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//! OBJ file format parsing.
//!
//! File format documentation: <https://paulbourke.net/dataformats/obj>
use std::path::PathBuf;
use crate::file_format::wavefront::common::{
keyword,
parse_statement_line,
ParsingError,
Triplet,
};
use crate::mesh::Mesh;
use crate::util::try_option;
use crate::vector::{Vec2, Vec3};
use crate::vertex::{Builder as VertexBuilder, Vertex};
/// Parses the content of a Wavefront `.obj`.
///
/// # Errors
/// Will return `Err` if the `.obj` content is formatted incorrectly.
pub fn parse(obj_content: &str) -> Result<Obj, Error>
{
let lines = obj_content
.lines()
.enumerate()
.map(|(line_index, line)| (line_index + 1, line));
let statements = lines
.map(|(line_no, line)| (line_no, parse_statement_line::<Keyword>(line, line_no)))
.filter_map(|(line_no, result)| {
let opt_statement = match result {
Ok(opt_statement) => opt_statement,
Err(err) => {
return Some(Err(err));
}
};
Some(Ok((line_no, opt_statement?)))
})
.collect::<Result<Vec<_>, _>>()?;
let vertex_positions = statements
.iter()
.filter_map(|(line_no, statement)| {
if statement.keyword != Keyword::V {
return None;
}
if statement.arguments.len() == 4 {
return Some(Err(Error::UnsupportedArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
if statement.arguments.len() > 4 {
return Some(Err(Error::InvalidArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
let x = try_option!(statement.get_float_arg(0, *line_no));
let y = try_option!(statement.get_float_arg(1, *line_no));
let z = try_option!(statement.get_float_arg(2, *line_no));
Some(Ok(Vec3 { x, y, z }))
})
.collect::<Result<Vec<_>, Error>>()?;
let texture_positions = statements
.iter()
.filter_map(|(line_no, statement)| {
if statement.keyword != Keyword::Vt {
return None;
}
if statement.arguments.len() == 3 {
return Some(Err(Error::UnsupportedArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
if statement.arguments.len() > 3 {
return Some(Err(Error::InvalidArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
let u = try_option!(statement.get_float_arg(0, *line_no));
let v = try_option!(statement.get_float_arg(1, *line_no));
Some(Ok(Vec2 { x: u, y: v }))
})
.collect::<Result<Vec<_>, Error>>()?;
let vertex_normals = statements
.iter()
.filter_map(|(line_no, statement)| {
if statement.keyword != Keyword::Vn {
return None;
}
if statement.arguments.len() > 3 {
return Some(Err(Error::InvalidArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
let i = try_option!(statement.get_float_arg(0, *line_no));
let j = try_option!(statement.get_float_arg(1, *line_no));
let k = try_option!(statement.get_float_arg(2, *line_no));
Some(Ok(Vec3 { x: i, y: j, z: k }))
})
.collect::<Result<Vec<_>, Error>>()?;
let material_specifiers = statements
.iter()
.filter_map(|(line_no, statement)| {
if statement.keyword != Keyword::Usemtl {
return None;
}
if statement.arguments.len() > 1 {
return Some(Err(Error::InvalidArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
let material_name = try_option!(statement.get_text_arg(0, *line_no));
Some(Ok(MaterialSpecifier {
material_name: material_name.to_string(),
line_no: *line_no,
}))
})
.collect::<Result<Vec<_>, Error>>()?;
let faces = statements
.iter()
.filter_map(|(line_no, statement)| {
if statement.keyword != Keyword::F {
return None;
}
if statement.arguments.len() > 3 {
return Some(Err(Error::UnsupportedArgumentCount {
keyword: statement.keyword.to_string(),
arg_count: statement.arguments.len(),
line_no: *line_no,
}));
}
let vertex_a = try_option!(statement.get_triplet_arg(0, *line_no)).into();
let vertex_b = try_option!(statement.get_triplet_arg(1, *line_no)).into();
let vertex_c = try_option!(statement.get_triplet_arg(2, *line_no)).into();
let material_name =
find_material_specifier_for_line_no(&material_specifiers, *line_no)
.map(|material_specifier| material_specifier.material_name.clone());
Some(Ok(Face {
vertices: [vertex_a, vertex_b, vertex_c],
material_name,
}))
})
.collect::<Result<Vec<Face>, Error>>()?;
let mtl_libs = statements
.iter()
.filter_map(|(line_no, statement)| {
if statement.keyword != Keyword::Mtllib {
return None;
}
let mtl_lib_paths = try_option!(statement
.arguments
.iter()
.enumerate()
.map(|(index, value)| Ok(PathBuf::from(value.to_text(index, *line_no)?)))
.collect::<Result<Vec<_>, ParsingError>>());
Some(Ok(mtl_lib_paths))
})
.collect::<Result<Vec<_>, Error>>()?;
Ok(Obj {
vertex_positions,
vertex_normals,
texture_positions,
faces,
mtl_libs,
})
}
/// The output from parsing the content of a Wavefront `.obj` using [`parse`].
