Tokenize into enum instead of string

2025-08-25 21:16:27 +02:00 · 2025-08-25 21:16:27 +02:00 · b54a2b16fe
commit b54a2b16fe
parent c48790f32f
5 changed files with 376 additions and 340 deletions
--- a/ray-tracing-pbrt-scene/src/lib.rs
+++ b/ray-tracing-pbrt-scene/src/lib.rs
@ -1,7 +1,7 @@
 use crate::{
    scene::PbrtScene,
    shape::{Shape, ShapeAlpha, ShapeType},
-    tokenizer::Tokenizer,
+    tokenizer::{Token, Tokenizer},
 };
 use material::PbrtMaterial;
 use miette::{IntoDiagnostic, Result, bail, miette};
@ -76,7 +76,7 @@ enum Statement {
    CoordinateSystem(String),
    CoordSysTransform(String),
    Shape(ShapeType, ShapeAlpha),
-    Unknown(String, Vec<String>),
+    Unknown(String, Vec<Token>),
    Transform(AffineTransform),
    Texture(String, Arc<dyn PbrtTexture>),
    Material(Arc<dyn PbrtMaterial>),
@ -96,10 +96,12 @@ fn parse_look_at(iter: &mut Tokenizer) -> Result<Statement> {
 }
 fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
-    let shape_type = iter.next().ok_or(miette!("unable to get shape type"))??;
+    let shape_type = iter
        .next_if_string_value()
        .ok_or(miette!("unable to get shape type"))??;
    match shape_type.as_str() {
-        "\"sphere\"" => {
+        "sphere" => {
            let t = parse_dict!(iter =>
                radius, Float, 1.0;
                zmin, Float, {-radius};
@ -107,12 +109,12 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                phimax, Float, 360.0;
                alpha, ShapeAlpha, ShapeAlpha::None
                =>
-                radius, "\"float radius\"", iter.parse_parameter()?;
+                radius, "float radius", iter.parse_parameter()?;
-                zmin, "\"float zmin\"", iter.parse_parameter()?;
+                zmin, "float zmin", iter.parse_parameter()?;
-                zmax, "\"float zmax\"", iter.parse_parameter()?;
+                zmax, "float zmax", iter.parse_parameter()?;
-                phimax, "\"float phimax\"", iter.parse_parameter()?;
+                phimax, "float phimax", iter.parse_parameter()?;
-                alpha, "\"float alpha\"", ShapeAlpha::Value(iter.parse_parameter()?);
+                alpha, "float alpha", ShapeAlpha::Value(iter.parse_parameter()?);
-                alpha, "\"texture alpha\"", ShapeAlpha::Texture(iter.parse_parameter()?)
+                alpha, "texture alpha", ShapeAlpha::Texture(iter.parse_parameter()?)
            );
            Ok(Statement::Shape(
                ShapeType::Sphere {
@ -124,7 +126,7 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                t.alpha,
            ))
        }
-        "\"trianglemesh\"" => {
+        "trianglemesh" => {
            let t = parse_dict!(iter =>
                p, Vec<Pos3>, Vec::new();
                n, Vec<Dir3>, Vec::new();
@ -133,13 +135,13 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                indices, Vec<usize>, Vec::new();
                alpha, ShapeAlpha, ShapeAlpha::None
                =>
-                p, "\"point3 P\"", iter.parse_list_3(Pos3::new)?;
+                p, "point3 P", iter.parse_list_3(Pos3::new)?;
-                n, "\"normal N\"", iter.parse_list_3(Dir3::new)?;
+                n, "normal N", iter.parse_list_3(Dir3::new)?;
-                s, "\"normal S\"", iter.parse_list_3(Dir3::new)?;
+                s, "normal S", iter.parse_list_3(Dir3::new)?;
-                uv, "\"point2 uv\"", iter.parse_list_2(|u, v| [u, v])?;
+                uv, "point2 uv", iter.parse_list_2(|u, v| [u, v])?;
-                indices, "\"integer indices\"", iter.parse_list()?;
+                indices, "integer indices", iter.parse_list()?;
-                alpha, "\"float alpha\"", ShapeAlpha::Value(iter.parse_parameter()?);
+                alpha, "float alpha", ShapeAlpha::Value(iter.parse_parameter()?);
-                alpha, "\"texture alpha\"", ShapeAlpha::Texture(iter.parse_parameter()?)
+                alpha, "texture alpha", ShapeAlpha::Texture(iter.parse_parameter()?)
            );
            if t.p.len() < 3 {
@ -178,7 +180,7 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                t.alpha,
            ))
        }
-        "\"bilinearmesh\"" => {
+        "bilinearmesh" => {
            let t = parse_dict!(iter =>
                p, Vec<Pos3>, Vec::new();
                n, Vec<Dir3>, Vec::new();
@ -186,12 +188,12 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                indices, Vec<usize>, Vec::new();
                alpha, ShapeAlpha, ShapeAlpha::None
                =>
-                p, "\"point3 P\"", iter.parse_list_3(Pos3::new)?;
+                p, "point3 P", iter.parse_list_3(Pos3::new)?;
-                n, "\"normal N\"", iter.parse_list_3(Dir3::new)?;
+                n, "normal N", iter.parse_list_3(Dir3::new)?;
-                uv, "\"point2 uv\"", iter.parse_list_2(|u, v| [u, v])?;
+                uv, "point2 uv", iter.parse_list_2(|u, v| [u, v])?;
-                indices, "\"integer indices\"", iter.parse_list()?;
+                indices, "integer indices", iter.parse_list()?;
-                alpha, "\"float alpha\"", ShapeAlpha::Value(iter.parse_parameter()?);
+                alpha, "float alpha", ShapeAlpha::Value(iter.parse_parameter()?);
-                alpha, "\"texture alpha\"", ShapeAlpha::Texture(iter.parse_parameter()?)
+                alpha, "texture alpha", ShapeAlpha::Texture(iter.parse_parameter()?)
            );
            if t.p.len() < 4 {
@ -226,18 +228,18 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                t.alpha,
            ))
        }
-        "\"loopsubdiv\"" => {
+        "loopsubdiv" => {
            let t = parse_dict!(iter =>
                levels, u32, 3;
                indices, Vec<usize>, Vec::new();
                p, Vec<Pos3>, Vec::new();
                alpha, ShapeAlpha, ShapeAlpha::None
                =>
-                levels, "\"integer levels\"", iter.parse_parameter()?;
+                levels, "integer levels", iter.parse_parameter()?;
-                indices, "\"integer indices\"", iter.parse_list()?;
+                indices, "integer indices", iter.parse_list()?;
-                p, "\"point3 P\"", iter.parse_list_3(Pos3::new)?;
+                p, "point3 P", iter.parse_list_3(Pos3::new)?;
-                alpha, "\"float alpha\"", ShapeAlpha::Value(iter.parse_parameter()?);
+                alpha, "float alpha", ShapeAlpha::Value(iter.parse_parameter()?);
-                alpha, "\"texture alpha\"", ShapeAlpha::Texture(iter.parse_parameter()?)
