godot/scene/2d/particles_2d.cpp

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/*************************************************************************/
/* particles_2d.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
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/*************************************************************************/
/* Copyright (c) 2007-2017 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2017 Godot Engine contributors (cf. AUTHORS.md) */
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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 "particles_2d.h"
void ParticleAttractor2D::_notification(int p_what) {
switch (p_what) {
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case NOTIFICATION_ENTER_TREE: {
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_update_owner();
} break;
case NOTIFICATION_DRAW: {
if (!get_tree()->is_editor_hint())
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return;
Vector2 pv;
float dr = MIN(disable_radius, radius);
for (int i = 0; i <= 32; i++) {
Vector2 v(Math::sin(i / 32.0 * Math_PI * 2), Math::cos(i / 32.0 * Math_PI * 2));
if (i > 0) {
draw_line(pv * radius, v * radius, Color(0, 0, 0.5, 0.9));
if (dr > 0) {
draw_line(pv * dr, v * dr, Color(0.5, 0, 0.0, 0.9));
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}
}
pv = v;
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}
} break;
case NOTIFICATION_EXIT_TREE: {
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if (owner) {
_set_owner(NULL);
}
} break;
}
}
void ParticleAttractor2D::_owner_exited() {
ERR_FAIL_COND(!owner);
owner->attractors.erase(this);
owner = NULL;
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}
void ParticleAttractor2D::_update_owner() {
if (!is_inside_tree() || !has_node(path)) {
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_set_owner(NULL);
return;
}
Node *n = get_node(path);
ERR_FAIL_COND(!n);
Particles2D *pn = n->cast_to<Particles2D>();
if (!pn) {
_set_owner(NULL);
return;
}
_set_owner(pn);
}
void ParticleAttractor2D::_set_owner(Particles2D *p_owner) {
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if (owner == p_owner)
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return;
if (owner) {
owner->disconnect("exit_tree", this, "_owner_exited");
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owner->attractors.erase(this);
owner = NULL;
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}
owner = p_owner;
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if (owner) {
owner->connect("exit_tree", this, "_owner_exited", varray(), CONNECT_ONESHOT);
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owner->attractors.insert(this);
}
}
void ParticleAttractor2D::_bind_methods() {
ObjectTypeDB::bind_method(_MD("set_enabled", "enabled"), &ParticleAttractor2D::set_enabled);
ObjectTypeDB::bind_method(_MD("is_enabled"), &ParticleAttractor2D::is_enabled);
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ObjectTypeDB::bind_method(_MD("set_radius", "radius"), &ParticleAttractor2D::set_radius);
ObjectTypeDB::bind_method(_MD("get_radius"), &ParticleAttractor2D::get_radius);
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ObjectTypeDB::bind_method(_MD("set_disable_radius", "radius"), &ParticleAttractor2D::set_disable_radius);
ObjectTypeDB::bind_method(_MD("get_disable_radius"), &ParticleAttractor2D::get_disable_radius);
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ObjectTypeDB::bind_method(_MD("set_gravity", "gravity"), &ParticleAttractor2D::set_gravity);
ObjectTypeDB::bind_method(_MD("get_gravity"), &ParticleAttractor2D::get_gravity);
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ObjectTypeDB::bind_method(_MD("set_absorption", "absorption"), &ParticleAttractor2D::set_absorption);
ObjectTypeDB::bind_method(_MD("get_absorption"), &ParticleAttractor2D::get_absorption);
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ObjectTypeDB::bind_method(_MD("set_particles_path", "path"), &ParticleAttractor2D::set_particles_path);
ObjectTypeDB::bind_method(_MD("get_particles_path"), &ParticleAttractor2D::get_particles_path);
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ObjectTypeDB::bind_method(_MD("_owner_exited"), &ParticleAttractor2D::_owner_exited);
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "enabled"), _SCS("set_enabled"), _SCS("is_enabled"));
ADD_PROPERTY(PropertyInfo(Variant::REAL, "radius", PROPERTY_HINT_RANGE, "0.1,16000,0.1"), _SCS("set_radius"), _SCS("get_radius"));
ADD_PROPERTY(PropertyInfo(Variant::REAL, "disable_radius", PROPERTY_HINT_RANGE, "0.1,16000,0.1"), _SCS("set_disable_radius"), _SCS("get_disable_radius"));
ADD_PROPERTY(PropertyInfo(Variant::REAL, "gravity", PROPERTY_HINT_RANGE, "-512,512,0.01"), _SCS("set_gravity"), _SCS("get_gravity"));
ADD_PROPERTY(PropertyInfo(Variant::REAL, "absorption", PROPERTY_HINT_RANGE, "0,512,0.01"), _SCS("set_absorption"), _SCS("get_absorption"));
ADD_PROPERTY(PropertyInfo(Variant::NODE_PATH, "particles_path", PROPERTY_HINT_RESOURCE_TYPE, "Particles2D"), _SCS("set_particles_path"), _SCS("get_particles_path"));
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}
void ParticleAttractor2D::set_enabled(bool p_enabled) {
enabled = p_enabled;
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}
bool ParticleAttractor2D::is_enabled() const {
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return enabled;
}
void ParticleAttractor2D::set_radius(float p_radius) {
radius = p_radius;
update();
}
float ParticleAttractor2D::get_radius() const {
return radius;
}
void ParticleAttractor2D::set_disable_radius(float p_disable_radius) {
disable_radius = p_disable_radius;
update();
}
float ParticleAttractor2D::get_disable_radius() const {
return disable_radius;
}
void ParticleAttractor2D::set_gravity(float p_gravity) {
gravity = p_gravity;
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}
