ 9 ] = p_arg10 ;
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}
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}
void Tween : : _process_pending_commands ( ) {
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// For each pending command...
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for ( List < PendingCommand > : : Element * E = pending_commands . front ( ) ; E ; E = E - > next ( ) ) {
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// Get the command
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PendingCommand & cmd = E - > get ( ) ;
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Variant : : CallError err ;
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// Grab all of the arguments for the command
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Variant * arg [ 10 ] = {
& cmd . arg [ 0 ] ,
& cmd . arg [ 1 ] ,
& cmd . arg [ 2 ] ,
& cmd . arg [ 3 ] ,
& cmd . arg [ 4 ] ,
& cmd . arg [ 5 ] ,
& cmd . arg [ 6 ] ,
& cmd . arg [ 7 ] ,
& cmd . arg [ 8 ] ,
& cmd . arg [ 9 ] ,
} ;
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// Execute the command (and retrieve any errors)
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this - > call ( cmd . key , ( const Variant * * ) arg , cmd . args , err ) ;
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}
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// Clear the pending commands
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pending_commands . clear ( ) ;
}
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bool Tween : : _set ( const StringName & p_name , const Variant & p_value ) {
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// Set the correct attribute based on the given name
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String name = p_name ;
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if ( name = = " playback/speed " | | name = = " speed " ) { // Backwards compatibility
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set_speed_scale ( p_value ) ;
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return true ;
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} else if ( name = = " playback/active " ) {
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set_active ( p_value ) ;
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return true ;
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} else if ( name = = " playback/repeat " ) {
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set_repeat ( p_value ) ;
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return true ;
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}
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return false ;
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}
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bool Tween : : _get ( const StringName & p_name , Variant & r_ret ) const {
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// Get the correct attribute based on the given name
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String name = p_name ;
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if ( name = = " playback/speed " ) { // Backwards compatibility
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r_ret = speed_scale ;
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return true ;
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} else if ( name = = " playback/active " ) {
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r_ret = is_active ( ) ;
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return true ;
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} else if ( name = = " playback/repeat " ) {
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r_ret = is_repeat ( ) ;
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return true ;
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}
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return false ;
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}
void Tween : : _get_property_list ( List < PropertyInfo > * p_list ) const {
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// Add the property info for the Tween object
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p_list - > push_back ( PropertyInfo ( Variant : : BOOL , " playback/active " , PROPERTY_HINT_NONE , " " ) ) ;
p_list - > push_back ( PropertyInfo ( Variant : : BOOL , " playback/repeat " , PROPERTY_HINT_NONE , " " ) ) ;
p_list - > push_back ( PropertyInfo ( Variant : : REAL , " playback/speed " , PROPERTY_HINT_RANGE , " -64,64,0.01 " ) ) ;
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}
void Tween : : _notification ( int p_what ) {
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// What notification did we receive?
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switch ( p_what ) {
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case NOTIFICATION_ENTER_TREE : {
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// Are we not already active?
Fix and make Tween node less confusing
I've made the following changes:
- make `is_active` the main way of keeping track of tween
processing/activity, meaning that `is_active` will now return
`false` if all tween actions have finished or if it isn't started
or if it was stopped via `set_active(false)` or any other mode
- removed is_stopped because is redundand now
The above meant that we don't have to keep track of yet another variable
`available` since everything is based on `*processing_internal` so I
removed it, likewise it's own local `processing` variable was removed,
as well as the "double" `_set_process` which it feels more like a hack.
What wasn't changed:
- `tell()` still returns max value (i.e. `== get_runtime()` when all
tweens `finish`)
*More testing is needed*. So far I've tested repeat on/off, delay,
`is_active()` working corretly, `set_active(true), set_active(false)`,
but probably more tests are necessary, all the resets, stops, resume
etc.
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if ( ! is_active ( ) ) {
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// Make sure that a previous process state was not saved
// Only process if "processing" is set
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set_physics_process_internal ( false ) ;
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set_process_internal ( false ) ;
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}
} break ;
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case NOTIFICATION_READY : {
// Do nothing
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} break ;
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case NOTIFICATION_INTERNAL_PROCESS : {
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// Are we processing during physics time?
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if ( tween_process_mode = = TWEEN_PROCESS_PHYSICS ) {
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// Do nothing since we aren't aligned with physics when we should be
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break ;
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}
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// Should we update?
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if ( is_active ( ) ) {
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// Update the tweens
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_tween_process ( get_process_delta_time ( ) ) ;
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}
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} break ;
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case NOTIFICATION_INTERNAL_PHYSICS_PROCESS : {
// Are we processing during 'regular' time?
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if ( tween_process_mode = = TWEEN_PROCESS_IDLE ) {
Fix misc. source comment typos
Found using `codespell -q 3 -S ./thirdparty,*.po -L ang,ba,cas,dof,doubleclick,fave,hist,leapyear,lod,nd,numer,ois,paket,seeked,sinc,switchs,te,uint -D ~/Projects/codespell/codespell_lib/data/dictionary.txt `
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// Do nothing since we would only process during idle time
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break ;
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}
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// Should we update?
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if ( is_active ( ) ) {
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// Update the tweens
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_tween_process ( get_physics_process_delta_time ( ) ) ;
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}
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} break ;
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case NOTIFICATION_EXIT_TREE : {
// We've left the tree. Stop all tweens
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stop_all ( ) ;
} break ;
}
}
void Tween : : _bind_methods ( ) {
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// Bind getters and setters
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ClassDB : : bind_method ( D_METHOD ( " is_active " ) , & Tween : : is_active ) ;
ClassDB : : bind_method ( D_METHOD ( " set_active " , " active " ) , & Tween : : set_active ) ;
ClassDB : : bind_method ( D_METHOD ( " is_repeat " ) , & Tween : : is_repeat ) ;
ClassDB : : bind_method ( D_METHOD ( " set_repeat " , " repeat " ) , & Tween : : set_repeat ) ;
ClassDB : : bind_method ( D_METHOD ( " set_speed_scale " , " speed " ) , & Tween : : set_speed_scale ) ;
ClassDB : : bind_method ( D_METHOD ( " get_speed_scale " ) , & Tween : : get_speed_scale ) ;
ClassDB : : bind_method ( D_METHOD ( " set_tween_process_mode " , " mode " ) , & Tween : : set_tween_process_mode ) ;
ClassDB : : bind_method ( D_METHOD ( " get_tween_process_mode " ) , & Tween : : get_tween_process_mode ) ;
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// Bind the various Tween control methods
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ClassDB : : bind_method ( D_METHOD ( " start " ) , & Tween : : start ) ;
ClassDB : : bind_method ( D_METHOD ( " reset " , " object " , " key " ) , & Tween : : reset , DEFVAL ( " " ) ) ;
ClassDB : : bind_method ( D_METHOD ( " reset_all " ) , & Tween : : reset_all ) ;
ClassDB : : bind_method ( D_METHOD ( " stop " , " object " , " key " ) , & Tween : : stop , DEFVAL ( " " ) ) ;
ClassDB : : bind_method ( D_METHOD ( " stop_all " ) , & Tween : : stop_all ) ;
ClassDB : : bind_method ( D_METHOD ( " resume " , " object " , " key " ) , & Tween : : resume , DEFVAL ( " " ) ) ;
ClassDB : : bind_method ( D_METHOD ( " resume_all " ) , & Tween : : resume_all ) ;
ClassDB : : bind_method ( D_METHOD ( " remove " , " object " , " key " ) , & Tween : : remove , DEFVAL ( " " ) ) ;
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ClassDB : : bind_method ( D_METHOD ( " _remove_by_uid " , " uid " ) , & Tween : : _remove_by_uid ) ;
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ClassDB : : bind_method ( D_METHOD ( " remove_all " ) , & Tween : : remove_all ) ;
ClassDB : : bind_method ( D_METHOD ( " seek " , " time " ) , & Tween : : seek ) ;
ClassDB : : bind_method ( D_METHOD ( " tell " ) , & Tween : : tell ) ;
ClassDB : : bind_method ( D_METHOD ( " get_runtime " ) , & Tween : : get_runtime ) ;
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// Bind interpolation and follow methods
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ClassDB : : bind_method ( D_METHOD ( " interpolate_property " , " object " , " property " , " initial_val " , " final_val " , " duration " , " trans_type " , " ease_type " , " delay " ) , & Tween : : interpolate_property , DEFVAL ( TRANS_LINEAR ) , DEFVAL ( EASE_IN_OUT ) , DEFVAL ( 0 ) ) ;
ClassDB : : bind_method ( D_METHOD ( " interpolate_method " , " object " , " method " , " initial_val " , " final_val " , " duration " , " trans_type " , " ease_type " , " delay " ) , & Tween : : interpolate_method , DEFVAL ( TRANS_LINEAR ) , DEFVAL ( EASE_IN_OUT ) , DEFVAL ( 0 ) ) ;
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ClassDB : : bind_method ( D_METHOD ( " interpolate_callback " , " object " , " duration " , " callback " , " arg1 " , " arg2 " , " arg3 " , " arg4 " , " arg5 " , " arg6 " , " arg7 " , " arg8 " ) , & Tween : : interpolate_callback , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) ) ;
ClassDB : : bind_method ( D_METHOD ( " interpolate_deferred_callback " , " object " , " duration " , " callback " , " arg1 " , " arg2 " , " arg3 " , " arg4 " , " arg5 " , " arg6 " , " arg7 " , " arg8 " ) , & Tween : : interpolate_deferred_callback , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) , DEFVAL ( Variant ( ) ) ) ;
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ClassDB : : bind_method ( D_METHOD ( " follow_property " , " object " , " property " , " initial_val " , " target " , " target_property " , " duration " , " trans_type " , " ease_type " , " delay " ) , & Tween : : follow_property , DEFVAL ( TRANS_LINEAR ) , DEFVAL ( EASE_IN_OUT ) , DEFVAL ( 0 ) ) ;
ClassDB : : bind_method ( D_METHOD ( " follow_method " , " object " , " method " , " initial_val " , " target " , " target_method " , " duration " , " trans_type " , " ease_type " , " delay " ) , & Tween : : follow_method , DEFVAL ( TRANS_LINEAR ) , DEFVAL ( EASE_IN_OUT ) , DEFVAL ( 0 ) ) ;
ClassDB : : bind_method ( D_METHOD ( " targeting_property " , " object " , " property " , " initial " , " initial_val " , " final_val " , " duration " , " trans_type " , " ease_type " , " delay " ) , & Tween : : targeting_property , DEFVAL ( TRANS_LINEAR ) , DEFVAL ( EASE_IN_OUT ) , DEFVAL ( 0 ) ) ;
ClassDB : : bind_method ( D_METHOD ( " targeting_method " , " object " , " method " , " initial " , " initial_method " , " final_val " , " duration " , " trans_type " , " ease_type " , " delay " ) , & Tween : : targeting_method , DEFVAL ( TRANS_LINEAR ) , DEFVAL ( EASE_IN_OUT ) , DEFVAL ( 0 ) ) ;
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// Add the Tween signals
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ADD_SIGNAL ( MethodInfo ( " tween_started " , PropertyInfo ( Variant : : OBJECT , " object " ) , PropertyInfo ( Variant : : NODE_PATH , " key " ) ) ) ;
ADD_SIGNAL ( MethodInfo ( " tween_step " , PropertyInfo ( Variant : : OBJECT , " object " ) , PropertyInfo ( Variant : : NODE_PATH , " key " ) , PropertyInfo ( Variant : : REAL , " elapsed " ) , PropertyInfo ( Variant : : OBJECT , " value " ) ) ) ;
ADD_SIGNAL ( MethodInfo ( " tween_completed " , PropertyInfo ( Variant : : OBJECT , " object " ) , PropertyInfo ( Variant : : NODE_PATH , " key " ) ) ) ;
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ADD_SIGNAL ( MethodInfo ( " tween_all_completed " ) ) ;
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// Add the properties and tie them to the getters and setters
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ADD_PROPERTY ( PropertyInfo ( Variant : : BOOL , " repeat " ) , " set_repeat " , " is_repeat " ) ;
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ADD_PROPERTY ( PropertyInfo ( Variant : : INT , " playback_process_mode " , PROPERTY_HINT_ENUM , " Physics,Idle " ) , " set_tween_process_mode " , " get_tween_process_mode " ) ;
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ADD_PROPERTY ( PropertyInfo ( Variant : : REAL , " playback_speed " , PROPERTY_HINT_RANGE , " -64,64,0.01 " ) , " set_speed_scale " , " get_speed_scale " ) ;
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// Bind Idle vs Physics process
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BIND_ENUM_CONSTANT ( TWEEN_PROCESS_PHYSICS ) ;
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BIND_ENUM_CONSTANT ( TWEEN_PROCESS_IDLE ) ;
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// Bind the Transition type constants
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BIND_ENUM_CONSTANT ( TRANS_LINEAR ) ;
BIND_ENUM_CONSTANT ( TRANS_SINE ) ;
BIND_ENUM_CONSTANT ( TRANS_QUINT ) ;
BIND_ENUM_CONSTANT ( TRANS_QUART ) ;
BIND_ENUM_CONSTANT ( TRANS_QUAD ) ;
BIND_ENUM_CONSTANT ( TRANS_EXPO ) ;
BIND_ENUM_CONSTANT ( TRANS_ELASTIC ) ;
BIND_ENUM_CONSTANT ( TRANS_CUBIC ) ;
BIND_ENUM_CONSTANT ( TRANS_CIRC ) ;
BIND_ENUM_CONSTANT ( TRANS_BOUNCE ) ;
BIND_ENUM_CONSTANT ( TRANS_BACK ) ;
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// Bind the easing constants
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BIND_ENUM_CONSTANT ( EASE_IN ) ;
BIND_ENUM_CONSTANT ( EASE_OUT ) ;
BIND_ENUM_CONSTANT ( EASE_IN_OUT ) ;
BIND_ENUM_CONSTANT ( EASE_OUT_IN ) ;
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}
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Variant Tween : : _get_initial_val ( const InterpolateData & p_data ) const {
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// What type of data are we interpolating?
