Add padding to normal attribute in Compatibility renderer to match the RD renderers
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@ -217,8 +217,23 @@ void MeshStorage::mesh_add_surface(RID p_mesh, const RS::SurfaceData &p_surface)
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if (new_surface.vertex_data.size()) {
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glGenBuffers(1, &s->vertex_buffer);
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glBindBuffer(GL_ARRAY_BUFFER, s->vertex_buffer);
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GLES3::Utilities::get_singleton()->buffer_allocate_data(GL_ARRAY_BUFFER, s->vertex_buffer, new_surface.vertex_data.size(), new_surface.vertex_data.ptr(), (s->format & RS::ARRAY_FLAG_USE_DYNAMIC_UPDATE) ? GL_DYNAMIC_DRAW : GL_STATIC_DRAW, "Mesh vertex buffer");
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s->vertex_buffer_size = new_surface.vertex_data.size();
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// If we have an uncompressed surface that contains normals, but not tangents, we need to differentiate the array
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// from a compressed array in the shader. To do so, we allow the the normal to read 4 components out of the buffer
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// But only give it 2 components per normal. So essentially, each vertex reads the next normal in normal.zw.
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// This allows us to avoid adding a shader permutation, and avoid passing dummy tangents. Since the stride is kept small
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// this should still be a net win for bandwidth.
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// If we do this, then the last normal will read past the end of the array. So we need to pad the array with dummy data.
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if (!(new_surface.format & RS::ARRAY_FLAG_COMPRESS_ATTRIBUTES) && (new_surface.format & RS::ARRAY_FORMAT_NORMAL) && !(new_surface.format & RS::ARRAY_FORMAT_TANGENT)) {
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// Unfortunately, we need to copy the buffer, which is fine as doing a resize triggers a CoW anyway.
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Vector<uint8_t> new_vertex_data;
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new_vertex_data.resize_zeroed(new_surface.vertex_data.size() + sizeof(uint16_t) * 2);
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memcpy(new_vertex_data.ptrw(), new_surface.vertex_data.ptr(), new_surface.vertex_data.size());
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GLES3::Utilities::get_singleton()->buffer_allocate_data(GL_ARRAY_BUFFER, s->vertex_buffer, new_vertex_data.size(), new_vertex_data.ptr(), (s->format & RS::ARRAY_FLAG_USE_DYNAMIC_UPDATE) ? GL_DYNAMIC_DRAW : GL_STATIC_DRAW, "Mesh vertex buffer");
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s->vertex_buffer_size = new_vertex_data.size();
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} else {
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GLES3::Utilities::get_singleton()->buffer_allocate_data(GL_ARRAY_BUFFER, s->vertex_buffer, new_surface.vertex_data.size(), new_surface.vertex_data.ptr(), (s->format & RS::ARRAY_FLAG_USE_DYNAMIC_UPDATE) ? GL_DYNAMIC_DRAW : GL_STATIC_DRAW, "Mesh vertex buffer");
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s->vertex_buffer_size = new_surface.vertex_data.size();
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}
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}
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if (new_surface.attribute_data.size()) {
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@ -461,6 +476,11 @@ RS::SurfaceData MeshStorage::mesh_get_surface(RID p_mesh, int p_surface) const {
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sd.format = s.format;
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if (s.vertex_buffer != 0) {
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sd.vertex_data = Utilities::buffer_get_data(GL_ARRAY_BUFFER, s.vertex_buffer, s.vertex_buffer_size);
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// When using an uncompressed buffer with normals, but without tangents, we have to trim the padding.
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if (!(s.format & RS::ARRAY_FLAG_COMPRESS_ATTRIBUTES) && (s.format & RS::ARRAY_FORMAT_NORMAL) && !(s.format & RS::ARRAY_FORMAT_TANGENT)) {
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sd.vertex_data.resize(sd.vertex_data.size() - sizeof(uint16_t) * 2);
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}
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}
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if (s.attribute_buffer != 0) {
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@ -591,7 +591,6 @@ RS::SurfaceData MeshStorage::mesh_get_surface(RID p_mesh, int p_surface) const {
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sd.vertex_data = RD::get_singleton()->buffer_get_data(s.vertex_buffer);
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// When using an uncompressed buffer with normals, but without tangents, we have to trim the padding.
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if (!(s.format & RS::ARRAY_FLAG_COMPRESS_ATTRIBUTES) && (s.format & RS::ARRAY_FORMAT_NORMAL) && !(s.format & RS::ARRAY_FORMAT_TANGENT)) {
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Vector<uint8_t> new_vertex_data;
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sd.vertex_data.resize(sd.vertex_data.size() - sizeof(uint16_t) * 2);
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}
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}
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