godot/scene/animation/tween.cpp

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/*************************************************************************/
/* tween.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* http://www.godotengine.org */
/*************************************************************************/
2015-04-18 17:38:54 +00:00
/* Copyright (c) 2007-2015 Juan Linietsky, Ariel Manzur. */
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/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
#include "tween.h"
#include "method_bind_ext.inc"
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bool Tween::_set(const StringName& p_name, const Variant& p_value) {
String name=p_name;
if (name=="playback/speed" || name=="speed") { //bw compatibility
set_speed(p_value);
} else if (name=="playback/active") {
set_active(p_value);
} else if (name=="playback/repeat") {
set_repeat(p_value);
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}
return true;
}
bool Tween::_get(const StringName& p_name,Variant &r_ret) const {
String name=p_name;
if (name=="playback/speed") { //bw compatibility
r_ret=speed_scale;
} else if (name=="playback/active") {
r_ret=is_active();
} else if(name=="playback/repeat") {
r_ret=is_repeat();
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}
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return true;
}
void Tween::_get_property_list(List<PropertyInfo> *p_list) const {
p_list->push_back( PropertyInfo( Variant::BOOL, "playback/active", PROPERTY_HINT_NONE,"" ) );
p_list->push_back( PropertyInfo( Variant::BOOL, "playback/repeat", PROPERTY_HINT_NONE,"" ) );
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p_list->push_back( PropertyInfo( Variant::REAL, "playback/speed", PROPERTY_HINT_RANGE, "-64,64,0.01") );
}
void Tween::_notification(int p_what) {
switch(p_what) {
case NOTIFICATION_ENTER_TREE: {
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if (!processing) {
//make sure that a previous process state was not saved
//only process if "processing" is set
set_fixed_process(false);
set_process(false);
}
} break;
case NOTIFICATION_READY: {
} break;
case NOTIFICATION_PROCESS: {
if (tween_process_mode==TWEEN_PROCESS_FIXED)
break;
if (processing)
_tween_process( get_process_delta_time() );
} break;
case NOTIFICATION_FIXED_PROCESS: {
if (tween_process_mode==TWEEN_PROCESS_IDLE)
break;
if (processing)
_tween_process( get_fixed_process_delta_time() );
} break;
case NOTIFICATION_EXIT_TREE: {
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stop_all();
} break;
}
}
void Tween::_bind_methods() {
ObjectTypeDB::bind_method(_MD("is_active"),&Tween::is_active );
ObjectTypeDB::bind_method(_MD("set_active","active"),&Tween::set_active );
ObjectTypeDB::bind_method(_MD("is_repeat"),&Tween::is_repeat );
ObjectTypeDB::bind_method(_MD("set_repeat","repeat"),&Tween::set_repeat );
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ObjectTypeDB::bind_method(_MD("set_speed","speed"),&Tween::set_speed);
ObjectTypeDB::bind_method(_MD("get_speed"),&Tween::get_speed);
ObjectTypeDB::bind_method(_MD("set_tween_process_mode","mode"),&Tween::set_tween_process_mode);
ObjectTypeDB::bind_method(_MD("get_tween_process_mode"),&Tween::get_tween_process_mode);
ObjectTypeDB::bind_method(_MD("start"),&Tween::start );
ObjectTypeDB::bind_method(_MD("reset","object","key"),&Tween::reset );
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ObjectTypeDB::bind_method(_MD("reset_all"),&Tween::reset_all );
ObjectTypeDB::bind_method(_MD("stop","object","key"),&Tween::stop );
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ObjectTypeDB::bind_method(_MD("stop_all"),&Tween::stop_all );
ObjectTypeDB::bind_method(_MD("resume","object","key"),&Tween::resume );
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ObjectTypeDB::bind_method(_MD("resume_all"),&Tween::resume_all );
ObjectTypeDB::bind_method(_MD("remove","object","key"),&Tween::remove );
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ObjectTypeDB::bind_method(_MD("remove_all"),&Tween::remove_all );
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ObjectTypeDB::bind_method(_MD("seek","time"),&Tween::seek );
ObjectTypeDB::bind_method(_MD("tell"),&Tween::tell );
ObjectTypeDB::bind_method(_MD("get_runtime"),&Tween::get_runtime );
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ObjectTypeDB::bind_method(_MD("interpolate_property","object","property","initial_val","final_val","times_in_sec","trans_type","ease_type","delay"),&Tween::interpolate_property, DEFVAL(0) );
