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426 lines
15 KiB
GLSL
426 lines
15 KiB
GLSL
#version 330 core
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#include <constants.glsl>
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#define LIGHTING_TYPE LIGHTING_TYPE_REFLECTION
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#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY
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#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
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#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET
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#define LIGHTING_DISTRIBUTION LIGHTING_DISTRIBUTION_BECKMANN
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#include <globals.glsl>
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#include <srgb.glsl>
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#include <random.glsl>
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#include <lod.glsl>
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in vec3 v_pos;
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// in uint v_col;
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in uint v_norm_ao;
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in vec3 inst_pos;
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in float inst_time;
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in float inst_lifespan;
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in float inst_entropy;
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in vec3 inst_dir;
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in int inst_mode;
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out vec3 f_pos;
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flat out vec3 f_norm;
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out vec4 f_col;
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out float f_ao;
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out float f_light;
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out float f_reflect;
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const float SCALE = 1.0 / 11.0;
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// Modes
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const int SMOKE = 0;
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const int FIRE = 1;
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const int GUN_POWDER_SPARK = 2;
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const int SHRAPNEL = 3;
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const int FIREWORK_BLUE = 4;
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const int FIREWORK_GREEN = 5;
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const int FIREWORK_PURPLE = 6;
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const int FIREWORK_RED = 7;
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const int FIREWORK_WHITE = 8;
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const int FIREWORK_YELLOW = 9;
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const int LEAF = 10;
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const int FIREFLY = 11;
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const int BEE = 12;
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const int GROUND_SHOCKWAVE = 13;
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const int HEALING_BEAM = 14;
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const int ENERGY_NATURE = 15;
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const int FLAMETHROWER = 16;
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const int FIRE_SHOCKWAVE = 17;
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const int FIRE_BOWL = 18;
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const int SNOW = 19;
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const int EXPLOSION = 20;
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const int ICE = 21;
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const int LIFESTEAL_BEAM = 22;
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// meters per second squared (acceleration)
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const float earth_gravity = 9.807;
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struct Attr {
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vec3 offs;
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vec3 scale;
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vec4 col;
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mat4 rot;
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};
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float lifetime = tick.x - inst_time;
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vec3 linear_motion(vec3 init_offs, vec3 vel) {
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return init_offs + vel * lifetime;
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}
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vec3 grav_vel(float grav) {
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return vec3(0, 0, -grav * lifetime);
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}
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float exp_scale(float factor) {
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return 1 / (1 - lifetime * factor);
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}
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float linear_scale(float factor) {
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return lifetime * factor;
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}
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float percent() {
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return lifetime / inst_lifespan;
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}
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float slow_end(float factor) {
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return (1 + factor) * percent() / (percent() + factor);
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}
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float slow_start(float factor) {
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return 1-(1 + factor) * (1-percent()) / ((1-percent()) + factor);
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}
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float start_end(float from, float to) {
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return mix(from, to, lifetime / inst_lifespan);
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}
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mat4 spin_in_axis(vec3 axis, float angle)
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{
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axis = normalize(axis);
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float s = sin(angle);
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float c = cos(angle);
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float oc = 1.0 - c;
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return mat4(oc * axis.x * axis.x + c, oc * axis.x * axis.y - axis.z * s, oc * axis.z * axis.x + axis.y * s, 0,
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oc * axis.x * axis.y + axis.z * s, oc * axis.y * axis.y + c, oc * axis.y * axis.z - axis.x * s, 0,
