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Merge pull request 'VIP inspection tooling' (#4) from vram into main 

Reviewed-on: #4
This commit is contained in:
SonicSwordcane 2025-02-24 04:01:17 +00:00
parent 5f17469dc2 ad994f8851
commit 5c5b6a0b9e
20 changed files with 4755 additions and 123 deletions
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55
Cargo.lock generated
View File

@ -427,6 +427,12 @@ version = "1.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "ace50bade8e6234aa140d9a2f552bbee1db4d353f69b8217bc503490fc1a9f26" checksum = "ace50bade8e6234aa140d9a2f552bbee1db4d353f69b8217bc503490fc1a9f26"
[[package]]
name = "az"
version = "1.2.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "7b7e4c2464d97fe331d41de9d5db0def0a96f4d823b8b32a2efd503578988973"
[[package]] [[package]]
name = "backtrace" name = "backtrace"
version = "0.3.74" version = "0.3.74"
@ -451,7 +457,7 @@ dependencies = [
"bitflags 2.6.0", "bitflags 2.6.0",
"cexpr", "cexpr",
"clang-sys", "clang-sys",
"itertools", "itertools 0.13.0",
"proc-macro2", "proc-macro2",
"quote", "quote",
"regex", "regex",
@ -834,6 +840,12 @@ version = "0.8.21"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "d0a5c400df2834b80a4c3327b3aad3a4c4cd4de0629063962b03235697506a28" checksum = "d0a5c400df2834b80a4c3327b3aad3a4c4cd4de0629063962b03235697506a28"
[[package]]
name = "crunchy"
version = "0.2.3"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "43da5946c66ffcc7745f48db692ffbb10a83bfe0afd96235c5c2a4fb23994929"
[[package]] [[package]]
name = "cursor-icon" name = "cursor-icon"
version = "1.1.0" version = "1.1.0"
@ -1166,6 +1178,19 @@ dependencies = [
"simd-adler32", "simd-adler32",
] ]
[[package]]
name = "fixed"
version = "1.28.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "85c6e0b89bf864acd20590dbdbad56f69aeb898abfc9443008fd7bd48b2cc85a"
dependencies = [
"az",
"bytemuck",
"half",
"num-traits",
"typenum",
]
[[package]] [[package]]
name = "flate2" name = "flate2"
version = "1.0.35" version = "1.0.35"
@ -1443,6 +1468,16 @@ dependencies = [
"bitflags 2.6.0", "bitflags 2.6.0",
] ]
[[package]]
name = "half"
version = "2.4.1"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "6dd08c532ae367adf81c312a4580bc67f1d0fe8bc9c460520283f4c0ff277888"
dependencies = [
"cfg-if",
"crunchy",
]
[[package]] [[package]]
name = "hashbrown" name = "hashbrown"
version = "0.15.2" version = "0.15.2"
@ -1691,6 +1726,15 @@ dependencies = [
"either", "either",
] ]
[[package]]
name = "itertools"
version = "0.14.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "2b192c782037fadd9cfa75548310488aabdbf3d2da73885b31bd0abd03351285"
dependencies = [
"either",
]
[[package]] [[package]]
name = "itoa" name = "itoa"
version = "1.0.14" version = "1.0.14"
@ -1779,10 +1823,11 @@ dependencies = [
"egui-wgpu", "egui-wgpu",
"egui-winit", "egui-winit",
"egui_extras", "egui_extras",
"fixed",
"gilrs", "gilrs",
"hex", "hex",
"image", "image",
"itertools", "itertools 0.14.0",
"num-derive", "num-derive",
"num-traits", "num-traits",
"oneshot", "oneshot",
@ -3372,6 +3417,12 @@ dependencies = [
"rustc-hash", "rustc-hash",
] ]
[[package]]
name = "typenum"
version = "1.17.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "42ff0bf0c66b8238c6f3b578df37d0b7848e55df8577b3f74f92a69acceeb825"
[[package]] [[package]]
name = "uds_windows" name = "uds_windows"
version = "1.1.0" version = "1.1.0"

5
Cargo.toml
View File

@ -21,10 +21,11 @@ egui_extras = { version = "0.30", features = ["image"] }
egui-toast = { git = "https://github.com/urholaukkarinen/egui-toast.git", rev = "d0bcf97" } egui-toast = { git = "https://github.com/urholaukkarinen/egui-toast.git", rev = "d0bcf97" }
egui-winit = "0.30" egui-winit = "0.30"
egui-wgpu = { version = "0.30", features = ["winit"] } egui-wgpu = { version = "0.30", features = ["winit"] }
fixed = { version = "1.28", features = ["num-traits"] }
gilrs = { version = "0.11", features = ["serde-serialize"] } gilrs = { version = "0.11", features = ["serde-serialize"] }
hex = "0.4" hex = "0.4"
image = { version = "0.25", default-features = false, features = ["png"] } image = { version = "0.25", default-features = false, features = ["png"] }
itertools = "0.13" itertools = "0.14"
num-derive = "0.4" num-derive = "0.4"
num-traits = "0.2" num-traits = "0.2"
oneshot = "0.1" oneshot = "0.1"
@ -35,7 +36,7 @@ rubato = "0.16"
serde = { version = "1", features = ["derive"] } serde = { version = "1", features = ["derive"] }
serde_json = "1" serde_json = "1"
thread-priority = "1" thread-priority = "1"
tokio = { version = "1", features = ["io-util", "macros", "net", "rt", "sync"] } tokio = { version = "1", features = ["io-util", "macros", "net", "rt", "sync", "time"] }
tracing = { version = "0.1", features = ["release_max_level_info"] } tracing = { version = "0.1", features = ["release_max_level_info"] }
tracing-subscriber = { version = "0.3", features = ["env-filter"] } tracing-subscriber = { version = "0.3", features = ["env-filter"] }
wgpu = "23" wgpu = "23"

88
src/app.rs
View File

@ -17,9 +17,14 @@ use winit::{
use crate::{ use crate::{
controller::ControllerManager, controller::ControllerManager,
emulator::{EmulatorClient, EmulatorCommand, SimId}, emulator::{EmulatorClient, EmulatorCommand, SimId},
images::ImageProcessor,
input::MappingProvider, input::MappingProvider,
memory::MemoryClient,
persistence::Persistence, persistence::Persistence,
window::{AboutWindow, AppWindow, GameWindow, GdbServerWindow, InputWindow}, window::{
AboutWindow, AppWindow, BgMapWindow, CharacterDataWindow, FrameBufferWindow, GameWindow,
GdbServerWindow, InputWindow, ObjectWindow, RegisterWindow, WorldWindow,
},
}; };
fn load_icon() -> anyhow::Result<IconData> { fn load_icon() -> anyhow::Result<IconData> {
@ -40,6 +45,8 @@ pub struct Application {
proxy: EventLoopProxy<UserEvent>, proxy: EventLoopProxy<UserEvent>,
mappings: MappingProvider, mappings: MappingProvider,
controllers: ControllerManager, controllers: ControllerManager,
memory: Arc<MemoryClient>,
images: ImageProcessor,
persistence: Persistence, persistence: Persistence,
viewports: HashMap<ViewportId, Viewport>, viewports: HashMap<ViewportId, Viewport>,
focused: Option<ViewportId>, focused: Option<ViewportId>,
@ -57,6 +64,8 @@ impl Application {
let persistence = Persistence::new(); let persistence = Persistence::new();
let mappings = MappingProvider::new(persistence.clone()); let mappings = MappingProvider::new(persistence.clone());
let controllers = ControllerManager::new(client.clone(), &mappings); let controllers = ControllerManager::new(client.clone(), &mappings);
let memory = Arc::new(MemoryClient::new(client.clone()));
let images = ImageProcessor::new();
{ {
let mappings = mappings.clone(); let mappings = mappings.clone();
let proxy = proxy.clone(); let proxy = proxy.clone();
@ -68,6 +77,8 @@ impl Application {
client, client,
proxy, proxy,
mappings, mappings,
memory,
images,
controllers, controllers,
persistence, persistence,
viewports: HashMap::new(), viewports: HashMap::new(),
@ -119,19 +130,23 @@ impl ApplicationHandler<UserEvent> for Application {
return; return;
}; };
let viewport_id = viewport.id(); let viewport_id = viewport.id();
match &event { let mut queue_redraw = false;
let mut inactive_viewports = HashSet::new();
let (consumed, action) = viewport.on_window_event(&event);
if !consumed {
match event {
WindowEvent::KeyboardInput { event, .. } => { WindowEvent::KeyboardInput { event, .. } => {
self.controllers.handle_key_event(event); if !viewport.app.handle_key_event(&event) {
viewport.app.handle_key_event(event); self.controllers.handle_key_event(&event);
}
} }
WindowEvent::Focused(new_focused) => { WindowEvent::Focused(new_focused) => {
self.focused = new_focused.then_some(viewport_id); self.focused = new_focused.then_some(viewport_id);
} }
_ => {} _ => {}
} }
let mut queue_redraw = false; }
let mut inactive_viewports = HashSet::new(); match action {
match viewport.on_window_event(event) {
Some(Action::Redraw) => { Some(Action::Redraw) => {
for viewport in self.viewports.values_mut() { for viewport in self.viewports.values_mut() {
match viewport.redraw(event_loop) { match viewport.redraw(event_loop) {
@ -183,20 +198,45 @@ impl ApplicationHandler<UserEvent> for Application {
fn user_event(&mut self, event_loop: &ActiveEventLoop, event: UserEvent) { fn user_event(&mut self, event_loop: &ActiveEventLoop, event: UserEvent) {
match event { match event {
UserEvent::GamepadEvent(event) => { UserEvent::GamepadEvent(event) => {
self.controllers.handle_gamepad_event(&event); if let Some(viewport) = self
let Some(viewport) = self
.focused .focused
.as_ref() .as_ref()
.and_then(|id| self.viewports.get_mut(id)) .and_then(|id| self.viewports.get_mut(id))
else { {
if viewport.app.handle_gamepad_event(&event) {
return; return;
}; }
viewport.app.handle_gamepad_event(&event); }
self.controllers.handle_gamepad_event(&event);
} }
UserEvent::OpenAbout => { UserEvent::OpenAbout => {
let about = AboutWindow; let about = AboutWindow;
self.open(event_loop, Box::new(about)); self.open(event_loop, Box::new(about));
} }
UserEvent::OpenCharacterData(sim_id) => {
let chardata = CharacterDataWindow::new(sim_id, &self.memory, &mut self.images);
self.open(event_loop, Box::new(chardata));
}
UserEvent::OpenBgMap(sim_id) => {
let bgmap = BgMapWindow::new(sim_id, &self.memory, &mut self.images);
self.open(event_loop, Box::new(bgmap));
}
UserEvent::OpenObjects(sim_id) => {
let objects = ObjectWindow::new(sim_id, &self.memory, &mut self.images);
self.open(event_loop, Box::new(objects));
}
UserEvent::OpenWorlds(sim_id) => {
let world = WorldWindow::new(sim_id, &self.memory, &mut self.images);
self.open(event_loop, Box::new(world));
}
UserEvent::OpenFrameBuffers(sim_id) => {
let world = FrameBufferWindow::new(sim_id, &self.memory, &mut self.images);
self.open(event_loop, Box::new(world));
}
UserEvent::OpenRegisters(sim_id) => {
let registers = RegisterWindow::new(sim_id, &self.memory);
self.open(event_loop, Box::new(registers));
}
UserEvent::OpenDebugger(sim_id) => { UserEvent::OpenDebugger(sim_id) => {
let debugger = let debugger =
GdbServerWindow::new(sim_id, self.client.clone(), self.proxy.clone()); GdbServerWindow::new(sim_id, self.client.clone(), self.proxy.clone());
@ -352,7 +392,7 @@ impl Viewport {
let (window, state) = create_window_and_state(&ctx, event_loop, &builder, &mut painter); let (window, state) = create_window_and_state(&ctx, event_loop, &builder, &mut painter);
egui_winit::update_viewport_info(&mut info, &ctx, &window, true); egui_winit::update_viewport_info(&mut info, &ctx, &window, true);
app.on_init(painter.render_state().as_ref().unwrap()); app.on_init(&ctx, painter.render_state().as_ref().unwrap());
Self { Self {
painter, painter,
ctx, ctx,
@ -369,8 +409,8 @@ impl Viewport {
self.app.viewport_id() self.app.viewport_id()
} }
pub fn on_window_event(&mut self, event: WindowEvent) -> Option<Action> { pub fn on_window_event(&mut self, event: &WindowEvent) -> (bool, Option<Action>) {
let response = self.state.on_window_event(&self.window, &event); let response = self.state.on_window_event(&self.window, event);
egui_winit::update_viewport_info( egui_winit::update_viewport_info(
&mut self.info, &mut self.info,
self.state.egui_ctx(), self.state.egui_ctx(),
@ -378,22 +418,22 @@ impl Viewport {
false, false,
); );
match event { let action = match event {
WindowEvent::RedrawRequested => Some(Action::Redraw), WindowEvent::RedrawRequested => Some(Action::Redraw),
WindowEvent::CloseRequested => Some(Action::Close), WindowEvent::CloseRequested => Some(Action::Close),
WindowEvent::Resized(size) => { WindowEvent::Resized(size) => {
let (Some(width), Some(height)) = if let (Some(width), Some(height)) =
(NonZero::new(size.width), NonZero::new(size.height)) (NonZero::new(size.width), NonZero::new(size.height))
else { {
return None;
};
self.painter self.painter
.on_window_resized(ViewportId::ROOT, width, height); .on_window_resized(ViewportId::ROOT, width, height);
}
None None
} }
_ if response.repaint => Some(Action::Redraw), _ if response.repaint => Some(Action::Redraw),
_ => None, _ => None,
} };
(response.consumed, action)
} }
fn redraw(&mut self, event_loop: &ActiveEventLoop) -> Option<Action> { fn redraw(&mut self, event_loop: &ActiveEventLoop) -> Option<Action> {
@ -455,6 +495,12 @@ impl Drop for Viewport {
pub enum UserEvent { pub enum UserEvent {
GamepadEvent(gilrs::Event), GamepadEvent(gilrs::Event),
OpenAbout, OpenAbout,
OpenCharacterData(SimId),
OpenBgMap(SimId),
OpenObjects(SimId),
OpenWorlds(SimId),
OpenFrameBuffers(SimId),
OpenRegisters(SimId),
OpenDebugger(SimId), OpenDebugger(SimId),
OpenInput, OpenInput,
OpenPlayer2, OpenPlayer2,