ObjectTypeDB::bind_method(_MD("interpolate_method","object","method","initial_val","final_val","times_in_sec","trans_type","ease_type","delay"),&Tween::interpolate_method, DEFVAL(0) );
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ObjectTypeDB::bind_method(_MD("interpolate_callback","object","times_in_sec","callback","arg1", "arg2","arg3","arg4","arg5"),&Tween::interpolate_callback, DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(Variant()) );
ObjectTypeDB::bind_method(_MD("interpolate_deferred_callback","object","times_in_sec","callback","arg1","arg2","arg3","arg4","arg5"),&Tween::interpolate_deferred_callback, DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(Variant()) );
ObjectTypeDB::bind_method(_MD("follow_property","object","property","initial_val","target","target_property","times_in_sec","trans_type","ease_type","delay"),&Tween::follow_property, DEFVAL(0) );
ObjectTypeDB::bind_method(_MD("follow_method","object","method","initial_val","target","target_method","times_in_sec","trans_type","ease_type","delay"),&Tween::follow_method, DEFVAL(0) );
ObjectTypeDB::bind_method(_MD("targeting_property","object","property","initial","initial_val","final_val","times_in_sec","trans_type","ease_type","delay"),&Tween::targeting_property, DEFVAL(0) );
ObjectTypeDB::bind_method(_MD("targeting_method","object","method","initial","initial_method","final_val","times_in_sec","trans_type","ease_type","delay"),&Tween::targeting_method, DEFVAL(0) );
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ADD_SIGNAL( MethodInfo("tween_start", PropertyInfo( Variant::OBJECT,"object"), PropertyInfo( Variant::STRING,"key")) );
ADD_SIGNAL( MethodInfo("tween_step", PropertyInfo( Variant::OBJECT,"object"), PropertyInfo( Variant::STRING,"key"), PropertyInfo( Variant::REAL,"elapsed"), PropertyInfo( Variant::OBJECT,"value")) );
ADD_SIGNAL( MethodInfo("tween_complete", PropertyInfo( Variant::OBJECT,"object"), PropertyInfo( Variant::STRING,"key")) );
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ADD_PROPERTY( PropertyInfo( Variant::INT, "playback/process_mode", PROPERTY_HINT_ENUM, "Fixed,Idle"), _SCS("set_tween_process_mode"), _SCS("get_tween_process_mode"));
BIND_CONSTANT(TWEEN_PROCESS_FIXED);
BIND_CONSTANT(TWEEN_PROCESS_IDLE);
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BIND_CONSTANT(TRANS_LINEAR);
BIND_CONSTANT(TRANS_SINE);
BIND_CONSTANT(TRANS_QUINT);
BIND_CONSTANT(TRANS_QUART);
BIND_CONSTANT(TRANS_QUAD);
BIND_CONSTANT(TRANS_EXPO);
BIND_CONSTANT(TRANS_ELASTIC);
BIND_CONSTANT(TRANS_CUBIC);
BIND_CONSTANT(TRANS_CIRC);
BIND_CONSTANT(TRANS_BOUNCE);
BIND_CONSTANT(TRANS_BACK);
BIND_CONSTANT(EASE_IN);
BIND_CONSTANT(EASE_OUT);
BIND_CONSTANT(EASE_IN_OUT);
BIND_CONSTANT(EASE_OUT_IN);
}
Variant& Tween::_get_initial_val(InterpolateData& p_data) {
switch(p_data.type) {
case INTER_PROPERTY:
case INTER_METHOD:
case FOLLOW_PROPERTY:
case FOLLOW_METHOD:
return p_data.initial_val;
case TARGETING_PROPERTY:
case TARGETING_METHOD: {
Object *object = ObjectDB::get_instance(p_data.target_id);
ERR_FAIL_COND_V(object == NULL,p_data.initial_val);
static Variant initial_val;
if(p_data.type == TARGETING_PROPERTY) {
bool valid = false;
initial_val = object->get(p_data.target_key, &valid);
ERR_FAIL_COND_V(!valid,p_data.initial_val);
} else {
Variant::CallError error;
initial_val = object->call(p_data.target_key, NULL, 0, error);
ERR_FAIL_COND_V(error.error != Variant::CallError::CALL_OK,p_data.initial_val);
}
return initial_val;
}
break;
}
return p_data.delta_val;
}
Variant& Tween::_get_delta_val(InterpolateData& p_data) {
switch(p_data.type) {
case INTER_PROPERTY:
case INTER_METHOD:
return p_data.delta_val;
case FOLLOW_PROPERTY:
case FOLLOW_METHOD: {
Object *target = ObjectDB::get_instance(p_data.target_id);
ERR_FAIL_COND_V(target == NULL,p_data.initial_val);
Variant final_val;
if(p_data.type == FOLLOW_PROPERTY) {
bool valid = false;
final_val = target->get(p_data.target_key, &valid);
ERR_FAIL_COND_V(!valid,p_data.initial_val);
} else {
Variant::CallError error;
final_val = target->call(p_data.target_key, NULL, 0, error);
ERR_FAIL_COND_V(error.error != Variant::CallError::CALL_OK,p_data.initial_val);
}
// convert INT to REAL is better for interpolaters
if(final_val.get_type() == Variant::INT) final_val = final_val.operator real_t();
_calc_delta_val(p_data.initial_val, final_val, p_data.delta_val);
return p_data.delta_val;
