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tgcc/core/daynight/tree_leaves.gdshader

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shader_type spatial;
render_mode specular_disabled, cull_disabled, ambient_light_disabled;
global uniform float global_wind_speed;
global uniform vec2 global_wind_direction;
global uniform float global_wind_scale;
global uniform float global_wind_strength;
global uniform float global_wind_fade;
/*
global uniform float global_snow_start_time;
global uniform float global_snow_accumulation_speed;
global uniform float global_snow_melt_time;
global uniform float global_snow_melt_speed;
global uniform vec4 global_snow_color;*/
global uniform float global_rain_intensity;
uniform sampler2D wind_noise : filter_linear_mipmap;
uniform bool billboard_enabled = true;
uniform bool wind_enabled = true;
uniform vec4 base_color : source_color = vec4(0.2, 0.6, 0.3, 1.0);
uniform sampler2D alpha_texture : source_color, filter_nearest;
uniform float leaves_scale = 1.0;
uniform float rotation_degrees = 0.0;
uniform vec2 texture_offset = vec2(0.0, 0.0);
uniform float opacity : hint_range(0.0, 1.0) = 1.0;
uniform float height_min = 0.0;
uniform float height_max = 5.0;
uniform float shadow_intensity : hint_range(0.0, 1.0) = 0.5;
uniform float highlight_intensity : hint_range(0.0, 1.0) = 0.3;
uniform float light_steps : hint_range(1.0, 10.0) = 4.0;
uniform float random_mix : hint_range(0.0, 1.0) = 0.3;
uniform float cast_shadow_strength : hint_range(0.0, 1.0) = 0.6;
uniform float wetness_darkening : hint_range(0.0, 0.5) = 0.25;
varying vec3 v_final_color;
varying float v_shade_factor;
float hash(vec3 p) {
p = fract(p * 0.1031);
p += dot(p, p.yzx + 33.33);
return fract((p.x + p.y) * p.z);
}
void vertex() {
vec3 instance_pos = MODEL_MATRIX[3].xyz;
float total_angle = radians(rotation_degrees);
if (wind_enabled && global_wind_speed > 0.0 && global_wind_strength > 0.0 && global_wind_fade > 0.0) {
float time = TIME * global_wind_speed;
vec2 noise_uv = (instance_pos.xz * global_wind_scale) + (time * global_wind_direction * 0.5);
float noise_val = textureLod(wind_noise, noise_uv, 2.0).r;
float sway = sin(time + (noise_val * 10.0));
total_angle += (sway * global_wind_strength * global_wind_fade);
}
float h_factor = clamp((instance_pos.y - height_min) / (height_max - height_min), 0.0, 1.0);
float leaf_rand = hash(instance_pos);
float combined_factor = mix(h_factor, leaf_rand, random_mix);
combined_factor = ceil(combined_factor * light_steps) / light_steps;
v_shade_factor = combined_factor;
vec3 dark_color = base_color.rgb * (1.0 - shadow_intensity);
vec3 light_color = base_color.rgb + (vec3(1.0) - base_color.rgb) * highlight_intensity;
v_final_color = mix(dark_color, light_color, combined_factor);
if (billboard_enabled) {
vec3 view_pos_origin = (VIEW_MATRIX * vec4(instance_pos, 1.0)).xyz;
vec2 offset = (UV - 0.5) * leaves_scale;
float c = cos(total_angle);
float s = sin(total_angle);
vec2 rotated_offset = vec2(offset.x * c - offset.y * s, offset.x * s + offset.y * c);
vec3 final_pos = view_pos_origin + vec3(rotated_offset.x, rotated_offset.y, 0.0);
MODELVIEW_MATRIX = mat4(1.0);
MODELVIEW_MATRIX[3].xyz = final_pos;
VERTEX = vec3(0.0);
} else {
float c = cos(total_angle);
float s = sin(total_angle);
vec2 local_v = VERTEX.xy * leaves_scale;
VERTEX.x = local_v.x * c - local_v.y * s;
VERTEX.y = local_v.x * s + local_v.y * c;
}
}
void fragment() {
vec2 shifted_uv = UV + texture_offset;
vec4 tex = texture(alpha_texture, shifted_uv);
//// Snow accumulation
//float snow_amount = 0.0;
//if (global_snow_start_time >= 0.0) {
//snow_amount = clamp((TIME - global_snow_start_time) * global_snow_accumulation_speed, 0.0, 1.0);
//}
//if (global_snow_melt_time >= 0.0) {
//float melt = clamp((TIME - global_snow_melt_time) * global_snow_melt_speed, 0.0, 1.0);
//snow_amount *= (1.0 - melt);
//}
//
//float top_mask = 1.0 - shifted_uv.y;
//float snow_mask = smoothstep(1.0 - snow_amount, 1.2 - snow_amount, top_mask);
//snow_mask *= step(0.01, snow_amount);
//vec3 dark_snow = global_snow_color.rgb * (1.0 - shadow_intensity);
//vec3 shaded_snow = mix(dark_snow, global_snow_color.rgb, v_shade_factor);
//vec3 final_albedo = mix(v_final_color, shaded_snow, snow_mask);
vec3 final_albedo = v_final_color;
// Rain wetness: darken and make shinier
float rain_int = clamp(global_rain_intensity, 0.0, 1.0);
final_albedo *= mix(1.0, 1.0 - wetness_darkening, rain_int);
float final_roughness = mix(0.02, 0.005, rain_int);
ALBEDO = final_albedo;
ALPHA = tex.r * opacity;
ALPHA_SCISSOR_THRESHOLD = 0.5;
ROUGHNESS = final_roughness;
}
void light() {
float shadow_factor = mix(1.0 - cast_shadow_strength, 1.0, ATTENUATION);
float cutoff_mask = smoothstep(0.0, 0.05, ATTENUATION);
DIFFUSE_LIGHT += (shadow_factor * LIGHT_COLOR) * cutoff_mask;
}