agb/agb-image-converter/src/lib.rs

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use palette16::{Palette16OptimisationResults, Palette16Optimiser};
use palette256::Palette256;
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use proc_macro::TokenStream;
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use proc_macro2::Literal;
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use syn::parse::{Parse, Parser};
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use syn::{parse_macro_input, punctuated::Punctuated, LitStr};
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use syn::{Expr, ExprLit, Lit, Token};
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use std::collections::HashMap;
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use std::path::PathBuf;
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use std::{iter, path::Path, str};
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use quote::{format_ident, quote, ToTokens};
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mod aseprite;
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mod colour;
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mod config;
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mod font_loader;
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mod image_loader;
mod palette16;
mod palette256;
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mod rust_generator;
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use image::GenericImageView;
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use image_loader::Image;
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use colour::Colour;
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#[derive(Debug, Clone, Copy)]
pub(crate) enum Colours {
Colours16,
Colours256,
}
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struct BackgroundGfxOption {
module_name: String,
file_name: String,
colours: Colours,
}
impl config::Image for BackgroundGfxOption {
fn filename(&self) -> String {
self.file_name.clone()
}
fn colours(&self) -> Colours {
self.colours
}
}
impl Parse for BackgroundGfxOption {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
let module_name: syn::Ident = input.parse()?;
let _: Token![=>] = input.parse()?;
let lookahead = input.lookahead1();
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let colours = if lookahead.peek(syn::LitInt) {
let num_colours: syn::LitInt = input.parse()?;
match num_colours.base10_parse()? {
16 => Colours::Colours16,
256 => Colours::Colours256,
_ => {
return Err(syn::Error::new_spanned(
num_colours,
"Number of colours must be 16 or 256",
))
}
}
} else {
Colours::Colours16
};
let file_name: syn::LitStr = input.parse()?;
Ok(Self {
module_name: module_name.to_string(),
file_name: file_name.value(),
colours,
})
}
}
struct IncludeBackgroundGfxInput {
module_name: syn::Ident,
crate_prefix: String,
transparent_colour: Colour,
background_gfx_options: Vec<BackgroundGfxOption>,
}
impl Parse for IncludeBackgroundGfxInput {
fn parse(input: syn::parse::ParseStream) -> syn::Result<Self> {
let lookahead = input.lookahead1();
let crate_prefix: syn::Ident = if lookahead.peek(Token![crate]) {
let _: Token![crate] = input.parse()?;
let _: Token![,] = input.parse()?;
format_ident!("crate")
} else {
format_ident!("agb")
};
let module_name: syn::Ident = input.parse()?;
let _: Token![,] = input.parse()?;
let lookahead = input.lookahead1();
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let transparent_colour: Colour = if lookahead.peek(syn::LitStr) {
let colour_str: syn::LitStr = input.parse()?;
let _: Token![,] = input.parse()?;
colour_str
.value()
.parse()
.map_err(|msg| syn::Error::new_spanned(colour_str, msg))?