}
break;
case TARGETING_PROPERTY:
case TARGETING_METHOD: {
Variant initial_val = _get_initial_val(p_data);
// convert INT to REAL is better for interpolaters
if(initial_val.get_type() == Variant::INT) initial_val = initial_val.operator real_t();
//_calc_delta_val(p_data.initial_val, p_data.final_val, p_data.delta_val);
_calc_delta_val(initial_val, p_data.final_val, p_data.delta_val);
return p_data.delta_val;
}
break;
}
return p_data.initial_val;
}
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Variant Tween::_run_equation(InterpolateData& p_data) {
Variant& initial_val = _get_initial_val(p_data);
Variant& delta_val = _get_delta_val(p_data);
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Variant result;
#define APPLY_EQUATION(element)\
r.element = _run_equation(p_data.trans_type, p_data.ease_type, p_data.elapsed - p_data.delay, i.element, d.element, p_data.times_in_sec);
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switch(initial_val.get_type())
{
case Variant::BOOL:
result = ( _run_equation(p_data.trans_type, p_data.ease_type, p_data.elapsed - p_data.delay, initial_val, delta_val, p_data.times_in_sec)) >= 0.5;
break;
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case Variant::INT:
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.times_in_sec);
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break;
case Variant::REAL:
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.times_in_sec);
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break;
case Variant::VECTOR2:
{
Vector2 i = initial_val;
Vector2 d = delta_val;
Vector2 r;
APPLY_EQUATION(x);
APPLY_EQUATION(y);
result = r;
}
break;
case Variant::VECTOR3:
{
Vector3 i = initial_val;
Vector3 d = delta_val;
Vector3 r;
APPLY_EQUATION(x);
APPLY_EQUATION(y);
APPLY_EQUATION(z);
result = r;
}
break;
case Variant::MATRIX3:
{
Matrix3 i = initial_val;
Matrix3 d = delta_val;
Matrix3 r;
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;
case Variant::MATRIX32:
{
Matrix3 i = initial_val;
Matrix3 d = delta_val;
Matrix3 r;
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;
}
break;
case Variant::QUAT:
{
Quat i = initial_val;
Quat d = delta_val;
Quat r;
APPLY_EQUATION(x);
APPLY_EQUATION(y);
APPLY_EQUATION(z);
APPLY_EQUATION(w);
result = r;
}
break;
case Variant::_AABB:
{
AABB i = initial_val;
AABB d = delta_val;
AABB r;
APPLY_EQUATION(pos.x);
APPLY_EQUATION(pos.y);
APPLY_EQUATION(pos.z);
APPLY_EQUATION(size.x);
APPLY_EQUATION(size.y);
APPLY_EQUATION(size.z);
result = r;
}
break;
case Variant::TRANSFORM:
{
Transform i = initial_val;
Transform d = delta_val;
Transform r;
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;
}
break;
case Variant::COLOR:
{
Color i = initial_val;
Color d = delta_val;
Color r;
APPLY_EQUATION(r);
APPLY_EQUATION(g);
APPLY_EQUATION(b);
APPLY_EQUATION(a);
result = r;
}
break;
};
#undef APPLY_EQUATION
return result;
}
bool Tween::_apply_tween_value(InterpolateData& p_data, Variant& value) {
Object *object = ObjectDB::get_instance(p_data.id);
ERR_FAIL_COND_V(object == NULL, false);
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switch(p_data.type) {
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case INTER_PROPERTY:
case FOLLOW_PROPERTY:
case TARGETING_PROPERTY:
{
bool valid = false;
object->set(p_data.key,value, &valid);
return valid;
}
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case INTER_METHOD:
case FOLLOW_METHOD:
case TARGETING_METHOD:
{
Variant::CallError error;
if (value.get_type() != Variant::NIL) {
Variant *arg[1] = { &value };
object->call(p_data.key, (const Variant **) arg, 1, error);
} else {
object->call(p_data.key, NULL, 0, error);
}
if(error.error == Variant::CallError::CALL_OK)
return true;
return false;
}
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case INTER_CALLBACK:
break;
};
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return true;
}
void Tween::_tween_process(float p_delta) {
if (speed_scale == 0)
return;
p_delta *= speed_scale;
pending_update ++;
// if repeat and all interpolates was finished then reset all interpolates
if(repeat) {
bool all_finished = true;
for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
if(!data.finish) {
all_finished = false;
break;
}
}
if(all_finished)
reset_all();
}
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
if(!data.active || data.finish)
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continue;
Object *object = ObjectDB::get_instance(data.id);
if(object == NULL)