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switch ( p_data . type ) {
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case INTER_PROPERTY :
case INTER_METHOD :
case FOLLOW_PROPERTY :
case FOLLOW_METHOD :
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// Simply use the given initial value
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return p_data . initial_val ;
case TARGETING_PROPERTY :
case TARGETING_METHOD : {
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// Get the object that is being targeted
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Object * object = ObjectDB : : get_instance ( p_data . target_id ) ;
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ERR_FAIL_COND_V ( object = = nullptr , p_data . initial_val ) ;
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// Are we targeting a property or a method?
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Variant initial_val ;
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if ( p_data . type = = TARGETING_PROPERTY ) {
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// Get the property from the target object
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bool valid = false ;
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initial_val = object - > get_indexed ( p_data . target_key , & valid ) ;
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ERR_FAIL_COND_V ( ! valid , p_data . initial_val ) ;
} else {
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// Call the method and get the initial value from it
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Variant : : CallError error ;
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initial_val = object - > call ( p_data . target_key [ 0 ] , nullptr , 0 , error ) ;
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ERR_FAIL_COND_V ( error . error ! = Variant : : CallError : : CALL_OK , p_data . initial_val ) ;
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}
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return initial_val ;
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}
case INTER_CALLBACK :
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// Callback does not have a special initial value
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break ;
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}
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// If we've made it here, just return the delta value as the initial value
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return p_data . delta_val ;
}
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Variant Tween : : _get_final_val ( const InterpolateData & p_data ) const {
switch ( p_data . type ) {
case FOLLOW_PROPERTY :
case FOLLOW_METHOD : {
// Get the object that is being followed
Object * target = ObjectDB : : get_instance ( p_data . target_id ) ;
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ERR_FAIL_COND_V ( target = = nullptr , p_data . initial_val ) ;
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// We want to figure out the final value
Variant final_val ;
if ( p_data . type = = FOLLOW_PROPERTY ) {
// Read the property as-is
bool valid = false ;
final_val = target - > get_indexed ( p_data . target_key , & valid ) ;
ERR_FAIL_COND_V ( ! valid , p_data . initial_val ) ;
} else {
// We're looking at a method. Call the method on the target object
Variant : : CallError error ;
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final_val = target - > call ( p_data . target_key [ 0 ] , nullptr , 0 , error ) ;
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ERR_FAIL_COND_V ( error . error ! = Variant : : CallError : : CALL_OK , p_data . initial_val ) ;
}
// If we're looking at an INT value, instead convert it to a REAL
// This is better for interpolation
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if ( final_val . get_type ( ) = = Variant : : INT ) {
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final_val = final_val . operator real_t ( ) ;
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}
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return final_val ;
}
default : {
// If we're not following a final value/method, use the final value from the data
return p_data . final_val ;
}
}
}
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Variant & Tween : : _get_delta_val ( InterpolateData & p_data ) {
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// What kind of data are we interpolating?
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switch ( p_data . type ) {
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case INTER_PROPERTY :
case INTER_METHOD :
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// Simply return the given delta value
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return p_data . delta_val ;
case FOLLOW_PROPERTY :
case FOLLOW_METHOD : {
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// We're following an object, so grab that instance
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Object * target = ObjectDB : : get_instance ( p_data . target_id ) ;
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ERR_FAIL_COND_V ( target = = nullptr , p_data . initial_val ) ;
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// We want to figure out the final value
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Variant final_val ;
if ( p_data . type = = FOLLOW_PROPERTY ) {
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// Read the property as-is
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bool valid = false ;
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final_val = target - > get_indexed ( p_data . target_key , & valid ) ;
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ERR_FAIL_COND_V ( ! valid , p_data . initial_val ) ;
} else {
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// We're looking at a method. Call the method on the target object
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Variant : : CallError error ;
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final_val = target - > call ( p_data . target_key [ 0 ] , nullptr , 0 , error ) ;
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ERR_FAIL_COND_V ( error . error ! = Variant : : CallError : : CALL_OK , p_data . initial_val ) ;
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}
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// If we're looking at an INT value, instead convert it to a REAL
// This is better for interpolation
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if ( final_val . get_type ( ) = = Variant : : INT ) {
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final_val = final_val . operator real_t ( ) ;
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}
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// Calculate the delta based on the initial value and the final value
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_calc_delta_val ( p_data . initial_val , final_val , p_data . delta_val ) ;
return p_data . delta_val ;
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}
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case TARGETING_PROPERTY :
case TARGETING_METHOD : {
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// Grab the initial value from the data to calculate delta
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Variant initial_val = _get_initial_val ( p_data ) ;
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// If we're looking at an INT value, instead convert it to a REAL
// This is better for interpolation
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if ( initial_val . get_type ( ) = = Variant : : INT ) {
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initial_val = initial_val . operator real_t ( ) ;
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}
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// Calculate the delta based on the initial value and the final value
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_calc_delta_val ( initial_val , p_data . final_val , p_data . delta_val ) ;
return p_data . delta_val ;
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}
case INTER_CALLBACK :
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// Callbacks have no special delta
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break ;
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}
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// If we've made it here, use the initial value as the delta
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return p_data . initial_val ;
}
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Variant Tween : : _run_equation ( InterpolateData & p_data ) {
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// Get the initial and delta values from the data
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Variant initial_val = _get_initial_val ( p_data ) ;
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Variant & delta_val = _get_delta_val ( p_data ) ;
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Variant result ;
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# define APPLY_EQUATION(element) \
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r . element = run_equation ( p_data . trans_type , p_data . ease_type , p_data . elapsed - p_data . delay , i . element , d . element , p_data . duration ) ;
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// What type of data are we interpolating?