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oc * axis.z * axis.x - axis.y * s, oc * axis.y * axis.z + axis.x * s, oc * axis.z * axis.z + c, 0,
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0, 0, 0, 1);
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}
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mat4 identity() {
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return mat4(
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1, 0, 0, 0,
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0, 1, 0, 0,
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0, 0, 1, 0,
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0, 0, 0, 1
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);
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}
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vec3 perp_axis1(vec3 axis) {
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return normalize(vec3(axis.y + axis.z, -axis.x + axis.z, -axis.x - axis.y));
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}
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vec3 perp_axis2(vec3 axis1, vec3 axis2) {
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return normalize(vec3(axis1.y * axis2.z - axis1.z * axis2.y, axis1.z * axis2.x - axis1.x * axis2.z, axis1.x * axis2.y - axis1.y * axis2.x));
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}
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vec3 spiral_motion(vec3 line, float radius, float time_function, float frequency, float offset) {
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vec3 axis2 = perp_axis1(line);
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vec3 axis3 = perp_axis2(line, axis2);
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return line * time_function + vec3(
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radius * cos(frequency * time_function - offset) * axis2.x + radius * sin(frequency * time_function - offset) * axis3.x,
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radius * cos(frequency * time_function - offset) * axis2.y + radius * sin(frequency * time_function - offset) * axis3.y,
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radius * cos(frequency * time_function - offset) * axis2.z + radius * sin(frequency * time_function - offset) * axis3.z);
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}
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void main() {
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float rand0 = hash(vec4(inst_entropy + 0));
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float rand1 = hash(vec4(inst_entropy + 1));
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float rand2 = hash(vec4(inst_entropy + 2));
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float rand3 = hash(vec4(inst_entropy + 3));
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float rand4 = hash(vec4(inst_entropy + 4));
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float rand5 = hash(vec4(inst_entropy + 5));
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float rand6 = hash(vec4(inst_entropy + 6));
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float rand7 = hash(vec4(inst_entropy + 7));
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float rand8 = hash(vec4(inst_entropy + 8));
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float rand9 = hash(vec4(inst_entropy + 9));
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vec3 start_pos = inst_pos - focus_off.xyz;
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Attr attr;
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f_reflect = 1.0;
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if (inst_mode == SMOKE) {
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attr = Attr(
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linear_motion(
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vec3(0),
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vec3(rand2 * 0.02, rand3 * 0.02, 1.0 + rand4 * 0.1)
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),
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vec3(linear_scale(0.5)),
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vec4(vec3(0.8, 0.8, 1) * 0.5, start_end(1.0, 0.0)),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3 + lifetime * 0.5)
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);
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} else if (inst_mode == FIRE) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0.0),
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vec3(rand2 * 0.1, rand3 * 0.1, 2.0 + rand4 * 1.0)
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),
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vec3(1.0),
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vec4(2, 1.5 + rand5 * 0.5, 0, start_end(1.0, 0.0)),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3)
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);
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} else if (inst_mode == FIRE_BOWL) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(normalize(vec2(rand0, rand1)) * 0.1, 0.6),
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vec3(rand2 * 0.2, rand3 * 0.5, 0.8 + rand4 * 0.5)
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),
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vec3(0.2), // Size
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vec4(2, 1.5 + rand5 * 0.5, 0, start_end(1.0, 0.0)), // Colour
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3)
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);
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} else if (inst_mode == GUN_POWDER_SPARK) {
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attr = Attr(
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linear_motion(
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normalize(vec3(rand0, rand1, rand3)) * 0.3,
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normalize(vec3(rand4, rand5, rand6)) * 2.0 + grav_vel(earth_gravity)
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),
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vec3(1.0),
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vec4(3.5, 3 + rand7, 0, 1),
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spin_in_axis(vec3(1,0,0),0)
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);
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} else if (inst_mode == SHRAPNEL) {
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand4, rand5, rand6)) * 30.0 + grav_vel(earth_gravity)
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),
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vec3(2.0 + rand0),
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vec4(vec3(0.6 + rand7 * 0.4), 1),
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spin_in_axis(vec3(1,0,0),0)
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);
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} else if (inst_mode == FIREWORK_BLUE) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand1, rand2, rand3)) * 40.0 + grav_vel(earth_gravity)
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),
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vec3(3.0 + rand0),