continue;
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bool prev_delaying = data.elapsed <= data.delay;
data.elapsed += p_delta;
if(data.elapsed < data.delay)
continue;
else if(prev_delaying) {
emit_signal("tween_start",object,data.key);
_apply_tween_value(data, data.initial_val);
}
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if(data.elapsed > (data.delay + data.times_in_sec)) {
data.elapsed = data.delay + data.times_in_sec;
data.finish = true;
}
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switch(data.type)
{
case INTER_PROPERTY:
case INTER_METHOD:
break;
case INTER_CALLBACK:
if(data.finish) {
Variant::CallError error;
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if (data.call_deferred) {
switch (data.args) {
case 0:
object->call_deferred(data.key); break;
case 1:
object->call_deferred(data.key, data.arg[0]); break;
case 2:
object->call_deferred(data.key, data.arg[0], data.arg[1]); break;
case 3:
object->call_deferred(data.key, data.arg[0], data.arg[1], data.arg[2]); break;
case 4:
object->call_deferred(data.key, data.arg[0], data.arg[1], data.arg[2], data.arg[3]); break;
case 5:
object->call_deferred(data.key, data.arg[0], data.arg[1], data.arg[2], data.arg[3], data.arg[4]); break;
}
}
else {
Variant *arg[5] = {
&data.arg[0],
&data.arg[1],
&data.arg[2],
&data.arg[3],
&data.arg[4],
};
object->call(data.key, (const Variant **) arg, data.args, error);
}
}
continue;
}
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Variant result = _run_equation(data);
emit_signal("tween_step",object,data.key,data.elapsed,result);
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_apply_tween_value(data, result);
if(data.finish)
emit_signal("tween_complete",object,data.key);
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}
pending_update --;
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}
void Tween::set_tween_process_mode(TweenProcessMode p_mode) {
if (tween_process_mode==p_mode)
return;
bool pr = processing;
if (pr)
_set_process(false);
tween_process_mode=p_mode;
if (pr)
_set_process(true);
}
Tween::TweenProcessMode Tween::get_tween_process_mode() const {
return tween_process_mode;
}
void Tween::_set_process(bool p_process,bool p_force) {
if (processing==p_process && !p_force)
return;
switch(tween_process_mode) {
case TWEEN_PROCESS_FIXED: set_fixed_process(p_process && active); break;
case TWEEN_PROCESS_IDLE: set_process(p_process && active); break;
}
processing=p_process;
}
bool Tween::is_active() const {
return active;
}
void Tween::set_active(bool p_active) {
if (active==p_active)
return;
active=p_active;
_set_process(processing,true);
}
bool Tween::is_repeat() const {
return repeat;
}
void Tween::set_repeat(bool p_repeat) {
repeat = p_repeat;
}
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void Tween::set_speed(float p_speed) {
speed_scale=p_speed;
}
float Tween::get_speed() const {
return speed_scale;
}
bool Tween::start() {
set_active(true);
_set_process(true);
return true;
}
bool Tween::reset(Object *p_object, String p_key) {
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pending_update ++;
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
Object *object = ObjectDB::get_instance(data.id);
if(object == NULL)
continue;
if(object == p_object && data.key == p_key) {
data.elapsed = 0;
data.finish = false;
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if(data.delay == 0)
_apply_tween_value(data, data.initial_val);
}
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}
pending_update --;
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return true;
}
bool Tween::reset_all() {
pending_update ++;
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
data.elapsed = 0;
data.finish = false;
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if(data.delay == 0)
_apply_tween_value(data, data.initial_val);
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}
pending_update --;
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return true;
}
bool Tween::stop(Object *p_object, String p_key) {
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pending_update ++;
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
Object *object = ObjectDB::get_instance(data.id);
if(object == NULL)
continue;
if(object == p_object && data.key == p_key)
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data.active = false;
}
pending_update --;
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return true;
}