+                alpha, "texture alpha", ShapeAlpha::Texture(iter.parse_parameter()?)
            );
            if t.indices.is_empty() {
@ -257,7 +259,7 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                t.alpha,
            ))
        }
-        "\"disk\"" => {
+        "disk" => {
            let t = parse_dict!(iter =>
                height, Float, 0.0;
                radius, Float, 1.0;
@ -265,12 +267,12 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                phimax, Float, 360.0;
                alpha, ShapeAlpha, ShapeAlpha::None
                =>
-                height, "\"float height\"", iter.parse_parameter()?;
+                height, "float height", iter.parse_parameter()?;
-                radius, "\"float radius\"", iter.parse_parameter()?;
+                radius, "float radius", iter.parse_parameter()?;
-                innerradius, "\"float innerradius\"", iter.parse_parameter()?;
+                innerradius, "float innerradius", iter.parse_parameter()?;
-                phimax, "\"float phimax\"", iter.parse_parameter()?;
+                phimax, "float phimax", iter.parse_parameter()?;
-                alpha, "\"float alpha\"", ShapeAlpha::Value(iter.parse_parameter()?);
+                alpha, "float alpha", ShapeAlpha::Value(iter.parse_parameter()?);
-                alpha, "\"texture alpha\"", ShapeAlpha::Texture(iter.parse_parameter()?)
+                alpha, "texture alpha", ShapeAlpha::Texture(iter.parse_parameter()?)
            );
            Ok(Statement::Shape(
@ -283,18 +285,18 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
                t.alpha,
            ))
        }
-        "\"plymesh\"" => {
+        "plymesh" => {
            let t = parse_dict!(iter =>
                filename, String, String::new();
                displacement, Option<String>, None;
                edgelength, Float, 1.0;
                alpha, ShapeAlpha, ShapeAlpha::None
                =>
-                filename, "\"string filename\"", iter.parse_parameter()?;
+                filename, "string filename", iter.parse_parameter()?;
-                displacement, "\"string displacement\"", Some(iter.parse_parameter()?);
+                displacement, "string displacement", Some(iter.parse_parameter()?);
-                edgelength, "\"float edgelength\"", iter.parse_parameter()?;
+                edgelength, "float edgelength", iter.parse_parameter()?;
-                alpha, "\"float alpha\"", ShapeAlpha::Value(iter.parse_parameter()?);
+                alpha, "float alpha", ShapeAlpha::Value(iter.parse_parameter()?);
-                alpha, "\"texture alpha\"", ShapeAlpha::Texture(iter.parse_parameter()?)
+                alpha, "texture alpha", ShapeAlpha::Texture(iter.parse_parameter()?)
            );
            Ok(Statement::Shape(
@ -312,11 +314,11 @@ fn parse_shape(iter: &mut Tokenizer) -> Result<Statement> {
 fn parse_camera(tokenizer: &mut Tokenizer) -> Result<Statement> {
    let camera_type = tokenizer
-        .next()
+        .next_if_string_value()
        .ok_or(miette!("unable to get shape type"))??;
    match camera_type.as_str() {
-        "\"orthographic\"" => {
+        "orthographic" => {
            let t = parse_dict!(tokenizer =>
                shutteropen, Float, 0.0;
                shutterclose, Float, 1.0;
@ -325,12 +327,12 @@ fn parse_camera(tokenizer: &mut Tokenizer) -> Result<Statement> {
                lens_radius, Float, 0.0;
                focal_distance, Float, Float::powi(10.0, 30)
                =>
-                shutteropen, "\"float shutteropen\"", tokenizer.parse_parameter()?;
+                shutteropen, "float shutteropen", tokenizer.parse_parameter()?;
-                shutterclose, "\"float shutterclose\"", tokenizer.parse_parameter()?;
+                shutterclose, "float shutterclose", tokenizer.parse_parameter()?;
-                frame_aspect_ratio, "\"float frameaspectratio\"", Some(tokenizer.parse_parameter()?);
+                frame_aspect_ratio, "float frameaspectratio", Some(tokenizer.parse_parameter()?);
-                screen_window, "\"float screenwindow\"", Some(tokenizer.parse_parameter()?);
+                screen_window, "float screenwindow", Some(tokenizer.parse_parameter()?);
-                lens_radius, "\"float lensradius\"", tokenizer.parse_parameter()?;
+                lens_radius, "float lensradius", tokenizer.parse_parameter()?;
-                focal_distance, "\"float focaldistance\"", tokenizer.parse_parameter()?
+                focal_distance, "float focaldistance", tokenizer.parse_parameter()?
            );
            Ok(Statement::Camera(PbrtCamera {
@ -344,7 +346,7 @@ fn parse_camera(tokenizer: &mut Tokenizer) -> Result<Statement> {
                shutter_close: t.shutterclose,
            }))
        }
-        "\"perspective\"" => {
+        "perspective" => {
            let t = parse_dict!(tokenizer =>
                shutteropen, Float, 0.0;
                shutterclose, Float, 1.0;
@ -354,13 +356,13 @@ fn parse_camera(tokenizer: &mut Tokenizer) -> Result<Statement> {
                focal_distance, Float, Float::powi(10.0, 30);
                fov, Float, 90.0
                =>
-                shutteropen, "\"float shutteropen\"", tokenizer.parse_parameter()?;
+                shutteropen, "float shutteropen", tokenizer.parse_parameter()?;
-                shutterclose, "\"float shutterclose\"", tokenizer.parse_parameter()?;
+                shutterclose, "float shutterclose", tokenizer.parse_parameter()?;
-                frame_aspect_ratio, "\"float frameaspectratio\"", Some(tokenizer.parse_parameter()?);
+                frame_aspect_ratio, "float frameaspectratio", Some(tokenizer.parse_parameter()?);
-                screen_window, "\"float screenwindow\"", Some(tokenizer.parse_parameter()?);
+                screen_window, "float screenwindow", Some(tokenizer.parse_parameter()?);
-                lens_radius, "\"float lensradius\"", tokenizer.parse_parameter()?;
+                lens_radius, "float lensradius", tokenizer.parse_parameter()?;
-                focal_distance, "\"float focaldistance\"", tokenizer.parse_parameter()?;
+                focal_distance, "float focaldistance", tokenizer.parse_parameter()?;
-                fov, "\"float fov\"", tokenizer.parse_parameter()?