32
src/emulator.rs
View File

@ -7,7 +7,7 @@ use std::{
sync::{ sync::{
atomic::{AtomicBool, Ordering}, atomic::{AtomicBool, Ordering},
mpsc::{self, RecvError, TryRecvError}, mpsc::{self, RecvError, TryRecvError},
Arc, Arc, Weak,
}, },
}; };
@ -17,7 +17,11 @@ use bytemuck::NoUninit;
use egui_toast::{Toast, ToastKind, ToastOptions}; use egui_toast::{Toast, ToastKind, ToastOptions};
use tracing::{error, warn}; use tracing::{error, warn};
use crate::{audio::Audio, graphics::TextureSink}; use crate::{
audio::Audio,
graphics::TextureSink,
memory::{MemoryRange, MemoryRegion},
};
use shrooms_vb_core::{Sim, StopReason, EXPECTED_FRAME_SIZE}; use shrooms_vb_core::{Sim, StopReason, EXPECTED_FRAME_SIZE};
pub use shrooms_vb_core::{VBKey, VBRegister, VBWatchpointType}; pub use shrooms_vb_core::{VBKey, VBRegister, VBWatchpointType};
@ -165,8 +169,10 @@ pub struct Emulator {
renderers: HashMap<SimId, TextureSink>, renderers: HashMap<SimId, TextureSink>,
messages: HashMap<SimId, mpsc::Sender<Toast>>, messages: HashMap<SimId, mpsc::Sender<Toast>>,
debuggers: HashMap<SimId, DebugInfo>, debuggers: HashMap<SimId, DebugInfo>,
watched_regions: HashMap<MemoryRange, Weak<MemoryRegion>>,
eye_contents: Vec<u8>, eye_contents: Vec<u8>,
audio_samples: Vec<f32>, audio_samples: Vec<f32>,
buffer: Vec<u8>,
} }
impl Emulator { impl Emulator {
@ -189,8 +195,10 @@ impl Emulator {
renderers: HashMap::new(), renderers: HashMap::new(),
messages: HashMap::new(), messages: HashMap::new(),
debuggers: HashMap::new(), debuggers: HashMap::new(),
watched_regions: HashMap::new(),
eye_contents: vec![0u8; 384 * 224 * 2], eye_contents: vec![0u8; 384 * 224 * 2],
audio_samples: Vec::with_capacity(EXPECTED_FRAME_SIZE), audio_samples: Vec::with_capacity(EXPECTED_FRAME_SIZE),
buffer: vec![],
}) })
} }
@ -367,6 +375,10 @@ impl Emulator {
} }
} }
fn watch_memory(&mut self, range: MemoryRange, region: Weak<MemoryRegion>) {
self.watched_regions.insert(range, region);
}
pub fn run(&mut self) { pub fn run(&mut self) {
loop { loop {
let idle = self.tick(); let idle = self.tick();
@ -391,6 +403,18 @@ impl Emulator {
} }
} }
} }
self.watched_regions.retain(|range, region| {
let Some(region) = region.upgrade() else {
return false;
};
let Some(sim) = self.sims.get_mut(range.sim.to_index()) else {
return false;
};
self.buffer.clear();
sim.read_memory(range.start, range.length, &mut self.buffer);
region.update(&self.buffer);
true
});
} }
} }
@ -557,6 +581,9 @@ impl Emulator {
sim.write_memory(start, &buffer); sim.write_memory(start, &buffer);
let _ = done.send(buffer); let _ = done.send(buffer);
} }
EmulatorCommand::WatchMemory(range, region) => {
self.watch_memory(range, region);
}
EmulatorCommand::AddBreakpoint(sim_id, address) => { EmulatorCommand::AddBreakpoint(sim_id, address) => {
let Some(sim) = self.sims.get_mut(sim_id.to_index()) else { let Some(sim) = self.sims.get_mut(sim_id.to_index()) else {
return; return;
@ -647,6 +674,7 @@ pub enum EmulatorCommand {
WriteRegister(SimId, VBRegister, u32), WriteRegister(SimId, VBRegister, u32),
ReadMemory(SimId, u32, usize, Vec<u8>, oneshot::Sender<Vec<u8>>), ReadMemory(SimId, u32, usize, Vec<u8>, oneshot::Sender<Vec<u8>>),
WriteMemory(SimId, u32, Vec<u8>, oneshot::Sender<Vec<u8>>), WriteMemory(SimId, u32, Vec<u8>, oneshot::Sender<Vec<u8>>),
WatchMemory(MemoryRange, Weak<MemoryRegion>),
AddBreakpoint(SimId, u32), AddBreakpoint(SimId, u32),
RemoveBreakpoint(SimId, u32), RemoveBreakpoint(SimId, u32),
AddWatchpoint(SimId, u32, usize, VBWatchpointType), AddWatchpoint(SimId, u32, usize, VBWatchpointType),

4
src/graphics.rs
View File

@ -64,9 +64,7 @@ impl TextureSink {
sample_count: 1, sample_count: 1,
dimension: wgpu::TextureDimension::D2, dimension: wgpu::TextureDimension::D2,
format: TextureFormat::Rg8Unorm, format: TextureFormat::Rg8Unorm,
usage: TextureUsages::COPY_SRC usage: TextureUsages::COPY_DST | TextureUsages::TEXTURE_BINDING,
| TextureUsages::COPY_DST
| TextureUsages::TEXTURE_BINDING,
view_formats: &[TextureFormat::Rg8Unorm], view_formats: &[TextureFormat::Rg8Unorm],
}; };
device.create_texture(&desc) device.create_texture(&desc)

328
src/images.rs Normal file
View File

@ -0,0 +1,328 @@
use std::{
collections::HashMap,
ops::Deref,
sync::{Arc, Mutex, Weak},
thread,
time::Duration,
};
use egui::{
epaint::ImageDelta,
load::{LoadError, SizedTexture, TextureLoader, TexturePoll},
Color32, ColorImage, TextureHandle, TextureOptions,
};
use tokio::{sync::mpsc, time::timeout};
pub struct ImageProcessor {
sender: mpsc::UnboundedSender<Box<dyn ImageRendererImpl>>,
}
impl ImageProcessor {
pub fn new() -> Self {
let (sender, receiver) = mpsc::unbounded_channel();
thread::spawn(move || {
tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap()
.block_on(async move {
let mut worker = ImageProcessorWorker {
receiver,
renderers: vec![],
};
worker.run().await
})
});
Self { sender }
}
pub fn add<const N: usize, R: ImageRenderer<N> + 'static>(
&self,
renderer: R,
params: R::Params,
) -> ([ImageHandle; N], ImageParams<R::Params>) {
let states = renderer.sizes().map(ImageState::new);
let handles = states.clone().map(|state| ImageHandle {
size: state.size.map(|i| i as f32),
data: state.sink,
});
let images = renderer
.sizes()
.map(|[width, height]| ImageBuffer::new(width, height));
let sink = Arc::new(Mutex::new(params.clone()));
let _ = self.sender.send(Box::new(ImageRendererWrapper {
renderer,
params: Arc::downgrade(&sink),
images,
states,
}));
let params = ImageParams {
value: params,
sink,
};
(handles, params)
}
}
struct ImageProcessorWorker {
receiver: mpsc::UnboundedReceiver<Box<dyn ImageRendererImpl>>,
renderers: Vec<Box<dyn ImageRendererImpl>>,
}
impl ImageProcessorWorker {
async fn run(&mut self) {
loop {
if self.renderers.is_empty() {
// if we have nothing to do, block until we have something to do
if self.receiver.recv_many(&mut self.renderers, 64).await == 0 {
// shutdown
return;
}
while let Ok(renderer) = self.receiver.try_recv() {
self.renderers.push(renderer);
}
}
self.renderers
.retain_mut(|renderer| renderer.try_update().is_ok());
// wait up to 10 ms for more renderers
if timeout(
Duration::from_millis(10),
self.receiver.recv_many(&mut self.renderers, 64),
)
.await
.is_ok()
{
while let Ok(renderer) = self.receiver.try_recv() {
self.renderers.push(renderer);
}
}
}
}
}
pub struct ImageBuffer {
pub size: [usize; 2],
pub pixels: Vec<Color32>,
}
impl ImageBuffer {
pub fn new(width: usize, height: usize) -> Self {
Self {
size: [width, height],
pixels: vec![Color32::BLACK; width * height],
}
}
pub fn clear(&mut self) {
for pixel in self.pixels.iter_mut() {
*pixel = Color32::BLACK;
}
}
pub fn write(&mut self, coords: (usize, usize), pixel: Color32) {
self.pixels[coords.1 * self.size[0] + coords.0] = pixel;
}
pub fn add(&mut self, coords: (usize, usize), pixel: Color32) {
let index = coords.1 * self.size[0] + coords.0;
let old = self.pixels[index];
self.pixels[index] = Color32::from_rgb(
old.r() + pixel.r(),
old.g() + pixel.g(),
old.b() + pixel.b(),
);
}
pub fn changed(&self, image: &ColorImage) -> bool {
image.pixels.iter().zip(&self.pixels).any(|(a, b)| a != b)
}
pub fn read(&self, image: &mut ColorImage) {
image.pixels.copy_from_slice(&self.pixels);
}
}
#[derive(Clone)]
pub struct ImageHandle {
size: [f32; 2],
data: Arc<Mutex<Option<Arc<ColorImage>>>>,
}
impl ImageHandle {
fn pull(&mut self) -> Option<Arc<ColorImage>> {
self.data.lock().unwrap().take()
}
}
pub struct ImageParams<T> {
value: T,
sink: Arc<Mutex<T>>,
}
impl<T> Deref for ImageParams<T> {
type Target = T;
fn deref(&self) -> &Self::Target {
&self.value
}
}
impl<T: Clone + Eq> ImageParams<T> {
pub fn write(&mut self, value: T) {
if self.value != value {
self.value = value.clone();
*self.sink.lock().unwrap() = value;
}
}
}
pub trait ImageRenderer<const N: usize>: Send {
type Params: Clone + Send;
fn sizes(&self) -> [[usize; 2]; N];
fn render(&mut self, params: &Self::Params, images: &mut [ImageBuffer; N]);
}
#[derive(Clone)]
struct ImageState {
size: [usize; 2],
buffers: [Arc<ColorImage>; 2],
last_buffer: usize,
sink: Arc<Mutex<Option<Arc<ColorImage>>>>,
}
impl ImageState {
fn new(size: [usize; 2]) -> Self {
let buffers = [
Arc::new(ColorImage::new(size, Color32::BLACK)),
Arc::new(ColorImage::new(size, Color32::BLACK)),
];
let sink = buffers[0].clone();
Self {
size,
buffers,
last_buffer: 0,
sink: Arc::new(Mutex::new(Some(sink))),
}
}
fn try_send_update(&mut self, image: &ImageBuffer) {
let last = &self.buffers[self.last_buffer];
if !image.changed(last) {
return;
}
let next_buffer = (self.last_buffer + 1) % self.buffers.len();
let next = &mut self.buffers[next_buffer];
image.read(Arc::make_mut(next));
self.last_buffer = next_buffer;
self.sink.lock().unwrap().replace(next.clone());
}
}
struct ImageRendererWrapper<const N: usize, R: ImageRenderer<N>> {
renderer: R,
params: Weak<Mutex<R::Params>>,
images: [ImageBuffer; N],
states: [ImageState; N],
}
trait ImageRendererImpl: Send {
fn try_update(&mut self) -> Result<(), ()>;
}
impl<const N: usize, R: ImageRenderer<N> + Send> ImageRendererImpl for ImageRendererWrapper<N, R> {
fn try_update(&mut self) -> Result<(), ()> {
let params = match self.params.upgrade() {
Some(params) => params.lock().unwrap().clone(),
None => {
// the UI isn't using this anymore
return Err(());
}
};
self.renderer.render(&params, &mut self.images);
for (state, image) in self.states.iter_mut().zip(&self.images) {
state.try_send_update(image);
}
Ok(())
}
}
pub struct ImageTextureLoader {
cache: Mutex<HashMap<String, (ImageHandle, Option<TextureHandle>)>>,
}
impl ImageTextureLoader {
pub fn new(renderers: impl IntoIterator<Item = (String, ImageHandle)>) -> Self {
let mut cache = HashMap::new();
for (key, image) in renderers {
cache.insert(key, (image, None));
}
Self {
cache: Mutex::new(cache),
}
}
}
impl TextureLoader for ImageTextureLoader {
fn id(&self) -> &str {
concat!(module_path!(), "ImageTextureLoader")
}
fn load(
&self,
ctx: &egui::Context,
uri: &str,
texture_options: TextureOptions,
_size_hint: egui::SizeHint,
) -> Result<TexturePoll, LoadError> {
let mut cache = self.cache.lock().unwrap();
let Some((image, maybe_handle)) = cache.get_mut(uri) else {
return Err(LoadError::NotSupported);
};
if texture_options != TextureOptions::NEAREST {
return Err(LoadError::Loading(
"Only TextureOptions::NEAREST are supported".into(),
));
}
match (image.pull(), maybe_handle.as_ref()) {
(Some(update), Some(handle)) => {
let delta = ImageDelta::full(update, texture_options);
ctx.tex_manager().write().set(handle.id(), delta);
let texture = SizedTexture::new(handle, image.size);
Ok(TexturePoll::Ready { texture })
}
(Some(update), None) => {
let handle = ctx.load_texture(uri, update, texture_options);
let texture = SizedTexture::new(&handle, image.size);
maybe_handle.replace(handle);
Ok(TexturePoll::Ready { texture })
}
(None, Some(handle)) => {
let texture = SizedTexture::new(handle, image.size);
Ok(TexturePoll::Ready { texture })
}
(None, None) => {
let size = image.size.into();
Ok(TexturePoll::Pending { size: Some(size) })
}
}
}
fn forget(&self, uri: &str) {
let _ = uri;
}
fn forget_all(&self) {}
fn byte_size(&self) -> usize {
self.cache
.lock()
.unwrap()
.values()
.map(|(image, _)| {
let [width, height] = image.size;
width as usize * height as usize * 4
})
.sum()
}
}

2
src/main.rs
View File

@ -18,7 +18,9 @@ mod controller;
mod emulator; mod emulator;
mod gdbserver; mod gdbserver;
mod graphics; mod graphics;
mod images;
mod input; mod input;
mod memory;
mod persistence; mod persistence;
mod window; mod window;