} else {
Colour::from_rgb(255, 0, 255, 0)
};
let background_gfx_options =
input.parse_terminated(BackgroundGfxOption::parse, Token![,])?;
Ok(Self {
module_name,
crate_prefix: crate_prefix.to_string(),
transparent_colour,
background_gfx_options: background_gfx_options.into_iter().collect(),
})
}
}
impl config::Config for IncludeBackgroundGfxInput {
fn crate_prefix(&self) -> String {
self.crate_prefix.clone()
}
fn images(&self) -> HashMap<String, &dyn config::Image> {
self.background_gfx_options
.iter()
.map(|options| (options.module_name.clone(), options as &dyn config::Image))
.collect()
}
fn transparent_colour(&self) -> Option<Colour> {
Some(self.transparent_colour)
}
}
#[proc_macro]
pub fn include_background_gfx(input: TokenStream) -> TokenStream {
let config = Box::new(parse_macro_input!(input as IncludeBackgroundGfxInput));
let root = std::env::var("CARGO_MANIFEST_DIR").expect("Failed to get cargo manifest dir");
let module_name = config.module_name.clone();
include_gfx_from_config(config, module_name, Path::new(&root))
}
fn include_gfx_from_config(
config: Box<dyn config::Config>,
module_name: syn::Ident,
parent: &Path,
) -> TokenStream {
let images = config.images();
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let mut optimiser = Palette16Optimiser::new(config.transparent_colour());
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let mut assignment_offsets = HashMap::new();
let mut assignment_offset = 0;
let mut palette256 = Palette256::new();
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for (name, settings) in images.iter() {
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let image_filename = &parent.join(settings.filename());
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let image = Image::load_from_file(image_filename);
match settings.colours() {
Colours::Colours16 => {
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let tile_size = 8;
if image.width % tile_size != 0 || image.height % tile_size != 0 {
panic!("Image size not a multiple of tile size");
}
add_to_optimiser(
&mut optimiser,
&image,
tile_size,
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config.transparent_colour(),
);
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let num_tiles = image.width * image.height / 8usize.pow(2);
assignment_offsets.insert(name, assignment_offset);
assignment_offset += num_tiles;
}
Colours::Colours256 => {
palette256.add_image(&image);
}
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}
}
let optimisation_results = optimiser.optimise_palettes();
let optimisation_results = palette256.extend_results(&optimisation_results);
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let mut image_code = vec![];
for (image_name, &image) in images.iter() {
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let assignment_offset = match image.colours() {
Colours::Colours16 => Some(assignment_offsets[image_name]),
_ => None,
};
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image_code.push(convert_image(
image,
parent,
image_name,
&config.crate_prefix(),
&optimisation_results,
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assignment_offset,
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));
}
let palette_code =
rust_generator::generate_palette_code(&optimisation_results, &config.crate_prefix());
let module = quote! {
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mod #module_name {
#palette_code
#(#image_code)*
}
};
TokenStream::from(module)
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}
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use quote::TokenStreamExt;
struct ByteString<'a>(&'a [u8]);
impl ToTokens for ByteString<'_> {
fn to_tokens(&self, tokens: &mut proc_macro2::TokenStream) {
tokens.append(Literal::byte_string(self.0));
}
}
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#[proc_macro]
pub fn include_aseprite_inner(input: TokenStream) -> TokenStream {
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let parser = Punctuated::<LitStr, syn::Token![,]>::parse_separated_nonempty;
let parsed = match parser.parse(input) {
Ok(e) => e,
Err(e) => return e.to_compile_error().into(),
};
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let transparent_colour = Colour::from_rgb(255, 0, 255, 0);
let mut optimiser = palette16::Palette16Optimiser::new(Some(transparent_colour));
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let mut images = Vec::new();
let mut tags = Vec::new();
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let root = std::env::var("CARGO_MANIFEST_DIR").expect("Failed to get cargo manifest dir");
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let filenames: Vec<PathBuf> = parsed
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.iter()
.map(|s| s.value())
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.map(|s| Path::new(&root).join(&*s))
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.collect();
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for filename in filenames.iter() {
let (frames, tag) = aseprite::generate_from_file(filename);
tags.push((tag, images.len()));
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for frame in frames {
let width = frame.width();
let height = frame.height();
assert!(
valid_sprite_size(width, height),
"File {} contains sprites with size {}x{} which cannot be represented on the GameBoy Advance",