float ParticleAttractor2D::get_gravity() const {
return gravity;
}
void ParticleAttractor2D::set_absorption(float p_absorption) {
absorption = p_absorption;
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}
float ParticleAttractor2D::get_absorption() const {
return absorption;
}
void ParticleAttractor2D::set_particles_path(NodePath p_path) {
path = p_path;
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_update_owner();
update_configuration_warning();
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}
NodePath ParticleAttractor2D::get_particles_path() const {
return path;
}
String ParticleAttractor2D::get_configuration_warning() const {
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if (!has_node(path) || !get_node(path) || !get_node(path)->cast_to<Particles2D>()) {
return TTR("Path property must point to a valid Particles2D node to work.");
}
return String();
}
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ParticleAttractor2D::ParticleAttractor2D() {
owner = NULL;
radius = 50;
disable_radius = 0;
gravity = 100;
absorption = 0;
path = String("..");
enabled = true;
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}
/****************************************/
_FORCE_INLINE_ static float _rand_from_seed(uint32_t *seed) {
uint32_t k;
uint32_t s = (*seed);
if (s == 0)
s = 0x12345987;
k = s / 127773;
s = 16807 * (s - k * 127773) - 2836 * k;
if (s < 0)
s += 2147483647;
(*seed) = s;
float v = ((float)((*seed) & 0xFFFFF)) / (float)0xFFFFF;
v = v * 2.0 - 1.0;
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return v;
}
void Particles2D::_process_particles(float p_delta) {
if (particles.size() == 0 || lifetime == 0)
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return;
p_delta *= time_scale;
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float frame_time = p_delta;
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if (emit_timeout > 0) {
time_to_live -= frame_time;
if (time_to_live < 0) {
emitting = false;
_change_notify("config/emitting");
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};
};
float next_time = time + frame_time;
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if (next_time > lifetime)
next_time = Math::fmod(next_time, lifetime);
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Particle *pdata = &particles[0];
int particle_count = particles.size();
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Matrix32 xform;
if (!local_space)
xform = get_global_transform();
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active_count = 0;
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DVector<Point2>::Read r;
int emission_point_count = 0;
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if (emission_points.size()) {
emission_point_count = emission_points.size();
r = emission_points.read();
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}
int attractor_count = 0;
AttractorCache *attractor_ptr = NULL;
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if (attractors.size()) {
if (attractors.size() != attractor_cache.size()) {
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attractor_cache.resize(attractors.size());
}
int idx = 0;
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Matrix32 m;
if (local_space) {
m = get_global_transform().affine_inverse();
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}
for (Set<ParticleAttractor2D *>::Element *E = attractors.front(); E; E = E->next()) {
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attractor_cache[idx].pos = m.xform(E->get()->get_global_pos());
attractor_cache[idx].attractor = E->get();
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idx++;
}
attractor_ptr = attractor_cache.ptr();
attractor_count = attractor_cache.size();
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}
for (int i = 0; i < particle_count; i++) {
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Particle &p = pdata[i];
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float restart_time = (i * lifetime / particle_count) * explosiveness;
bool restart = false;
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if (next_time < time) {
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if (restart_time > time || restart_time < next_time)
restart = true;
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} else if (restart_time > time && restart_time < next_time) {
restart = true;
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}
if (restart) {
if (emitting) {
p.pos = emissor_offset;
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if (emission_point_count) {
Vector2 ep = r[Math::rand() % emission_point_count];
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if (!local_space) {
p.pos = xform.xform(p.pos + ep * extents);
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} else {
p.pos += ep * extents;
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}
} else {
if (!local_space) {
p.pos = xform.xform(p.pos + Vector2(Math::random(-extents.x, extents.x), Math::random(-extents.y, extents.y)));
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} else {
p.pos += Vector2(Math::random(-extents.x, extents.x), Math::random(-extents.y, extents.y));
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}
}
p.seed = Math::rand() % 12345678;
uint32_t rand_seed = p.seed * (i + 1);
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float angle = Math::deg2rad(param[PARAM_DIRECTION] + _rand_from_seed(&rand_seed) * param[PARAM_SPREAD]);
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p.velocity = Vector2(Math::sin(angle), Math::cos(angle));
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if (!local_space) {
p.velocity = xform.basis_xform(p.velocity).normalized();
}
p.velocity *= param[PARAM_LINEAR_VELOCITY] + param[PARAM_LINEAR_VELOCITY] * _rand_from_seed(&rand_seed) * randomness[PARAM_LINEAR_VELOCITY];