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vec4(vec3(0, 0, 2), 1),
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identity()
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);
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} else if (inst_mode == FIREWORK_GREEN) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand1, rand2, rand3)) * 40.0 + grav_vel(earth_gravity)
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),
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vec3(3.0 + rand0),
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vec4(vec3(0, 2, 0), 1),
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identity()
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);
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} else if (inst_mode == FIREWORK_PURPLE) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand1, rand2, rand3)) * 40.0 + grav_vel(earth_gravity)
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),
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vec3(3.0 + rand0),
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vec4(vec3(2, 0, 2), 1),
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identity()
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);
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} else if (inst_mode == FIREWORK_RED) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand1, rand2, rand3)) * 40.0 + grav_vel(earth_gravity)
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),
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vec3(3.0 + rand0),
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vec4(vec3(2, 0, 0), 1),
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identity()
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);
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} else if (inst_mode == FIREWORK_WHITE) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand1, rand2, rand3)) * 40.0 + grav_vel(earth_gravity)
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),
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vec3(3.0 + rand0),
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vec4(vec3(2, 2, 2), 1),
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identity()
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);
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} else if (inst_mode == FIREWORK_YELLOW) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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linear_motion(
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vec3(0),
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normalize(vec3(rand1, rand2, rand3)) * 40.0 + grav_vel(earth_gravity)
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),
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vec3(3.0 + rand0),
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vec4(vec3(2, 2, 0), 1),
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identity()
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);
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} else if (inst_mode == LEAF) {
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attr = Attr(
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linear_motion(
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vec3(0),
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vec3(0, 0, -2)
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) + vec3(sin(lifetime), sin(lifetime + 0.7), sin(lifetime * 0.5)) * 2.0,
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vec3(4),
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vec4(vec3(0.2 + rand7 * 0.2, 0.2 + (0.25 + rand6 * 0.5) * 0.3, 0) * (0.75 + rand1 * 0.5), 1),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3 + lifetime * 5)
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);
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} else if (inst_mode == SNOW) {
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float height = mix(-4, 60, pow(start_end(1, 0), 3));
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float wind_speed = (inst_pos.z - 250) * 0.025;
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vec3 offset = linear_motion(vec3(0), vec3(1, 1, 0) * wind_speed);
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float end_alt = alt_at(start_pos.xy + offset.xy);
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attr = Attr(
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offset + vec3(0, 0, end_alt - start_pos.z + height) + vec3(sin(lifetime), sin(lifetime + 0.7), sin(lifetime * 0.5)) * 3,
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vec3(mix(4, 0, pow(start_end(1, 0), 4))),
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vec4(1),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3 + lifetime * 5)
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);
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} else if (inst_mode == FIREFLY) {
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float raise = pow(sin(3.1416 * lifetime / inst_lifespan), 0.2);
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attr = Attr(
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vec3(0, 0, raise * 5.0) + vec3(
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sin(lifetime * 1.0 + rand0) + sin(lifetime * 7.0 + rand3) * 0.3,
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sin(lifetime * 3.0 + rand1) + sin(lifetime * 8.0 + rand4) * 0.3,
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sin(lifetime * 2.0 + rand2) + sin(lifetime * 9.0 + rand5) * 0.3
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),
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vec3(raise),
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vec4(vec3(5, 5, 1.1), 1),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3 + lifetime * 5)
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);
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} else if (inst_mode == BEE) {
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float lower = pow(sin(3.1416 * lifetime / inst_lifespan), 0.2);
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attr = Attr(
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vec3(0, 0, lower * -0.5) + vec3(
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sin(lifetime * 2.0 + rand0) + sin(lifetime * 9.0 + rand3) * 0.3,
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sin(lifetime * 3.0 + rand1) + sin(lifetime * 10.0 + rand4) * 0.3,
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sin(lifetime * 4.0 + rand2) + sin(lifetime * 11.0 + rand5) * 0.3
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) * 0.5,
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vec3(lower),
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vec4(vec3(1, 0.7, 0), 1),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3 + lifetime * 5)
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);
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} else if (inst_mode == GROUND_SHOCKWAVE) {
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attr = Attr(
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vec3(0.0),
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vec3(11.0, 11.0, (33.0 * rand0 * sin(2.0 * lifetime * 3.14 * 2.0))) / 3,
