// Copyright (C) 2019 Oscar Shrimpton // // This file is part of stockton-bsp. // // stockton-bsp is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // stockton-bsp is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with stockton-bsp. If not, see . use super::Q3BSPFile; use crate::coords::CoordSystem; use crate::helpers::{slice_to_i32, slice_to_u32, slice_to_vec2ui, slice_to_vec3}; use crate::traits::faces::*; use crate::types::{ParseError, Result}; use na::Vector3; const FACE_SIZE: usize = (4 * 8) + (4 * 2) + (4 * 2) + (4 * 3) + ((4 * 2) * 3) + (4 * 3) + (4 * 2); pub fn from_data( data: &[u8], n_textures: u32, n_effects: u32, n_vertices: u32, n_meshverts: u32, n_lightmaps: u32, ) -> Result> { if data.len() % FACE_SIZE != 0 { return Err(ParseError::Invalid); } let length = data.len() / FACE_SIZE; let mut faces = Vec::with_capacity(length); for n in 0..length { faces.push(face_from_slice( &data[n * FACE_SIZE..(n + 1) * FACE_SIZE], n_textures, n_effects, n_vertices, n_meshverts, n_lightmaps, )?); } Ok(faces.into_boxed_slice()) } fn face_from_slice( data: &[u8], n_textures: u32, n_effects: u32, n_vertices: u32, n_meshverts: u32, n_lightmaps: u32, ) -> Result { if data.len() != FACE_SIZE { panic!("tried to call face.from_slice with invalid slice size"); } // texture let texture_idx = slice_to_u32(&data[0..4]); if texture_idx >= n_textures { return Err(ParseError::Invalid); } // effects let effect_idx = slice_to_u32(&data[4..8]); let effect_idx = if effect_idx < 0xffffffff { if effect_idx >= n_effects { return Err(ParseError::Invalid); } Some(effect_idx) } else { None }; // face type // TODO let face_type: FaceType = unsafe { ::std::mem::transmute(slice_to_u32(&data[8..12])) }; // vertices let vertex_offset = slice_to_u32(&data[12..16]); let vertex_n = slice_to_u32(&data[16..20]); if (vertex_offset + vertex_n) > n_vertices { return Err(ParseError::Invalid); } let vertices_idx = vertex_offset..vertex_offset + vertex_n; // meshverts let meshverts_offset = slice_to_u32(&data[20..24]); let meshverts_n = slice_to_u32(&data[24..28]); if (meshverts_offset + meshverts_n) > n_meshverts { return Err(ParseError::Invalid); } let meshverts_idx = meshverts_offset..meshverts_offset + meshverts_n; // lightmap let lightmap_idx = slice_to_i32(&data[28..32]); let lightmap_idx = if lightmap_idx > 0 { if lightmap_idx as u32 >= n_lightmaps { return Err(ParseError::Invalid); } Some(lightmap_idx as u32) } else { None }; // map properties let map_start = slice_to_vec2ui(&data[32..40]); let map_size = slice_to_vec2ui(&data[40..48]); let map_origin = slice_to_vec3(&data[48..60]); // map_vecs let mut map_vecs = [Vector3::new(0.0, 0.0, 0.0); 2]; for (n, map_vec) in map_vecs.iter_mut().enumerate() { let offset = 60 + (n * 3 * 4); *map_vec = slice_to_vec3(&data[offset..offset + 12]); } // normal & size let normal = slice_to_vec3(&data[84..96]); let size = slice_to_vec2ui(&data[96..104]); Ok(Face { face_type, texture_idx, effect_idx, vertices_idx, meshverts_idx, lightmap_idx, map_start, map_size, map_origin, map_vecs, normal, size, }) } impl HasFaces for Q3BSPFile { type FacesIter<'a> = std::slice::Iter<'a, Face>; fn faces_iter(&self) -> Self::FacesIter<'_> { self.faces.iter() } fn faces_len(&self) -> u32 { self.faces.len() as u32 } fn get_face(&self, index: u32) -> &Face { &self.faces[index as usize] } }