p.velocity += initial_velocity;
p.active = true;
p.rot = Math::deg2rad(param[PARAM_INITIAL_ANGLE] + param[PARAM_INITIAL_ANGLE] * randomness[PARAM_INITIAL_ANGLE] * _rand_from_seed(&rand_seed));
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active_count++;
p.frame = Math::fmod(param[PARAM_ANIM_INITIAL_POS] + randomness[PARAM_ANIM_INITIAL_POS] * _rand_from_seed(&rand_seed), 1.0);
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} else {
p.active = false;
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}
} else {
if (!p.active)
continue;
uint32_t rand_seed = p.seed * (i + 1);
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Vector2 force;
//apply gravity
float gravity_dir = Math::deg2rad(param[PARAM_GRAVITY_DIRECTION] + 180 * randomness[PARAM_GRAVITY_DIRECTION] * _rand_from_seed(&rand_seed));
force += Vector2(Math::sin(gravity_dir), Math::cos(gravity_dir)) * (param[PARAM_GRAVITY_STRENGTH] + param[PARAM_GRAVITY_STRENGTH] * randomness[PARAM_GRAVITY_STRENGTH] * _rand_from_seed(&rand_seed));
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//apply radial
Vector2 rvec = (p.pos - emissor_offset).normalized();
force += rvec * (param[PARAM_RADIAL_ACCEL] + param[PARAM_RADIAL_ACCEL] * randomness[PARAM_RADIAL_ACCEL] * _rand_from_seed(&rand_seed));
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//apply orbit
float orbitvel = (param[PARAM_ORBIT_VELOCITY] + param[PARAM_ORBIT_VELOCITY] * randomness[PARAM_ORBIT_VELOCITY] * _rand_from_seed(&rand_seed));
if (orbitvel != 0) {
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Vector2 rel = p.pos - xform.elements[2];
Matrix32 rot(orbitvel * frame_time, Vector2());
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p.pos = rot.xform(rel) + xform.elements[2];
}
Vector2 tvec = rvec.tangent();
force += tvec * (param[PARAM_TANGENTIAL_ACCEL] + param[PARAM_TANGENTIAL_ACCEL] * randomness[PARAM_TANGENTIAL_ACCEL] * _rand_from_seed(&rand_seed));
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for (int j = 0; j < attractor_count; j++) {
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Vector2 vec = (attractor_ptr[j].pos - p.pos);
float vl = vec.length();
if (!attractor_ptr[j].attractor->enabled || vl == 0 || vl > attractor_ptr[j].attractor->radius)
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continue;
force += vec * attractor_ptr[j].attractor->gravity;
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float fvl = p.velocity.length();
if (fvl && attractor_ptr[j].attractor->absorption) {
Vector2 target = vec.normalized();
p.velocity = p.velocity.normalized().linear_interpolate(target, MIN(frame_time * attractor_ptr[j].attractor->absorption, 1)) * fvl;
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}
if (attractor_ptr[j].attractor->disable_radius && vl < attractor_ptr[j].attractor->disable_radius) {
p.active = false;
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}
}
p.velocity += force * frame_time;
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if (param[PARAM_DAMPING]) {
float dmp = param[PARAM_DAMPING] + param[PARAM_DAMPING] * randomness[PARAM_DAMPING] * _rand_from_seed(&rand_seed);
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float v = p.velocity.length();
v -= dmp * frame_time;
if (v <= 0) {
p.velocity = Vector2();
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} else {
p.velocity = p.velocity.normalized() * v;
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}
}
p.pos += p.velocity * frame_time;
p.rot += Math::lerp(param[PARAM_SPIN_VELOCITY], param[PARAM_SPIN_VELOCITY] * randomness[PARAM_SPIN_VELOCITY] * _rand_from_seed(&rand_seed), randomness[PARAM_SPIN_VELOCITY]) * frame_time;
float anim_spd = param[PARAM_ANIM_SPEED_SCALE] + param[PARAM_ANIM_SPEED_SCALE] * randomness[PARAM_ANIM_SPEED_SCALE] * _rand_from_seed(&rand_seed);
p.frame = Math::fposmod(p.frame + (frame_time / lifetime) * anim_spd, 1.0);
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active_count++;
}
}
time = Math::fmod(time + frame_time, lifetime);
if (!emitting && active_count == 0) {
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set_process(false);
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set_fixed_process(false);
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}
update();
}
void Particles2D::_notification(int p_what) {
switch (p_what) {
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case NOTIFICATION_PROCESS: {
_process_particles(get_process_delta_time());
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} break;
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case NOTIFICATION_FIXED_PROCESS: {
_process_particles(get_fixed_process_delta_time());
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} break;
case NOTIFICATION_ENTER_TREE: {
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// For projects saved before "process_mode" was introduced
set_process_mode(process_mode);
float ppt = preprocess;
while (ppt > 0) {
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_process_particles(0.1);
ppt -= 0.1;
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}
} break;
case NOTIFICATION_DRAW: {
if (particles.size() == 0 || lifetime == 0)
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return;
RID ci = get_canvas_item();
Size2 size(1, 1);
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Point2 center;
int total_frames = 1;
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if (!texture.is_null()) {
size = texture->get_size();
size.x /= h_frames;
size.y /= v_frames;
total_frames = h_frames * v_frames;
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}
float time_pos = (time / lifetime);
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Particle *pdata = &particles[0];
int particle_count = particles.size();
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RID texrid;
if (texture.is_valid())