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switch ( initial_val . get_type ( ) ) {
case Variant : : BOOL :
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// Run the boolean specific equation (checking if it is at least 0.5)
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result = ( run_equation ( p_data . trans_type , p_data . ease_type , p_data . elapsed - p_data . delay , initial_val , delta_val , p_data . duration ) ) > = 0.5 ;
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break ;
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case Variant : : INT :
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// Run the integer specific equation
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result = ( int ) run_equation ( p_data . trans_type , p_data . ease_type , p_data . elapsed - p_data . delay , ( int ) initial_val , ( int ) delta_val , p_data . duration ) ;
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break ;
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case Variant : : REAL :
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// Run the REAL specific equation
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result = run_equation ( p_data . trans_type , p_data . ease_type , p_data . elapsed - p_data . delay , ( real_t ) initial_val , ( real_t ) delta_val , p_data . duration ) ;
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break ;
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case Variant : : VECTOR2 : {
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// Get vectors for initial and delta values
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Vector2 i = initial_val ;
Vector2 d = delta_val ;
Vector2 r ;
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// Execute the equation and mutate the r vector
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( x ) ;
APPLY_EQUATION ( y ) ;
result = r ;
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} break ;
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case Variant : : RECT2 : {
// Get the Rect2 for initial and delta value
Rect2 i = initial_val ;
Rect2 d = delta_val ;
Rect2 r ;
// Execute the equation for the position and size of Rect2
APPLY_EQUATION ( position . x ) ;
APPLY_EQUATION ( position . y ) ;
APPLY_EQUATION ( size . x ) ;
APPLY_EQUATION ( size . y ) ;
result = r ;
} break ;
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case Variant : : VECTOR3 : {
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// Get vectors for initial and delta values
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Vector3 i = initial_val ;
Vector3 d = delta_val ;
Vector3 r ;
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// Execute the equation and mutate the r vector
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( x ) ;
APPLY_EQUATION ( y ) ;
APPLY_EQUATION ( z ) ;
result = r ;
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} break ;
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case Variant : : TRANSFORM2D : {
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// Get the transforms for initial and delta values
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Transform2D i = initial_val ;
Transform2D d = delta_val ;
Transform2D r ;
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// Execute the equation on the transforms and mutate the r transform
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( elements [ 0 ] [ 0 ] ) ;
APPLY_EQUATION ( elements [ 0 ] [ 1 ] ) ;
APPLY_EQUATION ( elements [ 1 ] [ 0 ] ) ;
APPLY_EQUATION ( elements [ 1 ] [ 1 ] ) ;
APPLY_EQUATION ( elements [ 2 ] [ 0 ] ) ;
APPLY_EQUATION ( elements [ 2 ] [ 1 ] ) ;
result = r ;
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} break ;
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case Variant : : QUAT : {
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// Get the quaternian for the initial and delta values
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Quat i = initial_val ;
Quat d = delta_val ;
Quat r ;
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// Execute the equation on the quaternian values and mutate the r quaternian
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( x ) ;
APPLY_EQUATION ( y ) ;
APPLY_EQUATION ( z ) ;
APPLY_EQUATION ( w ) ;
result = r ;
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} break ;
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case Variant : : AABB : {
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// Get the AABB's for the initial and delta values
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AABB i = initial_val ;
AABB d = delta_val ;
AABB r ;
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2019-06-09 03:11:42 +00:00
// Execute the equation for the position and size of the AABB's and mutate the r AABB
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( position . x ) ;
APPLY_EQUATION ( position . y ) ;
APPLY_EQUATION ( position . z ) ;
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APPLY_EQUATION ( size . x ) ;
APPLY_EQUATION ( size . y ) ;
APPLY_EQUATION ( size . z ) ;
result = r ;
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} break ;
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case Variant : : BASIS : {
// Get the basis for initial and delta values
Basis i = initial_val ;
Basis d = delta_val ;
Basis r ;
// Execute the equation on all the basis and mutate the r basis
// This uses the custom APPLY_EQUATION macro defined above
APPLY_EQUATION ( elements [ 0 ] [ 0 ] ) ;
APPLY_EQUATION ( elements [ 0 ] [ 1 ] ) ;
APPLY_EQUATION ( elements [ 0 ] [ 2 ] ) ;
APPLY_EQUATION ( elements [ 1 ] [ 0 ] ) ;
APPLY_EQUATION ( elements [ 1 ] [ 1 ] ) ;
APPLY_EQUATION ( elements [ 1 ] [ 2 ] ) ;
APPLY_EQUATION ( elements [ 2 ] [ 0 ] ) ;
APPLY_EQUATION ( elements [ 2 ] [ 1 ] ) ;
APPLY_EQUATION ( elements [ 2 ] [ 2 ] ) ;
result = r ;
} break ;
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case Variant : : TRANSFORM : {
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// Get the transforms for the initial and delta values
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Transform i = initial_val ;
Transform d = delta_val ;
Transform r ;
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// Execute the equation for each of the transforms and their origin and mutate the r transform
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( basis . elements [ 0 ] [ 0 ] ) ;
APPLY_EQUATION ( basis . elements [ 0 ] [ 1 ] ) ;
APPLY_EQUATION ( basis . elements [ 0 ] [ 2 ] ) ;
APPLY_EQUATION ( basis . elements [ 1 ] [ 0 ] ) ;
APPLY_EQUATION ( basis . elements [ 1 ] [ 1 ] ) ;
APPLY_EQUATION ( basis . elements [ 1 ] [ 2 ] ) ;
APPLY_EQUATION ( basis . elements [ 2 ] [ 0 ] ) ;
APPLY_EQUATION ( basis . elements [ 2 ] [ 1 ] ) ;
APPLY_EQUATION ( basis . elements [ 2 ] [ 2 ] ) ;
APPLY_EQUATION ( origin . x ) ;
APPLY_EQUATION ( origin . y ) ;
APPLY_EQUATION ( origin . z ) ;
result = r ;
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} break ;
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case Variant : : COLOR : {
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// Get the Color for initial and delta value
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Color i = initial_val ;
Color d = delta_val ;
Color r ;
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// Apply the equation on the Color RGBA, and mutate the r color
// This uses the custom APPLY_EQUATION macro defined above
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APPLY_EQUATION ( r ) ;
APPLY_EQUATION ( g ) ;
APPLY_EQUATION ( b ) ;
APPLY_EQUATION ( a ) ;
result = r ;
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} break ;
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default : {
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// If unknown, just return the initial value
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result = initial_val ;
} break ;
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} ;
# undef APPLY_EQUATION
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// Return the result that was computed
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return result ;
}
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bool Tween : : _apply_tween_value ( InterpolateData & p_data , Variant & value ) {
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// Get the object we want to apply the new value to
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Object * object = ObjectDB : : get_instance ( p_data . id ) ;
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ERR_FAIL_COND_V ( object = = nullptr , false ) ;
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// What kind of data are we mutating?
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switch ( p_data . type ) {
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case INTER_PROPERTY :
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case FOLLOW_PROPERTY :
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case TARGETING_PROPERTY : {
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// Simply set the property on the object
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bool valid = false ;
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object - > set_indexed ( p_data . key , value , & valid ) ;
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return valid ;
}
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case INTER_METHOD :
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case FOLLOW_METHOD :
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case TARGETING_METHOD : {
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// We want to call the method on the target object
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Variant : : CallError error ;
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// Do we have a non-nil value passed in?
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if ( value . get_type ( ) ! = Variant : : NIL ) {
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// Pass it as an argument to the function call
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Variant * arg [ 1 ] = { & value } ;
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object - > call ( p_data . key [ 0 ] , ( const Variant * * ) arg , 1 , error ) ;
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} else {
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// Don't pass any argument
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object - > call ( p_data . key [ 0 ] , nullptr , 0 , error ) ;
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}
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// Did we get an error from the function call?
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return error . error = = Variant : : CallError : : CALL_OK ;
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}
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case INTER_CALLBACK :
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// Nothing to apply for a callback
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break ;
} ;
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// No issues found!
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return true ;
}
void Tween : : _tween_process ( float p_delta ) {
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// Process all of the pending commands
2015-05-05 03:12:17 +00:00
_process_pending_commands ( ) ;
2019-06-09 03:11:42 +00:00
// If the scale is 0, make no progress on the tweens
2021-05-05 10:44:11 +00:00
if ( speed_scale = = 0 ) {
2014-08-20 04:01:41 +00:00
return ;
2021-05-05 10:44:11 +00:00
}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Update the delta and whether we are pending an update
p_delta * = speed_scale ;
2017-03-05 15:44:50 +00:00
pending_update + + ;
2014-08-22 03:24:53 +00:00
2019-06-09 03:11:42 +00:00
// Are we repeating the interpolations?
if ( repeat ) {
// For each interpolation...
bool repeats_finished = true ;
2017-03-05 15:44:50 +00:00
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
2019-06-09 03:11:42 +00:00
// Get the data from it
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2014-08-22 03:24:53 +00:00
2019-06-09 03:11:42 +00:00
// Is not finished?
2017-03-05 15:44:50 +00:00
if ( ! data . finish ) {
2019-06-09 03:11:42 +00:00
// We aren't finished yet, no need to check the rest
repeats_finished = false ;
2014-08-22 03:24:53 +00:00
break ;
}
}
2019-06-09 03:11:42 +00:00
// If we are all finished, we can reset all of the tweens
2021-05-05 10:44:11 +00:00
if ( repeats_finished ) {
2014-08-22 03:24:53 +00:00
reset_all ( ) ;
2021-05-05 10:44:11 +00:00
}
2014-08-22 03:24:53 +00:00
}
2019-06-09 03:11:42 +00:00
// Are all of the tweens complete?
2020-08-25 10:58:40 +00:00
bool all_finished = true ;
2019-06-09 03:11:42 +00:00
// For each tween we wish to interpolate...
2017-03-05 15:44:50 +00:00
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
2019-06-09 03:11:42 +00:00
// Get the data from it
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2019-06-09 03:11:42 +00:00
2020-08-25 10:58:40 +00:00
// Track if we hit one that isn't finished yet
all_finished = all_finished & & data . finish ;
2019-06-09 03:11:42 +00:00
// Is the data not active or already finished? No need to go any further
2021-05-05 10:44:11 +00:00
if ( ! data . active | | data . finish ) {
2014-08-20 04:01:41 +00:00
continue ;
2021-05-05 10:44:11 +00:00
}
2014-08-20 08:39:28 +00:00
2019-06-09 03:11:42 +00:00
// Get the target object for this interpolation
2014-12-19 09:13:20 +00:00
Object * object = ObjectDB : : get_instance ( data . id ) ;
2021-05-05 10:44:11 +00:00
if ( object = = nullptr ) {
2014-08-22 03:24:53 +00:00
continue ;
2021-05-05 10:44:11 +00:00
}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Are we still delaying this tween?
2014-08-21 07:34:16 +00:00
bool prev_delaying = data . elapsed < = data . delay ;
data . elapsed + = p_delta ;
2021-05-05 10:44:11 +00:00
if ( data . elapsed < data . delay ) {
2014-08-21 07:34:16 +00:00
continue ;
2021-05-05 10:44:11 +00:00
} else if ( prev_delaying ) {
2019-06-09 03:11:42 +00:00
// We can apply the tween's value to the data and emit that the tween has started
2014-08-25 05:36:56 +00:00
_apply_tween_value ( data , data . initial_val ) ;
2018-06-26 17:19:11 +00:00
emit_signal ( " tween_started " , object , NodePath ( Vector < StringName > ( ) , data . key , false ) ) ;
2014-08-25 05:36:56 +00:00
}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Are we at the end of the tween?
2017-03-05 15:44:50 +00:00
if ( data . elapsed > ( data . delay + data . duration ) ) {
2019-06-09 03:11:42 +00:00
// Set the elapsed time to the end and mark this one as finished
2017-01-13 18:40:18 +00:00
data . elapsed = data . delay + data . duration ;
2014-08-21 07:34:16 +00:00
data . finish = true ;
}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Are we interpolating a callback?
2017-12-29 12:59:45 +00:00
if ( data . type = = INTER_CALLBACK ) {
2019-06-09 03:11:42 +00:00
// Is the tween completed?
2017-12-29 12:59:45 +00:00
if ( data . finish ) {
2021-10-24 02:40:03 +00:00
static_assert ( VARIANT_ARG_MAX = = 8 , " This code needs to be updated if VARIANT_ARG_MAX != 8 " ) ;
2019-06-09 03:11:42 +00:00
// Are we calling this callback deferred or immediately?
2017-12-29 12:59:45 +00:00
if ( data . call_deferred ) {
2019-06-09 03:11:42 +00:00
// Run the deferred function callback, applying the correct number of arguments
2017-12-29 12:59:45 +00:00
switch ( data . args ) {
case 0 :
object - > call_deferred ( data . key [ 0 ] ) ;
break ;
case 1 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] ) ;
break ;
case 2 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] ) ;
break ;
case 3 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] , data . arg [ 2 ] ) ;
break ;
case 4 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] , data . arg [ 2 ] , data . arg [ 3 ] ) ;
break ;
case 5 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] , data . arg [ 2 ] , data . arg [ 3 ] , data . arg [ 4 ] ) ;
break ;
2021-10-24 02:40:03 +00:00
case 6 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] , data . arg [ 2 ] , data . arg [ 3 ] , data . arg [ 4 ] , data . arg [ 5 ] ) ;
break ;
case 7 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] , data . arg [ 2 ] , data . arg [ 3 ] , data . arg [ 4 ] , data . arg [ 5 ] , data . arg [ 6 ] ) ;
break ;
case 8 :
object - > call_deferred ( data . key [ 0 ] , data . arg [ 0 ] , data . arg [ 1 ] , data . arg [ 2 ] , data . arg [ 3 ] , data . arg [ 4 ] , data . arg [ 5 ] , data . arg [ 6 ] , data . arg [ 7 ] ) ;
break ;
2015-01-07 11:46:01 +00:00
}
2017-12-29 12:59:45 +00:00
} else {
2019-06-09 03:11:42 +00:00
// Call the function directly with the arguments
2017-12-29 12:59:45 +00:00
Variant : : CallError error ;
2021-10-24 02:40:03 +00:00
Variant * arg [ VARIANT_ARG_MAX ] = {
2017-12-29 12:59:45 +00:00
& data . arg [ 0 ] ,
& data . arg [ 1 ] ,
& data . arg [ 2 ] ,
& data . arg [ 3 ] ,
& data . arg [ 4 ] ,
2021-10-24 02:40:03 +00:00
& data . arg [ 5 ] ,
& data . arg [ 6 ] ,
& data . arg [ 7 ] ,
2017-12-29 12:59:45 +00:00
} ;
object - > call ( data . key [ 0 ] , ( const Variant * * ) arg , data . args , error ) ;
2014-08-25 05:36:56 +00:00
}
2017-12-29 12:59:45 +00:00
}
} else {
2019-06-09 03:11:42 +00:00
// We can apply the value directly
2017-12-29 12:59:45 +00:00
Variant result = _run_equation ( data ) ;
_apply_tween_value ( data , result ) ;
2019-06-09 03:11:42 +00:00
// Emit that the tween has taken a step
Fix and make Tween node less confusing
I've made the following changes:
- make `is_active` the main way of keeping track of tween
processing/activity, meaning that `is_active` will now return
`false` if all tween actions have finished or if it isn't started
or if it was stopped via `set_active(false)` or any other mode
- removed is_stopped because is redundand now
The above meant that we don't have to keep track of yet another variable
`available` since everything is based on `*processing_internal` so I
removed it, likewise it's own local `processing` variable was removed,
as well as the "double" `_set_process` which it feels more like a hack.
