veloren/assets/voxygen/shaders/sprite-vert.glsl

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#version 330 core
#include <constants.glsl>
#define LIGHTING_TYPE LIGHTING_TYPE_REFLECTION
#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET
#define LIGHTING_DISTRIBUTION LIGHTING_DISTRIBUTION_BECKMANN
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#include <globals.glsl>
#include <srgb.glsl>
#include <sky.glsl>
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in vec3 v_pos;
in uint v_atlas_pos;
// in uint v_col;
in uint v_norm_ao;
in uint inst_pos_ori;
in vec4 inst_mat0;
in vec4 inst_mat1;
in vec4 inst_mat2;
in vec4 inst_mat3;
// in vec3 inst_col;
in float inst_wind_sway;
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struct SpriteLocals {
mat4 mat;
vec4 wind_sway;
vec4 offs;
};
layout (std140)
uniform u_locals {
mat4 mat;
vec4 wind_sway;
vec4 offs;
// SpriteLocals sprites[8];
};
// struct Instance {
// mat4 inst_mat;
// vec3 inst_col;
// float inst_wind_sway;
// };
//
// layout (std140)
// uniform u_ibuf {
// Instance sprite_instances[/*MAX_LAYER_FACES*/512];
// };
//struct ShadowLocals {
// mat4 shadowMatrices;
// mat4 texture_mat;
//};
//
//layout (std140)
//uniform u_light_shadows {
// ShadowLocals shadowMats[/*MAX_LAYER_FACES*/192];
//};
layout (std140)
uniform u_terrain_locals {
vec3 model_offs;
float load_time;
ivec4 atlas_offs;
};
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out vec3 f_pos;
flat out vec3 f_norm;
flat out float f_light;
// flat out vec3 f_pos_norm;
// out vec3 f_col;
// out float f_ao;
out vec2 f_uv_pos;
// flat out uint f_atlas_pos;
// out vec3 light_pos[2];
// out float f_light;
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const float SCALE = 1.0 / 11.0;
const float SCALE_FACTOR = pow(SCALE, 1.3) * 0.2;
const int EXTRA_NEG_Z = 32768;
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void main() {
// vec3 inst_chunk_pos = vec3(ivec3((uvec3(inst_pos_ori) >> uvec3(0, 6, 12)) & uvec3(0x3Fu, 0x3Fu, 0xFFFFu)) - ivec3(0, 0, EXTRA_NEG_Z));
// uint inst_ori = (inst_pos_ori >> 29) & 0x7u;
// SpriteLocals locals = sprites[inst_ori];
// SpriteLocals locals = sprites;
// mat4 inst_mat = locals.mat;
// float inst_wind_sway = locals.wind_sway.w;
// mat4 inst_mat = mat4(vec4(1, 0, 0, 0), vec4(0, 1, 0, 0), vec4(0, 0, 1, 0), vec4(5.5, 5.5, 0, 1));
// float inst_wind_sway = 0.0;
mat4 inst_mat;
inst_mat[0] = inst_mat0;
inst_mat[1] = inst_mat1;
inst_mat[2] = inst_mat2;
inst_mat[3] = inst_mat3;
/* Instance instances = sprite_instances[gl_InstanceID & 1023];
mat4 inst_mat = instances.inst_mat;
vec3 inst_col = instances.inst_col;
float inst_wind_sway = instances.inst_wind_sway; */
vec3 inst_offs = model_offs - focus_off.xyz;
// mat3 inst_mat;