texrid = texture->get_rid();
Matrix32 invxform;
if (!local_space)
invxform = get_global_transform().affine_inverse();
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int start_particle = (int)(time * (float)particle_count / lifetime);
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for (int id = 0; id < particle_count; ++id) {
int i = start_particle + id;
if (i >= particle_count) {
i -= particle_count;
}
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Particle &p = pdata[i];
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if (!p.active)
continue;
float ptime = ((float)i / particle_count) * explosiveness;
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if (ptime < time_pos)
ptime = time_pos - ptime;
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else
ptime = (1.0 - ptime) + time_pos;
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uint32_t rand_seed = p.seed * (i + 1);
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Color color;
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if (color_ramp.is_valid()) {
color = color_ramp->get_color_at_offset(ptime);
} else {
color = default_color;
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}
{
float huerand = _rand_from_seed(&rand_seed);
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float huerot = param[PARAM_HUE_VARIATION] + randomness[PARAM_HUE_VARIATION] * huerand;
if (Math::abs(huerot) > CMP_EPSILON) {
float h = color.get_h();
float s = color.get_s();
float v = color.get_v();
float a = color.a;
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//float preh=h;
h += huerot;
h = Math::abs(Math::fposmod(h, 1.0));
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//print_line("rand: "+rtos(randomness[PARAM_HUE_VARIATION])+" rand: "+rtos(huerand));
//print_line(itos(i)+":hue: "+rtos(preh)+" + "+rtos(huerot)+" = "+rtos(h));
color.set_hsv(h, s, v);
color.a = a;
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}
}
float initial_size = param[PARAM_INITIAL_SIZE] + param[PARAM_INITIAL_SIZE] * _rand_from_seed(&rand_seed) * randomness[PARAM_INITIAL_SIZE];
float final_size = param[PARAM_FINAL_SIZE] + param[PARAM_FINAL_SIZE] * _rand_from_seed(&rand_seed) * randomness[PARAM_FINAL_SIZE];
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float size_mult = initial_size * (1.0 - ptime) + final_size * ptime;
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//Size2 rectsize=size * size_mult;
//rectsize=rectsize.floor();
//Rect2 r = Rect2(Vecto,rectsize);
Matrix32 xform;
if (p.rot) {
xform.set_rotation(p.rot);
xform.translate(-size * size_mult / 2.0);
xform.elements[2] += p.pos;
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} else {
xform.elements[2] = -size * size_mult / 2.0;
xform.elements[2] += p.pos;
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}
if (!local_space) {
xform = invxform * xform;
}
xform.scale_basis(Size2(size_mult, size_mult));
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VisualServer::get_singleton()->canvas_item_add_set_transform(ci, xform);
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if (texrid.is_valid()) {
Rect2 src_rect;
src_rect.size = size;
if (total_frames > 1) {
int frame = Math::fast_ftoi(Math::floor(p.frame * total_frames)) % total_frames;
src_rect.pos.x = size.x * (frame % h_frames);
src_rect.pos.y = size.y * (frame / h_frames);
}
Rect2 dst_rect(Point2(), size);
if (flip_h)
dst_rect.size.x = -dst_rect.size.x;
if (flip_v)
dst_rect.size.y = -dst_rect.size.y;
texture->draw_rect_region(ci, dst_rect, src_rect, color);
//VisualServer::get_singleton()->canvas_item_add_texture_rect(ci,r,texrid,false,color);
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} else {
VisualServer::get_singleton()->canvas_item_add_rect(ci, Rect2(Point2(), size), color);
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}
}
} break;
}
}
static const char *_particlesframe_property_names[Particles2D::PARAM_MAX] = {
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"params/direction",
"params/spread",
"params/linear_velocity",
"params/spin_velocity",
"params/orbit_velocity",
"params/gravity_direction",
"params/gravity_strength",
"params/radial_accel",
"params/tangential_accel",
"params/damping",
"params/initial_angle",
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"params/initial_size",
"params/final_size",
"params/hue_variation",
"params/anim_speed_scale",
"params/anim_initial_pos",
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};
static const char *_particlesframe_property_rnames[Particles2D::PARAM_MAX] = {
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"randomness/direction",
"randomness/spread",
"randomness/linear_velocity",
"randomness/spin_velocity",
"randomness/orbit_velocity",
"randomness/gravity_direction",
"randomness/gravity_strength",
"randomness/radial_accel",
"randomness/tangential_accel",
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"randomness/damping",
"randomness/initial_angle",
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"randomness/initial_size",
"randomness/final_size",
"randomness/hue_variation",
"randomness/anim_speed_scale",
"randomness/anim_initial_pos",
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};
static const char *_particlesframe_property_ranges[Particles2D::PARAM_MAX] = {
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"0,360,0.01",
"0,180,0.01",
"-1024,1024,0.01",
"-1024,1024,0.01",
"-1024,1024,0.01",
"0,360,0.01",
"0,1024,0.01",
"-128,128,0.01",
"-128,128,0.01",
"0,1024,0.001",
"0,360,0.01",
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"0,1024,0.01",
"0,1024,0.01",
"0,1,0.01",
"0,128,0.01",
"0,1,0.01",
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};
void Particles2D::set_emitting(bool p_emitting) {
if (emitting == p_emitting)
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return;
if (p_emitting) {