bool Tween::stop_all() {
set_active(false);
_set_process(false);
pending_update ++;
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
data.active = false;
}
pending_update --;
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return true;
}
bool Tween::resume(Object *p_object, String p_key) {
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set_active(true);
_set_process(true);
pending_update ++;
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
Object *object = ObjectDB::get_instance(data.id);
if(object == NULL)
continue;
if(object == p_object && data.key == p_key)
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data.active = true;
}
pending_update --;
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return true;
}
bool Tween::resume_all() {
set_active(true);
_set_process(true);
pending_update ++;
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
data.active = true;
}
pending_update --;
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return true;
}
bool Tween::remove(Object *p_object, String p_key) {
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ERR_FAIL_COND_V(pending_update != 0, false);
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for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
Object *object = ObjectDB::get_instance(data.id);
if(object == NULL)
continue;
if(object == p_object && data.key == p_key) {
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interpolates.erase(E);
return true;
}
}
return true;
}
bool Tween::remove_all() {
ERR_FAIL_COND_V(pending_update != 0, false);
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set_active(false);
_set_process(false);
interpolates.clear();
return true;
}
bool Tween::seek(real_t p_time) {
pending_update ++;
for(List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
InterpolateData& data = E->get();
data.elapsed = p_time;
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if(data.elapsed < data.delay) {
data.finish = false;
continue;
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}
else if(data.elapsed >= (data.delay + data.times_in_sec)) {
data.finish = true;
data.elapsed = (data.delay + data.times_in_sec);
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} else
data.finish = false;
switch(data.type)
{
case INTER_PROPERTY:
case INTER_METHOD:
break;
case INTER_CALLBACK:
continue;
}
Variant result = _run_equation(data);
_apply_tween_value(data, result);
}
pending_update --;
return true;
}
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real_t Tween::tell() const {
pending_update ++;
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real_t pos = 0;
for(const List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
const InterpolateData& data = E->get();
if(data.elapsed > pos)
pos = data.elapsed;
}
pending_update --;
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return pos;
}
real_t Tween::get_runtime() const {
pending_update ++;
real_t runtime = 0;
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for(const List<InterpolateData>::Element *E=interpolates.front();E;E=E->next()) {
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const InterpolateData& data = E->get();
real_t t = data.delay + data.times_in_sec;
if(t > runtime)
runtime = t;
}
pending_update --;
return runtime;
}
bool Tween::_calc_delta_val(const Variant& p_initial_val, const Variant& p_final_val, Variant& p_delta_val) {
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const Variant& initial_val = p_initial_val;
const Variant& final_val = p_final_val;
Variant& delta_val = p_delta_val;
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switch(initial_val.get_type()) {
case Variant::BOOL:
//delta_val = p_final_val;
delta_val = (int) p_final_val - (int) p_initial_val;
break;
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case Variant::INT:
delta_val = (int) final_val - (int) initial_val;
break;
case Variant::REAL:
delta_val = (real_t) final_val - (real_t) initial_val;
break;
case Variant::VECTOR2:
delta_val = final_val.operator Vector2() - initial_val.operator Vector2();
break;
case Variant::VECTOR3:
delta_val = final_val.operator Vector3() - initial_val.operator Vector3();
break;
case Variant::MATRIX3:
{
Matrix3 i = initial_val;
Matrix3 f = final_val;
delta_val = Matrix3(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;
case Variant::MATRIX32:
{
Matrix32 i = initial_val;
Matrix32 f = final_val;
Matrix32 d = Matrix32();
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;