276
src/memory.rs Normal file
View File

@ -0,0 +1,276 @@
use std::{
collections::HashMap,
fmt::Debug,
iter::FusedIterator,
sync::{atomic::AtomicU64, Arc, Mutex, RwLock, RwLockReadGuard, TryLockError, Weak},
};
use bytemuck::BoxBytes;
use itertools::Itertools;
use tracing::warn;
use crate::emulator::{EmulatorClient, EmulatorCommand, SimId};
pub struct MemoryClient {
client: EmulatorClient,
regions: Mutex<HashMap<MemoryRange, Weak<MemoryRegion>>>,
}
impl MemoryClient {
pub fn new(client: EmulatorClient) -> Self {
Self {
client,
regions: Mutex::new(HashMap::new()),
}
}
pub fn watch(&self, sim: SimId, start: u32, length: usize) -> MemoryView {
let range = MemoryRange { sim, start, length };
let mut regions = self.regions.lock().unwrap_or_else(|e| e.into_inner());
let region = regions
.get(&range)
.and_then(|r| r.upgrade())
.unwrap_or_else(|| {
let region = Arc::new(MemoryRegion::new(start, length));
regions.insert(range, Arc::downgrade(&region));
self.client
.send_command(EmulatorCommand::WatchMemory(range, Arc::downgrade(&region)));
region
});
MemoryView { region }
}
pub fn write<T: MemoryValue>(&self, sim: SimId, address: u32, data: &T) {
let mut buffer = vec![];
data.to_bytes(&mut buffer);
let (tx, _) = oneshot::channel();
self.client
.send_command(EmulatorCommand::WriteMemory(sim, address, buffer, tx));
}
}
fn aligned_memory(start: u32, length: usize) -> BoxBytes {
if start % 4 == 0 && length % 4 == 0 {
let memory = vec![0u32; length / 4].into_boxed_slice();
return bytemuck::box_bytes_of(memory);
}
if start % 2 == 0 && length % 2 == 0 {
let memory = vec![0u16; length / 2].into_boxed_slice();
return bytemuck::box_bytes_of(memory);
}
let memory = vec![0u8; length].into_boxed_slice();
bytemuck::box_bytes_of(memory)
}
pub struct MemoryView {
region: Arc<MemoryRegion>,
}
impl MemoryView {
pub fn borrow(&self) -> MemoryRef<'_> {
self.region.borrow()
}
}
pub struct MemoryRef<'a> {
inner: RwLockReadGuard<'a, BoxBytes>,
}
pub trait MemoryValue {
fn from_bytes(bytes: &[u8]) -> Self;
fn to_bytes(&self, buffer: &mut Vec<u8>);
}
macro_rules! primitive_memory_value_impl {
($T:ty, $L: expr) => {
impl MemoryValue for $T {
#[inline]
fn from_bytes(bytes: &[u8]) -> Self {
let bytes: [u8; std::mem::size_of::<$T>()] = std::array::from_fn(|i| bytes[i]);
<$T>::from_le_bytes(bytes)
}
#[inline]
fn to_bytes(&self, buffer: &mut Vec<u8>) {
buffer.extend_from_slice(&self.to_le_bytes())
}
}
};
}
primitive_memory_value_impl!(u8, 1);
primitive_memory_value_impl!(i8, 1);
primitive_memory_value_impl!(u16, 2);
primitive_memory_value_impl!(i16, 2);
primitive_memory_value_impl!(u32, 4);
primitive_memory_value_impl!(i32, 4);
impl<const N: usize, T: MemoryValue> MemoryValue for [T; N] {
#[inline]
fn from_bytes(bytes: &[u8]) -> Self {
std::array::from_fn(|i| {
T::from_bytes(&bytes[i * std::mem::size_of::<T>()..(i + 1) * std::mem::size_of::<T>()])
})
}
#[inline]
fn to_bytes(&self, buffer: &mut Vec<u8>) {
for item in self {
item.to_bytes(buffer);
}
}
}
pub struct MemoryIter<'a, T> {
bytes: &'a [u8],
_phantom: std::marker::PhantomData<T>,
}
impl<'a, T> MemoryIter<'a, T> {
fn new(bytes: &'a [u8]) -> Self {
Self {
bytes,
_phantom: std::marker::PhantomData,
}
}
}
impl<T: MemoryValue> Iterator for MemoryIter<'_, T> {
type Item = T;
#[inline]
fn next(&mut self) -> Option<Self::Item> {
let (bytes, rest) = self.bytes.split_at_checked(std::mem::size_of::<T>())?;
self.bytes = rest;
Some(T::from_bytes(bytes))
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let size = self.bytes.len() / std::mem::size_of::<T>();
(size, Some(size))
}
}
impl<T: MemoryValue> DoubleEndedIterator for MemoryIter<'_, T> {
fn next_back(&mut self) -> Option<Self::Item> {
let mid = self.bytes.len().checked_sub(std::mem::size_of::<T>())?;
// SAFETY: the checked_sub above is effectively a bounds check
let (rest, bytes) = unsafe { self.bytes.split_at_unchecked(mid) };
self.bytes = rest;
Some(T::from_bytes(bytes))
}
}
impl<T: MemoryValue> FusedIterator for MemoryIter<'_, T> {}
impl MemoryRef<'_> {
pub fn read<T: MemoryValue>(&self, index: usize) -> T {
let from = index * size_of::<T>();
let to = from + size_of::<T>();
T::from_bytes(&self.inner[from..to])
}
pub fn range<T: MemoryValue>(&self, start: usize, count: usize) -> MemoryIter<T> {
let from = start * size_of::<T>();
let to = from + (count * size_of::<T>());
MemoryIter::new(&self.inner[from..to])
}
}
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
pub struct MemoryRange {
pub sim: SimId,
pub start: u32,
pub length: usize,
}
const BUFFERS: usize = 4;
pub struct MemoryRegion {
gens: [AtomicU64; BUFFERS],
bufs: [RwLock<BoxBytes>; BUFFERS],
}
impl Debug for MemoryRegion {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("MemoryRegion")
.field("gens", &self.gens)
.finish_non_exhaustive()
}
}
// SAFETY: BoxBytes is meant to be Send+Sync, will be in a future version
unsafe impl Send for MemoryRegion {}
// SAFETY: BoxBytes is meant to be Send+Sync, will be in a future version
unsafe impl Sync for MemoryRegion {}
impl MemoryRegion {
fn new(start: u32, length: usize) -> Self {
Self {
gens: std::array::from_fn(|i| AtomicU64::new(i as u64)),
bufs: std::array::from_fn(|_| RwLock::new(aligned_memory(start, length))),
}
}
pub fn borrow(&self) -> MemoryRef<'_> {
/*
* When reading memory, a thread will grab the newest buffer (with the highest gen)
* It will only fail to grab the lock if the writer already has it,
* but the writer prioritizes older buffers (with lower gens).
* So this method will only block if the writer produces three full buffers
* in the time it takes the reader to do four atomic reads and grab a lock.
* In the unlikely event this happens... just try again.
*/
loop {
let newest_index = self
.gens
.iter()
.map(|i| i.load(std::sync::atomic::Ordering::Acquire))
.enumerate()
.max_by_key(|(_, gen)| *gen)
.map(|(i, _)| i)
.unwrap();
let inner = match self.bufs[newest_index].try_read() {
Ok(inner) => inner,
Err(TryLockError::Poisoned(e)) => e.into_inner(),
Err(TryLockError::WouldBlock) => {
continue;
}
};
break MemoryRef { inner };
}
}
pub fn update(&self, data: &[u8]) {
let gens = self
.gens
.each_ref()
.map(|i| i.load(std::sync::atomic::Ordering::Acquire));
let next_gen = gens.iter().max().unwrap() + 1;
let indices = gens
.into_iter()
.enumerate()
.sorted_by_key(|(_, val)| *val)
.map(|(i, _)| i);
for index in indices {
let mut lock = match self.bufs[index].try_write() {
Ok(inner) => inner,
Err(TryLockError::Poisoned(e)) => e.into_inner(),
Err(TryLockError::WouldBlock) => {
continue;
}
};
lock.copy_from_slice(data);
self.gens[index].store(next_gen, std::sync::atomic::Ordering::Release);
return;
}
/*
* We have four buffers, and (at time of writing) only three threads interacting with memory:
* - The UI thread, reading small regions of memory
* - The "image renderer" thread, reading large regions of memory
* - The emulation thread, writing memory every so often
* So it should be impossible for all four buffers to have a read lock at the same time,
* and (because readers always read the newest buffer) at least one of the oldest three
* buffers will be free the entire time we're in this method.
* TL;DR this should never happen.
* But if it does, do nothing. This isn't medical software, better to show stale data than crash.
*/
warn!("all buffers were locked by a reader at the same time")
}
}

14
src/window.rs
View File

@ -3,6 +3,9 @@ use egui::{Context, ViewportBuilder, ViewportId};
pub use game::GameWindow; pub use game::GameWindow;
pub use gdb::GdbServerWindow; pub use gdb::GdbServerWindow;
pub use input::InputWindow; pub use input::InputWindow;
pub use vip::{
BgMapWindow, CharacterDataWindow, FrameBufferWindow, ObjectWindow, RegisterWindow, WorldWindow,
};
use winit::event::KeyEvent; use winit::event::KeyEvent;
use crate::emulator::SimId; use crate::emulator::SimId;
@ -12,6 +15,8 @@ mod game;
mod game_screen; mod game_screen;
mod gdb; mod gdb;
mod input; mod input;
mod utils;
mod vip;
pub trait AppWindow { pub trait AppWindow {
fn viewport_id(&self) -> ViewportId; fn viewport_id(&self) -> ViewportId;
@ -20,14 +25,17 @@ pub trait AppWindow {
} }
fn initial_viewport(&self) -> ViewportBuilder; fn initial_viewport(&self) -> ViewportBuilder;
fn show(&mut self, ctx: &Context); fn show(&mut self, ctx: &Context);
fn on_init(&mut self, render_state: &egui_wgpu::RenderState) { fn on_init(&mut self, ctx: &Context, render_state: &egui_wgpu::RenderState) {
let _ = ctx;
let _ = render_state; let _ = render_state;
} }
fn on_destroy(&mut self) {} fn on_destroy(&mut self) {}
fn handle_key_event(&mut self, event: &KeyEvent) { fn handle_key_event(&mut self, event: &KeyEvent) -> bool {
let _ = event; let _ = event;
false
} }
fn handle_gamepad_event(&mut self, event: &gilrs::Event) { fn handle_gamepad_event(&mut self, event: &gilrs::Event) -> bool {
let _ = event; let _ = event;
false
} }
} }

112
src/window/game.rs
View File

@ -6,9 +6,8 @@ use crate::{
persistence::Persistence, persistence::Persistence,
}; };
use egui::{ use egui::{
ecolor::HexColor, menu, Align2, Button, CentralPanel, Color32, Context, Direction, Frame, menu, Align2, Button, CentralPanel, Color32, Context, Direction, Frame, TopBottomPanel, Ui,
Layout, Response, Sense, TopBottomPanel, Ui, Vec2, ViewportBuilder, ViewportCommand, Vec2, ViewportBuilder, ViewportCommand, ViewportId, Window,
ViewportId, WidgetText, Window,
}; };
use egui_toast::{Toast, Toasts}; use egui_toast::{Toast, Toasts};
use serde::{Deserialize, Serialize}; use serde::{Deserialize, Serialize};
@ -16,6 +15,7 @@ use winit::event_loop::EventLoopProxy;
use super::{ use super::{
game_screen::{DisplayMode, GameScreen}, game_screen::{DisplayMode, GameScreen},
utils::UiExt as _,
AppWindow, AppWindow,
}; };
@ -132,10 +132,49 @@ impl GameWindow {
.unwrap(); .unwrap();
ui.close_menu(); ui.close_menu();
} }
ui.separator();
if ui.button("Character Data").clicked() {
self.proxy
.send_event(UserEvent::OpenCharacterData(self.sim_id))
.unwrap();
ui.close_menu();
}
if ui.button("Background Maps").clicked() {
self.proxy
.send_event(UserEvent::OpenBgMap(self.sim_id))
.unwrap();
ui.close_menu();
}
if ui.button("Objects").clicked() {
self.proxy
.send_event(UserEvent::OpenObjects(self.sim_id))
.unwrap();
ui.close_menu();
}
if ui.button("Worlds").clicked() {
self.proxy
.send_event(UserEvent::OpenWorlds(self.sim_id))
.unwrap();
ui.close_menu();
}
if ui.button("Frame Buffers").clicked() {
self.proxy
.send_event(UserEvent::OpenFrameBuffers(self.sim_id))
.unwrap();
ui.close_menu();
}
if ui.button("Registers").clicked() {
self.proxy
.send_event(UserEvent::OpenRegisters(self.sim_id))
.unwrap();
ui.close_menu();
}
}); });
ui.menu_button("About", |ui| { ui.menu_button("Help", |ui| {
if ui.button("About").clicked() {
self.proxy.send_event(UserEvent::OpenAbout).unwrap(); self.proxy.send_event(UserEvent::OpenAbout).unwrap();
ui.close_menu(); ui.close_menu();
}
}); });
} }
@ -365,7 +404,7 @@ impl AppWindow for GameWindow {
toasts.show(ctx); toasts.show(ctx);
} }
fn on_init(&mut self, render_state: &egui_wgpu::RenderState) { fn on_init(&mut self, _ctx: &Context, render_state: &egui_wgpu::RenderState) {
let (screen, sink) = GameScreen::init(render_state); let (screen, sink) = GameScreen::init(render_state);
let (message_sink, message_source) = mpsc::channel(); let (message_sink, message_source) = mpsc::channel();
self.client.send_command(EmulatorCommand::ConnectToSim( self.client.send_command(EmulatorCommand::ConnectToSim(
@ -385,69 +424,6 @@ impl AppWindow for GameWindow {
} }
} }
trait UiExt {
fn selectable_button(&mut self, selected: bool, text: impl Into<WidgetText>) -> Response;
fn selectable_option<T: Eq>(
&mut self,
current_value: &mut T,
selected_value: T,
text: impl Into<WidgetText>,
) -> Response {
let response = self.selectable_button(*current_value == selected_value, text);
if response.clicked() {
*current_value = selected_value;
}
response
}
fn color_pair_button(&mut self, left: Color32, right: Color32) -> Response;
fn color_picker(&mut self, color: &mut Color32, hex: &mut String) -> Response;
}
impl UiExt for Ui {
fn selectable_button(&mut self, selected: bool, text: impl Into<WidgetText>) -> Response {
self.style_mut().visuals.widgets.inactive.bg_fill = Color32::TRANSPARENT;
self.style_mut().visuals.widgets.hovered.bg_fill = Color32::TRANSPARENT;
self.style_mut().visuals.widgets.active.bg_fill = Color32::TRANSPARENT;
let mut selected = selected;
self.checkbox(&mut selected, text)
}
fn color_pair_button(&mut self, left: Color32, right: Color32) -> Response {
let button_size = Vec2::new(60.0, 20.0);
let (rect, response) = self.allocate_at_least(button_size, Sense::click());
let center_x = rect.center().x;
let left_rect = rect.with_max_x(center_x);
self.painter().rect_filled(left_rect, 0.0, left);
let right_rect = rect.with_min_x(center_x);
self.painter().rect_filled(right_rect, 0.0, right);
let style = self.style().interact(&response);
self.painter().rect_stroke(rect, 0.0, style.fg_stroke);
response
}
fn color_picker(&mut self, color: &mut Color32, hex: &mut String) -> Response {
self.allocate_ui_with_layout(
Vec2::new(100.0, 130.0),
Layout::top_down_justified(egui::Align::Center),
|ui| {
let (rect, _) = ui.allocate_at_least(Vec2::new(100.0, 100.0), Sense::hover());
ui.painter().rect_filled(rect, 0.0, *color);
let resp = ui.text_edit_singleline(hex);
if resp.changed() {
if let Ok(new_color) = HexColor::from_str_without_hash(hex) {
*color = new_color.color();
}
}
resp
},
)
.inner
}
}
struct ColorPickerState { struct ColorPickerState {
color_codes: [String; 2], color_codes: [String; 2],
just_opened: bool, just_opened: bool,