if (active_count == 0)
time = 0;
set_process(process_mode == PROCESS_IDLE);
set_fixed_process(process_mode == PROCESS_FIXED);
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time_to_live = emit_timeout;
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}
emitting = p_emitting;
_change_notify("config/emitting");
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}
bool Particles2D::is_emitting() const {
return emitting;
}
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void Particles2D::set_process_mode(ProcessMode p_mode) {
process_mode = p_mode;
const bool should_process = emitting || active_count != 0;
set_process(should_process && process_mode == PROCESS_IDLE);
set_fixed_process(should_process && process_mode == PROCESS_FIXED);
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}
Particles2D::ProcessMode Particles2D::get_process_mode() const {
return process_mode;
}
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void Particles2D::set_amount(int p_amount) {
ERR_FAIL_INDEX(p_amount, 1024 + 1);
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particles.resize(p_amount);
}
int Particles2D::get_amount() const {
return particles.size();
}
void Particles2D::set_emit_timeout(float p_timeout) {
emit_timeout = p_timeout;
time_to_live = p_timeout;
};
float Particles2D::get_emit_timeout() const {
return emit_timeout;
};
void Particles2D::set_lifetime(float p_lifetime) {
ERR_FAIL_INDEX(p_lifetime, 3600 + 1);
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lifetime = p_lifetime;
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}
float Particles2D::get_lifetime() const {
return lifetime;
}
void Particles2D::set_time_scale(float p_time_scale) {
time_scale = p_time_scale;
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}
float Particles2D::get_time_scale() const {
return time_scale;
}
void Particles2D::set_pre_process_time(float p_pre_process_time) {
preprocess = p_pre_process_time;
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}
float Particles2D::get_pre_process_time() const {
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return preprocess;
}
void Particles2D::set_param(Parameter p_param, float p_value) {
ERR_FAIL_INDEX(p_param, PARAM_MAX);
param[p_param] = p_value;
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}
float Particles2D::get_param(Parameter p_param) const {
ERR_FAIL_INDEX_V(p_param, PARAM_MAX, 0);
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return param[p_param];
}
void Particles2D::set_randomness(Parameter p_param, float p_value) {
ERR_FAIL_INDEX(p_param, PARAM_MAX);
randomness[p_param] = p_value;
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}
float Particles2D::get_randomness(Parameter p_param) const {
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ERR_FAIL_INDEX_V(p_param, PARAM_MAX, 0);
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return randomness[p_param];
}
void Particles2D::set_texture(const Ref<Texture> &p_texture) {
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texture = p_texture;
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}
Ref<Texture> Particles2D::get_texture() const {
return texture;
}
void Particles2D::set_color(const Color &p_color) {
default_color = p_color;
}
Color Particles2D::get_color() const {
return default_color;
}
void Particles2D::set_color_ramp(const Ref<ColorRamp> &p_color_ramp) {
color_ramp = p_color_ramp;
}
Ref<ColorRamp> Particles2D::get_color_ramp() const {
return color_ramp;
}
void Particles2D::set_emissor_offset(const Point2 &p_offset) {
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emissor_offset = p_offset;
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}
Point2 Particles2D::get_emissor_offset() const {
return emissor_offset;
}
void Particles2D::set_use_local_space(bool p_use) {
local_space = p_use;
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}
bool Particles2D::is_using_local_space() const {
return local_space;
}
//Deprecated. Converts color phases to color ramp
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void Particles2D::set_color_phases(int p_phases) {
//Create color ramp if we have 2 or more phases.
//Otherwise first phase phase will be assigned to default color.
if (p_phases > 1 && color_ramp.is_null()) {
color_ramp = Ref<ColorRamp>(memnew(ColorRamp()));
}
if (color_ramp.is_valid()) {
color_ramp->get_points().resize(p_phases);
}
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}
//Deprecated.
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int Particles2D::get_color_phases() const {
if (color_ramp.is_valid()) {
return color_ramp->get_points_count();
}
return 0;
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}
//Deprecated. Converts color phases to color ramp
void Particles2D::set_color_phase_color(int p_phase, const Color &p_color) {
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ERR_FAIL_INDEX(p_phase, MAX_COLOR_PHASES);
if (color_ramp.is_valid()) {
if (color_ramp->get_points_count() > p_phase)
color_ramp->set_color(p_phase, p_color);
} else {
if (p_phase == 0)
default_color = p_color;
}
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}
//Deprecated.
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Color Particles2D::get_color_phase_color(int p_phase) const {
ERR_FAIL_INDEX_V(p_phase, MAX_COLOR_PHASES, Color());
if (color_ramp.is_valid()) {
return color_ramp->get_color(p_phase);
}
return Color(0, 0, 0, 1);
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}
//Deprecated. Converts color phases to color ramp
void Particles2D::set_color_phase_pos(int p_phase, float p_pos) {
ERR_FAIL_INDEX(p_phase, MAX_COLOR_PHASES);
ERR_FAIL_COND(p_pos < 0.0 || p_pos > 1.0);
if (color_ramp.is_valid() && color_ramp->get_points_count() > p_phase) {
return color_ramp->set_offset(p_phase, p_pos);
}
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}
//Deprecated.