+                fov, "float fov", tokenizer.parse_parameter()?
            );
            Ok(Statement::Camera(PbrtCamera {
@ -382,16 +384,15 @@ fn parse_camera(tokenizer: &mut Tokenizer) -> Result<Statement> {
 impl Lexer {
    fn next(&mut self, context: &PbrtContext) -> Option<Result<Statement>> {
        match self.input.next() {
-            Some(Ok(s)) => match s.as_str() {
+            Some(Ok(Token::Identifier(s))) => match s.as_str() {
                "AttributeBegin" => Some(Ok(Statement::AttributeBegin)),
                "AttributeEnd" => Some(Ok(Statement::AttributeEnd)),
                "Include" => {
                    let s = self
                        .input
-                        .next()
+                        .next_if_string_value()
                        .unwrap()
                        .unwrap()
                        .trim_matches('"')
                        .to_string();
                    Some(Ok(Statement::Include(s)))
@ -434,9 +435,8 @@ impl Lexer {
                    } else {
                        let mut v = Vec::new();
-                        while let Some(p) = self
+                        while let Some(p) =
-                            .input
+                            self.input.next_if(|s| !matches!(s, Token::Identifier(_)))
                            .next_if(|s| !s.starts_with(|c: char| c.is_ascii_alphabetic()))
                        {
                            match p {
                                Ok(c) => v.push(c),
@ -448,6 +448,10 @@ impl Lexer {
                    }
                }
            },
            Some(Ok(s)) => Some(Err(miette!(
                labels = vec![self.input.last_span_labeled(Some("here"))],
                "expected identifier got {s:?}"
            ))),
            Some(Err(e)) => Some(Err(e)),
            None => None,
        }
@ -455,29 +459,14 @@ impl Lexer {
 }
 fn parse_transform(input: &mut Tokenizer) -> Result<AffineTransform> {
-    if !input
+    input.next_expect_bracket_open()?;
        .next()
        .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "["))
    {
        bail!("expected list.")
    }
    let mut v = [0.0; 16];
    for i in &mut v {
-        *i = input
+        *i = input.parse_next()?;
            .next()
            .ok_or(miette!("value expected"))??
            .parse::<Float>()
            .into_diagnostic()?;
    }
-    if !input
+    input.next_expect_bracket_close()?;
        .next()
        .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "]"))
    {
        bail!("expected list end.")
    }
    if v[3] != 0.0 || v[7] != 0.0 || v[11] != 0.0 || v[15] != 1.0 {
        bail!("invalid transform entry")
@ -509,24 +498,11 @@ fn parse_scale(iter: &mut Tokenizer) -> Result<Statement> {
 }
 fn parse_rotate(iter: &mut Tokenizer) -> Result<Statement> {
-    let angle = iter
+    let angle = iter.parse_parameter()?;
        .next()
        .ok_or(miette!("missing argument"))??
        .parse()
        .into_diagnostic()?;
    let dir = Dir3::new(
-        iter.next()
+        iter.parse_parameter()?,
-            .ok_or(miette!("missing argument"))??
+        iter.parse_parameter()?,
-            .parse()
+        iter.parse_parameter()?,
            .into_diagnostic()?,
        iter.next()
            .ok_or(miette!("missing argument"))??
            .parse()
            .into_diagnostic()?,
        iter.next()
            .ok_or(miette!("missing argument"))??
            .parse()
            .into_diagnostic()?,
    );
    Ok(Statement::ConcatTransform(AffineTransform::rotation(
@ -721,7 +697,7 @@ fn inner_parse_pbrt(path: impl AsRef<Path> + std::fmt::Debug) -> Result<Pbrt> {
                    return Err(miette!("The camera can only be set once."));
                }
                camera = Some((c, context.get_ctm()));
-                named_transforms.insert(String::from("\"camera\""), context.get_ctm());
+                named_transforms.insert(String::from("camera"), context.get_ctm());
            }
            Statement::CoordinateSystem(s) => {
                named_transforms.insert(s, context.get_ctm());
--- a/ray-tracing-pbrt-scene/src/material.rs
+++ b/ray-tracing-pbrt-scene/src/material.rs
@ -13,9 +13,9 @@ pub fn parse_make_named_material(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<(String, Arc<dyn PbrtMaterial>)> {
-    let name = input.parse_next()?;
+    let name = input.next_string_value()?;
-    if input.parse_next::<String>()?.as_str() != "\"string type\"" {
+    if input.next_string_value()?.as_str() != "string type" {
        return Err(miette!(
            "first element of make named material dict has to be type"
        ));
@ -71,7 +71,7 @@ fn parse_2d_float_texture(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<Arc<dyn Pbrt2dFloatTexture>> {
-    let n = input.parse_parameter()?;
+    let n = input.next_string_value()?;
    context
        .get_texture(&n)
@ -83,7 +83,7 @@ fn parse_2d_spectrum_texture(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<Arc<dyn Pbrt2dSpectrumTexture>> {
-    let n = input.parse_parameter()?;
+    let n = input.next_string_value()?;
    context
        .get_texture(&n)
@ -95,51 +95,51 @@ pub fn parse_material(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<Arc<dyn PbrtMaterial>> {
-    let material: String = input.parse_parameter()?;
+    let material: String = input.next_string_value()?;
    match material.as_str() {
-        "\"diffuse\"" => Ok(Arc::new(parse_dict2!(input, PbrtDiffuseMaterial;
+        "diffuse" => Ok(Arc::new(parse_dict2!(input, PbrtDiffuseMaterial;
            reflectance, Either::A(Color::black()), [
-                "\"rgb reflectance\"", Either::A(texture::parse_rgb(input)?);
+                "rgb reflectance", Either::A(texture::parse_rgb(input)?);
-                "\"spectrum reflectance\"", Either::A(texture::parse_spectrum(input)?);
+                "spectrum reflectance", Either::A(texture::parse_spectrum(input)?);
-                "\"texture reflectance\"", Either::B(parse_2d_spectrum_texture(input, context)?)
+                "texture reflectance", Either::B(parse_2d_spectrum_texture(input, context)?)