29
src/window/input.rs
View File

@ -198,58 +198,63 @@ impl AppWindow for InputWindow {
}); });
} }
fn handle_key_event(&mut self, event: &winit::event::KeyEvent) { fn handle_key_event(&mut self, event: &winit::event::KeyEvent) -> bool {
if !event.state.is_pressed() { if !event.state.is_pressed() {
return; return false;
} }
let sim_id = match self.active_tab { let sim_id = match self.active_tab {
InputTab::Player1 => SimId::Player1, InputTab::Player1 => SimId::Player1,
InputTab::Player2 => SimId::Player2, InputTab::Player2 => SimId::Player2,
_ => { _ => {
return; return false;
} }
}; };
let Some(vb) = self.now_binding.take() else { let Some(vb) = self.now_binding.take() else {
return; return false;
}; };
let mut mappings = self.mappings.for_sim(sim_id).write().unwrap(); let mut mappings = self.mappings.for_sim(sim_id).write().unwrap();
mappings.add_keyboard_mapping(vb, event.physical_key); mappings.add_keyboard_mapping(vb, event.physical_key);
drop(mappings); drop(mappings);
self.mappings.save(); self.mappings.save();
true
} }
fn handle_gamepad_event(&mut self, event: &gilrs::Event) { fn handle_gamepad_event(&mut self, event: &gilrs::Event) -> bool {
let InputTab::RebindGamepad(gamepad_id) = self.active_tab else { let InputTab::RebindGamepad(gamepad_id) = self.active_tab else {
return; return false;
}; };
if gamepad_id != event.id { if gamepad_id != event.id {
return; return false;
} }
let Some(mappings) = self.mappings.for_gamepad(gamepad_id) else { let Some(mappings) = self.mappings.for_gamepad(gamepad_id) else {
return; return false;
}; };
let Some(vb) = self.now_binding else { let Some(vb) = self.now_binding else {
return; return false;
}; };
match event.event { match event.event {
EventType::ButtonPressed(_, code) => { EventType::ButtonPressed(_, code) => {
let mut mapping = mappings.write().unwrap(); let mut mapping = mappings.write().unwrap();
mapping.add_button_mapping(vb, code); mapping.add_button_mapping(vb, code);
self.now_binding.take(); self.now_binding.take();
true
} }
EventType::AxisChanged(_, value, code) => { EventType::AxisChanged(_, value, code) => {
if value < -0.75 { if value < -0.75 {
let mut mapping = mappings.write().unwrap(); let mut mapping = mappings.write().unwrap();
mapping.add_axis_neg_mapping(vb, code); mapping.add_axis_neg_mapping(vb, code);
self.now_binding.take(); self.now_binding.take();
} true
if value > 0.75 { } else if value > 0.75 {
let mut mapping = mappings.write().unwrap(); let mut mapping = mappings.write().unwrap();
mapping.add_axis_pos_mapping(vb, code); mapping.add_axis_pos_mapping(vb, code);
self.now_binding.take(); self.now_binding.take();
true
} else {
false
} }
} }
_ => {} _ => false,
} }
} }
} }

417
src/window/utils.rs Normal file
View File

@ -0,0 +1,417 @@
use std::{
fmt::{Display, UpperHex},
ops::{Bound, RangeBounds},
str::FromStr,
};
use atoi::FromRadix16;
use egui::{
ecolor::HexColor, Align, Color32, CursorIcon, Event, Frame, Key, Layout, Margin, Rect,
Response, RichText, Rounding, Sense, Shape, Stroke, TextEdit, Ui, UiBuilder, Vec2, Widget,
WidgetText,
};
use num_traits::{CheckedAdd, CheckedSub, One};
pub trait UiExt {
fn section(&mut self, title: impl Into<String>, add_contents: impl FnOnce(&mut Ui));
fn selectable_button(&mut self, selected: bool, text: impl Into<WidgetText>) -> Response;
fn selectable_option<T: Eq>(
&mut self,
current_value: &mut T,
selected_value: T,
text: impl Into<WidgetText>,
) -> Response {
let response = self.selectable_button(*current_value == selected_value, text);
if response.clicked() {
*current_value = selected_value;
}
response
}
fn color_pair_button(&mut self, left: Color32, right: Color32) -> Response;
fn color_picker(&mut self, color: &mut Color32, hex: &mut String) -> Response;
}
impl UiExt for Ui {
fn section(&mut self, title: impl Into<String>, add_contents: impl FnOnce(&mut Ui)) {
let title: String = title.into();
let mut frame = Frame::group(self.style());
frame.outer_margin.top += 10.0;
frame.inner_margin.top += 2.0;
let res = self.push_id(&title, |ui| {
frame.show(ui, |ui| {
ui.set_max_width(ui.available_width());
add_contents(ui);
})
});
let text = RichText::new(title).background_color(self.style().visuals.panel_fill);
let old_rect = res.response.rect;
let mut text_rect = old_rect;
text_rect.min.x += 6.0;
self.allocate_new_ui(UiBuilder::new().max_rect(text_rect), |ui| ui.label(text));
if old_rect.width() > 0.0 {
self.advance_cursor_after_rect(old_rect);
}
}
fn selectable_button(&mut self, selected: bool, text: impl Into<WidgetText>) -> Response {
self.style_mut().visuals.widgets.inactive.bg_fill = Color32::TRANSPARENT;
self.style_mut().visuals.widgets.hovered.bg_fill = Color32::TRANSPARENT;
self.style_mut().visuals.widgets.active.bg_fill = Color32::TRANSPARENT;
let mut selected = selected;
self.checkbox(&mut selected, text)
}
fn color_pair_button(&mut self, left: Color32, right: Color32) -> Response {
let button_size = Vec2::new(60.0, 20.0);
let (rect, response) = self.allocate_at_least(button_size, Sense::click());
let center_x = rect.center().x;
let left_rect = rect.with_max_x(center_x);
self.painter().rect_filled(left_rect, 0.0, left);
let right_rect = rect.with_min_x(center_x);
self.painter().rect_filled(right_rect, 0.0, right);
let style = self.style().interact(&response);
self.painter().rect_stroke(rect, 0.0, style.fg_stroke);
response
}
fn color_picker(&mut self, color: &mut Color32, hex: &mut String) -> Response {
self.allocate_ui_with_layout(
Vec2::new(100.0, 130.0),
Layout::top_down_justified(egui::Align::Center),
|ui| {
let (rect, _) = ui.allocate_at_least(Vec2::new(100.0, 100.0), Sense::hover());
ui.painter().rect_filled(rect, 0.0, *color);
let resp = ui.text_edit_singleline(hex);
if resp.changed() {
if let Ok(new_color) = HexColor::from_str_without_hash(hex) {
*color = new_color.color();
}
}
resp
},
)
.inner
}
}
enum Direction {
Up,
Down,
}
pub trait Number:
Copy
+ One
+ CheckedAdd
+ CheckedSub
+ Eq
+ Ord
+ Display
+ FromStr
+ FromRadix16
+ UpperHex
+ Send
+ Sync
+ 'static
{
}
impl<
T: Copy
+ One
+ CheckedAdd
+ CheckedSub
+ Eq
+ Ord
+ Display
+ FromStr
+ FromRadix16
+ UpperHex
+ Send
+ Sync
+ 'static,
> Number for T
{
}
pub struct NumberEdit<'a, T: Number> {
value: &'a mut T,
increment: T,
precision: usize,
min: Option<T>,
max: Option<T>,
desired_width: Option<f32>,
arrows: bool,
hex: bool,
}
impl<'a, T: Number> NumberEdit<'a, T> {
pub fn new(value: &'a mut T) -> Self {
Self {
value,
increment: T::one(),
precision: 3,
min: None,
max: None,
desired_width: None,
arrows: true,
hex: false,
}
}
pub fn precision(self, precision: usize) -> Self {
Self { precision, ..self }
}
pub fn range(self, range: impl RangeBounds<T>) -> Self {
let min = match range.start_bound() {
Bound::Unbounded => None,
Bound::Included(t) => Some(*t),
Bound::Excluded(t) => t.checked_add(&self.increment),
};
let max = match range.end_bound() {
Bound::Unbounded => None,
Bound::Included(t) => Some(*t),
Bound::Excluded(t) => t.checked_sub(&self.increment),
};
Self { min, max, ..self }
}
pub fn desired_width(self, desired_width: f32) -> Self {
Self {
desired_width: Some(desired_width),
..self
}
}
pub fn arrows(self, arrows: bool) -> Self {
Self { arrows, ..self }
}
pub fn hex(self, hex: bool) -> Self {
Self { hex, ..self }
}
}
impl<T: Number> Widget for NumberEdit<'_, T> {
fn ui(self, ui: &mut Ui) -> Response {
let id = ui.id();
let to_string = |val: &T| {
if self.hex {
format!("{val:.0$X}", self.precision)
} else {
format!("{val:.0$}", self.precision)
}
};
let from_string = |val: &str| {
if self.hex {
let bytes = val.as_bytes();
let (result, consumed) = T::from_radix_16(bytes);
(consumed == bytes.len()).then_some(result)
} else {
val.parse::<T>().ok()
}
};
let (last_value, mut str, focus) = ui.memory(|m| {
let (lv, s) = m
.data
.get_temp(id)
.unwrap_or((*self.value, to_string(self.value)));
let focus = m.has_focus(id);
(lv, s, focus)
});
let mut stale = false;
if *self.value != last_value {
str = to_string(self.value);
stale = true;
}
let valid = from_string(&str).is_some_and(|v: T| v == *self.value);
let mut up_pressed = false;
let mut down_pressed = false;
if focus {
ui.input_mut(|i| {
i.events.retain(|e| match e {
Event::Key {
key: Key::ArrowUp,
pressed: true,
..
} => {
up_pressed = true;
false
}
Event::Key {
key: Key::ArrowDown,
pressed: true,
..
} => {
down_pressed = true;
false
}
_ => true,
})
});
}
let mut desired_width = self
.desired_width
.unwrap_or_else(|| ui.spacing().text_edit_width);
if self.arrows {
desired_width -= 16.0;
}
let text = TextEdit::singleline(&mut str)
.horizontal_align(Align::Max)
.id(id)
.desired_width(desired_width)
.margin(Margin {
left: 4.0,
right: if self.arrows { 20.0 } else { 4.0 },
top: 2.0,
bottom: 2.0,
});
let mut res = if valid {
ui.add(text)
} else {
let message = match (self.min, self.max) {
(Some(min), Some(max)) => format!(
"Please enter a number between {} and {}.",
to_string(&min),
to_string(&max)
),
(Some(min), None) => {
format!("Please enter a number greater than {}.", to_string(&min))
}
(None, Some(max)) => {
format!("Please enter a number less than {}.", to_string(&max))
}
(None, None) => "Please enter a number.".to_string(),
};
ui.scope(|ui| {
let style = ui.style_mut();
style.visuals.selection.stroke.color = style.visuals.error_fg_color;
style.visuals.widgets.hovered.bg_stroke.color =
style.visuals.error_fg_color.gamma_multiply(0.60);
ui.add(text)
})
.inner
.on_hover_text(message)
};
let mut delta = None;
if self.arrows {
let arrow_left = res.rect.max.x + 4.0;
let arrow_right = res.rect.max.x + 20.0;
let arrow_top = res.rect.min.y - 2.0;
let arrow_middle = (res.rect.min.y + res.rect.max.y) / 2.0;
let arrow_bottom = res.rect.max.y + 2.0;
let top_arrow_rect = Rect {
min: (arrow_left, arrow_top).into(),
max: (arrow_right, arrow_middle).into(),
};
if draw_arrow(ui, top_arrow_rect, true).clicked_or_dragged() || up_pressed {
delta = Some(Direction::Up);
}
let bottom_arrow_rect = Rect {
min: (arrow_left, arrow_middle).into(),
max: (arrow_right, arrow_bottom).into(),
};
if draw_arrow(ui, bottom_arrow_rect, false).clicked_or_dragged() || down_pressed {
delta = Some(Direction::Down);
}
}
let in_range =
|val: &T| self.min.is_none_or(|m| &m <= val) && self.max.is_none_or(|m| &m >= val);
if let Some(dir) = delta {
let value = match dir {
Direction::Up => self.value.checked_add(&self.increment),
Direction::Down => self.value.checked_sub(&self.increment),
};
if let Some(new_value) = value.filter(in_range) {
if *self.value != new_value {
res.mark_changed();
}
*self.value = new_value;
}
str = to_string(self.value);
stale = true;
} else if res.changed {
if let Some(new_value) = from_string(&str).filter(in_range) {
if *self.value != new_value {
res.mark_changed();
}
*self.value = new_value;
}
stale = true;
}
if stale {
ui.memory_mut(|m| m.data.insert_temp(id, (*self.value, str)));
}
res
}
}
fn draw_arrow(ui: &mut Ui, rect: Rect, up: bool) -> Response {
let arrow_res = ui
.allocate_rect(
rect,
Sense {
click: true,
drag: true,
focusable: false,
},
)
.on_hover_cursor(CursorIcon::Default);
let visuals = ui.style().visuals.widgets.style(&arrow_res);
let painter = ui.painter_at(arrow_res.rect);
let rounding = if up {
Rounding {
ne: 2.0,
..Rounding::ZERO
}
} else {
Rounding {
se: 2.0,
..Rounding::ZERO
}
};
painter.rect_filled(arrow_res.rect, rounding, visuals.bg_fill);
let left = rect.left() + 4.0;
let center = (rect.left() + rect.right()) / 2.0;
let right = rect.right() - 4.0;
let top = rect.top() + 3.0;
let bottom = rect.bottom() - 3.0;
let points = if up {
vec![
(left, bottom).into(),
(center, top).into(),
(right, bottom).into(),
]
} else {
vec![
(right, top).into(),
(center, bottom).into(),
(left, top).into(),
]
};
painter.add(Shape::convex_polygon(
points,
visuals.fg_stroke.color,
Stroke::NONE,
));
arrow_res
}
trait ResponseExt {
fn clicked_or_dragged(&self) -> bool;
}
impl ResponseExt for Response {
fn clicked_or_dragged(&self) -> bool {
self.clicked() || self.dragged()
}
}