#[derive(Debug)]
#[non_exhaustive]
pub struct Obj
{
pub vertex_positions: Vec<Vec3<f32>>,
pub vertex_normals: Vec<Vec3<f32>>,
pub texture_positions: Vec<Vec2<f32>>,
pub faces: Vec<Face>,
pub mtl_libs: Vec<Vec<PathBuf>>,
}
impl Obj
{
pub fn to_mesh(&self) -> Result<Mesh, Error>
{
let vertices = self
.faces
.iter()
.map(|face| face.vertices.clone())
.flatten()
.map(|face_vertex| face_vertex.to_vertex(self))
.collect::<Result<Vec<_>, Error>>()?;
Ok(Mesh::new(
vertices,
Some(
self.faces
.iter()
.map(|face| face.vertices.clone())
.flatten()
.enumerate()
.map(|(index, _)| {
u32::try_from(index).map_err(|_| Error::FaceIndexTooBig(index))
})
.collect::<Result<Vec<_>, _>>()?,
),
))
}
}
#[derive(Debug)]
#[non_exhaustive]
pub struct Face
{
pub vertices: [FaceVertex; 3],
pub material_name: Option<String>,
}
#[derive(Debug, Clone)]
pub struct FaceVertex
{
pub position: u32,
pub texture: Option<u32>,
pub normal: Option<u32>,
}
impl FaceVertex
{
/// Tries to convert this face vertex into a [`Vertex`].
pub fn to_vertex(&self, obj: &Obj) -> Result<Vertex, Error>
{
let mut vertex_builder = VertexBuilder::new();
let vertex_pos = *obj.vertex_positions.get(self.position as usize - 1).ok_or(
Error::FaceVertexPositionNotFound { vertex_pos_index: self.position },
)?;
vertex_builder = vertex_builder.pos(vertex_pos);
if let Some(face_vertex_texture) = self.texture {
let texture_pos = obj
.texture_positions
.get(face_vertex_texture as usize - 1)
.ok_or(Error::FaceTexturePositionNotFound {
texture_pos_index: face_vertex_texture,
})?;
vertex_builder = vertex_builder.texture_coords(texture_pos.clone());
}
if let Some(face_vertex_normal) = self.normal {
let vertex_normal = *obj
.vertex_normals
.get(face_vertex_normal as usize - 1)
.ok_or(Error::FaceVertexNormalNotFound {
vertex_normal_index: face_vertex_normal,
})?;
vertex_builder = vertex_builder.normal(vertex_normal);
}
Ok(vertex_builder.build().unwrap())
}
}
impl From<Triplet> for FaceVertex
{
fn from(triplet: Triplet) -> Self
{
Self {
position: triplet.0,
texture: triplet.1,
normal: triplet.2,
}
}
}
#[derive(Debug, thiserror::Error)]
pub enum Error
{
#[error(transparent)]
ParsingError(#[from] ParsingError),
#[error(
"Face vertex position with index {vertex_pos_index} (1-based) was not found"
)]
FaceVertexPositionNotFound
{
vertex_pos_index: u32
},
#[error(
"Face texture position with index {texture_pos_index} (1-based) was not found"
)]
FaceTexturePositionNotFound
{
texture_pos_index: u32
},
#[error(
"Face vertex normal with index {vertex_normal_index} (1-based) was not found"
)]
FaceVertexNormalNotFound
{
vertex_normal_index: u32
},
#[error("Face index {0} is too big to fit into a 32-bit integer")]
FaceIndexTooBig(usize),
#[error(
"Unsupported number of arguments ({arg_count}) to {keyword} at line {line_no}"
)]
UnsupportedArgumentCount
{
keyword: String,
arg_count: usize,
line_no: usize,
},
#[error("Invalid number of arguments ({arg_count}) to {keyword} at line {line_no}")]
InvalidArgumentCount
{
keyword: String,
arg_count: usize,
line_no: usize,
},
}
keyword! {
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
enum Keyword {
#[keyword(rename = "v")]
V,
#[keyword(rename = "vn")]
Vn,
#[keyword(rename = "vt")]
Vt,
#[keyword(rename = "o")]
O,
#[keyword(rename = "s")]
S,
#[keyword(rename = "f")]
F,
#[keyword(rename = "mtllib")]
Mtllib,
#[keyword(rename = "usemtl")]
Usemtl,
}
}
#[derive(Debug)]
struct MaterialSpecifier
{
material_name: String,
line_no: usize,
}
fn find_material_specifier_for_line_no(
material_specifiers: &[MaterialSpecifier],
line_no: usize,
) -> Option<&MaterialSpecifier>
{
material_specifiers
.iter()
.rev()
.find(|material_specifier| material_specifier.line_no < line_no)
}
#[cfg(test)]
mod tests
{
use super::parse;
#[test]
fn parse_containing_usemtl_works()
{
let obj = parse(concat!(
"usemtl dark-green\n",
"f 6/8/1 7/5/3 1/3/2\n",
"f 1/2/4 4/1/8 3/4/2\n",
"usemtl light-pink\n",
"f 9/1/7 5/1/2 3/2/7"
))
.expect("Expected Ok");
assert_eq!(obj.faces.len(), 3);
assert_eq!(
obj.faces[0].material_name.as_ref().expect("Expected Some"),
"dark-green"
);
assert_eq!(
obj.faces[1].material_name.as_ref().expect("Expected Some"),
"dark-green"
);
assert_eq!(
obj.faces[2].material_name.as_ref().expect("Expected Some"),
"light-pink"
);
}
}
|