filename.display(),
width,
height
);
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let image = Image::load_from_dyn_image(frame);
add_to_optimiser(&mut optimiser, &image, 8, Some(transparent_colour));
images.push(image);
}
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}
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let optimised_results = optimiser.optimise_palettes();
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let (palette_data, tile_data, assignments) = palette_tile_data(&optimised_results, &images);
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let palette_data = palette_data.iter().map(|colours| {
quote! {
Palette16::new([
#(#colours),*
])
}
});
let mut pre = 0;
let sprites = images
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.iter()
.zip(assignments.iter())
.map(|(f, assignment)| {
let start: usize = pre;
let end: usize = pre + (f.width / 8) * (f.height / 8) * 32;
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let data = ByteString(&tile_data[start..end]);
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pre = end;
let width = f.width;
let height = f.height;
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quote! {
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unsafe {
Sprite::new(
&PALETTES[#assignment],
align_bytes!(u16, #data),
Size::from_width_height(#width, #height)
)
}
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}
});
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let tags = tags.iter().flat_map(|(tag, num_images)| {
tag.iter().map(move |tag| {
let start = tag.from_frame() as usize + num_images;
let end = tag.to_frame() as usize + num_images;
let direction = tag.animation_direction() as usize;
let name = tag.name();
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assert!(start <= end, "Tag {name} has start > end");
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quote! {
(#name, Tag::new(SPRITES, #start, #end, #direction))
}
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})
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});
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let include_paths = filenames.iter().map(|s| {
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let s = s.as_os_str().to_string_lossy();
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quote! {
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const _: &[u8] = include_bytes!(#s);
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}
});
let module = quote! {
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#(#include_paths)*
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const PALETTES: &[Palette16] = &[
#(#palette_data),*
];
pub const SPRITES: &[Sprite] = &[
#(#sprites),*
];
const TAGS: &TagMap = &TagMap::new(
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&[
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#(#tags),*
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]
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);
};
TokenStream::from(module)
}
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fn convert_image(
settings: &dyn config::Image,
parent: &Path,
variable_name: &str,
crate_prefix: &str,
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optimisation_results: &Palette16OptimisationResults,
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assignment_offset: Option<usize>,
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) -> proc_macro2::TokenStream {
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let image_filename = &parent.join(settings.filename());
let image = Image::load_from_file(image_filename);
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rust_generator::generate_code(
variable_name,
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optimisation_results,
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&image,
&image_filename.to_string_lossy(),
crate_prefix.to_owned(),
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assignment_offset,
)
}
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fn add_to_optimiser(
palette_optimiser: &mut palette16::Palette16Optimiser,
image: &Image,
tile_size: usize,
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transparent_colour: Option<Colour>,
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) {
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let tiles_x = image.width / tile_size;
let tiles_y = image.height / tile_size;
for y in 0..tiles_y {
for x in 0..tiles_x {
let mut palette = palette16::Palette16::new();
for j in 0..tile_size {
for i in 0..tile_size {
let colour = image.colour(x * tile_size + i, y * tile_size + j);
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palette.add_colour(match (colour.is_transparent(), transparent_colour) {
(true, Some(transparent_colour)) => transparent_colour,
_ => colour,
});
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}
}
palette_optimiser.add_palette(palette);
}
}
}
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fn palette_tile_data(
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optimiser: &Palette16OptimisationResults,
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images: &[Image],
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) -> (Vec<Vec<u16>>, Vec<u8>, Vec<usize>) {
let palette_data: Vec<Vec<u16>> = optimiser