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float Particles2D::get_color_phase_pos(int p_phase) const {
ERR_FAIL_INDEX_V(p_phase, MAX_COLOR_PHASES, 0);
if (color_ramp.is_valid()) {
return color_ramp->get_offset(p_phase);
}
return 0;
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}
void Particles2D::set_emission_half_extents(const Vector2 &p_extents) {
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extents = p_extents;
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}
Vector2 Particles2D::get_emission_half_extents() const {
return extents;
}
void Particles2D::testee(int a, int b, int c, int d, int e) {
print_line(itos(a));
print_line(itos(b));
print_line(itos(c));
print_line(itos(d));
print_line(itos(e));
}
void Particles2D::set_initial_velocity(const Vector2 &p_velocity) {
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initial_velocity = p_velocity;
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}
Vector2 Particles2D::get_initial_velocity() const {
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return initial_velocity;
}
void Particles2D::pre_process(float p_delta) {
_process_particles(p_delta);
}
void Particles2D::set_explosiveness(float p_value) {
explosiveness = p_value;
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}
float Particles2D::get_explosiveness() const {
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return explosiveness;
}
void Particles2D::set_flip_h(bool p_flip) {
flip_h = p_flip;
}
bool Particles2D::is_flipped_h() const {
return flip_h;
}
void Particles2D::set_flip_v(bool p_flip) {
flip_v = p_flip;
}
bool Particles2D::is_flipped_v() const {
return flip_v;
}
void Particles2D::set_h_frames(int p_frames) {
ERR_FAIL_COND(p_frames < 1);
h_frames = p_frames;
}
int Particles2D::get_h_frames() const {
return h_frames;
}
void Particles2D::set_v_frames(int p_frames) {
ERR_FAIL_COND(p_frames < 1);
v_frames = p_frames;
}
int Particles2D::get_v_frames() const {
return v_frames;
}
void Particles2D::set_emission_points(const DVector<Vector2> &p_points) {
emission_points = p_points;
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}
DVector<Vector2> Particles2D::get_emission_points() const {
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return emission_points;
}
void Particles2D::reset() {
for (int i = 0; i < particles.size(); i++) {
particles[i].active = false;
}
time = 0;
active_count = 0;
}
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void Particles2D::_bind_methods() {
ObjectTypeDB::bind_method(_MD("set_emitting", "active"), &Particles2D::set_emitting);
ObjectTypeDB::bind_method(_MD("is_emitting"), &Particles2D::is_emitting);
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ObjectTypeDB::bind_method(_MD("set_process_mode", "mode"), &Particles2D::set_process_mode);
ObjectTypeDB::bind_method(_MD("get_process_mode"), &Particles2D::get_process_mode);
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ObjectTypeDB::bind_method(_MD("set_amount", "amount"), &Particles2D::set_amount);
ObjectTypeDB::bind_method(_MD("get_amount"), &Particles2D::get_amount);
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ObjectTypeDB::bind_method(_MD("set_lifetime", "lifetime"), &Particles2D::set_lifetime);
ObjectTypeDB::bind_method(_MD("get_lifetime"), &Particles2D::get_lifetime);
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ObjectTypeDB::bind_method(_MD("set_time_scale", "time_scale"), &Particles2D::set_time_scale);
ObjectTypeDB::bind_method(_MD("get_time_scale"), &Particles2D::get_time_scale);
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ObjectTypeDB::bind_method(_MD("set_pre_process_time", "time"), &Particles2D::set_pre_process_time);
ObjectTypeDB::bind_method(_MD("get_pre_process_time"), &Particles2D::get_pre_process_time);
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ObjectTypeDB::bind_method(_MD("set_emit_timeout", "value"), &Particles2D::set_emit_timeout);
ObjectTypeDB::bind_method(_MD("get_emit_timeout"), &Particles2D::get_emit_timeout);
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ObjectTypeDB::bind_method(_MD("set_param", "param", "value"), &Particles2D::set_param);
ObjectTypeDB::bind_method(_MD("get_param", "param"), &Particles2D::get_param);
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ObjectTypeDB::bind_method(_MD("set_randomness", "param", "value"), &Particles2D::set_randomness);
ObjectTypeDB::bind_method(_MD("get_randomness", "param"), &Particles2D::get_randomness);
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ObjectTypeDB::bind_method(_MD("set_texture:Texture", "texture"), &Particles2D::set_texture);
ObjectTypeDB::bind_method(_MD("get_texture:Texture"), &Particles2D::get_texture);