What wasn't changed:
- `tell()` still returns max value (i.e. `== get_runtime()` when all
tweens `finish`)
*More testing is needed*. So far I've tested repeat on/off, delay,
`is_active()` working corretly, `set_active(true), set_active(false)`,
but probably more tests are necessary, all the resets, stops, resume
etc.
2018-06-26 15:29:08 +00:00
emit_signal ( " tween_step " , object , NodePath ( Vector < StringName > ( ) , data . key , false ) , data . elapsed , result ) ;
2014-08-22 03:24:53 +00:00
}
2019-06-09 03:11:42 +00:00
// Is the tween now finished?
2015-05-05 03:12:17 +00:00
if ( data . finish ) {
2019-06-09 03:11:42 +00:00
// Set it to the final value directly
2019-10-23 20:38:43 +00:00
Variant final_val = _get_final_val ( data ) ;
_apply_tween_value ( data , final_val ) ;
2019-06-09 03:11:42 +00:00
2022-01-15 14:00:43 +00:00
// Emit the signal
2017-05-30 20:20:15 +00:00
emit_signal ( " tween_completed " , object , NodePath ( Vector < StringName > ( ) , data . key , false ) ) ;
2019-06-09 03:11:42 +00:00
// If we are not repeating the tween, remove it
2021-05-05 10:44:11 +00:00
if ( ! repeat ) {
2018-08-15 15:26:10 +00:00
call_deferred ( " _remove_by_uid " , data . uid ) ;
2021-05-05 10:44:11 +00:00
}
2020-08-25 10:58:40 +00:00
} else if ( ! repeat ) {
// Check whether all tweens are finished
all_finished = all_finished & & data . finish ;
2019-06-09 03:11:42 +00:00
}
2014-08-20 04:01:41 +00:00
}
2019-06-09 03:11:42 +00:00
// One less update left to go
2017-03-05 15:44:50 +00:00
pending_update - - ;
Fix and make Tween node less confusing
I've made the following changes:
- make `is_active` the main way of keeping track of tween
processing/activity, meaning that `is_active` will now return
`false` if all tween actions have finished or if it isn't started
or if it was stopped via `set_active(false)` or any other mode
- removed is_stopped because is redundand now
The above meant that we don't have to keep track of yet another variable
`available` since everything is based on `*processing_internal` so I
removed it, likewise it's own local `processing` variable was removed,
as well as the "double" `_set_process` which it feels more like a hack.
What wasn't changed:
- `tell()` still returns max value (i.e. `== get_runtime()` when all
tweens `finish`)
*More testing is needed*. So far I've tested repeat on/off, delay,
`is_active()` working corretly, `set_active(true), set_active(false)`,
but probably more tests are necessary, all the resets, stops, resume
etc.
2018-06-26 15:29:08 +00:00
2019-06-09 03:11:42 +00:00
// If all tweens are completed, we no longer need to be active
2020-08-25 10:58:40 +00:00
if ( all_finished ) {
2018-06-26 17:19:11 +00:00
set_active ( false ) ;
2019-03-19 12:58:37 +00:00
emit_signal ( " tween_all_completed " ) ;
}
2014-08-20 04:01:41 +00:00
}
void Tween : : set_tween_process_mode ( TweenProcessMode p_mode ) {
2017-03-05 15:44:50 +00:00
tween_process_mode = p_mode ;
2014-08-20 04:01:41 +00:00
}
Tween : : TweenProcessMode Tween : : get_tween_process_mode ( ) const {
return tween_process_mode ;
}
bool Tween : : is_active ( ) const {
Fix and make Tween node less confusing
I've made the following changes:
- make `is_active` the main way of keeping track of tween
processing/activity, meaning that `is_active` will now return
`false` if all tween actions have finished or if it isn't started
or if it was stopped via `set_active(false)` or any other mode
- removed is_stopped because is redundand now
The above meant that we don't have to keep track of yet another variable
`available` since everything is based on `*processing_internal` so I
removed it, likewise it's own local `processing` variable was removed,
as well as the "double" `_set_process` which it feels more like a hack.
What wasn't changed:
- `tell()` still returns max value (i.e. `== get_runtime()` when all
tweens `finish`)
*More testing is needed*. So far I've tested repeat on/off, delay,
`is_active()` working corretly, `set_active(true), set_active(false)`,
but probably more tests are necessary, all the resets, stops, resume
etc.
2018-06-26 15:29:08 +00:00
return is_processing_internal ( ) | | is_physics_processing_internal ( ) ;
2014-08-20 04:01:41 +00:00
}
void Tween : : set_active ( bool p_active ) {
2019-06-09 03:11:42 +00:00
// Do nothing if it's the same active mode that we currently are
2021-05-05 10:44:11 +00:00
if ( is_active ( ) = = p_active ) {
2014-08-20 04:01:41 +00:00
return ;
2021-05-05 10:44:11 +00:00
}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Depending on physics or idle, set processing
Fix and make Tween node less confusing
I've made the following changes:
- make `is_active` the main way of keeping track of tween
processing/activity, meaning that `is_active` will now return
`false` if all tween actions have finished or if it isn't started
or if it was stopped via `set_active(false)` or any other mode
- removed is_stopped because is redundand now
The above meant that we don't have to keep track of yet another variable
`available` since everything is based on `*processing_internal` so I
removed it, likewise it's own local `processing` variable was removed,
as well as the "double" `_set_process` which it feels more like a hack.
What wasn't changed:
- `tell()` still returns max value (i.e. `== get_runtime()` when all
tweens `finish`)
*More testing is needed*. So far I've tested repeat on/off, delay,
`is_active()` working corretly, `set_active(true), set_active(false)`,
but probably more tests are necessary, all the resets, stops, resume
etc.
2018-06-26 15:29:08 +00:00
switch ( tween_process_mode ) {
2021-05-04 12:35:44 +00:00
case TWEEN_PROCESS_IDLE :
set_process_internal ( p_active ) ;
break ;
case TWEEN_PROCESS_PHYSICS :
set_physics_process_internal ( p_active ) ;
break ;
Fix and make Tween node less confusing
I've made the following changes:
- make `is_active` the main way of keeping track of tween
processing/activity, meaning that `is_active` will now return
`false` if all tween actions have finished or if it isn't started
or if it was stopped via `set_active(false)` or any other mode
- removed is_stopped because is redundand now
The above meant that we don't have to keep track of yet another variable
`available` since everything is based on `*processing_internal` so I
removed it, likewise it's own local `processing` variable was removed,
as well as the "double" `_set_process` which it feels more like a hack.
What wasn't changed:
- `tell()` still returns max value (i.e. `== get_runtime()` when all
tweens `finish`)
*More testing is needed*. So far I've tested repeat on/off, delay,
`is_active()` working corretly, `set_active(true), set_active(false)`,
but probably more tests are necessary, all the resets, stops, resume
etc.
2018-06-26 15:29:08 +00:00
}
2014-08-20 04:01:41 +00:00
}
2014-08-20 08:39:28 +00:00
bool Tween : : is_repeat ( ) const {
return repeat ;
}
void Tween : : set_repeat ( bool p_repeat ) {
repeat = p_repeat ;
}
2017-01-13 22:36:04 +00:00
void Tween : : set_speed_scale ( float p_speed ) {
2017-03-05 15:44:50 +00:00
speed_scale = p_speed ;
2014-08-20 04:01:41 +00:00
}
2017-01-13 22:36:04 +00:00
float Tween : : get_speed_scale ( ) const {
2014-08-20 04:01:41 +00:00
return speed_scale ;
}
bool Tween : : start ( ) {
2019-08-31 23:25:22 +00:00
ERR_FAIL_COND_V_MSG ( ! is_inside_tree ( ) , false , " Tween was not added to the SceneTree! " ) ;
2019-06-09 03:11:42 +00:00
// Are there any pending updates?
2018-09-09 21:23:15 +00:00
if ( pending_update ! = 0 ) {
2019-06-09 03:11:42 +00:00
// Start the tweens after deferring
2020-01-22 21:27:37 +00:00
call_deferred ( " start " ) ;
2018-09-09 21:23:15 +00:00
return true ;
}
2014-08-20 04:01:41 +00:00
2021-03-18 21:01:59 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
InterpolateData & data = E - > get ( ) ;
data . active = true ;
}
pending_update - - ;
2019-06-09 03:11:42 +00:00
// We want to be activated
2014-08-20 04:01:41 +00:00
set_active ( true ) ;
2021-03-18 21:01:59 +00:00
// Don't resume from current position if stop_all() function has been used
if ( was_stopped ) {
seek ( 0 ) ;
}
was_stopped = false ;
2014-08-20 04:01:41 +00:00
return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : reset ( Object * p_object , StringName p_key ) {
2019-06-09 03:11:42 +00:00
// Find all interpolations that use the same object and target string
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
2019-06-09 03:11:42 +00:00
// Get the target object
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2014-12-19 09:13:20 +00:00
Object * object = ObjectDB : : get_instance ( data . id ) ;
2021-05-05 10:44:11 +00:00
if ( object = = nullptr ) {
2014-08-22 03:24:53 +00:00
continue ;
2021-05-05 10:44:11 +00:00
}
2014-08-22 03:24:53 +00:00
2019-06-09 03:11:42 +00:00
// Do we have the correct object and key?
2017-05-30 20:20:15 +00:00
if ( object = = p_object & & ( data . concatenated_key = = p_key | | p_key = = " " ) ) {
2019-06-09 03:11:42 +00:00
// Reset the tween to the initial state
2014-08-21 07:34:16 +00:00
data . elapsed = 0 ;
data . finish = false ;
2019-06-09 03:11:42 +00:00
// Also apply the initial state if there isn't a delay
2021-05-05 10:44:11 +00:00
if ( data . delay = = 0 ) {
2014-08-21 07:51:18 +00:00
_apply_tween_value ( data , data . initial_val ) ;
2021-05-05 10:44:11 +00:00
}
2014-08-21 07:34:16 +00:00
}
2014-08-20 04:01:41 +00:00
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
2014-08-20 04:01:41 +00:00
return true ;
}
bool Tween : : reset_all ( ) {
2019-06-09 03:11:42 +00:00
// Go through all interpolations
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
2019-06-09 03:11:42 +00:00
// Get the target data and set it back to the initial state
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2014-08-21 07:34:16 +00:00
data . elapsed = 0 ;
data . finish = false ;
2019-06-09 03:11:42 +00:00
// If there isn't a delay, apply the value to the object
2021-05-05 10:44:11 +00:00
if ( data . delay = = 0 ) {
2014-08-21 07:51:18 +00:00
_apply_tween_value ( data , data . initial_val ) ;
2021-05-05 10:44:11 +00:00
}
2014-08-20 04:01:41 +00:00
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
2014-08-20 04:01:41 +00:00
return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : stop ( Object * p_object , StringName p_key ) {
2019-06-09 03:11:42 +00:00
// Find the tween that has the given target object and string key
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
2019-06-09 03:11:42 +00:00
// Get the object the tween is targeting
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2014-12-19 09:13:20 +00:00
Object * object = ObjectDB : : get_instance ( data . id ) ;
2021-05-05 10:44:11 +00:00
if ( object = = nullptr ) {
2014-08-22 03:24:53 +00:00
continue ;
2021-05-05 10:44:11 +00:00
}
2019-06-09 03:11:42 +00:00
// Is this the correct object and does it have the given key?