// inst_mat[0] = inst_mat0.xyz;
// inst_mat[1] = inst_mat1.xyz;
// inst_mat[2] = inst_mat2.xyz;
// /* Instance instances = sprite_instances[gl_InstanceID & 1023];
// mat4 inst_mat = instances.inst_mat;
// vec3 inst_col = instances.inst_col;
// float inst_wind_sway = instances.inst_wind_sway; */
// float inst_wind_sway = wind_sway.w;
// vec3 inst_offs = model_offs - focus_off.xyz;
// vec3 sprite_pos = floor(inst_mat3.xyz * SCALE) + inst_offs;
// f_pos_norm = v_pos;
// vec3 sprite_pos = (inst_mat * vec4(0, 0, 0, 1)).xyz;
// vec3 sprite_pos = floor((inst_mat * vec4(0, 0, 0, 1)).xyz * SCALE/* - vec3(0.5, 0.5, 0.0)*/) + inst_offs;
// vec3 sprite_pos = /*round*/floor(((inst_mat * vec4(0, 0, 0, 1)).xyz - /* wind_sway.xyz * */offs.xyz) * SCALE/* - vec3(0.5, 0.5, 0.0)*/) - inst_offs;
// vec3 sprite_pos = /*round*/floor(((inst_mat * vec4(-offs.xyz, 1)).xyz) * SCALE/* - vec3(0.5, 0.5, 0.0)*/) + inst_offs;
// vec3 v_pos = vec3(gl_VertexID * 32, gl_VertexID % 32, 1.0);
// f_pos = v_pos + (model_offs - focus_off.xyz);
// vec3 v_pos = /*inst_mat*//*locals.*/wind_sway.xyz * v_pos;
vec3 v_pos_ = /*inst_mat*//*locals.*//*sprites[0].*/wind_sway.xyz * v_pos;
// vec3 v_pos = (/*inst_mat*/locals.mat * vec4(v_pos, 1)).xyz + vec3(0.5, 0.5, 0.0);
// f_pos = v_pos * SCALE + (inst_chunk_pos + model_offs - focus_off.xyz);
// vec3 v_pos_ = (inst_mat * vec4(v_pos/* * SCALE*/, 1)).xyz;
// vec3 v_pos = (inst_mat * vec4(v_pos, 1)).xyz;
// f_pos = v_pos + (model_offs - focus_off.xyz);
f_pos = (inst_mat * vec4(v_pos_, 1.0)).xyz * SCALE + inst_offs;
// f_pos = (inst_mat * v_pos_) * SCALE + sprite_pos;
// f_pos = (inst_mat * vec4(v_pos * SCALE, 1)).xyz + (model_offs - focus_off.xyz);
// f_pos = v_pos_ + (inst_chunk_pos + model_offs - focus_off.xyz + vec3(0.5, 0.5, 0.0));
// f_pos.z -= min(32.0, 25.0 * pow(distance(focus_pos.xy, f_pos.xy) / view_distance.x, 20.0));
// Wind waving
/* const float x_scale = sin(tick.x * 1.5 + f_pos.x * 0.1);
const float y_scale = sin(tick.x * 1.5 + f_pos.y * 0.1);
const float z_scale = pow(abs(v_pos_.z), 1.3) * SCALE_FACTOR;
const float xy_bias = sin(tick.x * 0.25);
const float z_bias = xy_bias * t_scale;
mat3 shear = mat4(
vec3(x_scale , 0.0, 0.0, 0.0),
vec3(0.0, y_scale, 0.0, 0.0),
vec3(0.0, 0.0, z_bias, 0.0),
vec3(0.0, 0.0, (1.0 / z_bias), 0.0)
); */
// const float x_scale = sin(tick.x * 1.5 + f_pos.x * 0.1);
// const float y_scale = sin(tick.x * 1.5 + f_pos.y * 0.1);
// const float z_scale = pow(abs(v_pos_.z), 1.3) * SCALE_FACTOR;
// const float xy_bias = sin(tick.x * 0.25);
// const float z_bias = xy_bias * t_scale;
// vec3 rotate = inst_wind_sway * vec3(
// sin(tick.x * 1.5 + f_pos.y * 0.1) * sin(tick.x * 0.35),
// sin(tick.x * 1.5 + f_pos.x * 0.1) * sin(tick.x * 0.25),
// 0.0