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ObjectTypeDB::bind_method(_MD("set_color", "color"), &Particles2D::set_color);
ObjectTypeDB::bind_method(_MD("get_color"), &Particles2D::get_color);
ObjectTypeDB::bind_method(_MD("set_color_ramp:ColorRamp", "color_ramp"), &Particles2D::set_color_ramp);
ObjectTypeDB::bind_method(_MD("get_color_ramp:ColorRamp"), &Particles2D::get_color_ramp);
ObjectTypeDB::bind_method(_MD("set_emissor_offset", "offset"), &Particles2D::set_emissor_offset);
ObjectTypeDB::bind_method(_MD("get_emissor_offset"), &Particles2D::get_emissor_offset);
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ObjectTypeDB::bind_method(_MD("set_flip_h", "enable"), &Particles2D::set_flip_h);
ObjectTypeDB::bind_method(_MD("is_flipped_h"), &Particles2D::is_flipped_h);
ObjectTypeDB::bind_method(_MD("set_flip_v", "enable"), &Particles2D::set_flip_v);
ObjectTypeDB::bind_method(_MD("is_flipped_v"), &Particles2D::is_flipped_v);
ObjectTypeDB::bind_method(_MD("set_h_frames", "enable"), &Particles2D::set_h_frames);
ObjectTypeDB::bind_method(_MD("get_h_frames"), &Particles2D::get_h_frames);
ObjectTypeDB::bind_method(_MD("set_v_frames", "enable"), &Particles2D::set_v_frames);
ObjectTypeDB::bind_method(_MD("get_v_frames"), &Particles2D::get_v_frames);
ObjectTypeDB::bind_method(_MD("set_emission_half_extents", "extents"), &Particles2D::set_emission_half_extents);
ObjectTypeDB::bind_method(_MD("get_emission_half_extents"), &Particles2D::get_emission_half_extents);
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ObjectTypeDB::bind_method(_MD("set_color_phases", "phases"), &Particles2D::set_color_phases);
ObjectTypeDB::bind_method(_MD("get_color_phases"), &Particles2D::get_color_phases);
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ObjectTypeDB::bind_method(_MD("set_color_phase_color", "phase", "color"), &Particles2D::set_color_phase_color);
ObjectTypeDB::bind_method(_MD("get_color_phase_color", "phase"), &Particles2D::get_color_phase_color);
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ObjectTypeDB::bind_method(_MD("set_color_phase_pos", "phase", "pos"), &Particles2D::set_color_phase_pos);
ObjectTypeDB::bind_method(_MD("get_color_phase_pos", "phase"), &Particles2D::get_color_phase_pos);
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ObjectTypeDB::bind_method(_MD("pre_process", "time"), &Particles2D::pre_process);
ObjectTypeDB::bind_method(_MD("reset"), &Particles2D::reset);
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ObjectTypeDB::bind_method(_MD("set_use_local_space", "enable"), &Particles2D::set_use_local_space);
ObjectTypeDB::bind_method(_MD("is_using_local_space"), &Particles2D::is_using_local_space);
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ObjectTypeDB::bind_method(_MD("set_initial_velocity", "velocity"), &Particles2D::set_initial_velocity);
ObjectTypeDB::bind_method(_MD("get_initial_velocity"), &Particles2D::get_initial_velocity);
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ObjectTypeDB::bind_method(_MD("set_explosiveness", "amount"), &Particles2D::set_explosiveness);
ObjectTypeDB::bind_method(_MD("get_explosiveness"), &Particles2D::get_explosiveness);
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ObjectTypeDB::bind_method(_MD("set_emission_points", "points"), &Particles2D::set_emission_points);
ObjectTypeDB::bind_method(_MD("get_emission_points"), &Particles2D::get_emission_points);
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ADD_PROPERTY(PropertyInfo(Variant::INT, "config/amount", PROPERTY_HINT_EXP_RANGE, "1,1024"), _SCS("set_amount"), _SCS("get_amount"));
ADD_PROPERTY(PropertyInfo(Variant::REAL, "config/lifetime", PROPERTY_HINT_EXP_RANGE, "0.1,3600,0.1"), _SCS("set_lifetime"), _SCS("get_lifetime"));
ADD_PROPERTYNO(PropertyInfo(Variant::REAL, "config/time_scale", PROPERTY_HINT_EXP_RANGE, "0.01,128,0.01"), _SCS("set_time_scale"), _SCS("get_time_scale"));
ADD_PROPERTYNZ(PropertyInfo(Variant::REAL, "config/preprocess", PROPERTY_HINT_EXP_RANGE, "0,3600,0.1"), _SCS("set_pre_process_time"), _SCS("get_pre_process_time"));
ADD_PROPERTYNZ(PropertyInfo(Variant::REAL, "config/emit_timeout", PROPERTY_HINT_RANGE, "0,3600,0.1"), _SCS("set_emit_timeout"), _SCS("get_emit_timeout"));
ADD_PROPERTYNO(PropertyInfo(Variant::BOOL, "config/emitting"), _SCS("set_emitting"), _SCS("is_emitting"));
ADD_PROPERTY(PropertyInfo(Variant::INT, "config/process_mode", PROPERTY_HINT_ENUM, "Fixed,Idle"), _SCS("set_process_mode"), _SCS("get_process_mode"));
ADD_PROPERTYNZ(PropertyInfo(Variant::VECTOR2, "config/offset"), _SCS("set_emissor_offset"), _SCS("get_emissor_offset"));