            ]
        ))),
-        "\"coateddiffuse\"" => Ok(Arc::new(parse_dict2!(input, PbrtCoatedDiffuseMaterial;
+        "coateddiffuse" => Ok(Arc::new(parse_dict2!(input, PbrtCoatedDiffuseMaterial;
            albedo, Either::A(Color::black()), [
-                "\"rgb albedo\"", Either::A(texture::parse_rgb(input)?);
+                "rgb albedo", Either::A(texture::parse_rgb(input)?);
-                "\"spectrum albedo\"", Either::A(texture::parse_spectrum(input)?);
+                "spectrum albedo", Either::A(texture::parse_spectrum(input)?);
-                "\"texture albedo\"", Either::B(parse_2d_spectrum_texture(input, context)?)
+                "texture albedo", Either::B(parse_2d_spectrum_texture(input, context)?)
            ];
            g, Either::A(0.0), [
-                "\"float g\"", Either::A(input.parse_parameter()?);
+                "float g", Either::A(input.parse_parameter()?);
-                "\"texture g\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture g", Either::B(parse_2d_float_texture(input, context)?)
            ];
-            maxdepth, 10, ["\"integer maxdepth\"", input.parse_parameter()?];
+            maxdepth, 10, ["integer maxdepth", input.parse_parameter()?];
-            nsamples, 1, ["\"integer nsamples\"", input.parse_parameter()?];
+            nsamples, 1, ["integer nsamples", input.parse_parameter()?];
-            thickness, 0.01, ["\"float thickness\"", input.parse_parameter()?];
+            thickness, 0.01, ["float thickness", input.parse_parameter()?];
            roughness, Either::A(0.0), [
-                "\"float roughness\"", Either::A(input.parse_parameter()?);
+                "float roughness", Either::A(input.parse_parameter()?);
-                "\"texture roughness\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture roughness", Either::B(parse_2d_float_texture(input, context)?)
            ];
            uroughness, Either::A(0.0), [
-                "\"float uroughness\"", Either::A(input.parse_parameter()?);
+                "float uroughness", Either::A(input.parse_parameter()?);
-                "\"texture uroughness\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture uroughness", Either::B(parse_2d_float_texture(input, context)?)
            ];
            vroughness, Either::A(0.0), [
-                "\"float vroughness\"", Either::A(input.parse_parameter()?);
+                "float vroughness", Either::A(input.parse_parameter()?);
-                "\"texture vroughness\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture vroughness", Either::B(parse_2d_float_texture(input, context)?)
            ];
            reflectance, Either::A(Color::black()), [
-                "\"rgb reflectance\"", Either::A(texture::parse_rgb(input)?);
+                "rgb reflectance", Either::A(texture::parse_rgb(input)?);
-                "\"spectrum reflectance\"", Either::A(texture::parse_spectrum(input)?);
+                "spectrum reflectance", Either::A(texture::parse_spectrum(input)?);
-                "\"texture reflectance\"", Either::B(parse_2d_spectrum_texture(input, context)?)
+                "texture reflectance", Either::B(parse_2d_spectrum_texture(input, context)?)
            ];
            eta, Either::A(Either::A(1.5)), [
-                "\"float eta\"", Either::A(Either::A(input.parse_parameter()?));
+                "float eta", Either::A(Either::A(input.parse_parameter()?));
-                "\"rgb eta\"", Either::B(Either::A(parse_rgb(input)?));
+                "rgb eta", Either::B(Either::A(parse_rgb(input)?));
-                "\"spectrum eta\"", Either::B(Either::A(texture::parse_spectrum(input)?));
+                "spectrum eta", Either::B(Either::A(texture::parse_spectrum(input)?));
-                "\"texture eta\"", {
+                "texture eta", {
                    let n = input.parse_parameter()?;
                    let t = context.get_texture(&n).ok_or_else(|| miette!("Unknown texture"))?;
                    match Arc::clone(t).get_2d_spectrum_texture() {
@ -149,12 +149,12 @@ pub fn parse_material(
                }
            ]
        ))),
-        "\"dielectric\"" => Ok(Arc::new(parse_dict2!(input, PbrtDielectricMaterial;
+        "dielectric" => Ok(Arc::new(parse_dict2!(input, PbrtDielectricMaterial;
            eta, Either::A(Either::A(1.5)), [
-                "\"float eta\"", Either::A(Either::A(input.parse_parameter()?));
+                "float eta", Either::A(Either::A(input.parse_parameter()?));
-                "\"rgb eta\"", Either::B(Either::A(parse_rgb(input)?));
+                "rgb eta", Either::B(Either::A(parse_rgb(input)?));
-                "\"spectrum eta\"", Either::B(Either::A(texture::parse_spectrum(input)?));
+                "spectrum eta", Either::B(Either::A(texture::parse_spectrum(input)?));
-                "\"texture eta\"", {
+                "texture eta", {
                    let n = input.parse_parameter()?;
                    let t = context.get_texture(&n).ok_or_else(|| miette!("Unknown texture"))?;
                    match Arc::clone(t).get_2d_spectrum_texture() {
@ -164,16 +164,16 @@ pub fn parse_material(
                }
            ];
            roughness, Either::A(0.0), [
-                "\"float roughness\"", Either::A(input.parse_parameter()?);
+                "float roughness", Either::A(input.parse_parameter()?);
-                "\"texture roughness\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture roughness", Either::B(parse_2d_float_texture(input, context)?)
            ];
            uroughness, Either::A(0.0), [
-                "\"float uroughness\"", Either::A(input.parse_parameter()?);
+                "float uroughness", Either::A(input.parse_parameter()?);
-                "\"texture uroughness\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture uroughness", Either::B(parse_2d_float_texture(input, context)?)
            ];
            vroughness, Either::A(0.0), [
-                "\"float vroughness\"", Either::A(input.parse_parameter()?);
+                "float vroughness", Either::A(input.parse_parameter()?);
-                "\"texture vroughness\"", Either::B(parse_2d_float_texture(input, context)?)
+                "texture vroughness", Either::B(parse_2d_float_texture(input, context)?)