14
src/window/vip.rs Normal file
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mod bgmap;
mod chardata;
mod framebuffer;
mod object;
mod registers;
mod utils;
mod world;
pub use bgmap::*;
pub use chardata::*;
pub use framebuffer::*;
pub use object::*;
pub use registers::*;
pub use world::*;

315
src/window/vip/bgmap.rs Normal file
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use std::sync::Arc;
use egui::{
Align, CentralPanel, Checkbox, Color32, ComboBox, Context, Image, ScrollArea, Slider, TextEdit,
TextureOptions, Ui, ViewportBuilder, ViewportId,
};
use egui_extras::{Column, Size, StripBuilder, TableBuilder};
use crate::{
emulator::SimId,
images::{ImageBuffer, ImageParams, ImageProcessor, ImageRenderer, ImageTextureLoader},
memory::{MemoryClient, MemoryView},
window::{
utils::{NumberEdit, UiExt},
AppWindow,
},
};
use super::utils::{self, CellData, CharacterGrid};
pub struct BgMapWindow {
sim_id: SimId,
loader: Arc<ImageTextureLoader>,
memory: Arc<MemoryClient>,
bgmaps: MemoryView,
cell_index: usize,
generic_palette: bool,
params: ImageParams<BgMapParams>,
scale: f32,
show_grid: bool,
}
impl BgMapWindow {
pub fn new(sim_id: SimId, memory: &Arc<MemoryClient>, images: &mut ImageProcessor) -> Self {
let renderer = BgMapRenderer::new(sim_id, memory);
let ([cell, bgmap], params) = images.add(renderer, BgMapParams::default());
let loader =
ImageTextureLoader::new([("vip://cell".into(), cell), ("vip://bgmap".into(), bgmap)]);
Self {
sim_id,
loader: Arc::new(loader),
memory: memory.clone(),
bgmaps: memory.watch(sim_id, 0x00020000, 0x20000),
cell_index: params.cell_index,
generic_palette: params.generic_palette,
params,
scale: 1.0,
show_grid: false,
}
}
fn show_form(&mut self, ui: &mut Ui) {
let row_height = ui.spacing().interact_size.y;
ui.vertical(|ui| {
TableBuilder::new(ui)
.column(Column::auto())
.column(Column::remainder())
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Map");
});
row.col(|ui| {
let mut bgmap_index = self.cell_index / 4096;
ui.add(NumberEdit::new(&mut bgmap_index).range(0..16));
if bgmap_index != self.cell_index / 4096 {
self.cell_index = (bgmap_index * 4096) + (self.cell_index % 4096);
}
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Cell");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut self.cell_index).range(0..16 * 4096));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Address");
});
row.col(|ui| {
let address = 0x00020000 + (self.cell_index * 2);
let mut address_str = format!("{address:08x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut address_str).horizontal_align(Align::Max),
);
});
});
});
let image = Image::new("vip://cell")
.maintain_aspect_ratio(true)
.texture_options(TextureOptions::NEAREST);
ui.add(image);
ui.section("Cell", |ui| {
let mut data = self.bgmaps.borrow().read::<u16>(self.cell_index);
let mut cell = CellData::parse(data);
TableBuilder::new(ui)
.column(Column::remainder())
.column(Column::remainder())
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Character");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut cell.char_index).range(0..2048));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Palette");
});
row.col(|ui| {
ComboBox::from_id_salt("palette")
.selected_text(format!("BG {}", cell.palette_index))
.width(ui.available_width())
.show_ui(ui, |ui| {
for palette in 0..4 {
ui.selectable_value(
&mut cell.palette_index,
palette,
format!("BG {palette}"),
);
}
});
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add(Checkbox::new(&mut cell.hflip, "H-flip"));
});
row.col(|ui| {
ui.add(Checkbox::new(&mut cell.vflip, "V-flip"));
});
});
});
if cell.update(&mut data) {
let address = 0x00020000 + (self.cell_index * 2);
self.memory.write(self.sim_id, address as u32, &data);
}
});
ui.section("Display", |ui| {
ui.horizontal(|ui| {
ui.label("Scale");
ui.spacing_mut().slider_width = ui.available_width();
let slider = Slider::new(&mut self.scale, 1.0..=10.0)
.step_by(1.0)
.show_value(false);
ui.add(slider);
});
ui.checkbox(&mut self.show_grid, "Show grid");
ui.checkbox(&mut self.generic_palette, "Generic palette");
});
});
self.params.write(BgMapParams {
cell_index: self.cell_index,
generic_palette: self.generic_palette,
});
}
fn show_bgmap(&mut self, ui: &mut Ui) {
let grid = CharacterGrid::new("vip://bgmap")
.with_scale(self.scale)
.with_grid(self.show_grid)
.with_selected(self.cell_index % 4096);
if let Some(selected) = grid.show(ui) {
self.cell_index = (self.cell_index / 4096 * 4096) + selected;
}
}
}
impl AppWindow for BgMapWindow {
fn viewport_id(&self) -> ViewportId {
ViewportId::from_hash_of(format!("bgmap-{}", self.sim_id))
}
fn sim_id(&self) -> SimId {
self.sim_id
}
fn initial_viewport(&self) -> ViewportBuilder {
ViewportBuilder::default()
.with_title(format!("BG Map Data ({})", self.sim_id))
.with_inner_size((640.0, 480.0))
}
fn on_init(&mut self, ctx: &Context, _render_state: &egui_wgpu::RenderState) {
ctx.add_texture_loader(self.loader.clone());
}
fn show(&mut self, ctx: &Context) {
CentralPanel::default().show(ctx, |ui| {
ui.horizontal_top(|ui| {
StripBuilder::new(ui)
.size(Size::relative(0.3).at_most(200.0))
.size(Size::remainder())
.horizontal(|mut strip| {
strip.cell(|ui| {
ScrollArea::vertical().show(ui, |ui| self.show_form(ui));
});
strip.cell(|ui| {
ScrollArea::both().show(ui, |ui| self.show_bgmap(ui));
});
})
});
});
}
}
#[derive(Default, Clone, PartialEq, Eq)]
struct BgMapParams {
cell_index: usize,
generic_palette: bool,
}
struct BgMapRenderer {
chardata: MemoryView,
bgmaps: MemoryView,
brightness: MemoryView,
palettes: MemoryView,
}
impl BgMapRenderer {
pub fn new(sim_id: SimId, memory: &MemoryClient) -> Self {
Self {
chardata: memory.watch(sim_id, 0x00078000, 0x8000),
bgmaps: memory.watch(sim_id, 0x00020000, 0x20000),
brightness: memory.watch(sim_id, 0x0005f824, 8),
palettes: memory.watch(sim_id, 0x0005f860, 16),
}
}
fn render_bgmap(&self, image: &mut ImageBuffer, bgmap_index: usize, generic_palette: bool) {
let chardata = self.chardata.borrow();
let bgmaps = self.bgmaps.borrow();
let brightness = self.brightness.borrow();
let palettes = self.palettes.borrow();
let brts = brightness.read::<[u8; 8]>(0);
let colors = if generic_palette {
[utils::generic_palette(Color32::RED); 4]
} else {
[0, 2, 4, 6].map(|i| utils::palette_colors(palettes.read(i), &brts, Color32::RED))
};
for (i, cell) in bgmaps.range::<u16>(bgmap_index * 4096, 4096).enumerate() {
let CellData {
char_index,
vflip,
hflip,
palette_index,
} = CellData::parse(cell);
let char = chardata.read::<[u16; 8]>(char_index);
let palette = &colors[palette_index];
for row in 0..8 {
let y = row + (i / 64) * 8;
for (col, pixel) in utils::read_char_row(&char, hflip, vflip, row).enumerate() {
let x = col + (i % 64) * 8;
image.write((x, y), palette[pixel as usize]);
}
}
}
}
fn render_bgmap_cell(&self, image: &mut ImageBuffer, index: usize, generic_palette: bool) {
let chardata = self.chardata.borrow();
let bgmaps = self.bgmaps.borrow();
let brightness = self.brightness.borrow();
let palettes = self.palettes.borrow();
let brts = brightness.read::<[u8; 8]>(0);
let cell = bgmaps.read::<u16>(index);
let CellData {
char_index,
vflip,
hflip,
palette_index,
} = CellData::parse(cell);
let char = chardata.read::<[u16; 8]>(char_index);
let palette = if generic_palette {
utils::generic_palette(Color32::RED)
} else {
utils::palette_colors(palettes.read(palette_index * 2), &brts, Color32::RED)
};
for row in 0..8 {
for (col, pixel) in utils::read_char_row(&char, hflip, vflip, row).enumerate() {
image.write((col, row), palette[pixel as usize]);
}
}
}
}
impl ImageRenderer<2> for BgMapRenderer {
type Params = BgMapParams;
fn sizes(&self) -> [[usize; 2]; 2] {
[[8, 8], [8 * 64, 8 * 64]]
}
fn render(&mut self, params: &Self::Params, images: &mut [ImageBuffer; 2]) {
self.render_bgmap_cell(&mut images[0], params.cell_index, params.generic_palette);
self.render_bgmap(
&mut images[1],
params.cell_index / 4096,
params.generic_palette,
);
}
}