2021-05-05 10:44:11 +00:00
if ( object = = p_object & & ( data . concatenated_key = = p_key | | p_key = = " " ) ) {
2019-06-09 03:11:42 +00:00
// Disable the tween
2014-08-20 04:01:41 +00:00
data . active = false ;
2021-05-05 10:44:11 +00:00
}
2014-08-20 04:01:41 +00:00
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
2014-08-20 04:01:41 +00:00
return true ;
}
bool Tween : : stop_all ( ) {
2019-06-09 03:11:42 +00:00
// We no longer need to be active since all tweens have been stopped
2014-08-20 04:01:41 +00:00
set_active ( false ) ;
2021-03-18 21:01:59 +00:00
was_stopped = true ;
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// For each interpolation...
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
2019-06-09 03:11:42 +00:00
// Simply set it inactive
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2014-08-20 04:01:41 +00:00
data . active = false ;
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
2014-08-20 04:01:41 +00:00
return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : resume ( Object * p_object , StringName p_key ) {
2019-06-09 03:11:42 +00:00
// We need to be activated
// TODO: What if no tween is found??
2014-08-20 04:01:41 +00:00
set_active ( true ) ;
2019-06-09 03:11:42 +00:00
// Find the tween that uses the given target object and string key
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
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// Grab the object
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InterpolateData & data = E - > get ( ) ;
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Object * object = ObjectDB : : get_instance ( data . id ) ;
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if ( object = = nullptr ) {
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continue ;
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}
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// If the object and string key match, activate it
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if ( object = = p_object & & ( data . concatenated_key = = p_key | | p_key = = " " ) ) {
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data . active = true ;
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}
2014-08-20 04:01:41 +00:00
}
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pending_update - - ;
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return true ;
}
bool Tween : : resume_all ( ) {
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// Set ourselves active so we can process tweens
// TODO: What if there are no tweens? We get set to active for no reason!
2014-08-20 04:01:41 +00:00
set_active ( true ) ;
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// For each interpolation...
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
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// Simply grab it and set it to active
2017-03-05 15:44:50 +00:00
InterpolateData & data = E - > get ( ) ;
2014-08-20 04:01:41 +00:00
data . active = true ;
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
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return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : remove ( Object * p_object , StringName p_key ) {
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// If we are still updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
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call_deferred ( " remove " , p_object , p_key ) ;
return true ;
2015-05-05 03:12:17 +00:00
}
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// For each interpolation...
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List < List < InterpolateData > : : Element * > for_removal ;
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for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
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// Get the target object
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InterpolateData & data = E - > get ( ) ;
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Object * object = ObjectDB : : get_instance ( data . id ) ;
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if ( object = = nullptr ) {
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continue ;
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}
2019-06-09 03:11:42 +00:00
// If the target object and string key match, queue it for removal
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if ( object = = p_object & & ( data . concatenated_key = = p_key | | p_key = = " " ) ) {
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for_removal . push_back ( E ) ;
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}
}
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// For each interpolation we wish to remove...
2017-03-05 15:44:50 +00:00
for ( List < List < InterpolateData > : : Element * > : : Element * E = for_removal . front ( ) ; E ; E = E - > next ( ) ) {
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// Erase it
2016-09-25 21:25:52 +00:00
interpolates . erase ( E - > get ( ) ) ;
}
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return true ;
}
void Tween : : _remove_by_uid ( int uid ) {
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// If we are still updating, call this function again later
2018-08-15 15:26:10 +00:00
if ( pending_update ! = 0 ) {
call_deferred ( " _remove_by_uid " , uid ) ;
return ;
}
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// Find the interpolation that matches the given UID
2018-08-15 15:26:10 +00:00
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
if ( uid = = E - > get ( ) . uid ) {
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// It matches, erase it and stop looking
2018-08-15 15:26:10 +00:00
E - > erase ( ) ;
break ;
}
}
}
void Tween : : _push_interpolate_data ( InterpolateData & p_data ) {
pending_update + + ;
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// Add the new interpolation
2018-08-15 15:26:10 +00:00
p_data . uid = + + uid ;
interpolates . push_back ( p_data ) ;
2019-06-09 03:11:42 +00:00
2018-08-15 15:26:10 +00:00
pending_update - - ;
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}
bool Tween : : remove_all ( ) {
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// If we are still updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
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call_deferred ( " remove_all " ) ;
return true ;
}
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// We no longer need to be active
2014-08-20 04:19:22 +00:00
set_active ( false ) ;
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// Clear out all interpolations and reset the uid
2014-08-20 04:19:22 +00:00
interpolates . clear ( ) ;
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uid = 0 ;
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2014-08-20 04:19:22 +00:00
return true ;
}
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bool Tween : : seek ( real_t p_time ) {
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// Go through each interpolation...
2017-03-05 15:44:50 +00:00
pending_update + + ;
for ( List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
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// Get the target data
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InterpolateData & data = E - > get ( ) ;
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2019-06-09 03:11:42 +00:00
// Update the elapsed data to be set to the target time
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data . elapsed = p_time ;
2014-08-22 06:25:41 +00:00
2019-06-09 03:11:42 +00:00
// Are we at the end?
if ( data . elapsed < data . delay ) {
// There is still time left to go
2014-08-22 06:25:41 +00:00
data . finish = false ;
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continue ;
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} else if ( data . elapsed > = ( data . delay + data . duration ) ) {
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// We are past the end of it, set the elapsed time to the end and mark as finished
2017-01-13 18:40:18 +00:00
data . elapsed = ( data . delay + data . duration ) ;
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data . finish = true ;
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} else {
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// We are not finished with this interpolation yet
2014-08-22 06:25:41 +00:00
data . finish = false ;
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}
2014-08-20 08:39:28 +00:00
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// If we are a callback, do nothing special
2018-09-26 11:13:56 +00:00
if ( data . type = = INTER_CALLBACK ) {
continue ;
2014-08-22 03:24:53 +00:00
}
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// Run the equation on the data and apply the value
2014-08-20 08:39:28 +00:00
Variant result = _run_equation ( data ) ;
_apply_tween_value ( data , result ) ;
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
2014-08-20 08:39:28 +00:00
return true ;
}
2014-08-20 04:19:22 +00:00
2014-08-22 06:25:41 +00:00
real_t Tween : : tell ( ) const {
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// We want to grab the position of the furthest along tween
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pending_update + + ;
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real_t pos = 0 ;
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// For each interpolation...
for ( const List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
// Get the data and figure out if it's position is further along than the previous ones
2017-03-05 15:44:50 +00:00
const InterpolateData & data = E - > get ( ) ;
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if ( data . elapsed > pos ) {
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// Save it if so
2014-08-22 06:25:41 +00:00
pos = data . elapsed ;
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}
2014-08-22 06:25:41 +00:00
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
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return pos ;
}
real_t Tween : : get_runtime ( ) const {
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// If the tween isn't moving, it'll last forever
2018-05-23 11:55:15 +00:00
if ( speed_scale = = 0 ) {
return INFINITY ;
}
2017-03-05 15:44:50 +00:00
pending_update + + ;
2019-06-09 03:11:42 +00:00
// For each interpolation...
2014-08-21 07:34:16 +00:00
real_t runtime = 0 ;
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for ( const List < InterpolateData > : : Element * E = interpolates . front ( ) ; E ; E = E - > next ( ) ) {
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// Get the tween data and see if it's runtime is greater than the previous tweens
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const InterpolateData & data = E - > get ( ) ;
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real_t t = data . delay + data . duration ;
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if ( t > runtime ) {
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// This is the longest running tween
2014-08-21 07:34:16 +00:00
runtime = t ;
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}
2014-08-21 07:34:16 +00:00
}
2017-03-05 15:44:50 +00:00
pending_update - - ;
2018-05-23 11:55:15 +00:00
2019-06-09 03:11:42 +00:00
// Adjust the runtime for the current speed scale
2018-05-23 11:55:15 +00:00
return runtime / speed_scale ;
2014-08-21 07:34:16 +00:00
}
2017-03-05 15:44:50 +00:00
bool Tween : : _calc_delta_val ( const Variant & p_initial_val , const Variant & p_final_val , Variant & p_delta_val ) {
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// Get the initial, final, and delta values
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const Variant & initial_val = p_initial_val ;
const Variant & final_val = p_final_val ;
Variant & delta_val = p_delta_val ;
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// What kind of data are we interpolating?