case Variant::QUAT:
delta_val = final_val.operator Quat() - initial_val.operator Quat();
break;
case Variant::_AABB:
{
AABB i = initial_val;
AABB f = final_val;
delta_val = AABB(f.pos - i.pos, f.size - i.size);
}
break;
case Variant::TRANSFORM:
{
Transform i = initial_val;
Transform f = final_val;
Transform d;
d.set(f.basis.elements[0][0] - i.basis.elements[0][0],
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,
f.origin.z - i.origin.z
);
delta_val = d;
}
break;
case Variant::COLOR:
{
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;
default:
ERR_PRINT("Invalid param type, except(int/real/vector2/vector/matrix/matrix32/quat/aabb/transform/color)");
return false;
};
return true;
}
bool Tween::interpolate_property(Object *p_object
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, String p_property
, Variant p_initial_val
, Variant p_final_val
, real_t p_times_in_sec
, TransitionType p_trans_type
, EaseType p_ease_type
, real_t p_delay
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) {
ERR_FAIL_COND_V(pending_update != 0, false);
// convert INT to REAL is better for interpolaters
if(p_initial_val.get_type() == Variant::INT) p_initial_val = p_initial_val.operator real_t();
if(p_final_val.get_type() == Variant::INT) p_final_val = p_final_val.operator real_t();
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ERR_FAIL_COND_V(p_object == NULL, false);
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ERR_FAIL_COND_V(p_initial_val.get_type() != p_final_val.get_type(), false);
ERR_FAIL_COND_V(p_times_in_sec <= 0, false);
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);
ERR_FAIL_COND_V(p_delay < 0, false);
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bool prop_valid = false;
p_object->get(p_property,&prop_valid);
ERR_FAIL_COND_V(!prop_valid, false);
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InterpolateData data;
data.active = true;
data.type = INTER_PROPERTY;
data.finish = false;
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data.elapsed = 0;
data.id = p_object->get_instance_ID();
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data.key = p_property;
data.initial_val = p_initial_val;
data.final_val = p_final_val;
data.times_in_sec = p_times_in_sec;
data.trans_type = p_trans_type;
data.ease_type = p_ease_type;
data.delay = p_delay;
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if(!_calc_delta_val(data.initial_val, data.final_val, data.delta_val))
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return false;
interpolates.push_back(data);
return true;
}
bool Tween::interpolate_method(Object *p_object
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, String p_method
, Variant p_initial_val
, Variant p_final_val
, real_t p_times_in_sec
, TransitionType p_trans_type
, EaseType p_ease_type
, real_t p_delay
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) {
ERR_FAIL_COND_V(pending_update != 0, false);
// convert INT to REAL is better for interpolaters
if(p_initial_val.get_type() == Variant::INT) p_initial_val = p_initial_val.operator real_t();
if(p_final_val.get_type() == Variant::INT) p_final_val = p_final_val.operator real_t();
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ERR_FAIL_COND_V(p_object == NULL, false);
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ERR_FAIL_COND_V(p_initial_val.get_type() != p_final_val.get_type(), false);
ERR_FAIL_COND_V(p_times_in_sec <= 0, false);
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);
ERR_FAIL_COND_V(p_delay < 0, false);
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ERR_FAIL_COND_V(!p_object->has_method(p_method), false);
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InterpolateData data;
data.active = true;
data.type = INTER_METHOD;
data.finish = false;
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data.elapsed = 0;
data.id = p_object->get_instance_ID();
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data.key = p_method;
data.initial_val = p_initial_val;
data.final_val = p_final_val;
data.times_in_sec = p_times_in_sec;
data.trans_type = p_trans_type;
data.ease_type = p_ease_type;
data.delay = p_delay;
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if(!_calc_delta_val(data.initial_val, data.final_val, data.delta_val))
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return false;
interpolates.push_back(data);
return true;
}
bool Tween::interpolate_callback(Object *p_object
, real_t p_times_in_sec