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src/window/vip/chardata.rs Normal file
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use std::{fmt::Display, sync::Arc};
use egui::{
Align, CentralPanel, Color32, ComboBox, Context, Image, ScrollArea, Slider, TextEdit,
TextureOptions, Ui, Vec2, ViewportBuilder, ViewportId,
};
use egui_extras::{Column, Size, StripBuilder, TableBuilder};
use serde::{Deserialize, Serialize};
use crate::{
emulator::SimId,
images::{ImageBuffer, ImageParams, ImageProcessor, ImageRenderer, ImageTextureLoader},
memory::{MemoryClient, MemoryView},
window::{
utils::{NumberEdit, UiExt as _},
AppWindow,
},
};
use super::utils::{self, CharacterGrid};
#[derive(Debug, Default, Clone, Copy, PartialEq, Eq, Hash, Serialize, Deserialize)]
pub enum Palette {
#[default]
Generic,
Bg0,
Bg1,
Bg2,
Bg3,
Obj0,
Obj1,
Obj2,
Obj3,
}
impl Palette {
pub const fn values() -> [Palette; 9] {
[
Self::Generic,
Self::Bg0,
Self::Bg1,
Self::Bg2,
Self::Bg3,
Self::Obj0,
Self::Obj1,
Self::Obj2,
Self::Obj3,
]
}
pub const fn offset(self) -> Option<usize> {
match self {
Self::Generic => None,
Self::Bg0 => Some(0),
Self::Bg1 => Some(2),
Self::Bg2 => Some(4),
Self::Bg3 => Some(6),
Self::Obj0 => Some(8),
Self::Obj1 => Some(10),
Self::Obj2 => Some(12),
Self::Obj3 => Some(14),
}
}
}
impl Display for Palette {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Self::Generic => f.write_str("Generic"),
Self::Bg0 => f.write_str("BG 0"),
Self::Bg1 => f.write_str("BG 1"),
Self::Bg2 => f.write_str("BG 2"),
Self::Bg3 => f.write_str("BG 3"),
Self::Obj0 => f.write_str("OBJ 0"),
Self::Obj1 => f.write_str("OBJ 1"),
Self::Obj2 => f.write_str("OBJ 2"),
Self::Obj3 => f.write_str("OBJ 3"),
}
}
}
pub struct CharacterDataWindow {
sim_id: SimId,
loader: Arc<ImageTextureLoader>,
brightness: MemoryView,
palettes: MemoryView,
palette: Palette,
index: usize,
params: ImageParams<CharDataParams>,
scale: f32,
show_grid: bool,
}
impl CharacterDataWindow {
pub fn new(sim_id: SimId, memory: &MemoryClient, images: &mut ImageProcessor) -> Self {
let renderer = CharDataRenderer::new(sim_id, memory);
let ([char, chardata], params) = images.add(renderer, CharDataParams::default());
let loader = ImageTextureLoader::new([
("vip://char".into(), char),
("vip://chardata".into(), chardata),
]);
Self {
sim_id,
loader: Arc::new(loader),
brightness: memory.watch(sim_id, 0x0005f824, 8),
palettes: memory.watch(sim_id, 0x0005f860, 16),
palette: params.palette,
index: params.index,
params,
scale: 4.0,
show_grid: true,
}
}
fn show_form(&mut self, ui: &mut Ui) {
let row_height = ui.spacing().interact_size.y;
ui.vertical(|ui| {
TableBuilder::new(ui)
.column(Column::auto())
.column(Column::remainder())
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Index");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut self.index).range(0..2048));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Address");
});
row.col(|ui| {
let address = match self.index {
0x000..0x200 => 0x00060000 + self.index * 16,
0x200..0x400 => 0x000e0000 + (self.index - 0x200) * 16,
0x400..0x600 => 0x00160000 + (self.index - 0x400) * 16,
0x600..0x800 => 0x001e0000 + (self.index - 0x600) * 16,
_ => unreachable!("can't happen"),
};
let mut address_str = format!("{address:08x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut address_str).horizontal_align(Align::Max),
);
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Mirror");
});
row.col(|ui| {
let mirror = 0x00078000 + (self.index * 16);
let mut mirror_str = format!("{mirror:08x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut mirror_str).horizontal_align(Align::Max),
);
});
});
});
let image = Image::new("vip://char")
.maintain_aspect_ratio(true)
.texture_options(TextureOptions::NEAREST);
ui.add(image);
ui.section("Colors", |ui| {
ui.horizontal(|ui| {
ui.label("Palette");
ComboBox::from_id_salt("palette")
.selected_text(self.palette.to_string())
.width(ui.available_width())
.show_ui(ui, |ui| {
for palette in Palette::values() {
ui.selectable_value(
&mut self.palette,
palette,
palette.to_string(),
);
}
});
});
TableBuilder::new(ui)
.columns(Column::remainder(), 4)
.body(|mut body| {
let palette = self.load_palette_colors();
body.row(30.0, |mut row| {
for color in palette {
row.col(|ui| {
let rect = ui.available_rect_before_wrap();
let scale = rect.height() / rect.width();
let rect = rect.scale_from_center2(Vec2::new(scale, 1.0));
ui.painter().rect_filled(rect, 0.0, color);
});
}
});
});
});
ui.section("Display", |ui| {
ui.horizontal(|ui| {
ui.label("Scale");
ui.spacing_mut().slider_width = ui.available_width();
let slider = Slider::new(&mut self.scale, 1.0..=10.0)
.step_by(1.0)
.show_value(false);
ui.add(slider);
});
ui.checkbox(&mut self.show_grid, "Show grid");
});
});
self.params.write(CharDataParams {
palette: self.palette,
index: self.index,
});
}
fn load_palette_colors(&self) -> [Color32; 4] {
let Some(offset) = self.palette.offset() else {
return utils::generic_palette(Color32::RED);
};
let palette = self.palettes.borrow().read(offset);
let brightnesses = self.brightness.borrow();
let brts = brightnesses.read(0);
utils::palette_colors(palette, &brts, Color32::RED)
}
fn show_chardata(&mut self, ui: &mut Ui) {
let grid = CharacterGrid::new("vip://chardata")
.with_scale(self.scale)
.with_grid(self.show_grid)
.with_selected(self.index);
if let Some(selected) = grid.show(ui) {
self.index = selected;
}
}
}
impl AppWindow for CharacterDataWindow {
fn viewport_id(&self) -> ViewportId {
ViewportId::from_hash_of(format!("chardata-{}", self.sim_id))
}
fn sim_id(&self) -> SimId {
self.sim_id
}
fn initial_viewport(&self) -> ViewportBuilder {
ViewportBuilder::default()
.with_title(format!("Character Data ({})", self.sim_id))
.with_inner_size((640.0, 480.0))
}
fn on_init(&mut self, ctx: &Context, _render_state: &egui_wgpu::RenderState) {
ctx.add_texture_loader(self.loader.clone());
}
fn show(&mut self, ctx: &Context) {
CentralPanel::default().show(ctx, |ui| {
ui.horizontal_top(|ui| {
StripBuilder::new(ui)
.size(Size::relative(0.3).at_most(200.0))
.size(Size::remainder())
.horizontal(|mut strip| {
strip.cell(|ui| {
ScrollArea::vertical().show(ui, |ui| self.show_form(ui));
});
strip.cell(|ui| {
ScrollArea::both().show(ui, |ui| self.show_chardata(ui));
});
});
});
});
}
}
#[derive(Serialize, Deserialize, Clone, PartialEq, Eq, Hash)]
enum CharDataResource {
Character { palette: Palette, index: usize },
CharacterData { palette: Palette },
}
#[derive(Clone, Default, PartialEq, Eq)]
struct CharDataParams {
palette: Palette,
index: usize,
}
struct CharDataRenderer {
chardata: MemoryView,
brightness: MemoryView,
palettes: MemoryView,
}
impl ImageRenderer<2> for CharDataRenderer {
type Params = CharDataParams;
fn sizes(&self) -> [[usize; 2]; 2] {
[[8, 8], [16 * 8, 128 * 8]]
}
fn render(&mut self, params: &Self::Params, image: &mut [ImageBuffer; 2]) {
self.render_character(&mut image[0], params.palette, params.index);
self.render_character_data(&mut image[1], params.palette);
}
}
impl CharDataRenderer {
pub fn new(sim_id: SimId, memory: &MemoryClient) -> Self {
Self {
chardata: memory.watch(sim_id, 0x00078000, 0x8000),
brightness: memory.watch(sim_id, 0x0005f824, 8),
palettes: memory.watch(sim_id, 0x0005f860, 16),
}
}
fn render_character(&self, image: &mut ImageBuffer, palette: Palette, index: usize) {
if index >= 2048 {
return;
}
let palette = self.load_palette(palette);
let chardata = self.chardata.borrow();
let character = chardata.range::<u16>(index * 8, 8);
for (row, pixels) in character.enumerate() {
for col in 0..8 {
let char = (pixels >> (col * 2)) & 0x03;
image.write((col, row), palette[char as usize]);
}
}
}
fn render_character_data(&self, image: &mut ImageBuffer, palette: Palette) {
let palette = self.load_palette(palette);
let chardata = self.chardata.borrow();
for (row, pixels) in chardata.range::<u16>(0, 8 * 2048).enumerate() {
let char_index = row / 8;
let row_index = row % 8;
let x = (char_index % 16) * 8;
let y = (char_index / 16) * 8 + row_index;
for col in 0..8 {
let char = (pixels >> (col * 2)) & 0x03;
image.write((x + col, y), palette[char as usize]);
}
}
}
fn load_palette(&self, palette: Palette) -> [Color32; 4] {
let Some(offset) = palette.offset() else {
return utils::GENERIC_PALETTE.map(|p| utils::shade(p, Color32::RED));
};
let palette = self.palettes.borrow().read(offset);
let brightnesses = self.brightness.borrow();
let brts = brightnesses.read(0);
utils::palette_colors(palette, &brts, Color32::RED)
}
}

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src/window/vip/framebuffer.rs Normal file
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use std::sync::Arc;
use egui::{
Align, CentralPanel, Color32, Context, Image, ScrollArea, Slider, TextEdit, TextureOptions, Ui,
ViewportBuilder, ViewportId,
};
use egui_extras::{Column, Size, StripBuilder, TableBuilder};
use crate::{
emulator::SimId,
images::{ImageBuffer, ImageParams, ImageProcessor, ImageRenderer, ImageTextureLoader},
memory::{MemoryClient, MemoryView},
window::{
utils::{NumberEdit, UiExt as _},
AppWindow,
},
};
use super::utils;
pub struct FrameBufferWindow {
sim_id: SimId,
loader: Arc<ImageTextureLoader>,
index: usize,
left: bool,
right: bool,
generic_palette: bool,
params: ImageParams<FrameBufferParams>,
scale: f32,
}
impl FrameBufferWindow {
pub fn new(sim_id: SimId, memory: &MemoryClient, images: &mut ImageProcessor) -> Self {
let initial_params = FrameBufferParams {
index: 0,
left: true,
right: true,
generic_palette: false,
left_color: Color32::from_rgb(0xff, 0x00, 0x00),
right_color: Color32::from_rgb(0x00, 0xc6, 0xf0),
};
let renderer = FrameBufferRenderer::new(sim_id, memory);
let ([buffer], params) = images.add(renderer, initial_params);
let loader = ImageTextureLoader::new([("vip://buffer".into(), buffer)]);
Self {
sim_id,
loader: Arc::new(loader),
index: params.index,
left: params.left,
right: params.right,
generic_palette: params.generic_palette,
params,
scale: 2.0,
}
}
fn show_form(&mut self, ui: &mut Ui) {
let row_height = ui.spacing().interact_size.y;
ui.vertical(|ui| {
TableBuilder::new(ui)
.column(Column::auto())
.column(Column::remainder())
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Index");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut self.index).range(0..2));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Left");
});
row.col(|ui| {
let address = self.index * 0x00008000;
let mut address_str = format!("{address:08x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut address_str).horizontal_align(Align::Max),
);
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Right");
});
row.col(|ui| {
let address = self.index * 0x00008000 + 0x00010000;
let mut address_str = format!("{address:08x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut address_str).horizontal_align(Align::Max),
);
});
});
});
ui.section("Display", |ui| {
ui.horizontal(|ui| {
ui.label("Scale");
ui.spacing_mut().slider_width = ui.available_width();
let slider = Slider::new(&mut self.scale, 1.0..=10.0)
.step_by(1.0)
.show_value(false);
ui.add(slider);
});
TableBuilder::new(ui)
.columns(Column::remainder(), 2)
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.checkbox(&mut self.left, "Left");
});
row.col(|ui| {
ui.checkbox(&mut self.right, "Right");
});
});
});
ui.checkbox(&mut self.generic_palette, "Generic colors");
});
});
self.params.write(FrameBufferParams {
index: self.index,
left: self.left,
right: self.right,
generic_palette: self.generic_palette,
..*self.params
});
}
fn show_buffers(&mut self, ui: &mut Ui) {
let image = Image::new("vip://buffer")
.fit_to_original_size(self.scale)
.texture_options(TextureOptions::NEAREST);
ui.add(image);
}
}
impl AppWindow for FrameBufferWindow {
fn viewport_id(&self) -> ViewportId {
ViewportId::from_hash_of(format!("framebuffer-{}", self.sim_id))
}
fn sim_id(&self) -> SimId {
self.sim_id
}
fn initial_viewport(&self) -> ViewportBuilder {
ViewportBuilder::default()
.with_title(format!("Frame Buffers ({})", self.sim_id))
.with_inner_size((640.0, 480.0))
}
fn on_init(&mut self, ctx: &Context, _render_state: &egui_wgpu::RenderState) {
ctx.add_texture_loader(self.loader.clone());
}
fn show(&mut self, ctx: &Context) {
CentralPanel::default().show(ctx, |ui| {
ui.horizontal_top(|ui| {
StripBuilder::new(ui)
.size(Size::relative(0.3).at_most(200.0))
.size(Size::remainder())
.horizontal(|mut strip| {
strip.cell(|ui| {
ScrollArea::vertical().show(ui, |ui| self.show_form(ui));
});
strip.cell(|ui| {
ScrollArea::both().show(ui, |ui| self.show_buffers(ui));
});
});
});
});
}
}
#[derive(Clone, PartialEq, Eq)]
struct FrameBufferParams {
index: usize,
left: bool,
right: bool,
generic_palette: bool,
left_color: Color32,
right_color: Color32,
}
struct FrameBufferRenderer {
buffers: [MemoryView; 4],
brightness: MemoryView,
}
impl FrameBufferRenderer {
fn new(sim_id: SimId, memory: &MemoryClient) -> Self {
Self {
buffers: [
memory.watch(sim_id, 0x00000000, 0x6000),
memory.watch(sim_id, 0x00008000, 0x6000),
memory.watch(sim_id, 0x00010000, 0x6000),
memory.watch(sim_id, 0x00018000, 0x6000),
],
brightness: memory.watch(sim_id, 0x0005f824, 8),
}
}
}
impl ImageRenderer<1> for FrameBufferRenderer {
type Params = FrameBufferParams;
fn sizes(&self) -> [[usize; 2]; 1] {
[[384, 224]]
}
fn render(&mut self, params: &Self::Params, images: &mut [ImageBuffer; 1]) {
let image = &mut images[0];
let left_buffer = self.buffers[params.index * 2].borrow();
let right_buffer = self.buffers[params.index * 2 + 1].borrow();
let colors = if params.generic_palette {
[
utils::generic_palette(params.left_color),
utils::generic_palette(params.right_color),
]
} else {
let brts = self.brightness.borrow().read::<[u8; 8]>(0);
let shades = utils::parse_shades(&brts);
[
shades.map(|s| utils::shade(s, params.left_color)),
shades.map(|s| utils::shade(s, params.right_color)),
]
};
let left_cols = left_buffer.range::<u8>(0, 0x6000);
let right_cols = right_buffer.range::<u8>(0, 0x6000);
for (index, (left, right)) in left_cols.zip(right_cols).enumerate() {
let top = (index % 64) * 4;
if top >= 224 {
continue;
}
let pixels = [0, 2, 4, 6].map(|i| {
let left = if params.left {
colors[0][(left >> i) as usize & 0x3]
} else {
Color32::BLACK
};
let right = if params.right {
colors[1][(right >> i) as usize & 0x3]
} else {
Color32::BLACK
};
Color32::from_rgb(
left.r() + right.r(),
left.g() + right.g(),
left.b() + right.b(),
)
});
let x = index / 64;
for (i, pixel) in pixels.into_iter().enumerate() {
let y = top + i;
image.write((x, y), pixel);
}
}
}
}

