In the vertex shader we usually create TBN matrix:

```
vec3 n = normalize(gl_NormalMatrix * gl_Normal);
vec3 t = normalize(gl_NormalMatrix * Tangent.xyz);
vec3 b = normalize(gl_NormalMatrix * Bitangent.xyz);
mat3 tbn = mat3(t, b, n);
```

This matrix transform vertices from Tangent space into Eye/Camera space.

Now for normal mapping (done in forward rendering) we have two options:

- inverse tbn matrix and transform
`light_vector`

and`view_direction`

and send those vectors to the fragment shader. After that those vectors are in Tangent space.- that way in the fragment shader we only need to read normal from a normal map. Since such normals are in Tangent space (by "definition") they match with out transformed
`light_vector`

and`view_direction`

. - this way we do light calculations in Tangent space.

- that way in the fragment shader we only need to read normal from a normal map. Since such normals are in Tangent space (by "definition") they match with out transformed
- pass the
`tbn`

matrix into fragment shader and then transform each normal read from a normal map by that. That way we transform such normal into View space.- this way we do light calculations in Eye/Camera space

Option **1** seems to be faster: we have most transformations in the vertex shader, only one read from normal map.

Option **2** requires to transform each normal from normal map by the TBN matrix. But it seems a bit simpler.

**Questions:**

Which option is better?

Is there any performance loss? (maybe texture read will "cover" costs of doing the matrix transformation)

Which option is more often used?