            ]
        ))),
        _ => Err(miette!("Unknown material {material}")),
--- a/ray-tracing-pbrt-scene/src/texture.rs
+++ b/ray-tracing-pbrt-scene/src/texture.rs
@ -48,8 +48,8 @@ enum TextureMapping {
 impl TextureMapping {
    fn new(x: String) -> Result<Self> {
        match x.as_str() {
-            "\"uv\"" => Ok(TextureMapping::UV),
+            "uv" => Ok(TextureMapping::UV),
-            "\"spherical\"" => Ok(TextureMapping::Spherical),
+            "spherical" => Ok(TextureMapping::Spherical),
            _ => Err(miette!("Error")),
        }
    }
@ -69,10 +69,10 @@ fn parse_float_texture(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<Arc<dyn PbrtTexture>> {
-    let texture_class: String = input.parse_next()?;
+    let texture_class = input.next_string_value()?;
    match texture_class.as_str() {
-        "\"checkerboard\"" => {
+        "checkerboard" => {
            let t = parse_dict!(input =>
                mapping, TextureMapping, TextureMapping::UV;
                uscale, Float, 1.0;
@ -83,16 +83,16 @@ fn parse_float_texture(
                tex1, Either<Float, String>, Either::A(1.0);
                tex2, Either<Float, String>, Either::A(0.0)
                =>
-                mapping, "\"string mapping\"", TextureMapping::new(input.parse_parameter()?)?;
+                mapping, "string mapping", TextureMapping::new(input.next_string_value()?)?;
-                uscale, "\"float uscale\"", input.parse_parameter()?;
+                uscale, "float uscale", input.parse_parameter()?;
-                vscale, "\"float vscale\"", input.parse_parameter()?;
+                vscale, "float vscale", input.parse_parameter()?;
-                udelta, "\"float udelta\"", input.parse_parameter()?;
+                udelta, "float udelta", input.parse_parameter()?;
-                vdelta, "\"float vdelta\"", input.parse_parameter()?;
+                vdelta, "float vdelta", input.parse_parameter()?;
-                dimension, "\"integer dimension\"", TextureDimension::new(input.parse_parameter()?)?;
+                dimension, "integer dimension", TextureDimension::new(input.parse_parameter()?)?;
-                tex1, "\"float tex1\"", Either::A(input.parse_parameter()?);
+                tex1, "float tex1", Either::A(input.parse_parameter()?);
-                tex1, "\"texture tex1\"", Either::B(input.parse_parameter()?);
+                tex1, "texture tex1", Either::B(input.next_string_value()?);
-                tex2, "\"float tex2\"", Either::A(input.parse_parameter()?);
+                tex2, "float tex2", Either::A(input.parse_parameter()?);
-                tex2, "\"texture tex2\"", Either::B(input.parse_parameter()?)
+                tex2, "texture tex2", Either::B(input.next_string_value()?)
            );
@ -130,7 +130,11 @@ fn parse_float_texture(
            }
        }
-        _ => Err(miette!("unknown error {texture_class}")),
+        _ => Err(miette!(
            labels = vec![input.last_span_labeled(Some("here"))],
            "unknown error {texture_class}"
        )
        .with_source_code(input.get_src())),
    }
 }
@ -138,9 +142,9 @@ fn parse_spectrum_texture(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<Arc<dyn PbrtTexture>> {
-    let texture_class: String = input.parse_next()?;
+    let texture_class = input.next_string_value()?;
    match texture_class.as_str() {
-        "\"checkerboard\"" => {
+        "checkerboard" => {
            let t = parse_dict!(input =>
                mapping, TextureMapping, TextureMapping::UV;
                uscale, Float, 1.0;
@ -151,18 +155,18 @@ fn parse_spectrum_texture(
                tex1, Either<Color, String>, Either::A(Color::white());
                tex2, Either<Color, String>, Either::A(Color::black())
                =>
-                mapping, "\"string mapping\"", TextureMapping::new(input.parse_parameter()?)?;
+                mapping, "string mapping", TextureMapping::new(input.next_string_value()?)?;
-                uscale, "\"float uscale\"", input.parse_parameter()?;
+                uscale, "float uscale", input.parse_parameter()?;
-                vscale, "\"float vscale\"", input.parse_parameter()?;
+                vscale, "float vscale", input.parse_parameter()?;
-                udelta, "\"float udelta\"", input.parse_parameter()?;
+                udelta, "float udelta", input.parse_parameter()?;
-                vdelta, "\"float vdelta\"", input.parse_parameter()?;
+                vdelta, "float vdelta", input.parse_parameter()?;
-                dimension, "\"integer dimension\"", TextureDimension::new(input.parse_parameter()?)?;
+                dimension, "integer dimension", TextureDimension::new(input.parse_parameter()?)?;
-                tex1, "\"rgb tex1\"", Either::A(parse_rgb(input)?);
+                tex1, "rgb tex1", Either::A(parse_rgb(input)?);
-                tex1, "\"spectrum tex1\"", Either::A(parse_spectrum(input)?);
+                tex1, "spectrum tex1", Either::A(parse_spectrum(input)?);
-                tex1, "\"texture tex1\"", Either::B(input.parse_parameter()?);
+                tex1, "texture tex1", Either::B(input.next_string_value()?);
-                tex2, "\"rgb tex2\"", Either::A(parse_rgb(input)?);
+                tex2, "rgb tex2", Either::A(parse_rgb(input)?);
-                tex2, "\"spectrum tex2\"", Either::A(parse_spectrum(input)?);
+                tex2, "spectrum tex2", Either::A(parse_spectrum(input)?);
-                tex2, "\"texture tex2\"", Either::B(input.parse_parameter()?)
+                tex2, "texture tex2", Either::B(input.next_string_value()?)
            );
@ -201,7 +205,7 @@ fn parse_spectrum_texture(
                }
            }
        }
-        "\"imagemap\"" => {
+        "imagemap" => {
            let t = parse_dict!(input =>
                mapping, TextureMapping, TextureMapping::UV;
                uscale, Float, 1.0;
@ -213,22 +217,22 @@ fn parse_spectrum_texture(
                encoding, ImageMapEncoding, ImageMapEncoding::SRGB;
                scale, Float, 1.0
                =>
-                mapping, "\"string mapping\"", TextureMapping::new(input.parse_parameter()?)?;
+                mapping, "string mapping", TextureMapping::new(input.next_string_value()?)?;
-                uscale, "\"float uscale\"", input.parse_parameter()?;
+                uscale, "float uscale", input.parse_parameter()?;
-                vscale, "\"float vscale\"", input.parse_parameter()?;
+                vscale, "float vscale", input.parse_parameter()?;
-                udelta, "\"float udelta\"", input.parse_parameter()?;
+                udelta, "float udelta", input.parse_parameter()?;
-                vdelta, "\"float vdelta\"", input.parse_parameter()?;
+                vdelta, "float vdelta", input.parse_parameter()?;
-                filename, "\"string filename\"", input.parse_parameter()?;
+                filename, "string filename", input.next_string_value()?;
-                wrap, "\"string wrap\"", ImageMapWrap::new(input.parse_parameter()?)?;
+                wrap, "string wrap", ImageMapWrap::new(input.next_string_value()?)?;
-                encoding, "\"string encoding\"", ImageMapEncoding::new(input.parse_parameter()?)?;
+                encoding, "string encoding", ImageMapEncoding::new(input.next_string_value()?)?;
-                scale, "\"float scale\"", input.parse_parameter()?