2017-03-05 15:44:50 +00:00
switch ( initial_val . get_type ( ) ) {
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case Variant : : BOOL :
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// We'll treat booleans just like integers
2014-08-20 04:01:41 +00:00
case Variant : : INT :
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// Compute the integer delta
2017-03-05 15:44:50 +00:00
delta_val = ( int ) final_val - ( int ) initial_val ;
2014-08-20 04:01:41 +00:00
break ;
case Variant : : REAL :
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// Convert to REAL and find the delta
2017-03-05 15:44:50 +00:00
delta_val = ( real_t ) final_val - ( real_t ) initial_val ;
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break ;
case Variant : : VECTOR2 :
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// Convert to Vectors and find the delta
2014-08-20 04:01:41 +00:00
delta_val = final_val . operator Vector2 ( ) - initial_val . operator Vector2 ( ) ;
break ;
2020-02-22 16:52:22 +00:00
case Variant : : RECT2 : {
// Build a new Rect2 and use the new position and sizes to make a delta
Rect2 i = initial_val ;
Rect2 f = final_val ;
delta_val = Rect2 ( f . position - i . position , f . size - i . size ) ;
} break ;
2014-08-20 04:01:41 +00:00
case Variant : : VECTOR3 :
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// Convert to Vectors and find the delta
2014-08-20 04:01:41 +00:00
delta_val = final_val . operator Vector3 ( ) - initial_val . operator Vector3 ( ) ;
break ;
2017-03-05 15:44:50 +00:00
case Variant : : TRANSFORM2D : {
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// Build a new transform which is the difference between the initial and final values
2017-03-05 15:44:50 +00:00
Transform2D i = initial_val ;
Transform2D f = final_val ;
Transform2D d = Transform2D ( ) ;
d [ 0 ] [ 0 ] = f . elements [ 0 ] [ 0 ] - i . elements [ 0 ] [ 0 ] ;
d [ 0 ] [ 1 ] = f . elements [ 0 ] [ 1 ] - i . elements [ 0 ] [ 1 ] ;
d [ 1 ] [ 0 ] = f . elements [ 1 ] [ 0 ] - i . elements [ 1 ] [ 0 ] ;
d [ 1 ] [ 1 ] = f . elements [ 1 ] [ 1 ] - i . elements [ 1 ] [ 1 ] ;
d [ 2 ] [ 0 ] = f . elements [ 2 ] [ 0 ] - i . elements [ 2 ] [ 0 ] ;
d [ 2 ] [ 1 ] = f . elements [ 2 ] [ 1 ] - i . elements [ 2 ] [ 1 ] ;
delta_val = d ;
} break ;
2019-06-09 03:11:42 +00:00
2014-08-20 04:01:41 +00:00
case Variant : : QUAT :
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// Convert to quaternianls and find the delta
2014-08-20 04:01:41 +00:00
delta_val = final_val . operator Quat ( ) - initial_val . operator Quat ( ) ;
break ;
2019-06-09 03:11:42 +00:00
2017-11-17 02:09:00 +00:00
case Variant : : AABB : {
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// Build a new AABB and use the new position and sizes to make a delta
2017-11-17 02:09:00 +00:00
AABB i = initial_val ;
AABB f = final_val ;
delta_val = AABB ( f . position - i . position , f . size - i . size ) ;
2017-03-05 15:44:50 +00:00
} break ;
2019-06-09 03:11:42 +00:00
2020-02-22 16:52:22 +00:00
case Variant : : BASIS : {
// Build a new basis which is the delta between the initial and final values
Basis i = initial_val ;
Basis f = final_val ;
delta_val = Basis ( f . elements [ 0 ] [ 0 ] - i . elements [ 0 ] [ 0 ] ,
f . elements [ 0 ] [ 1 ] - i . elements [ 0 ] [ 1 ] ,
f . elements [ 0 ] [ 2 ] - i . elements [ 0 ] [ 2 ] ,
f . elements [ 1 ] [ 0 ] - i . elements [ 1 ] [ 0 ] ,
f . elements [ 1 ] [ 1 ] - i . elements [ 1 ] [ 1 ] ,
f . elements [ 1 ] [ 2 ] - i . elements [ 1 ] [ 2 ] ,
f . elements [ 2 ] [ 0 ] - i . elements [ 2 ] [ 0 ] ,
f . elements [ 2 ] [ 1 ] - i . elements [ 2 ] [ 1 ] ,
f . elements [ 2 ] [ 2 ] - i . elements [ 2 ] [ 2 ] ) ;
} break ;
2017-03-05 15:44:50 +00:00
case Variant : : TRANSFORM : {
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// Build a new transform which is the difference between the initial and final values
2017-03-05 15:44:50 +00:00
Transform i = initial_val ;
Transform f = final_val ;
Transform d ;
d . set ( f . basis . elements [ 0 ] [ 0 ] - i . basis . elements [ 0 ] [ 0 ] ,
2014-08-20 04:01:41 +00:00
f . basis . elements [ 0 ] [ 1 ] - i . basis . elements [ 0 ] [ 1 ] ,
f . basis . elements [ 0 ] [ 2 ] - i . basis . elements [ 0 ] [ 2 ] ,
f . basis . elements [ 1 ] [ 0 ] - i . basis . elements [ 1 ] [ 0 ] ,
f . basis . elements [ 1 ] [ 1 ] - i . basis . elements [ 1 ] [ 1 ] ,
f . basis . elements [ 1 ] [ 2 ] - i . basis . elements [ 1 ] [ 2 ] ,
f . basis . elements [ 2 ] [ 0 ] - i . basis . elements [ 2 ] [ 0 ] ,
f . basis . elements [ 2 ] [ 1 ] - i . basis . elements [ 2 ] [ 1 ] ,
f . basis . elements [ 2 ] [ 2 ] - i . basis . elements [ 2 ] [ 2 ] ,
f . origin . x - i . origin . x ,
f . origin . y - i . origin . y ,
2017-03-05 15:44:50 +00:00
f . origin . z - i . origin . z ) ;
2014-08-20 04:01:41 +00:00
2017-03-05 15:44:50 +00:00
delta_val = d ;
} break ;
2019-06-09 03:11:42 +00:00
2017-03-05 15:44:50 +00:00
case Variant : : COLOR : {
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// Make a new color which is the difference between each the color's RGBA attributes
2017-03-05 15:44:50 +00:00
Color i = initial_val ;
Color f = final_val ;
delta_val = Color ( f . r - i . r , f . g - i . g , f . b - i . b , f . a - i . a ) ;
} break ;
2014-08-20 04:01:41 +00:00
2020-02-22 16:52:22 +00:00
default : {
static Variant : : Type supported_types [ ] = {
Variant : : BOOL ,
Variant : : INT ,
Variant : : REAL ,
Variant : : VECTOR2 ,
Variant : : RECT2 ,
Variant : : VECTOR3 ,
Variant : : TRANSFORM2D ,
Variant : : QUAT ,
Variant : : AABB ,
Variant : : BASIS ,
Variant : : TRANSFORM ,
Variant : : COLOR ,
} ;
int length = * ( & supported_types + 1 ) - supported_types ;
String error_msg = " Invalid parameter type. Supported types are: " ;
for ( int i = 0 ; i < length ; i + + ) {
if ( i ! = 0 ) {
error_msg + = " , " ;
}
error_msg + = Variant : : get_type_name ( supported_types [ i ] ) ;
}
error_msg + = " . " ;
ERR_PRINT ( error_msg ) ;
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return false ;
2020-02-22 16:52:22 +00:00
}
2014-08-20 04:01:41 +00:00
} ;
return true ;
}
2019-06-09 03:11:42 +00:00
bool Tween : : _build_interpolation ( InterpolateType p_interpolation_type , Object * p_object , NodePath * p_property , StringName * p_method , Variant p_initial_val , Variant p_final_val , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
// TODO: Add initialization+implementation for remaining interpolation types
// TODO: Fix this method's organization to take advantage of the type
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Make a new interpolation data
2014-08-20 04:01:41 +00:00
InterpolateData data ;
data . active = true ;
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data . type = p_interpolation_type ;
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data . finish = false ;
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data . elapsed = 0 ;
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// Validate and apply interpolation data
// Give it the object
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ERR_FAIL_COND_V_MSG ( p_object = = nullptr , false , " Invalid object provided to Tween. " ) ;
2017-08-07 10:17:31 +00:00
data . id = p_object - > get_instance_id ( ) ;
2019-06-09 03:11:42 +00:00
// Validate the initial and final values
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( p_initial_val . get_type ( ) ! = p_final_val . get_type ( ) , false , " Initial value type ' " + Variant : : get_type_name ( p_initial_val . get_type ( ) ) + " ' does not match final value type ' " + Variant : : get_type_name ( p_final_val . get_type ( ) ) + " '. " ) ;
2014-08-20 04:01:41 +00:00
data . initial_val = p_initial_val ;
data . final_val = p_final_val ;
2019-06-09 03:11:42 +00:00
// Check the Duration
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( p_duration < 0 , false , " Only non-negative duration values allowed in Tweens. " ) ;
2017-01-13 18:40:18 +00:00
data . duration = p_duration ;
2019-06-09 03:11:42 +00:00
// Tween Delay
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( p_delay < 0 , false , " Only non-negative delay values allowed in Tweens. " ) ;
2019-06-09 03:11:42 +00:00
data . delay = p_delay ;
// Transition type
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( p_trans_type < 0 | | p_trans_type > = TRANS_COUNT , false , " Invalid transition type provided to Tween. " ) ;
2014-08-20 04:01:41 +00:00
data . trans_type = p_trans_type ;
2019-06-09 03:11:42 +00:00
// Easing type
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( p_ease_type < 0 | | p_ease_type > = EASE_COUNT , false , " Invalid easing type provided to Tween. " ) ;
2014-08-20 04:01:41 +00:00
data . ease_type = p_ease_type ;
2019-06-09 03:11:42 +00:00
// Is the property defined?
if ( p_property ) {
// Check that the object actually contains the given property
bool prop_valid = false ;
p_object - > get_indexed ( p_property - > get_subnames ( ) , & prop_valid ) ;
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( ! prop_valid , false , " Tween target object has no property named: " + p_property - > get_concatenated_subnames ( ) + " . " ) ;
2019-06-09 03:11:42 +00:00
data . key = p_property - > get_subnames ( ) ;
data . concatenated_key = p_property - > get_concatenated_subnames ( ) ;
}
// Is the method defined?
if ( p_method ) {
// Does the object even have the requested method?
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( ! p_object - > has_method ( * p_method ) , false , " Tween target object has no method named: " + * p_method + " . " ) ;
2019-06-09 03:11:42 +00:00
data . key . push_back ( * p_method ) ;
data . concatenated_key = * p_method ;
}
// Is there not a valid delta?
2021-05-05 10:44:11 +00:00
if ( ! _calc_delta_val ( data . initial_val , data . final_val , data . delta_val ) ) {
2014-08-20 04:01:41 +00:00
return false ;
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}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Add this interpolation to the total
2018-08-15 15:26:10 +00:00
_push_interpolate_data ( data ) ;
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return true ;
}
2019-06-09 03:11:42 +00:00
bool Tween : : interpolate_property ( Object * p_object , NodePath p_property , Variant p_initial_val , Variant p_final_val , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
// If we are busy updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
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_add_pending_command ( " interpolate_property " , p_object , p_property , p_initial_val , p_final_val , p_duration , p_trans_type , p_ease_type , p_delay ) ;
2015-05-05 03:12:17 +00:00
return true ;
}
2014-08-20 04:01:41 +00:00
2021-01-25 05:12:49 +00:00
// Check that the target object is valid
ERR_FAIL_COND_V_MSG ( p_object = = nullptr , false , vformat ( " The Tween \" %s \" 's target node is `null`. Is the node reference correct? " , get_name ( ) ) ) ;
2019-06-09 03:11:42 +00:00
// Get the property from the node path
p_property = p_property . get_as_property_path ( ) ;
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// If no initial value given, grab the initial value from the object
// TODO: Is this documented? This is very useful and removes a lot of clutter from tweens!