.optimised_palettes
.iter()
.map(|palette| {
palette
.clone()
.into_iter()
.map(|colour| colour.to_rgb15())
.chain(iter::repeat(0))
.take(16)
.collect()
})
.collect();
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let mut tile_data = Vec::new();
for image in images {
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add_image_to_tile_data(&mut tile_data, image, optimiser, 0)
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}
let tile_data = collapse_to_4bpp(&tile_data);
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let assignments = optimiser.assignments.clone();
(palette_data, tile_data, assignments)
}
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fn collapse_to_4bpp(tile_data: &[u8]) -> Vec<u8> {
tile_data
.chunks(2)
.map(|chunk| chunk[0] | (chunk[1] << 4))
.collect()
}
fn add_image_to_tile_data(
tile_data: &mut Vec<u8>,
image: &Image,
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optimiser: &Palette16OptimisationResults,
assignment_offset: usize,
) {
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let tile_size = 8;
let tiles_x = image.width / tile_size;
let tiles_y = image.height / tile_size;
for y in 0..tiles_y {
for x in 0..tiles_x {
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let palette_index = optimiser.assignments[y * tiles_x + x + assignment_offset];
let palette = &optimiser.optimised_palettes[palette_index];
for inner_y in 0..tile_size / 8 {
for inner_x in 0..tile_size / 8 {
for j in inner_y * 8..inner_y * 8 + 8 {
for i in inner_x * 8..inner_x * 8 + 8 {
let colour = image.colour(x * tile_size + i, y * tile_size + j);
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tile_data.push(palette.colour_index(colour));
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}
}
}
}
}
}
}
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fn add_image_256_to_tile_data(
tile_data: &mut Vec<u8>,
image: &Image,
optimiser: &Palette16OptimisationResults,
) {
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let tile_size = 8;
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let tiles_x = image.width / tile_size;
let tiles_y = image.height / tile_size;
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let all_colours: Vec<_> = optimiser
.optimised_palettes
.iter()
.flat_map(|p| p.colours())
.collect();
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for y in 0..tiles_y {
for x in 0..tiles_x {
for inner_y in 0..tile_size / 8 {
for inner_x in 0..tile_size / 8 {
for j in inner_y * 8..inner_y * 8 + 8 {
for i in inner_x * 8..inner_x * 8 + 8 {
let colour = image.colour(x * tile_size + i, y * tile_size + j);
tile_data.push(all_colours.iter().position(|c| **c == colour).unwrap() as u8);
}
}
}
}
}
}
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}
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fn flatten_group(expr: &Expr) -> &Expr {
match expr {
Expr::Group(group) => &group.expr,
_ => expr,
}
}
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#[proc_macro]
pub fn include_font(input: TokenStream) -> TokenStream {
let parser = Punctuated::<Expr, syn::Token![,]>::parse_separated_nonempty;
let parsed = match parser.parse(input) {
Ok(e) => e,
Err(e) => return e.to_compile_error().into(),
};
let all_args: Vec<_> = parsed.into_iter().collect();
if all_args.len() != 2 {
panic!("Include_font requires 2 arguments, got {}", all_args.len());
}
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let filename = match flatten_group(&all_args[0]) {
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Expr::Lit(ExprLit {
lit: Lit::Str(str_lit),
..
}) => str_lit.value(),
_ => panic!("Expected literal string as first argument to include_font"),
};
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let font_size = match flatten_group(&all_args[1]) {
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Expr::Lit(ExprLit {
lit: Lit::Float(value),
..
}) => value.base10_parse::<f32>().expect("Invalid float literal"),
Expr::Lit(ExprLit {
lit: Lit::Int(value),
..
}) => value
.base10_parse::<i32>()
.expect("Invalid integer literal") as f32,
_ => panic!("Expected literal float or integer as second argument to include_font"),
};
let root = std::env::var("CARGO_MANIFEST_DIR").expect("Failed to get cargo manifest dir");
let path = Path::new(&root).join(&*filename);
let file_content = std::fs::read(&path).expect("Failed to read ttf file");
let rendered = font_loader::load_font(&file_content, font_size);
let include_path = path.to_string_lossy();
quote!({
let _ = include_bytes!(#include_path);
#rendered
})
.into()
}
fn valid_sprite_size(width: u32, height: u32) -> bool {
match (width, height) {
(8, 8) => true,
(16, 16) => true,
(32, 32) => true,
(64, 64) => true,
(16, 8) => true,
(32, 8) => true,
(32, 16) => true,
(64, 32) => true,
(8, 16) => true,
(8, 32) => true,
(16, 32) => true,
(32, 64) => true,
(_, _) => false,
}
}
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#[cfg(test)]
mod tests {
use asefile::AnimationDirection;
#[test]
// These directions defined in agb and have these values. This is important
// when outputting code for agb. If more animation directions are added then
// we will have to support them there.
fn directions_to_agb() {
assert_eq!(AnimationDirection::Forward as usize, 0);
assert_eq!(AnimationDirection::Reverse as usize, 1);
assert_eq!(AnimationDirection::PingPong as usize, 2);
}
}