// ) * pow(abs(v_pos_.z/* + sprites[0].offs.z*/)/* * SCALE*/, 1.3) * /*0.2;*/SCALE_FACTOR;
//
// mat3 shear = mat4(
// vec3(x_scale * , 0.0, 0.0, 0.0),
// vec3(0.0, y_scale, 0.0, 0.0),
// vec3(0.0, 0.0, z_bias, 0.0),
// vec3(0.0, 0.0, (1.0 / z_bias), 0.0)
// );
if (wind_sway.w >= 0.4) {
f_pos += /*inst_wind_sway*/wind_sway.w * vec3(
sin(tick.x * 1.5 + f_pos.y * 0.1) * sin(tick.x * 0.35),
sin(tick.x * 1.5 + f_pos.x * 0.1) * sin(tick.x * 0.25),
0.0
) * pow(abs(v_pos_.z/* + sprites[0].offs.z*/)/* * SCALE*/, 1.3) * /*0.2;*/SCALE_FACTOR;
}
// First 3 normals are negative, next 3 are positive
// vec3 normals[6] = vec3[](vec3(-1,0,0), vec3(1,0,0), vec3(0,-1,0), vec3(0,1,0), vec3(0,0,-1), vec3(0,0,1));
// uint norm_idx = (v_norm_ao >> 0) & 0x7u;
// f_norm = (inst_mat * vec4(normals[], 0)).xyz;
// TODO: Consider adding a second, already-normalized (i.e. unscaled) matrix.
// vec3 norm = /*normalize*/(inst_mat/*locals.mat*/[(v_norm_ao >> 1u) & 3u].xyz);
// vec3 norm = /*normalize*/(inst_mat/*locals.mat*/[(v_norm_ao >> 1u) & 3u]);
// vec3 norm = bone_data.normals_mat[axis_idx].xyz;
// norm = normalize(norm);
// norm = norm / SCALE_FACTOR / locals.wind_sway.xyz;
// norm = norm / (norm.x + norm.y + norm.z);
// vec3 norm = norm_mat * vec4(uvec3(1 << axis_idx) & uvec3(0x1u, 0x3u, 0x7u), 1);
// // Calculate normal here rather than for each pixel in the fragment shader
// f_norm = normalize((
// combined_mat *
// vec4(norm, 0)
// ).xyz);
vec3 norm = /*normalize*/(inst_mat/*locals.mat*/[(v_norm_ao >> 1u) & 3u].xyz);
f_norm = mix(-norm, norm, v_norm_ao & 1u);
/* vec3 col = vec3((uvec3(v_col) >> uvec3(0, 8, 16)) & uvec3(0xFFu)) / 255.0;
f_col = srgb_to_linear(col) * srgb_to_linear(inst_col);
f_ao = float((v_norm_ao >> 3) & 0x3u) / 4.0; */
f_uv_pos = vec2((uvec2(v_atlas_pos) >> uvec2(0, 16)) & uvec2(0xFFFFu, 0xFFFFu));/* + 0.5*/;
// f_atlas_pos = v_atlas_pos;
/* for (uint i = 0u; i < light_shadow_count.z; ++i) {
light_pos[i] = vec3(shadowMats[i].texture_mat * vec4(f_pos, 1.0));
} */
// // Select glowing
// if (select_pos.w > 0 && select_pos.xyz == floor(sprite_pos)) {
// f_col *= 4.0;
// }
// f_light = 1.0;
// if (select_pos.w > 0) */{
vec3 sprite_pos = /*round*/floor(((inst_mat * vec4(-offs.xyz, 1)).xyz) * SCALE/* - vec3(0.5, 0.5, 0.0)*/) + inst_offs;
f_light = (select_pos.w > 0 && select_pos.xyz == sprite_pos/* - vec3(0.5, 0.5, 0.0) * SCALE*/) ? 1.0 / PERSISTENT_AMBIANCE : 1.0;
// }
gl_Position =
all_mat *
vec4(f_pos, 1);
// gl_Position.z = -gl_Position.z;
// gl_Position.z = -gl_Position.z / gl_Position.w;
// gl_Position.z = -gl_Position.z / 100.0;
// gl_Position.z = -gl_Position.z / 100.0;
// gl_Position.z = -1000.0 / (gl_Position.z + 10000.0);
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}