2021-05-05 10:44:11 +00:00
if ( p_initial_val . get_type ( ) = = Variant : : NIL ) {
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p_initial_val = p_object - > get_indexed ( p_property . get_subnames ( ) ) ;
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}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Convert any integers into REALs as they are better for interpolation
2021-05-05 10:44:11 +00:00
if ( p_initial_val . get_type ( ) = = Variant : : INT ) {
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p_initial_val = p_initial_val . operator real_t ( ) ;
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}
if ( p_final_val . get_type ( ) = = Variant : : INT ) {
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p_final_val = p_final_val . operator real_t ( ) ;
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}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
// Build the interpolation data
2021-05-04 14:00:45 +00:00
bool result = _build_interpolation ( INTER_PROPERTY , p_object , & p_property , nullptr , p_initial_val , p_final_val , p_duration , p_trans_type , p_ease_type , p_delay ) ;
2019-06-09 03:11:42 +00:00
return result ;
}
2014-08-20 04:01:41 +00:00
2019-06-09 03:11:42 +00:00
bool Tween : : interpolate_method ( Object * p_object , StringName p_method , Variant p_initial_val , Variant p_final_val , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
// If we are busy updating, call this function again later
if ( pending_update ! = 0 ) {
_add_pending_command ( " interpolate_method " , p_object , p_method , p_initial_val , p_final_val , p_duration , p_trans_type , p_ease_type , p_delay ) ;
return true ;
}
2014-08-20 04:01:41 +00:00
2021-01-25 05:12:49 +00:00
// Check that the target object is valid
ERR_FAIL_COND_V_MSG ( p_object = = nullptr , false , vformat ( " The Tween \" %s \" 's target node is `null`. Is the node reference correct? " , get_name ( ) ) ) ;
2019-06-09 03:11:42 +00:00
// Convert any integers into REALs as they are better for interpolation
2021-05-05 10:44:11 +00:00
if ( p_initial_val . get_type ( ) = = Variant : : INT ) {
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p_initial_val = p_initial_val . operator real_t ( ) ;
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}
if ( p_final_val . get_type ( ) = = Variant : : INT ) {
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p_final_val = p_final_val . operator real_t ( ) ;
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}
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// Build the interpolation data
2021-05-04 14:00:45 +00:00
bool result = _build_interpolation ( INTER_METHOD , p_object , nullptr , & p_method , p_initial_val , p_final_val , p_duration , p_trans_type , p_ease_type , p_delay ) ;
2019-06-09 03:11:42 +00:00
return result ;
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}
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bool Tween : : interpolate_callback ( Object * p_object , real_t p_duration , String p_callback , VARIANT_ARG_DECLARE ) {
2019-06-09 03:11:42 +00:00
// If we are already updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
_add_pending_command ( " interpolate_callback " , p_object , p_duration , p_callback , p_arg1 , p_arg2 , p_arg3 , p_arg4 , p_arg5 ) ;
2015-05-05 03:12:17 +00:00
return true ;
}
2016-04-07 07:45:16 +00:00
2019-06-09 03:11:42 +00:00
// Check that the target object is valid
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ERR_FAIL_COND_V ( p_object = = nullptr , false ) ;
2019-06-09 03:11:42 +00:00
// Duration cannot be negative
2017-01-13 18:40:18 +00:00
ERR_FAIL_COND_V ( p_duration < 0 , false ) ;
2015-01-07 11:46:01 +00:00
2019-06-09 03:11:42 +00:00
// Check whether the object even has the callback
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( ! p_object - > has_method ( p_callback ) , false , " Object has no callback named: " + p_callback + " . " ) ;
2015-01-07 11:46:01 +00:00
2019-06-09 03:11:42 +00:00
// Build a new InterpolationData
2015-01-07 11:46:01 +00:00
InterpolateData data ;
data . active = true ;
data . type = INTER_CALLBACK ;
data . finish = false ;
data . call_deferred = false ;
data . elapsed = 0 ;
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// Give the data it's configuration
2017-08-07 10:17:31 +00:00
data . id = p_object - > get_instance_id ( ) ;
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data . key . push_back ( p_callback ) ;
data . concatenated_key = p_callback ;
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data . duration = p_duration ;
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data . delay = 0 ;
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// Add arguments to the interpolation
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int args = 0 ;
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if ( p_arg5 . get_type ( ) ! = Variant : : NIL ) {
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args = 5 ;
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} else if ( p_arg4 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 4 ;
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} else if ( p_arg3 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 3 ;
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} else if ( p_arg2 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 2 ;
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} else if ( p_arg1 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 1 ;
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} else {
2017-03-05 15:44:50 +00:00
args = 0 ;
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}
2015-01-07 11:46:01 +00:00
data . args = args ;
data . arg [ 0 ] = p_arg1 ;
data . arg [ 1 ] = p_arg2 ;
data . arg [ 2 ] = p_arg3 ;
data . arg [ 3 ] = p_arg4 ;
data . arg [ 4 ] = p_arg5 ;
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// Add the new interpolation
2018-08-15 15:26:10 +00:00
_push_interpolate_data ( data ) ;
2015-01-07 11:46:01 +00:00
return true ;
}
2017-03-05 15:44:50 +00:00
bool Tween : : interpolate_deferred_callback ( Object * p_object , real_t p_duration , String p_callback , VARIANT_ARG_DECLARE ) {
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// If we are already updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
_add_pending_command ( " interpolate_deferred_callback " , p_object , p_duration , p_callback , p_arg1 , p_arg2 , p_arg3 , p_arg4 , p_arg5 ) ;
2015-05-05 03:12:17 +00:00
return true ;
}
2019-06-09 03:11:42 +00:00
// Check that the target object is valid
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ERR_FAIL_COND_V ( p_object = = nullptr , false ) ;
2019-06-09 03:11:42 +00:00
// No negative durations allowed
2017-01-13 18:40:18 +00:00
ERR_FAIL_COND_V ( p_duration < 0 , false ) ;
2014-08-22 03:24:53 +00:00
2019-06-09 03:11:42 +00:00
// Confirm the callback exists on the object
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( ! p_object - > has_method ( p_callback ) , false , " Object has no callback named: " + p_callback + " . " ) ;
2014-08-22 03:24:53 +00:00
2019-06-09 03:11:42 +00:00
// Create a new InterpolateData for the callback
2014-08-22 03:24:53 +00:00
InterpolateData data ;
data . active = true ;
data . type = INTER_CALLBACK ;
data . finish = false ;
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data . call_deferred = true ;
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data . elapsed = 0 ;
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// Give the data it's configuration
2017-08-07 10:17:31 +00:00
data . id = p_object - > get_instance_id ( ) ;
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data . key . push_back ( p_callback ) ;
data . concatenated_key = p_callback ;
2017-01-13 18:40:18 +00:00
data . duration = p_duration ;
2014-08-22 03:24:53 +00:00
data . delay = 0 ;
2015-01-07 11:46:01 +00:00
2019-06-09 03:11:42 +00:00
// Collect arguments for the callback
2021-10-24 02:40:03 +00:00
static_assert ( VARIANT_ARG_MAX = = 8 , " This code needs to be updated if VARIANT_ARG_MAX != 8 " ) ;
2017-03-05 15:44:50 +00:00
int args = 0 ;
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if ( p_arg8 . get_type ( ) ! = Variant : : NIL ) {
args = 8 ;
} else if ( p_arg7 . get_type ( ) ! = Variant : : NIL ) {
args = 7 ;
} else if ( p_arg6 . get_type ( ) ! = Variant : : NIL ) {
args = 6 ;
} else if ( p_arg5 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 5 ;
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} else if ( p_arg4 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 4 ;
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} else if ( p_arg3 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 3 ;
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} else if ( p_arg2 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 2 ;
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} else if ( p_arg1 . get_type ( ) ! = Variant : : NIL ) {
2017-03-05 15:44:50 +00:00
args = 1 ;
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} else {
2017-03-05 15:44:50 +00:00
args = 0 ;
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}
2015-01-07 11:46:01 +00:00
data . args = args ;
data . arg [ 0 ] = p_arg1 ;
data . arg [ 1 ] = p_arg2 ;
data . arg [ 2 ] = p_arg3 ;
data . arg [ 3 ] = p_arg4 ;
data . arg [ 4 ] = p_arg5 ;
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data . arg [ 5 ] = p_arg6 ;
data . arg [ 6 ] = p_arg7 ;
data . arg [ 7 ] = p_arg8 ;
2014-08-25 05:36:56 +00:00
2019-06-09 03:11:42 +00:00
// Add the new interpolation
2018-08-15 15:26:10 +00:00
_push_interpolate_data ( data ) ;
2014-08-25 05:36:56 +00:00
return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : follow_property ( Object * p_object , NodePath p_property , Variant p_initial_val , Object * p_target , NodePath p_target_property , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
2019-06-09 03:11:42 +00:00
// If we are already updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
_add_pending_command ( " follow_property " , p_object , p_property , p_initial_val , p_target , p_target_property , p_duration , p_trans_type , p_ease_type , p_delay ) ;
2015-05-05 03:12:17 +00:00
return true ;
}
2019-06-09 03:11:42 +00:00
2021-09-22 05:38:21 +00:00
// Confirm the source and target objects are valid
ERR_FAIL_NULL_V ( p_object , false ) ;
ERR_FAIL_NULL_V ( p_target , false ) ;
2019-06-09 03:11:42 +00:00
// Get the two properties from their paths
2017-05-30 20:20:15 +00:00
p_property = p_property . get_as_property_path ( ) ;
p_target_property = p_target_property . get_as_property_path ( ) ;
2019-06-09 03:11:42 +00:00
// If no initial value is given, grab it from the source object
// TODO: Is this documented? It's really helpful for decluttering tweens
2021-05-05 10:44:11 +00:00
if ( p_initial_val . get_type ( ) = = Variant : : NIL ) {
2021-05-04 12:28:27 +00:00
p_initial_val = p_object - > get_indexed ( p_property . get_subnames ( ) ) ;
2021-05-05 10:44:11 +00:00
}
2017-05-30 20:21:50 +00:00
2019-06-09 03:11:42 +00:00
// Convert initial INT values to REAL as they are better for interpolation
2021-05-05 10:44:11 +00:00
if ( p_initial_val . get_type ( ) = = Variant : : INT ) {
2021-05-04 12:28:27 +00:00
p_initial_val = p_initial_val . operator real_t ( ) ;
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}
2014-08-25 05:36:56 +00:00
2019-06-09 03:11:42 +00:00
// No negative durations
ERR_FAIL_COND_V ( p_duration < 0 , false ) ;
// Ensure transition and easing types are valid
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( p_trans_type < 0 | | p_trans_type > = TRANS_COUNT , false ) ;
ERR_FAIL_COND_V ( p_ease_type < 0 | | p_ease_type > = EASE_COUNT , false ) ;
2019-06-09 03:11:42 +00:00
// No negative delays
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( p_delay < 0 , false ) ;
2019-06-09 03:11:42 +00:00
// Confirm the source and target objects have the desired properties
2014-08-25 05:36:56 +00:00
bool prop_valid = false ;
2017-05-30 20:20:15 +00:00
p_object - > get_indexed ( p_property . get_subnames ( ) , & prop_valid ) ;
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( ! prop_valid , false ) ;
bool target_prop_valid = false ;
2017-05-30 20:20:15 +00:00
Variant target_val = p_target - > get_indexed ( p_target_property . get_subnames ( ) , & target_prop_valid ) ;
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( ! target_prop_valid , false ) ;
2019-06-09 03:11:42 +00:00
// Convert target INT to REAL since it is better for interpolation
2021-05-05 10:44:11 +00:00
if ( target_val . get_type ( ) = = Variant : : INT ) {
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target_val = target_val . operator real_t ( ) ;
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}
2019-06-09 03:11:42 +00:00
// Verify that the target value and initial value are the same type
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( target_val . get_type ( ) ! = p_initial_val . get_type ( ) , false ) ;
2019-06-09 03:11:42 +00:00
// Create a new InterpolateData
2014-08-25 05:36:56 +00:00
InterpolateData data ;
data . active = true ;
data . type = FOLLOW_PROPERTY ;
data . finish = false ;
data . elapsed = 0 ;
2019-06-09 03:11:42 +00:00
// Give the InterpolateData it's configuration
2017-08-07 10:17:31 +00:00
data . id = p_object - > get_instance_id ( ) ;
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data . key = p_property . get_subnames ( ) ;
data . concatenated_key = p_property . get_concatenated_subnames ( ) ;
2014-08-25 05:36:56 +00:00
data . initial_val = p_initial_val ;
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data . target_id = p_target - > get_instance_id ( ) ;
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data . target_key = p_target_property . get_subnames ( ) ;
2017-01-13 18:40:18 +00:00
data . duration = p_duration ;
2014-08-25 05:36:56 +00:00
data . trans_type = p_trans_type ;
data . ease_type = p_ease_type ;
data . delay = p_delay ;
2019-06-09 03:11:42 +00:00
// Add the interpolation
2018-08-15 15:26:10 +00:00
_push_interpolate_data ( data ) ;
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return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : follow_method ( Object * p_object , StringName p_method , Variant p_initial_val , Object * p_target , StringName p_target_method , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