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use std::sync::Arc;
use egui::{
Align, CentralPanel, Checkbox, Color32, ComboBox, Context, Image, ScrollArea, Slider, TextEdit,
TextureOptions, Ui, ViewportBuilder, ViewportId,
};
use egui_extras::{Column, Size, StripBuilder, TableBuilder};
use crate::{
emulator::SimId,
images::{ImageBuffer, ImageParams, ImageProcessor, ImageRenderer, ImageTextureLoader},
memory::{MemoryClient, MemoryView},
window::{
utils::{NumberEdit, UiExt as _},
AppWindow,
},
};
use super::utils::{self, Object};
pub struct ObjectWindow {
sim_id: SimId,
loader: Arc<ImageTextureLoader>,
memory: Arc<MemoryClient>,
objects: MemoryView,
index: usize,
generic_palette: bool,
params: ImageParams<ObjectParams>,
scale: f32,
}
impl ObjectWindow {
pub fn new(sim_id: SimId, memory: &Arc<MemoryClient>, images: &mut ImageProcessor) -> Self {
let initial_params = ObjectParams {
index: 0,
generic_palette: false,
left_color: Color32::from_rgb(0xff, 0x00, 0x00),
right_color: Color32::from_rgb(0x00, 0xc6, 0xf0),
};
let renderer = ObjectRenderer::new(sim_id, memory);
let ([zoom, full], params) = images.add(renderer, initial_params);
let loader =
ImageTextureLoader::new([("vip://zoom".into(), zoom), ("vip://full".into(), full)]);
Self {
sim_id,
loader: Arc::new(loader),
memory: memory.clone(),
objects: memory.watch(sim_id, 0x0003e000, 0x2000),
index: params.index,
generic_palette: params.generic_palette,
params,
scale: 1.0,
}
}
fn show_form(&mut self, ui: &mut Ui) {
let row_height = ui.spacing().interact_size.y;
ui.vertical(|ui| {
TableBuilder::new(ui)
.column(Column::auto())
.column(Column::remainder())
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Index");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut self.index).range(0..1024));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Address");
});
row.col(|ui| {
let address = 0x3e000 + self.index * 8;
let mut address_str = format!("{address:08x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut address_str).horizontal_align(Align::Max),
);
});
});
});
let image = Image::new("vip://zoom")
.maintain_aspect_ratio(true)
.texture_options(TextureOptions::NEAREST);
ui.add(image);
ui.section("Properties", |ui| {
let mut object = self.objects.borrow().read::<[u16; 4]>(self.index);
let mut obj = Object::parse(object);
TableBuilder::new(ui)
.column(Column::remainder())
.column(Column::remainder())
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Character");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut obj.data.char_index).range(0..2048));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Palette");
});
row.col(|ui| {
ComboBox::from_id_salt("palette")
.selected_text(format!("OBJ {}", obj.data.palette_index))
.width(ui.available_width())
.show_ui(ui, |ui| {
for palette in 0..4 {
ui.selectable_value(
&mut obj.data.palette_index,
palette,
format!("OBJ {palette}"),
);
}
});
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("X");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut obj.x).range(-512..512));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Y");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut obj.y).range(-8..=224));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("Parallax");
});
row.col(|ui| {
ui.add(NumberEdit::new(&mut obj.parallax).range(-512..512));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add(Checkbox::new(&mut obj.data.hflip, "H-flip"));
});
row.col(|ui| {
ui.add(Checkbox::new(&mut obj.data.vflip, "V-flip"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add(Checkbox::new(&mut obj.lon, "Left"));
});
row.col(|ui| {
ui.add(Checkbox::new(&mut obj.ron, "Right"));
});
});
});
if obj.update(&mut object) {
let address = 0x3e000 + self.index * 8;
self.memory.write(self.sim_id, address as u32, &object);
}
});
ui.section("Display", |ui| {
ui.horizontal(|ui| {
ui.label("Scale");
ui.spacing_mut().slider_width = ui.available_width();
let slider = Slider::new(&mut self.scale, 1.0..=10.0)
.step_by(1.0)
.show_value(false);
ui.add(slider);
});
ui.checkbox(&mut self.generic_palette, "Generic palette");
});
});
self.params.write(ObjectParams {
index: self.index,
generic_palette: self.generic_palette,
..*self.params
});
}
fn show_object(&mut self, ui: &mut Ui) {
let image = Image::new("vip://full")
.fit_to_original_size(self.scale)
.texture_options(TextureOptions::NEAREST);
ui.add(image);
}
}
impl AppWindow for ObjectWindow {
fn viewport_id(&self) -> egui::ViewportId {
ViewportId::from_hash_of(format!("object-{}", self.sim_id))
}
fn sim_id(&self) -> SimId {
self.sim_id
}
fn initial_viewport(&self) -> ViewportBuilder {
ViewportBuilder::default()
.with_title(format!("Object Data ({})", self.sim_id))
.with_inner_size((640.0, 500.0))
}
fn on_init(&mut self, ctx: &Context, _render_state: &egui_wgpu::RenderState) {
ctx.add_texture_loader(self.loader.clone());
}
fn show(&mut self, ctx: &Context) {
CentralPanel::default().show(ctx, |ui| {
ui.horizontal_top(|ui| {
StripBuilder::new(ui)
.size(Size::relative(0.3).at_most(200.0))
.size(Size::remainder())
.horizontal(|mut strip| {
strip.cell(|ui| {
ScrollArea::vertical().show(ui, |ui| self.show_form(ui));
});
strip.cell(|ui| {
ScrollArea::both().show(ui, |ui| self.show_object(ui));
});
});
});
});
}
}
#[derive(Clone, PartialEq, Eq)]
struct ObjectParams {
index: usize,
generic_palette: bool,
left_color: Color32,
right_color: Color32,
}
enum Eye {
Left,
Right,
}
struct ObjectRenderer {
chardata: MemoryView,
objects: MemoryView,
brightness: MemoryView,
palettes: MemoryView,
}
impl ObjectRenderer {
pub fn new(sim_id: SimId, memory: &MemoryClient) -> Self {
Self {
chardata: memory.watch(sim_id, 0x00078000, 0x8000),
objects: memory.watch(sim_id, 0x0003e000, 0x2000),
brightness: memory.watch(sim_id, 0x0005f824, 8),
palettes: memory.watch(sim_id, 0x0005f860, 16),
}
}
fn render_object(
&self,
image: &mut ImageBuffer,
params: &ObjectParams,
use_pos: bool,
eye: Eye,
) {
let chardata = self.chardata.borrow();
let objects = self.objects.borrow();
let brightness = self.brightness.borrow();
let palettes = self.palettes.borrow();
let object: [u16; 4] = objects.read(params.index);
let obj = Object::parse(object);
if match eye {
Eye::Left => !obj.lon,
Eye::Right => !obj.ron,
} {
return;
}
let brts = brightness.read::<[u8; 8]>(0);
let (x, y) = if use_pos {
let x = match eye {
Eye::Left => obj.x - obj.parallax,
Eye::Right => obj.x + obj.parallax,
};
(x, obj.y)
} else {
(0, 0)
};
let color = match eye {
Eye::Left => params.left_color,
Eye::Right => params.right_color,
};
let char = chardata.read::<[u16; 8]>(obj.data.char_index);
let palette = if params.generic_palette {
utils::generic_palette(color)
} else {
utils::palette_colors(palettes.read(8 + obj.data.palette_index * 2), &brts, color)
};
for row in 0..8 {
let real_y = y + row as i16;
if !(0..224).contains(&real_y) {
continue;
}
for (col, pixel) in
utils::read_char_row(&char, obj.data.hflip, obj.data.vflip, row).enumerate()
{
let real_x = x + col as i16;
if !(0..384).contains(&real_x) {
continue;
}
image.add((real_x as usize, real_y as usize), palette[pixel as usize]);
}
}
}
}
impl ImageRenderer<2> for ObjectRenderer {
type Params = ObjectParams;
fn sizes(&self) -> [[usize; 2]; 2] {
[[8, 8], [384, 224]]
}
fn render(&mut self, params: &Self::Params, images: &mut [ImageBuffer; 2]) {
images[0].clear();
self.render_object(&mut images[0], params, false, Eye::Left);
self.render_object(&mut images[0], params, false, Eye::Right);
images[1].clear();
self.render_object(&mut images[1], params, true, Eye::Left);
self.render_object(&mut images[1], params, true, Eye::Right);
}
}