+                scale, "float scale", input.parse_parameter()?
            );
            let mapping = UVMapping::new(t.mapping, t.uscale, t.vscale, t.udelta, t.vdelta);
-            let path = dbg!(input.get_base_path()).join(t.filename.trim_matches('\"'));
+            let path = dbg!(input.get_base_path()).join(t.filename);
            Ok(Arc::new(SpectrumImageMapTexture::new(
                mapping,
@ -239,16 +243,16 @@ fn parse_spectrum_texture(
                dbg!(path),
            )?))
        }
-        "\"scale\"" => {
+        "scale" => {
            let t = parse_dict!(input =>
                tex, Either<Color, String>, Either::A(Color::white());
                scale, Either<Float, String>, Either::A(1.0)
                =>
-                tex, "\"rgb tex\"", Either::A(parse_rgb(input)?);
+                tex, "rgb tex", Either::A(parse_rgb(input)?);
-                tex, "\"spectrum tex\"", Either::A(parse_spectrum(input)?);
+                tex, "spectrum tex", Either::A(parse_spectrum(input)?);
-                tex, "\"texture tex\"", Either::B(input.parse_parameter()?);
+                tex, "texture tex", Either::B(input.next_string_value()?);
-                scale, "\"float scale\"", Either::A(input.parse_parameter()?);
+                scale, "float scale", Either::A(input.parse_parameter()?);
-                scale, "\"texture scale\"", Either::B(input.parse_parameter()?)
+                scale, "texture scale", Either::B(input.next_string_value()?)
            );
            Ok(Arc::new(SpectrumScaleTexture2d {
@ -284,12 +288,12 @@ pub fn parse_texture(
    input: &mut Tokenizer,
    context: &PbrtContext,
 ) -> Result<(String, Arc<dyn PbrtTexture>)> {
-    let texture_name: String = input.parse_next()?;
+    let texture_name: String = input.next_string_value()?;
-    let texture_type: String = input.parse_next()?;
+    let texture_type: String = input.next_string_value()?;
    match texture_type.as_str() {
-        "\"spectrum\"" => parse_spectrum_texture(input, context).map(|t| (texture_name, t)),
+        "spectrum" => parse_spectrum_texture(input, context).map(|t| (texture_name, t)),
-        "\"float\"" => parse_float_texture(input, context).map(|t| (texture_name, t)),
+        "float" => parse_float_texture(input, context).map(|t| (texture_name, t)),
        _ => Err(miette!("Texture type has to be spectrum or float")),
    }
 }
@ -303,6 +307,18 @@ struct UVMapping {
    mapping: TextureMapping,
 }
 impl std::default::Default for UVMapping {
    fn default() -> Self {
        Self {
            uscale: 1.0,
            vscale: 1.0,
            udelta: 0.0,
            vdelta: 0.0,
            mapping: TextureMapping::UV,
        }
    }
 }
 impl UVMapping {
    fn new(
        mapping: TextureMapping,
--- a/ray-tracing-pbrt-scene/src/texture/imagemap.rs
+++ b/ray-tracing-pbrt-scene/src/texture/imagemap.rs
@ -14,9 +14,9 @@ pub(super) enum ImageMapWrap {
 impl ImageMapWrap {
    pub(super) fn new(x: String) -> Result<Self> {
        match x.as_str() {
-            "\"repeat\"" => Ok(Self::Repeat),
+            "repeat" => Ok(Self::Repeat),
-            "\"black\"" => Ok(Self::Black),
+            "black" => Ok(Self::Black),
-            "\"clamp\"" => Ok(Self::Clamp),
+            "clamp" => Ok(Self::Clamp),
            _ => Err(miette!("error image map wrap")),
        }
    }
@ -33,15 +33,11 @@ pub(super) enum ImageMapEncoding {
 impl ImageMapEncoding {
    pub(super) fn new(x: String) -> Result<Self> {
        match x.as_str() {
-            "\"sRGB\"" => Ok(Self::SRGB),
+            "sRGB" => Ok(Self::SRGB),
-            "\"linear\"" => Ok(Self::Linear),
+            "linear" => Ok(Self::Linear),
-            s if s.starts_with("\"gamma ") => Ok(Self::Gamma(
+            s if s.starts_with("gamma ") => {
-                s.split_at(7)
+                Ok(Self::Gamma(s.split_at(7).1.parse().into_diagnostic()?))
-                    .1
+            }
                    .trim_matches('\"')
                    .parse()
                    .into_diagnostic()?,
            )),
            _ => Err(miette!("error image map encoding")),
        }
    }
--- a/ray-tracing-pbrt-scene/src/tokenizer.rs
+++ b/ray-tracing-pbrt-scene/src/tokenizer.rs
@ -1,5 +1,5 @@
 use crate::{BytesToChar, error::SourceFile};
-use miette::{Diagnostic, IntoDiagnostic, Report, Result, SourceSpan};
+use miette::{Diagnostic, IntoDiagnostic, LabeledSpan, Report, Result, SourceSpan, miette};
 use std::{
    fs::File,
    io::{BufReader, Bytes, Read},
@ -12,7 +12,7 @@ pub struct Tokenizer {
    inner: InnerTokenizer,
    path: PathBuf,
    base_path: PathBuf,
-    peeked: Option<Option<Result<(String, SourceSpan)>>>,
+    peeked: Option<Option<Result<(Token, SourceSpan)>>>,
    last_span: SourceSpan,
 }
@ -47,8 +47,17 @@ impl InnerTokenizer {
    }
 }
 #[derive(Debug)]
 pub enum Token {
    Identifier(String),
    BracketOpen,
    BracketClose,
    Value(String),
    StringValue(String),
 }
 impl InnerTokenizer {
-    fn next(&mut self) -> Option<Result<(String, SourceSpan)>> {
+    fn next(&mut self) -> Option<Result<(Token, SourceSpan)>> {
        while self.input_iterator.peek().is_some_and(|c| {
            c.as_ref()
                .is_ok_and(|&(_, c)| c.is_whitespace() || c == '#')
@ -72,10 +81,10 @@ impl InnerTokenizer {
        }
        match self.input_iterator.next() {
-            Some(Ok((i, '['))) => Some(Ok((String::from('['), SourceSpan::new(i.into(), 1)))),
+            Some(Ok((i, '['))) => Some(Ok((Token::BracketOpen, SourceSpan::new(i.into(), 1)))),
-            Some(Ok((i, ']'))) => Some(Ok((String::from(']'), SourceSpan::new(i.into(), 1)))),
+            Some(Ok((i, ']'))) => Some(Ok((Token::BracketClose, SourceSpan::new(i.into(), 1)))),
            Some(Ok((i, '"'))) => {
-                let mut r = String::from('"');
+                let mut r = String::new();
                while let Some(p) = self
                    .input_iterator
                    .next_if(|c| c.as_ref().is_ok_and(|&(_, c)| c != '"'))
@ -97,9 +106,11 @@ impl InnerTokenizer {
                        bad_bit: SourceSpan::new(i.into(), r.len()),
                    })));
                };
                r.push('"');
                let len = r.len();
-                Some(Ok((r, SourceSpan::new(i.into(), len))))
+                Some(Ok((
                    Token::StringValue(r),
                    SourceSpan::new(i.into(), len + 2),
                )))
            }
            Some(Ok((i, c))) => {
                let mut r = String::new();
@ -114,7 +125,12 @@ impl InnerTokenizer {
                    }
                }
                let len = r.len();
