//version 330 core layout(location = 0) in vec3 in_pos; layout(location = 1) in vec2 in_texcoord; layout(location = 2) in vec3 in_normal; layout(location = 3) in vec4 in_tangent; // vec3 + bi sign //in vec3 in_binormal; out vec3 out_normal; out vec3 out_tangent; out vec3 out_binormal; out vec2 out_texcoord; out vec3 out_worldpos; out vec3 out_viewpos; out vec3 out_to_camera; uniform mat4x4 mat_projection; uniform mat4x4 mat_view; uniform mat4x4 mat_view_inverse; uniform mat4x4 mat_world; void main() { vec4 o = vec4( in_pos.x, in_pos.y, in_pos.z, 1.0 ); o = mat_world * o; out_worldpos = o.xyz; o = mat_view * o; out_viewpos = o.xyz; vec3 to_camera = normalize( -o.xyz ); out_to_camera = mat3( mat_view_inverse ) * to_camera; o = mat_projection * o; gl_Position = o; #if 0 // compute tangent T and bitangent B vec3 Q1 = dFdx(in_pos); vec3 Q2 = dFdy(in_pos); vec2 st1 = dFdx(in_texcoord); vec2 st2 = dFdy(in_texcoord); vec3 T = normalize(Q1*st2.t - Q2*st1.t); vec3 B = normalize(-Q1*st2.s + Q2*st1.s); vec3 in_binormal = B; #else vec3 in_binormal = cross(in_normal, in_tangent.xyz) * in_tangent.w; #endif out_normal = normalize( mat3( mat_world ) * in_normal ); out_tangent = normalize( mat3( mat_world ) * in_tangent.xyz ); out_binormal = normalize( mat3( mat_world ) * in_binormal ); out_texcoord = in_texcoord; }