Add support for alpha to coverage

[libs/gl.git] / shaderlib / common.glsl

import msp_interface;
import shadow;

struct AlphaCutoffParams
{
        float cutoff;
        float feather;
};

layout(set=1) uniform sampler2D normal_map;

layout(constant_id=auto) const bool use_instancing = false;
layout(constant_id=auto) const bool use_normal_map = false;
layout(constant_id=auto) const bool use_alpha_cutoff = false;

#pragma MSP stage(vertex)
virtual vec4 get_vertex_position()
{
        return vertex;
}

virtual vec3 get_vertex_normal()
{
        return normal;
}

virtual mat4 get_vertex_transform()
{
        if(use_instancing)
                return transpose(mat4(instance_transform[0], instance_transform[1], instance_transform[2], vec4(0.0, 0.0, 0.0, 1.0)));
        else
                return world_obj_matrix;
}

virtual mat3 get_normal_transform()
{
        if(use_instancing)
                return transpose(mat3(instance_transform[0].xyz, instance_transform[1].xyz, instance_transform[2].xyz));
        else
                return world_obj_normal_matrix;
}

void standard_transform()
{
        mat4 vertex_tf = get_vertex_transform();
        mat3 normal_tf = get_normal_transform();

        out vec4 world_vertex = vertex_tf*get_vertex_position();
        vec4 eye_vertex = eye_world_matrix*world_vertex;
        gl_Position = clip_eye_matrix*eye_vertex;

        out vec3 world_normal = normalize(normal_tf*get_vertex_normal());
        if(use_normal_map)
        {
                vec3 world_tangent = normalize(normal_tf*tangent);
                vec3 world_binormal = normalize(cross(world_normal, world_tangent));
                out mat3 world_tbn_matrix = mat3(world_tangent, world_binormal, world_normal);
        }

        vec3 eye_pos = world_eye_matrix[3].xyz;
        out vec3 world_look_dir = normalize(world_vertex.xyz-eye_pos);

        out float fog_coord = eye_vertex.z;
}

virtual void custom_transform()
{
}

void main()
{
        standard_transform();
        custom_transform();
        passthrough;
}

#pragma MSP stage(fragment)
struct IncomingLight
{
        vec3 direction;
        vec3 color;
};

layout(location=0) out vec4 frag_color;

virtual vec3 get_fragment_normal()
{
        vec3 normal;
        float sgn = (gl_FrontFacing ? 1.0 : -1.0);
        if(use_normal_map)
                return sgn*normalize(world_tbn_matrix*(texture(normal_map, texcoord.xy).xyz*2.0-1.0));
        else
                return sgn*normalize(world_normal);
}

virtual IncomingLight get_incoming_light(int index, vec3 world_pos)
{
        vec4 light_pos = light_sources[index].position;
        vec3 rel_pos = light_pos.xyz-world_pos*light_pos.w;
        float d = length(rel_pos);
        float attenuation = 1.0/dot(vec3(1.0, d, d*d), light_sources[index].attenuation);
        return IncomingLight(rel_pos/d, light_sources[index].color*attenuation);
}

float apply_alpha_cutoff(float alpha, AlphaCutoffParams params)
{
        if(use_alpha_cutoff)
        {
                if(alpha<params.cutoff)
                        discard;
                float limit = min(params.cutoff+params.feather*fwidth(alpha), 1.0);
                return smoothstep(params.cutoff, limit, alpha);
        }
        else
                return alpha;
}

vec3 apply_fog(vec3 color)
{
        float fog_value = exp(fog_coord*fog_density);
        return mix(fog_color.rgb, color, fog_value);
}