-                Some(Ok((r, SourceSpan::new(i.into(), len))))
+                if r.starts_with(|c: char| c.is_ascii_alphabetic()) && (r != "true" || r != "false")
                {
                    Some(Ok((Token::Identifier(r), SourceSpan::new(i.into(), len))))
                } else {
                    Some(Ok((Token::Value(r), SourceSpan::new(i.into(), len))))
                }
            }
            Some(Err(e)) => Some(Err(e)),
            None => None,
@ -123,14 +139,14 @@ impl InnerTokenizer {
 }
 impl Tokenizer {
-    pub fn next_inner(&mut self) -> Option<Result<(String, SourceSpan)>> {
+    pub fn next_inner(&mut self) -> Option<Result<(Token, SourceSpan)>> {
        match self.peeked.take() {
            Some(v) => v,
            None => self.inner.next(),
        }
    }
-    pub fn next(&mut self) -> Option<Result<String>> {
+    pub fn next(&mut self) -> Option<Result<Token>> {
        let v = self.next_inner();
        if let Some(Ok((_, s))) = v {
            self.last_span = s;
@ -138,9 +154,66 @@ impl Tokenizer {
        v.map(|o| o.map(|i| i.0))
    }
-    pub fn next_if(&mut self, func: impl FnOnce(&String) -> bool) -> Option<Result<String>> {
+    pub fn next_if(&mut self, f: impl FnOnce(&Token) -> bool) -> Option<Result<Token>> {
        match self.next_inner() {
-            Some(Ok((matched, s))) if func(&matched) => {
+            Some(Ok((matched, s))) if f(&matched) => {
                self.last_span = s;
                Some(Ok(matched))
            }
            other => {
                assert!(self.peeked.is_none());
                self.peeked = Some(other);
                None
            }
        }
    }
    pub fn next_if_value(&mut self) -> Option<Result<String>> {
        match self.next_inner() {
            Some(Ok((Token::Value(matched), s))) => {
                self.last_span = s;
                Some(Ok(matched))
            }
            other => {
                assert!(self.peeked.is_none());
                self.peeked = Some(other);
                None
            }
        }
    }
    pub fn next_string_value(&mut self) -> Result<String> {
        self.next_if_string_value().ok_or_else(|| {
            miette!(
                labels = vec![self.last_span_labeled(Some("here"))],
                "expected a string value"
            )
            .with_source_code(self.get_src())
        })?
    }
    pub fn next_if_string_value(&mut self) -> Option<Result<String>> {
        match self.next_inner() {
            Some(Ok((Token::BracketOpen, s1))) => match self.next_inner() {
                Some(Ok((Token::StringValue(s), s2))) => {
                    if let Err(e) = self.next_expect_bracket_close() {
                        Some(Err(e))
                    } else {
                        self.last_span = SourceSpan::new(
                            s1.offset().into(),
                            s2.offset() - s1.offset() + s2.len(),
                        );
                        Some(Ok(s))
                    }
                }
                Some(Ok((t, s2))) => Some(Err(miette!(
                    labels = vec![LabeledSpan::new_with_span(Some("here".to_string()), s2)],
                    "expected string value got {t:?}"
                ))),
                Some(Err(e)) => Some(Err(e)),
                None => None,
            },
            Some(Ok((Token::StringValue(matched), s))) => {
                self.last_span = s;
                Some(Ok(matched))
            }
@ -158,32 +231,79 @@ impl Tokenizer {
        <T as std::str::FromStr>::Err:
            std::error::Error + std::marker::Send + std::marker::Sync + 'static,
    {
-        let s = self.next().ok_or_else(|| MissingValueError {
+        if let Token::Value(s) = self.next().ok_or_else(|| MissingValueError {
            src: SourceFile {
                path: self.path.to_path_buf(),
            },
            bad_bit: self.last_span(),
-        })??;
+        })?? {
-
+            s.parse::<T>().into_diagnostic().map_err(|e| {
-        s.parse::<T>().into_diagnostic().map_err(|e| {
+                ParsingError {
-            ParsingError {
+                    src: SourceFile {
-                src: SourceFile {
+                        path: self.path.clone(),
-                    path: self.path.clone(),
+                    },
-                },
+                    bad_bit: self.last_span,
-                bad_bit: self.last_span,
+                    error: Some(e),
-                error: Some(e),
+                }
-            }
+                .into()
-            .into()
+            })
-        })
+        } else {
            Err(miette!(
                labels = vec![self.last_span_labeled(Some("here"))],
                "expected a value"
            )
            .with_source_code(self.get_src()))
        }
    }
-    pub fn parse_next_if<T>(&mut self, func: impl FnOnce(&String) -> bool) -> Option<Result<T>>
+    pub fn next_expect_bracket_open(&mut self) -> Result<()> {
        let p = self.next().ok_or_else(|| {
            miette!(
                labels = vec![self.last_span_labeled(Some("here"))],
                "expected opening brackets"
            )
            .with_source_code(self.get_src())
        })??;
        match &p {
            Token::BracketOpen => Ok(()),
            s => Err(miette!(
                labels = vec![self.last_span_labeled(Some("here"))],
                "expected opening brackets got {s:?}"
            )
            .with_source_code(self.get_src())),
        }
    }
    pub fn next_expect_bracket_close(&mut self) -> Result<()> {
        let p = self.next().ok_or_else(|| {
            miette!(
                labels = vec![LabeledSpan::new_with_span(
                    Some("here".to_string()),
                    self.last_span()
                )],
                "expected closing brackets"
            )
            .with_source_code(self.get_src())
        })??;
        match &p {
            Token::BracketClose => Ok(()),
            s => Err(miette!(
                labels = vec![self.last_span_labeled(Some("here"))],
                "expected closing brackets got {s:?}"
            )
            .with_source_code(self.get_src())),
        }
    }
    pub fn parse_next_if_value<T>(&mut self) -> Option<Result<T>>
    where
        T: std::str::FromStr,
        <T as std::str::FromStr>::Err:
            std::error::Error + std::marker::Send + std::marker::Sync + 'static,
    {
-        let s = self.next_if(func)?;
+        let s = self.next_if_value()?;
        Some(match s {
            Ok(s) => s.parse::<T>().into_diagnostic().map_err(|e| {
@ -204,6 +324,10 @@ impl Tokenizer {
        self.last_span
    }