2019-06-09 03:11:42 +00:00
// If we are currently updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
_add_pending_command ( " follow_method " , p_object , p_method , p_initial_val , p_target , p_target_method , p_duration , p_trans_type , p_ease_type , p_delay ) ;
2015-05-05 03:12:17 +00:00
return true ;
}
2019-06-09 03:11:42 +00:00
// Convert initial INT values to REAL as they are better for interpolation
2021-05-05 10:44:11 +00:00
if ( p_initial_val . get_type ( ) = = Variant : : INT ) {
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p_initial_val = p_initial_val . operator real_t ( ) ;
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}
2014-08-25 05:36:56 +00:00
2019-06-09 03:11:42 +00:00
// Verify the source and target objects are valid
2021-05-04 14:00:45 +00:00
ERR_FAIL_COND_V ( p_object = = nullptr , false ) ;
ERR_FAIL_COND_V ( p_target = = nullptr , false ) ;
2019-06-09 03:11:42 +00:00
// No negative durations
ERR_FAIL_COND_V ( p_duration < 0 , false ) ;
// Ensure that the transition and ease types are valid
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( p_trans_type < 0 | | p_trans_type > = TRANS_COUNT , false ) ;
ERR_FAIL_COND_V ( p_ease_type < 0 | | p_ease_type > = EASE_COUNT , false ) ;
2019-06-09 03:11:42 +00:00
// No negative delays
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( p_delay < 0 , false ) ;
2019-06-09 03:11:42 +00:00
// Confirm both objects have the target methods
2019-08-08 20:11:48 +00:00
ERR_FAIL_COND_V_MSG ( ! p_object - > has_method ( p_method ) , false , " Object has no method named: " + p_method + " . " ) ;
ERR_FAIL_COND_V_MSG ( ! p_target - > has_method ( p_target_method ) , false , " Target has no method named: " + p_target_method + " . " ) ;
2014-08-25 05:36:56 +00:00
2019-06-09 03:11:42 +00:00
// Call the method to get the target value
2014-08-25 05:36:56 +00:00
Variant : : CallError error ;
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Variant target_val = p_target - > call ( p_target_method , nullptr , 0 , error ) ;
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( error . error ! = Variant : : CallError : : CALL_OK , false ) ;
2019-06-09 03:11:42 +00:00
// Convert target INT values to REAL as they are better for interpolation
2021-05-05 10:44:11 +00:00
if ( target_val . get_type ( ) = = Variant : : INT ) {
2021-05-04 12:28:27 +00:00
target_val = target_val . operator real_t ( ) ;
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}
2014-08-25 05:36:56 +00:00
ERR_FAIL_COND_V ( target_val . get_type ( ) ! = p_initial_val . get_type ( ) , false ) ;
2019-06-09 03:11:42 +00:00
// Make the new InterpolateData for the method follow
2014-08-25 05:36:56 +00:00
InterpolateData data ;
data . active = true ;
data . type = FOLLOW_METHOD ;
data . finish = false ;
data . elapsed = 0 ;
2019-06-09 03:11:42 +00:00
// Give the data it's configuration
2017-08-07 10:17:31 +00:00
data . id = p_object - > get_instance_id ( ) ;
2017-05-30 20:20:15 +00:00
data . key . push_back ( p_method ) ;
data . concatenated_key = p_method ;
2014-08-25 05:36:56 +00:00
data . initial_val = p_initial_val ;
2017-08-07 10:17:31 +00:00
data . target_id = p_target - > get_instance_id ( ) ;
2017-05-30 20:20:15 +00:00
data . target_key . push_back ( p_target_method ) ;
2017-01-13 18:40:18 +00:00
data . duration = p_duration ;
2014-08-25 05:36:56 +00:00
data . trans_type = p_trans_type ;
data . ease_type = p_ease_type ;
data . delay = p_delay ;
2019-06-09 03:11:42 +00:00
// Add the new interpolation
2018-08-15 15:26:10 +00:00
_push_interpolate_data ( data ) ;
2014-08-25 05:36:56 +00:00
return true ;
}
2017-05-30 20:20:15 +00:00
bool Tween : : targeting_property ( Object * p_object , NodePath p_property , Object * p_initial , NodePath p_initial_property , Variant p_final_val , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
2019-06-09 03:11:42 +00:00
// If we are currently updating, call this function again later
2017-03-05 15:44:50 +00:00
if ( pending_update ! = 0 ) {
_add_pending_command ( " targeting_property " , p_object , p_property , p_initial , p_initial_property , p_final_val , p_duration , p_trans_type , p_ease_type , p_delay ) ;
2015-05-05 03:12:17 +00:00
return true ;
}
2019-06-09 03:11:42 +00:00
// Grab the target property and the target property
2017-05-30 20:20:15 +00:00
p_property = p_property . get_as_property_path ( ) ;
p_initial_property = p_initial_property . get_as_property_path ( ) ;
2019-06-09 03:11:42 +00:00
// Convert the initial INT values to REAL as they are better for Interpolation
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if ( p_final_val . get_type ( ) = = Variant : : INT ) {
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p_final_val = p_final_val . operator real_t ( ) ;
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}
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// Verify both objects are valid
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ERR_FAIL_COND_V ( p_object = = nullptr , false ) ;
ERR_FAIL_COND_V ( p_initial = = nullptr , false ) ;
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// No negative durations
ERR_FAIL_COND_V ( p_duration < 0 , false ) ;
// Ensure transition and easing types are valid
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ERR_FAIL_COND_V ( p_trans_type < 0 | | p_trans_type > = TRANS_COUNT , false ) ;
ERR_FAIL_COND_V ( p_ease_type < 0 | | p_ease_type > = EASE_COUNT , false ) ;
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// No negative delays
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ERR_FAIL_COND_V ( p_delay < 0 , false ) ;
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// Ensure the initial and target properties exist on their objects
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bool prop_valid = false ;
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p_object - > get_indexed ( p_property . get_subnames ( ) , & prop_valid ) ;
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ERR_FAIL_COND_V ( ! prop_valid , false ) ;
bool initial_prop_valid = false ;
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Variant initial_val = p_initial - > get_indexed ( p_initial_property . get_subnames ( ) , & initial_prop_valid ) ;
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ERR_FAIL_COND_V ( ! initial_prop_valid , false ) ;
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// Convert the initial INT value to REAL as it is better for interpolation
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if ( initial_val . get_type ( ) = = Variant : : INT ) {
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initial_val = initial_val . operator real_t ( ) ;
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}
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ERR_FAIL_COND_V ( initial_val . get_type ( ) ! = p_final_val . get_type ( ) , false ) ;
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// Build the InterpolateData object
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InterpolateData data ;
data . active = true ;
data . type = TARGETING_PROPERTY ;
data . finish = false ;
data . elapsed = 0 ;
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// Give the data it's configuration
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data . id = p_object - > get_instance_id ( ) ;
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data . key = p_property . get_subnames ( ) ;
data . concatenated_key = p_property . get_concatenated_subnames ( ) ;
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data . target_id = p_initial - > get_instance_id ( ) ;
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data . target_key = p_initial_property . get_subnames ( ) ;
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data . initial_val = initial_val ;
data . final_val = p_final_val ;
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data . duration = p_duration ;
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data . trans_type = p_trans_type ;
data . ease_type = p_ease_type ;
data . delay = p_delay ;
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// Ensure there is a valid delta
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if ( ! _calc_delta_val ( data . initial_val , data . final_val , data . delta_val ) ) {
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return false ;
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}
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// Add the interpolation
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_push_interpolate_data ( data ) ;
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return true ;
}
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bool Tween : : targeting_method ( Object * p_object , StringName p_method , Object * p_initial , StringName p_initial_method , Variant p_final_val , real_t p_duration , TransitionType p_trans_type , EaseType p_ease_type , real_t p_delay ) {
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// If we are currently updating, call this function again later
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if ( pending_update ! = 0 ) {
_add_pending_command ( " targeting_method " , p_object , p_method , p_initial , p_initial_method , p_final_val , p_duration , p_trans_type , p_ease_type , p_delay ) ;
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return true ;
}
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// Convert final INT values to REAL as they are better for interpolation
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if ( p_final_val . get_type ( ) = = Variant : : INT ) {
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p_final_val = p_final_val . operator real_t ( ) ;
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}
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// Make sure the given objects are valid
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ERR_FAIL_COND_V ( p_object = = nullptr , false ) ;
ERR_FAIL_COND_V ( p_initial = = nullptr , false ) ;
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// No negative durations
ERR_FAIL_COND_V ( p_duration < 0 , false ) ;
// Ensure transition and easing types are valid
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ERR_FAIL_COND_V ( p_trans_type < 0 | | p_trans_type > = TRANS_COUNT , false ) ;
ERR_FAIL_COND_V ( p_ease_type < 0 | | p_ease_type > = EASE_COUNT , false ) ;
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// No negative delays
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ERR_FAIL_COND_V ( p_delay < 0 , false ) ;
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// Make sure both objects have the given method
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ERR_FAIL_COND_V_MSG ( ! p_object - > has_method ( p_method ) , false , " Object has no method named: " + p_method + " . " ) ;
ERR_FAIL_COND_V_MSG ( ! p_initial - > has_method ( p_initial_method ) , false , " Initial Object has no method named: " + p_initial_method + " . " ) ;
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// Call the method to get the initial value
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Variant : : CallError error ;
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Variant initial_val = p_initial - > call ( p_initial_method , nullptr , 0 , error ) ;
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ERR_FAIL_COND_V ( error . error ! = Variant : : CallError : : CALL_OK , false ) ;
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// Convert initial INT values to REAL as they aer better for interpolation
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if ( initial_val . get_type ( ) = = Variant : : INT ) {
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initial_val = initial_val . operator real_t ( ) ;
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}
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ERR_FAIL_COND_V ( initial_val . get_type ( ) ! = p_final_val . get_type ( ) , false ) ;
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// Build the new InterpolateData object
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InterpolateData data ;
data . active = true ;
data . type = TARGETING_METHOD ;
data . finish = false ;
data . elapsed = 0 ;
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// Configure the data
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data . id = p_object - > get_instance_id ( ) ;
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data . key . push_back ( p_method ) ;
data . concatenated_key = p_method ;
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data . target_id = p_initial - > get_instance_id ( ) ;
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data . target_key . push_back ( p_initial_method ) ;
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data . initial_val = initial_val ;
data . final_val = p_final_val ;
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data . duration = p_duration ;
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data . trans_type = p_trans_type ;
data . ease_type = p_ease_type ;
data . delay = p_delay ;
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// Ensure there is a valid delta
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if ( ! _calc_delta_val ( data . initial_val , data . final_val , data . delta_val ) ) {
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return false ;
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}
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// Add the interpolation
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_push_interpolate_data ( data ) ;
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return true ;
}
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Tween : : Tween ( ) {
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// Initialize tween attributes
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tween_process_mode = TWEEN_PROCESS_IDLE ;
repeat = false ;
speed_scale = 1 ;
pending_update = 0 ;
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uid = 0 ;
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}
Tween : : ~ Tween ( ) {
}