, String p_callback
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, VARIANT_ARG_DECLARE
) {
ERR_FAIL_COND_V(pending_update != 0, false);
ERR_FAIL_COND_V(p_object == NULL, false);
ERR_FAIL_COND_V(p_times_in_sec < 0, false);
ERR_FAIL_COND_V(!p_object->has_method(p_callback), false);
InterpolateData data;
data.active = true;
data.type = INTER_CALLBACK;
data.finish = false;
data.call_deferred = false;
data.elapsed = 0;
data.id = p_object->get_instance_ID();
data.key = p_callback;
data.times_in_sec = p_times_in_sec;
data.delay = 0;
int args=0;
if (p_arg5.get_type()!=Variant::NIL)
args=5;
else if (p_arg4.get_type()!=Variant::NIL)
args=4;
else if (p_arg3.get_type()!=Variant::NIL)
args=3;
else if (p_arg2.get_type()!=Variant::NIL)
args=2;
else if (p_arg1.get_type()!=Variant::NIL)
args=1;
else
args=0;
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;
pending_update ++;
interpolates.push_back(data);
pending_update --;
return true;
}
bool Tween::interpolate_deferred_callback(Object *p_object
, real_t p_times_in_sec
, String p_callback
, VARIANT_ARG_DECLARE
) {
ERR_FAIL_COND_V(pending_update != 0, false);
ERR_FAIL_COND_V(p_object == NULL, false);
ERR_FAIL_COND_V(p_times_in_sec < 0, false);
ERR_FAIL_COND_V(!p_object->has_method(p_callback), false);
InterpolateData data;
data.active = true;
data.type = INTER_CALLBACK;
data.finish = false;
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data.call_deferred = true;
data.elapsed = 0;
data.id = p_object->get_instance_ID();
data.key = p_callback;
data.times_in_sec = p_times_in_sec;
data.delay = 0;
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int args=0;
if (p_arg5.get_type()!=Variant::NIL)
args=5;
else if (p_arg4.get_type()!=Variant::NIL)
args=4;
else if (p_arg3.get_type()!=Variant::NIL)
args=3;
else if (p_arg2.get_type()!=Variant::NIL)
args=2;
else if (p_arg1.get_type()!=Variant::NIL)
args=1;
else
args=0;
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;
pending_update ++;
interpolates.push_back(data);
pending_update --;
return true;
}
bool Tween::follow_property(Object *p_object
, String p_property
, Variant p_initial_val
, Object *p_target
, String p_target_property
, real_t p_times_in_sec
, TransitionType p_trans_type
, EaseType p_ease_type
, real_t p_delay
) {
ERR_FAIL_COND_V(pending_update != 0, false);
// convert INT to REAL is better for interpolaters
if(p_initial_val.get_type() == Variant::INT) p_initial_val = p_initial_val.operator real_t();
ERR_FAIL_COND_V(p_object == NULL, false);
ERR_FAIL_COND_V(p_target == NULL, false);
ERR_FAIL_COND_V(p_times_in_sec <= 0, false);
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);
ERR_FAIL_COND_V(p_delay < 0, false);
bool prop_valid = false;
p_object->get(p_property,&prop_valid);
ERR_FAIL_COND_V(!prop_valid, false);
bool target_prop_valid = false;
Variant target_val = p_target->get(p_target_property,&target_prop_valid);
ERR_FAIL_COND_V(!target_prop_valid, false);
// convert INT to REAL is better for interpolaters
if(target_val.get_type() == Variant::INT) target_val = target_val.operator real_t();
ERR_FAIL_COND_V(target_val.get_type() != p_initial_val.get_type(), false);
InterpolateData data;
data.active = true;
data.type = FOLLOW_PROPERTY;
data.finish = false;
data.elapsed = 0;
data.id = p_object->get_instance_ID();
data.key = p_property;
data.initial_val = p_initial_val;
data.target_id = p_target->get_instance_ID();
data.target_key = p_target_property;
data.times_in_sec = p_times_in_sec;
data.trans_type = p_trans_type;
data.ease_type = p_ease_type;
data.delay = p_delay;
interpolates.push_back(data);
return true;
}
bool Tween::follow_method(Object *p_object
, String p_method
, Variant p_initial_val
, Object *p_target
, String p_target_method
, real_t p_times_in_sec
, TransitionType p_trans_type
, EaseType p_ease_type
, real_t p_delay
) {
ERR_FAIL_COND_V(pending_update != 0, false);
// convert INT to REAL is better for interpolaters
if(p_initial_val.get_type() == Variant::INT) p_initial_val = p_initial_val.operator real_t();
ERR_FAIL_COND_V(p_object == NULL, false);
ERR_FAIL_COND_V(p_target == NULL, false);
ERR_FAIL_COND_V(p_times_in_sec <= 0, false);
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);
ERR_FAIL_COND_V(p_delay < 0, false);
ERR_FAIL_COND_V(!p_object->has_method(p_method), false);
ERR_FAIL_COND_V(!p_target->has_method(p_target_method), false);
Variant::CallError error;
Variant target_val = p_target->call(p_target_method, NULL, 0, error);