    pub fn last_span_labeled(&self, label: Option<impl ToString>) -> LabeledSpan {
        LabeledSpan::new_with_span(label.map(|s| s.to_string()), self.last_span())
    }
    pub fn parse_parameter<T>(&mut self) -> Result<T>
    where
        T: std::str::FromStr,
@ -217,25 +341,23 @@ impl Tokenizer {
            bad_bit: self.last_span(),
        })??;
-        match p.as_str() {
+        match p {
-            "[" => {
+            Token::BracketOpen => {
                let d = self.parse_next()?;
-                if !self
+
-                    .next()
+                self.next_expect_bracket_close()?;
                    .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "]"))
                {
                    return Err(ListEndError {
                        src: SourceFile {
                            path: self.path.to_path_buf(),
                        },
                        bad_bit: self.last_span(),
                    }
                    .into());
                }
                Ok(d)
            }
-            s => Ok(s.parse::<T>().into_diagnostic()?),
+            Token::Value(s) => Ok(s.parse::<T>().into_diagnostic()?),
            _ => Err(miette!(
                labels = vec![LabeledSpan::new_with_span(
                    Some("here".to_string()),
                    self.last_span()
                )],
                "expected value or [ got {p:?}"
            )
            .with_source_code(self.get_src())),
        }
    }
@ -246,35 +368,14 @@ impl Tokenizer {
            std::marker::Send + std::marker::Sync + std::error::Error + 'static,
    {
        let mut data = Vec::new();
        if !self
            .next()
            .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "["))
        {
            return Err(ListBeginError {
                src: SourceFile {
                    path: self.path.to_path_buf(),
                },
                bad_bit: self.last_span(),
            }
            .into());
        }
-        while let Some(p) = self.parse_next_if(|p| p != "]").transpose()? {
+        self.next_expect_bracket_open()?;
        while let Some(p) = self.parse_next_if_value().transpose()? {
            data.push(p);
        }
-        if !self
+        self.next_expect_bracket_close()?;
            .next()
            .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "]"))
        {
            return Err(ListEndError {
                src: SourceFile {
                    path: self.path.to_path_buf(),
                },
                bad_bit: self.last_span(),
            }
            .into());
        }
        Ok(data)
    }
@ -287,21 +388,11 @@ impl Tokenizer {
        F: Fn(T, T) -> P,
    {
        let mut data = Vec::new();
        if !self
            .next()
            .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "["))
        {
            return Err(ListBeginError {
                src: SourceFile {
                    path: self.path.to_path_buf(),
                },
                bad_bit: self.last_span(),
            }
            .into());
        }
-        while let Some(pa) = self.parse_next_if(|p| p != "]").transpose()? {
+        self.next_expect_bracket_open()?;
-            if let Some(pb) = self.parse_next_if(|p| p != "]").transpose()? {
+
        while let Some(pa) = self.parse_next_if_value().transpose()? {
            if let Some(pb) = self.parse_next_if_value().transpose()? {
                data.push(f(pa, pb));
            } else {
                return Err(UncompleteError {
@ -314,18 +405,7 @@ impl Tokenizer {
            }
        }
-        if !self
+        self.next_expect_bracket_close()?;
            .next()
            .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "]"))
        {
            return Err(ListEndError {
                src: SourceFile {
                    path: self.path.to_path_buf(),
                },
                bad_bit: self.last_span(),
            }
            .into());
        }
        Ok(data)
    }
@ -338,22 +418,12 @@ impl Tokenizer {
        F: Fn(T, T, T) -> P,
    {
        let mut data = Vec::new();
        if !self
            .next()
            .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "["))
        {
            return Err(ListBeginError {
                src: SourceFile {
                    path: self.path.to_path_buf(),
                },
                bad_bit: self.last_span(),
            }
            .into());
        }
-        while let Some(pa) = self.parse_next_if(|p| p != "]").transpose()? {
+        self.next_expect_bracket_open()?;
-            if let Some(pb) = self.parse_next_if(|p| p != "]").transpose()? {
+
-                if let Some(pc) = self.parse_next_if(|p| p != "]").transpose()? {
+        while let Some(pa) = self.parse_next_if_value().transpose()? {
            if let Some(pb) = self.parse_next_if_value().transpose()? {
                if let Some(pc) = self.parse_next_if_value().transpose()? {
                    data.push(f(pa, pb, pc));
                } else {
                    return Err(UncompleteError {
@ -375,18 +445,7 @@ impl Tokenizer {
            }
        }
-        if !self
+        self.next_expect_bracket_close()?;
            .next()
            .is_none_or(|p| p.is_ok_and(|p| p.as_str() == "]"))
        {
            return Err(ListEndError {
                src: SourceFile {
                    path: self.path.to_path_buf(),
                },
                bad_bit: self.last_span(),
            }
            .into());
        }
        Ok(data)
    }
@ -406,7 +465,7 @@ macro_rules! parse_dict {
                let mut $name_decl = None;
            )+
-            while let Some(p) = $tokenizer.next_if(|p| p.starts_with('"')).transpose()? {
+            while let Some(p) = $tokenizer.next_if_string_value().transpose()? {
                match p.as_str() {
                    $(
                        $expr => {
@ -449,7 +508,7 @@ macro_rules! parse_dict2 {
                let mut $name = None;
            )+
-            while let Some(p) = $tokenizer.next_if(|p| p.starts_with('"')).transpose()? {
+            while let Some(p) = $tokenizer.next_if_string_value().transpose()? {
                match p.as_str() {
                    $(
                        $(
@ -548,17 +607,6 @@ struct ListBeginError {
    bad_bit: SourceSpan,
 }
 #[derive(Error, Debug, Diagnostic)]
 #[error("list error")]
 #[diagnostic(help("expected list to end"))]
 struct ListEndError {
    #[source_code]
    src: SourceFile,
    #[label("Here")]
    bad_bit: SourceSpan,
 }
 #[derive(Error, Debug, Diagnostic)]
 #[error("value expected")]
 #[diagnostic(help("expected a value"))]