ADD_PROPERTYNZ(PropertyInfo(Variant::VECTOR2, "config/half_extents"), _SCS("set_emission_half_extents"), _SCS("get_emission_half_extents"));
ADD_PROPERTYNO(PropertyInfo(Variant::BOOL, "config/local_space"), _SCS("set_use_local_space"), _SCS("is_using_local_space"));
ADD_PROPERTYNO(PropertyInfo(Variant::REAL, "config/explosiveness", PROPERTY_HINT_RANGE, "0,1,0.01"), _SCS("set_explosiveness"), _SCS("get_explosiveness"));
ADD_PROPERTYNZ(PropertyInfo(Variant::BOOL, "config/flip_h"), _SCS("set_flip_h"), _SCS("is_flipped_h"));
ADD_PROPERTYNZ(PropertyInfo(Variant::BOOL, "config/flip_v"), _SCS("set_flip_v"), _SCS("is_flipped_v"));
ADD_PROPERTYNZ(PropertyInfo(Variant::OBJECT, "config/texture", PROPERTY_HINT_RESOURCE_TYPE, "Texture"), _SCS("set_texture"), _SCS("get_texture"));
ADD_PROPERTYNO(PropertyInfo(Variant::INT, "config/h_frames", PROPERTY_HINT_RANGE, "1,512,1"), _SCS("set_h_frames"), _SCS("get_h_frames"));
ADD_PROPERTYNO(PropertyInfo(Variant::INT, "config/v_frames", PROPERTY_HINT_RANGE, "1,512,1"), _SCS("set_v_frames"), _SCS("get_v_frames"));
for (int i = 0; i < PARAM_MAX; i++) {
ADD_PROPERTYI(PropertyInfo(Variant::REAL, _particlesframe_property_names[i], PROPERTY_HINT_RANGE, _particlesframe_property_ranges[i]), _SCS("set_param"), _SCS("get_param"), i);
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}
for (int i = 0; i < PARAM_MAX; i++) {
ADD_PROPERTYINZ(PropertyInfo(Variant::REAL, _particlesframe_property_rnames[i], PROPERTY_HINT_RANGE, "-1,1,0.01"), _SCS("set_randomness"), _SCS("get_randomness"), i);
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}
ADD_PROPERTYNZ(PropertyInfo(Variant::INT, "color_phases/count", PROPERTY_HINT_RANGE, "0,4,1", 0), _SCS("set_color_phases"), _SCS("get_color_phases"));
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//Backward compatibility. They will be converted to color ramp
for (int i = 0; i < MAX_COLOR_PHASES; i++) {
String phase = "phase_" + itos(i) + "/";
ADD_PROPERTYI(PropertyInfo(Variant::REAL, phase + "pos", PROPERTY_HINT_RANGE, "0,1,0.01", 0), _SCS("set_color_phase_pos"), _SCS("get_color_phase_pos"), i);
ADD_PROPERTYI(PropertyInfo(Variant::COLOR, phase + "color", PROPERTY_HINT_NONE, "", 0), _SCS("set_color_phase_color"), _SCS("get_color_phase_color"), i);
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}
ADD_PROPERTYNO(PropertyInfo(Variant::COLOR, "color/color"), _SCS("set_color"), _SCS("get_color"));
ADD_PROPERTYNZ(PropertyInfo(Variant::OBJECT, "color/color_ramp", PROPERTY_HINT_RESOURCE_TYPE, "ColorRamp"), _SCS("set_color_ramp"), _SCS("get_color_ramp"));
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ADD_PROPERTYNZ(PropertyInfo(Variant::VECTOR2_ARRAY, "emission_points", PROPERTY_HINT_NONE, "", PROPERTY_USAGE_NOEDITOR), _SCS("set_emission_points"), _SCS("get_emission_points"));
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BIND_CONSTANT(PARAM_DIRECTION);
BIND_CONSTANT(PARAM_SPREAD);
BIND_CONSTANT(PARAM_LINEAR_VELOCITY);
BIND_CONSTANT(PARAM_SPIN_VELOCITY);
BIND_CONSTANT(PARAM_ORBIT_VELOCITY);
BIND_CONSTANT(PARAM_GRAVITY_DIRECTION);
BIND_CONSTANT(PARAM_GRAVITY_STRENGTH);
BIND_CONSTANT(PARAM_RADIAL_ACCEL);
BIND_CONSTANT(PARAM_TANGENTIAL_ACCEL);
BIND_CONSTANT(PARAM_DAMPING);
BIND_CONSTANT(PARAM_INITIAL_ANGLE);
BIND_CONSTANT(PARAM_INITIAL_SIZE);
BIND_CONSTANT(PARAM_FINAL_SIZE);
BIND_CONSTANT(PARAM_HUE_VARIATION);
BIND_CONSTANT(PARAM_ANIM_SPEED_SCALE);
BIND_CONSTANT(PARAM_ANIM_INITIAL_POS);
BIND_CONSTANT(PARAM_MAX);
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BIND_CONSTANT(MAX_COLOR_PHASES);
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}
Particles2D::Particles2D() {
for (int i = 0; i < PARAM_MAX; i++) {
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param[i] = 0;
randomness[i] = 0;
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}
set_param(PARAM_SPREAD, 10);
set_param(PARAM_LINEAR_VELOCITY, 20);
set_param(PARAM_GRAVITY_STRENGTH, 9.8);
set_param(PARAM_RADIAL_ACCEL, 0);
set_param(PARAM_TANGENTIAL_ACCEL, 0);
set_param(PARAM_INITIAL_ANGLE, 0.0);
set_param(PARAM_INITIAL_SIZE, 1.0);
set_param(PARAM_FINAL_SIZE, 1.0);
set_param(PARAM_ANIM_SPEED_SCALE, 1.0);
set_color(Color(1, 1, 1, 1));
time = 0;
lifetime = 2;
emitting = false;
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particles.resize(32);
active_count = -1;
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set_emitting(true);
process_mode = PROCESS_IDLE;
local_space = true;
preprocess = 0;
time_scale = 1.0;
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flip_h = false;
flip_v = false;
v_frames = 1;
h_frames = 1;
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emit_timeout = 0;
time_to_live = 0;
explosiveness = 1.0;
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}