ERR_FAIL_COND_V(error.error != Variant::CallError::CALL_OK, false);
// convert INT to REAL is better for interpolaters
if(target_val.get_type() == Variant::INT) target_val = target_val.operator real_t();
ERR_FAIL_COND_V(target_val.get_type() != p_initial_val.get_type(), false);
InterpolateData data;
data.active = true;
data.type = FOLLOW_METHOD;
data.finish = false;
data.elapsed = 0;
data.id = p_object->get_instance_ID();
data.key = p_method;
data.initial_val = p_initial_val;
data.target_id = p_target->get_instance_ID();
data.target_key = p_target_method;
data.times_in_sec = p_times_in_sec;
data.trans_type = p_trans_type;
data.ease_type = p_ease_type;
data.delay = p_delay;
interpolates.push_back(data);
return true;
}
bool Tween::targeting_property(Object *p_object
, String p_property
, Object *p_initial
, String p_initial_property
, Variant p_final_val
, real_t p_times_in_sec
, TransitionType p_trans_type
, EaseType p_ease_type
, real_t p_delay
) {
ERR_FAIL_COND_V(pending_update != 0, false);
// convert INT to REAL is better for interpolaters
if(p_final_val.get_type() == Variant::INT) p_final_val = p_final_val.operator real_t();
ERR_FAIL_COND_V(p_object == NULL, false);
ERR_FAIL_COND_V(p_initial == NULL, false);
ERR_FAIL_COND_V(p_times_in_sec <= 0, false);
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);
ERR_FAIL_COND_V(p_delay < 0, false);
bool prop_valid = false;
p_object->get(p_property,&prop_valid);
ERR_FAIL_COND_V(!prop_valid, false);
bool initial_prop_valid = false;
Variant initial_val = p_initial->get(p_initial_property,&initial_prop_valid);
ERR_FAIL_COND_V(!initial_prop_valid, false);
// convert INT to REAL is better for interpolaters
if(initial_val.get_type() == Variant::INT) initial_val = initial_val.operator real_t();
ERR_FAIL_COND_V(initial_val.get_type() != p_final_val.get_type(), false);
InterpolateData data;
data.active = true;
data.type = TARGETING_PROPERTY;
data.finish = false;
data.elapsed = 0;
data.id = p_object->get_instance_ID();
data.key = p_property;
data.target_id = p_initial->get_instance_ID();
data.target_key = p_initial_property;
data.initial_val = initial_val;
data.final_val = p_final_val;
data.times_in_sec = p_times_in_sec;
data.trans_type = p_trans_type;
data.ease_type = p_ease_type;
data.delay = p_delay;
if(!_calc_delta_val(data.initial_val, data.final_val, data.delta_val))
return false;
interpolates.push_back(data);
return true;
}
bool Tween::targeting_method(Object *p_object
, String p_method
, Object *p_initial
, String p_initial_method
, Variant p_final_val
, real_t p_times_in_sec
, TransitionType p_trans_type
, EaseType p_ease_type
, real_t p_delay
) {
ERR_FAIL_COND_V(pending_update != 0, false);
// convert INT to REAL is better for interpolaters
if(p_final_val.get_type() == Variant::INT) p_final_val = p_final_val.operator real_t();
ERR_FAIL_COND_V(p_object == NULL, false);
ERR_FAIL_COND_V(p_initial == NULL, false);
ERR_FAIL_COND_V(p_times_in_sec <= 0, false);
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);
ERR_FAIL_COND_V(p_delay < 0, false);
ERR_FAIL_COND_V(!p_object->has_method(p_method), false);
ERR_FAIL_COND_V(!p_initial->has_method(p_initial_method), false);
Variant::CallError error;
Variant initial_val = p_initial->call(p_initial_method, NULL, 0, error);
ERR_FAIL_COND_V(error.error != Variant::CallError::CALL_OK, false);
// convert INT to REAL is better for interpolaters
if(initial_val.get_type() == Variant::INT) initial_val = initial_val.operator real_t();
ERR_FAIL_COND_V(initial_val.get_type() != p_final_val.get_type(), false);
InterpolateData data;
data.active = true;
data.type = TARGETING_METHOD;
data.finish = false;
data.elapsed = 0;
data.id = p_object->get_instance_ID();
data.key = p_method;
data.target_id = p_initial->get_instance_ID();
data.target_key = p_initial_method;
data.initial_val = initial_val;
data.final_val = p_final_val;
data.times_in_sec = p_times_in_sec;
data.trans_type = p_trans_type;
data.ease_type = p_ease_type;
data.delay = p_delay;
if(!_calc_delta_val(data.initial_val, data.final_val, data.delta_val))
return false;
interpolates.push_back(data);
return true;
}
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Tween::Tween() {
//String autoplay;
tween_process_mode=TWEEN_PROCESS_IDLE;
processing=false;
active=false;
repeat=false;
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speed_scale=1;
pending_update=0;
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}
Tween::~Tween() {
}