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vec4(vec3(0.32 + (rand0 * 0.04), 0.22 + (rand1 * 0.03), 0.05 + (rand2 * 0.01)), 1),
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spin_in_axis(vec3(1,0,0),0)
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);
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} else if (inst_mode == HEALING_BEAM) {
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f_reflect = 0.0;
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attr = Attr(
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spiral_motion(inst_dir, 0.3 * (floor(2 * rand0 + 0.5) - 0.5) * min(linear_scale(10), 1), lifetime / inst_lifespan, 10.0, inst_time),
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vec3((1.7 - 0.7 * abs(floor(2 * rand0 - 0.5) + 0.5)) * (1.5 + 0.5 * sin(tick.x * 10 - lifetime * 4))),
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vec4(vec3(0.4, 1.6 + 0.3 * sin(tick.x * 10 - lifetime * 3 + 4), 1.0 + 0.15 * sin(tick.x * 5 - lifetime * 5)), 1 /*0.3*/),
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spin_in_axis(inst_dir, tick.z)
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);
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} else if (inst_mode == LIFESTEAL_BEAM) {
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f_reflect = 0.0;
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float green_col = 0.2 + 1.4 * sin(tick.x * 5 + lifetime * 5);
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float purple_col = 1.2 + 0.1 * sin(tick.x * 3 - lifetime * 3) - max(green_col, 1) + 1;
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attr = Attr(
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spiral_motion(inst_dir, 0.3 * (floor(2 * rand0 + 0.5) - 0.5) * min(linear_scale(10), 1), lifetime / inst_lifespan, 10.0, inst_time),
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vec3((1.7 - 0.7 * abs(floor(2 * rand0 - 0.5) + 0.5)) * (1.5 + 0.5 * sin(tick.x * 10 - lifetime * 4))),
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vec4(vec3(purple_col, green_col, 0.75 * purple_col), 1),
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spin_in_axis(inst_dir, tick.z)
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);
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} else if (inst_mode == ENERGY_NATURE) {
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f_reflect = 0.0;
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float spiral_radius = start_end(1 - pow(abs(rand5), 5), 1) * length(inst_dir);
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attr = Attr(
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spiral_motion(vec3(0, 0, rand3 + 1), spiral_radius, lifetime, abs(rand0), rand1 * 2 * PI) + vec3(0, 0, rand2),
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vec3(6 * abs(rand4) * (1 - slow_start(2)) * pow(spiral_radius / length(inst_dir), 0.5)),
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vec4(vec3(0, 1.7, 1.3), 1),
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spin_in_axis(vec3(rand6, rand7, rand8), rand9 * 3)
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);
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} else if (inst_mode == FLAMETHROWER) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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(inst_dir * slow_end(1.5)) + vec3(rand0, rand1, rand2) * (lifetime * 5 + 0.25),
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vec3((2.5 * (1 - slow_start(0.3)))),
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vec4(3, 1.6 + rand5 * 0.3 - 0.4 * percent(), 0.2, 1),
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spin_in_axis(vec3(rand6, rand7, rand8), percent() * 10 + 3 * rand9)
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);
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} else if (inst_mode == EXPLOSION) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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inst_dir * ((rand0+1.0)/2 + 0.4) * slow_end(2.0) + 0.3 * grav_vel(earth_gravity),
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vec3((3 * (1 - slow_start(0.1)))),
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vec4(3, 1.6 + rand5 * 0.3 - 0.4 * percent(), 0.2, 1),
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spin_in_axis(vec3(rand6, rand7, rand8), percent() * 10 + 3 * rand9)
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);
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} else if (inst_mode == ICE) {
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f_reflect = 0.0; // Ice doesn't reflect to look like magic
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attr = Attr(
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inst_dir * ((rand0+1.0)/2 + 0.4) * slow_end(2.0) + 0.3 * grav_vel(earth_gravity),
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vec3((3 * (1 - slow_start(0.1)))),
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vec4(0.2, 1.6 + rand5 * 0.3 - 0.4 * percent(), 3, 1),
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spin_in_axis(vec3(rand6, rand7, rand8), percent() * 10 + 3 * rand9)
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);
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} else if (inst_mode == FIRE_SHOCKWAVE) {
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f_reflect = 0.0; // Fire doesn't reflect light, it emits it
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attr = Attr(
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vec3(rand0, rand1, lifetime * 10 + rand2),
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vec3((5 * (1 - slow_start(0.5)))),
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vec4(3, 1.6 + rand5 * 0.3 - 0.4 * percent(), 0.2, 1),
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spin_in_axis(vec3(rand3, rand4, rand5), rand6)
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);
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} else {
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attr = Attr(
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linear_motion(
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vec3(rand0 * 0.25, rand1 * 0.25, 1.7 + rand5),
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vec3(rand2 * 0.1, rand3 * 0.1, 1.0 + rand4 * 0.5)
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),
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vec3(exp_scale(-0.2)),
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vec4(1),
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spin_in_axis(vec3(1,0,0),0)
|
|
);
|
|
}
|
|
|
|
// Temporary: use shrinking particles as a substitute for fading ones
|
|
attr.scale *= pow(attr.col.a, 0.25);
|
|
|
|
f_pos = start_pos + (v_pos * attr.scale * SCALE * mat3(attr.rot) + attr.offs);
|
|
|
|
// First 3 normals are negative, next 3 are positive
|
|
// TODO: Make particle normals match orientation
|
|
vec4 normals[6] = vec4[](vec4(-1,0,0,0), vec4(1,0,0,0), vec4(0,-1,0,0), vec4(0,1,0,0), vec4(0,0,-1,0), vec4(0,0,1,0));
|
|
f_norm =
|
|
// inst_pos *
|
|
((normals[(v_norm_ao >> 0) & 0x7u]) * attr.rot).xyz;
|
|
|
|
//vec3 col = vec3((uvec3(v_col) >> uvec3(0, 8, 16)) & uvec3(0xFFu)) / 255.0;
|
|
f_col = vec4(attr.col.rgb, attr.col.a);
|
|
|
|
gl_Position =
|
|
all_mat *
|
|
vec4(f_pos, 1);
|
|
}
|