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src/window/vip/registers.rs Normal file
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use std::sync::Arc;
use egui::{
Align, Button, CentralPanel, Checkbox, Color32, Context, Direction, Label, Layout, ScrollArea,
TextEdit, Ui, ViewportBuilder, ViewportId,
};
use egui_extras::{Column, Size, StripBuilder, TableBuilder};
use crate::{
emulator::SimId,
memory::{MemoryClient, MemoryRef, MemoryValue, MemoryView},
window::{
utils::{NumberEdit, UiExt},
AppWindow,
},
};
use super::utils;
pub struct RegisterWindow {
sim_id: SimId,
memory: Arc<MemoryClient>,
registers: MemoryView,
}
impl RegisterWindow {
pub fn new(sim_id: SimId, memory: &Arc<MemoryClient>) -> Self {
Self {
sim_id,
memory: memory.clone(),
registers: memory.watch(sim_id, 0x0005f800, 0x72),
}
}
fn show_interrupts(&mut self, ui: &mut Ui) {
let row_height = self.row_height(ui);
let [mut raw_intpnd, mut raw_intenb] = self.read_address(0x0005f800);
let mut intenb = InterruptReg::parse(raw_intenb);
let mut intpnd = InterruptReg::parse(raw_intpnd);
ui.section("Interrupt", |ui| {
let width = ui.available_width();
let xspace = ui.spacing().item_spacing.x;
ui.with_layout(Layout::top_down_justified(Align::Center), |ui| {
TableBuilder::new(ui)
.id_salt("raw_values")
.columns(Column::exact(width * 0.5 - xspace), 2)
.cell_layout(Layout::left_to_right(Align::Max))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("INTENB");
});
row.col(|ui| {
let mut text = format!("{raw_intenb:04x}");
ui.add_sized(
ui.available_size(),
TextEdit::singleline(&mut text).horizontal_align(Align::Max),
);
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("INTPND");
});
row.col(|ui| {
let mut text = format!("{raw_intpnd:04x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut text).horizontal_align(Align::Max),
);
});
});
});
ui.add_space(8.0);
TableBuilder::new(ui)
.id_salt("flags")
.column(Column::exact(width * 0.5 - xspace))
.columns(Column::exact(width * 0.25 - xspace), 2)
.cell_layout(Layout::left_to_right(Align::Center).with_main_align(Align::RIGHT))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|_ui| {});
row.col(|ui| {
ui.add_sized(ui.available_size(), Label::new("ENB"));
});
row.col(|ui| {
ui.add_sized(ui.available_size(), Label::new("PND"));
});
});
let mut add_row = |label: &str, enb: &mut bool, pnd: &mut bool| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label(label);
});
row.col(|ui| {
let space =
(ui.available_width() - ui.spacing().icon_width) / 2.0;
ui.add_space(space);
ui.checkbox(enb, "");
});
row.col(|ui| {
let space =
(ui.available_width() - ui.spacing().icon_width) / 2.0;
ui.add_space(space);
ui.checkbox(pnd, "");
});
});
};
add_row("TIMEERR", &mut intenb.timeerr, &mut intpnd.timeerr);
add_row("XPEND", &mut intenb.xpend, &mut intpnd.xpend);
add_row("SBHIT", &mut intenb.sbhit, &mut intpnd.sbhit);
add_row("FRAMESTART", &mut intenb.framestart, &mut intpnd.framestart);
add_row("GAMESTART", &mut intenb.gamestart, &mut intpnd.gamestart);
add_row("RFBEND", &mut intenb.rfbend, &mut intpnd.rfbend);
add_row("LFBEND", &mut intenb.lfbend, &mut intpnd.lfbend);
add_row("SCANERR", &mut intenb.scanerr, &mut intpnd.scanerr);
});
});
ui.allocate_space(ui.available_size());
});
if intpnd.update(&mut raw_intpnd) {
self.memory.write(self.sim_id, 0x0005f800, &raw_intpnd);
}
if intenb.update(&mut raw_intenb) {
self.memory.write(self.sim_id, 0x0005f802, &raw_intenb);
}
}
fn show_display_status(&mut self, ui: &mut Ui) {
let row_height = self.row_height(ui);
let mut raw_dpstts = self.read_address(0x0005f820);
let mut dpstts = DisplayReg::parse(raw_dpstts);
ui.section("Display", |ui| {
let width = ui.available_width();
TableBuilder::new(ui)
.column(Column::exact(width * 0.5))
.column(Column::exact(width * 0.5))
.cell_layout(Layout::left_to_right(Align::Max))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("DPSTTS");
});
row.col(|ui| {
let mut value_str = format!("{raw_dpstts:04x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut value_str).horizontal_align(Align::Max),
);
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(true, Checkbox::new(&mut dpstts.lock, "LOCK"));
});
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut dpstts.r1bsy, "R1BSY"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(true, Checkbox::new(&mut dpstts.synce, "SYNCE"));
});
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut dpstts.l1bsy, "L1BSY"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(true, Checkbox::new(&mut dpstts.re, "RE"));
});
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut dpstts.r0bsy, "R0BSY"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut dpstts.fclk, "FCLK"));
});
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut dpstts.l0bsy, "L0BSY"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut dpstts.scanrdy, "SCANRDY"));
});
row.col(|ui| {
ui.add_enabled(true, Checkbox::new(&mut dpstts.disp, "DISP"));
});
});
body.row(row_height, |mut row| {
row.col(|_ui| {});
row.col(|ui| {
if ui
.add(Button::new("DPRST").min_size(ui.available_size()))
.clicked()
{
dpstts.dprst = true;
}
});
});
});
ui.allocate_space(ui.available_size());
});
if dpstts.update(&mut raw_dpstts) {
self.memory.write(self.sim_id, 0x0005f822, &raw_dpstts);
}
}
fn show_drawing_status(&mut self, ui: &mut Ui) {
let row_height = self.row_height(ui);
let [mut raw_xpstts, raw_xpctrl] = self.read_address(0x0005f840);
let mut xpstts = DrawingReg::parse(raw_xpstts);
ui.section("Drawing", |ui| {
let width = ui.available_width();
TableBuilder::new(ui)
.column(Column::exact(width * 0.5))
.column(Column::exact(width * 0.5))
.cell_layout(Layout::left_to_right(Align::Max))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("XPCTRL");
});
row.col(|ui| {
let mut value_str = format!("{raw_xpctrl:04x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut value_str).horizontal_align(Align::Max),
);
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("XPSTTS");
});
row.col(|ui| {
let mut value_str = format!("{raw_xpstts:04x}");
ui.add_enabled(
false,
TextEdit::singleline(&mut value_str).horizontal_align(Align::Max),
);
});
});
/*
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("SBCMP");
});
row.col(|ui| {
let old_value = xpctrl.sbcmp;
ui.add_enabled(true, NumberEdit::new(&mut xpctrl.sbcmp).range(0..32));
cmp_changed = xpctrl.sbcmp != old_value;
});
});
*/
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("SBCOUNT");
});
row.col(|ui| {
ui.add_enabled(
false,
NumberEdit::new(&mut xpstts.sbcount)
.arrows(false)
.range(0..32),
);
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut xpstts.sbout, "SBOUT"));
});
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut xpstts.f1bsy, "F1BSY"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut xpstts.f0bsy, "F0BSY"));
});
row.col(|ui| {
ui.add_enabled(false, Checkbox::new(&mut xpstts.overtime, "OVERTIME"));
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.add_enabled(true, Checkbox::new(&mut xpstts.xpen, "XPEN"));
});
row.col(|ui| {
if ui
.add(Button::new("XPRST").min_size(ui.available_size()))
.clicked()
{
xpstts.xprst = true;
}
});
});
});
ui.allocate_space(ui.available_size());
});
if xpstts.update(&mut raw_xpstts) {
xpstts.update(&mut raw_xpstts);
self.memory.write(self.sim_id, 0x0005f842, &raw_xpstts);
}
}
fn show_colors(&mut self, ui: &mut Ui) {
let row_height = self.row_height(ui);
let registers = self.registers.borrow();
ui.section("Colors", |ui| {
let width = ui.available_width();
let xspace = ui.spacing().item_spacing.x;
TableBuilder::new(ui)
.column(Column::exact(width * 0.2 - xspace))
.columns(Column::exact(width * 0.20 - xspace), 4)
.cell_layout(Layout::left_to_right(Align::Max))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|_ui| {});
row.col(|_ui| {});
row.col(|ui| {
ui.with_layout(
Layout::centered_and_justified(Direction::LeftToRight),
|ui| ui.label("1"),
);
});
row.col(|ui| {
ui.with_layout(
Layout::centered_and_justified(Direction::LeftToRight),
|ui| ui.label("2"),
);
});
row.col(|ui| {
ui.with_layout(
Layout::centered_and_justified(Direction::LeftToRight),
|ui| ui.label("3"),
);
});
});
let mut brts: [u16; 3] = [
read_address(&registers, 0x0005f824),
read_address(&registers, 0x0005f826),
read_address(&registers, 0x0005f828),
];
body.row(row_height, |mut row| {
let mut stale = false;
row.col(|ui| {
ui.label("BRT");
});
row.col(|_ui| {});
for brt in brts.iter_mut() {
row.col(|ui| {
if ui
.add(NumberEdit::new(brt).range(0..256).arrows(false).hex(true))
.changed()
{
stale = true;
}
});
}
if stale {
self.memory.write(self.sim_id, 0x0005f824, &brts);
}
});
body.row(row_height, |mut row| {
row.col(|_ui| {});
for shade in utils::parse_brts(&brts, Color32::RED) {
row.col(|ui| {
ui.painter().rect_filled(
ui.available_rect_before_wrap(),
0.0,
shade,
);
});
}
});
let mut palettes = read_address::<[u16; 8]>(&registers, 0x0005f860);
let mut add_row = |name: &str, address: u32, value: &mut u16| {
let mut c1 = (*value >> 2) & 0x03;
let mut c2 = (*value >> 4) & 0x03;
let mut c3 = (*value >> 6) & 0x03;
let mut stale = false;
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label(name);
});
row.col(|ui| {
if ui
.add(
NumberEdit::new(value)
.range(0..256)
.desired_width(width * 0.2)
.arrows(false)
.hex(true),
)
.changed()
{
stale = true;
};
});
row.col(|ui| {
if ui
.add(
NumberEdit::new(&mut c1)
.range(0..4)
.desired_width(ui.available_width() - xspace),
)
.changed()
{
*value = (*value & 0xfff3) | (c1 << 2);
stale = true;
}
});
row.col(|ui| {
if ui
.add(
NumberEdit::new(&mut c2)
.range(0..4)
.desired_width(ui.available_width() - xspace),
)
.changed()
{
*value = (*value & 0xffcf) | (c2 << 4);
stale = true;
}
});
row.col(|ui| {
if ui
.add(
NumberEdit::new(&mut c3)
.range(0..4)
.desired_width(ui.available_width() - xspace),
)
.changed()
{
*value = (*value & 0xff3f) | (c3 << 6);
stale = true;
}
});
});
if stale {
self.memory.write(self.sim_id, address, value);
}
};
add_row("GPLT0", 0x0005f860, &mut palettes[0]);
add_row("GPLT1", 0x0005f862, &mut palettes[1]);
add_row("GPLT2", 0x0005f864, &mut palettes[2]);
add_row("GPLT3", 0x0005f866, &mut palettes[3]);
add_row("JPLT0", 0x0005f868, &mut palettes[4]);
add_row("JPLT1", 0x0005f86a, &mut palettes[5]);
add_row("JPLT2", 0x0005f86c, &mut palettes[6]);
add_row("JPLT3", 0x0005f86e, &mut palettes[7]);
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("BKCOL");
});
row.col(|ui| {
let mut bkcol: u16 = read_address(&registers, 0x0005f870);
if ui
.add(
NumberEdit::new(&mut bkcol)
.range(0..4)
.desired_width(ui.available_width() - xspace),
)
.changed()
{
self.memory.write(self.sim_id, 0x0005f870, &bkcol);
}
});
row.col(|_ui| {});
row.col(|ui| {
ui.label("REST");
});
row.col(|ui| {
let mut rest: u16 = read_address(&registers, 0x0005f82a);
if ui
.add(
NumberEdit::new(&mut rest)
.range(0..256)
.arrows(false)
.hex(true),
)
.changed()
{
self.memory.write(self.sim_id, 0x0005f82a, &rest);
}
});
});
});
ui.allocate_space(ui.available_size_before_wrap());
});
}
fn show_objects(&mut self, ui: &mut Ui) {
let row_height = self.row_height(ui);
ui.section("Objects", |ui| {
let width = ui.available_width();
let xspace = ui.spacing().item_spacing.x;
TableBuilder::new(ui)
.column(Column::exact(width * 0.3 - xspace))
.column(Column::exact(width * 0.3 - xspace))
.column(Column::exact(width * 0.4 - xspace))
.cell_layout(Layout::left_to_right(Align::Center).with_main_align(Align::RIGHT))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|_ui| {});
row.col(|ui| {
ui.add_sized(ui.available_size(), Label::new("Start"));
});
row.col(|ui| {
ui.add_sized(ui.available_size(), Label::new("End"));
});
});
let mut spts = self.read_address::<[u16; 4]>(0x0005f848);
let prevs = std::iter::once(0u16).chain(spts.map(|i| (i + 1) & 0x03ff));
let mut changed = false;
for (index, (spt, prev)) in spts.iter_mut().zip(prevs).enumerate() {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label(format!("SPT{index}"));
});
row.col(|ui| {
ui.with_layout(Layout::right_to_left(Align::Center), |ui| {
ui.label(prev.to_string());
});
});
row.col(|ui| {
if ui.add(NumberEdit::new(spt).range(0..1024)).changed() {
changed = true;
}
});
});
}
if changed {
self.memory.write(self.sim_id, 0x0005f848, &spts);
}
});
ui.allocate_space(ui.available_size_before_wrap());
});
}
fn show_misc(&mut self, ui: &mut Ui) {
let row_height = self.row_height(ui);
let registers = self.registers.borrow();
ui.section("Misc.", |ui| {
let width = ui.available_width();
let xspace = ui.spacing().item_spacing.x;
TableBuilder::new(ui)
.column(Column::exact(width * 0.5 - xspace))
.column(Column::exact(width * 0.5 - xspace))
.cell_layout(Layout::left_to_right(Align::Center).with_main_align(Align::RIGHT))
.body(|mut body| {
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("FRMCYC");
});
row.col(|ui| {
let mut frmcyc = read_address::<u16>(&registers, 0x0005f82e);
ui.with_layout(Layout::right_to_left(Align::Center), |ui| {
if ui.add(NumberEdit::new(&mut frmcyc).range(0..32)).changed() {
self.memory.write(self.sim_id, 0x0005f82e, &frmcyc);
}
});
});
});
let mut cta = read_address::<u16>(&registers, 0x0005f830);
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("CTA");
});
row.col(|ui| {
ui.with_layout(Layout::right_to_left(Align::Center), |ui| {
ui.add_enabled(
false,
NumberEdit::new(&mut cta).arrows(false).hex(true),
);
});
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("CTA_L");
});
row.col(|ui| {
let mut cta_l = cta & 0xff;
ui.with_layout(Layout::right_to_left(Align::Center), |ui| {
ui.add_enabled(
false,
NumberEdit::new(&mut cta_l).arrows(false).hex(true),
);
});
});
});
body.row(row_height, |mut row| {
row.col(|ui| {
ui.label("CTA_R");
});
row.col(|ui| {
let mut cta_r = (cta >> 8) & 0xff;
ui.with_layout(Layout::right_to_left(Align::Center), |ui| {
ui.add_enabled(
false,
NumberEdit::new(&mut cta_r).arrows(false).hex(true),
);
});
});
});
});
ui.allocate_space(ui.available_size_before_wrap());
});
}
fn row_height(&self, ui: &mut Ui) -> f32 {
ui.spacing().interact_size.y + ui.style().visuals.selection.stroke.width
}
fn read_address<T: MemoryValue>(&self, address: usize) -> T {
read_address(&self.registers.borrow(), address)
}
}
fn read_address<T: MemoryValue>(registers: &MemoryRef, address: usize) -> T {
let index = (address - 0x0005f800) / size_of::<T>();
registers.read(index)
}
impl AppWindow for RegisterWindow {
fn viewport_id(&self) -> ViewportId {
ViewportId::from_hash_of(format!("registers-{}", self.sim_id))
}
fn sim_id(&self) -> SimId {
self.sim_id
}
fn initial_viewport(&self) -> ViewportBuilder {
ViewportBuilder::default()
.with_title(format!("Registers ({})", self.sim_id))
.with_inner_size((800.0, 480.0))
}
fn show(&mut self, ctx: &Context) {
CentralPanel::default().show(ctx, |ui| {
ScrollArea::vertical().show(ui, |ui| {
ui.horizontal_top(|ui| {
let width = ui.available_width();
let xspace = ui.spacing().item_spacing.x;
StripBuilder::new(ui)
.size(Size::exact(width * 0.25 - xspace))
.size(Size::exact(width * 0.225 - xspace))
.size(Size::exact(width * 0.325 - xspace))
.size(Size::exact(width * 0.2 - xspace))
.horizontal(|mut strip| {
strip.cell(|ui| {
self.show_interrupts(ui);
});
strip.strip(|nested| {
nested.sizes(Size::remainder(), 2).vertical(|mut strip| {
strip.cell(|ui| {
self.show_display_status(ui);
});
strip.cell(|ui| {
self.show_drawing_status(ui);
});
});
});
strip.cell(|ui| {
self.show_colors(ui);
});
strip.strip(|nested| {
nested.sizes(Size::remainder(), 2).vertical(|mut strip| {
strip.cell(|ui| {
self.show_objects(ui);
});
strip.cell(|ui| {
self.show_misc(ui);
});
});
});
});
});
});
});
}
}
struct InterruptReg {
timeerr: bool,
xpend: bool,
sbhit: bool,
framestart: bool,
gamestart: bool,
rfbend: bool,
lfbend: bool,
scanerr: bool,
}
impl InterruptReg {
fn parse(value: u16) -> Self {
Self {
timeerr: value & 0x8000 != 0,
xpend: value & 0x4000 != 0,
sbhit: value & 0x2000 != 0,
framestart: value & 0x0010 != 0,
gamestart: value & 0x0008 != 0,
rfbend: value & 0x0004 != 0,
lfbend: value & 0x0002 != 0,
scanerr: value & 0x0001 != 0,
}
}
fn update(&self, value: &mut u16) -> bool {
let new_value = (*value & 0x1fe0)
| if self.timeerr { 0x8000 } else { 0x0000 }
| if self.xpend { 0x4000 } else { 0x0000 }
| if self.sbhit { 0x2000 } else { 0x0000 }
| if self.framestart { 0x0010 } else { 0x0000 }
| if self.gamestart { 0x0008 } else { 0x0000 }
| if self.rfbend { 0x0004 } else { 0x0000 }
| if self.lfbend { 0x0002 } else { 0x0000 }
| if self.scanerr { 0x0001 } else { 0x0000 };
let changed = *value != new_value;
*value = new_value;
changed
}
}
struct DisplayReg {
lock: bool,
synce: bool,
re: bool,
fclk: bool,
scanrdy: bool,
r1bsy: bool,
l1bsy: bool,
r0bsy: bool,
l0bsy: bool,
disp: bool,
dprst: bool,
}
impl DisplayReg {
fn parse(value: u16) -> Self {
Self {
lock: value & 0x0400 != 0,
synce: value & 0x0200 != 0,
re: value & 0x0100 != 0,
fclk: value & 0x0080 != 0,
scanrdy: value & 0x0040 != 0,
r1bsy: value & 0x0020 != 0,
l1bsy: value & 0x0010 != 0,
r0bsy: value & 0x0008 != 0,
l0bsy: value & 0x0004 != 0,
disp: value & 0x0002 != 0,
dprst: value & 0x0001 != 0,
}
}
fn update(&self, value: &mut u16) -> bool {
let new_value = (*value & 0xf800)
| if self.lock { 0x0400 } else { 0x0000 }
| if self.synce { 0x0200 } else { 0x0000 }
| if self.re { 0x0100 } else { 0x0000 }
| if self.fclk { 0x0080 } else { 0x0000 }
| if self.scanrdy { 0x0040 } else { 0x0000 }
| if self.r1bsy { 0x0020 } else { 0x0000 }
| if self.l1bsy { 0x0010 } else { 0x0000 }
| if self.r0bsy { 0x0008 } else { 0x0000 }
| if self.l0bsy { 0x0004 } else { 0x0000 }
| if self.disp { 0x0002 } else { 0x0000 }
| if self.dprst { 0x0001 } else { 0x0000 };
let changed = *value != new_value;
*value = new_value;
changed
}
}
struct DrawingReg {
sbout: bool,
sbcount: u8,
overtime: bool,
f1bsy: bool,
f0bsy: bool,
xpen: bool,
xprst: bool,
}
impl DrawingReg {
fn parse(value: u16) -> Self {
Self {
sbout: value & 0x8000 != 0,
sbcount: (value >> 8) as u8 & 0x1f,
overtime: value & 0x0010 != 0,
f1bsy: value & 0x0008 != 0,
f0bsy: value & 0x0004 != 0,
xpen: value & 0x0002 != 0,
xprst: value & 0x0001 != 0,
}
}
fn update(&self, value: &mut u16) -> bool {
let new_value = (*value & 0x60e0)
| if self.sbout { 0x8000 } else { 0x0000 }
| (((self.sbcount & 0x1f) as u16) << 8)
| if self.overtime { 0x0010 } else { 0x0000 }
| if self.f1bsy { 0x0008 } else { 0x0000 }
| if self.f0bsy { 0x0004 } else { 0x0000 }
| if self.xpen { 0x0002 } else { 0x0000 }
| if self.xprst { 0x0001 } else { 0x0000 };
let changed = *value != new_value;
*value = new_value;
changed
}
}

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use egui::{Color32, Image, ImageSource, Response, Sense, TextureOptions, Ui, Widget};
pub const GENERIC_PALETTE: [u8; 4] = [0, 32, 64, 128];
pub fn shade(brt: u8, color: Color32) -> Color32 {
let corrected = if brt & 0x80 != 0 {
255
} else {
(brt << 1) | (brt >> 6)
};
color.gamma_multiply(corrected as f32 / 255.0)
}
pub fn generic_palette(color: Color32) -> [Color32; 4] {
GENERIC_PALETTE.map(|brt| shade(brt, color))
}
pub const fn parse_palette(palette: u8) -> [u8; 4] {
[
0,
(palette >> 2) & 0x03,
(palette >> 4) & 0x03,
(palette >> 6) & 0x03,
]
}
pub const fn parse_shades(brts: &[u8; 8]) -> [u8; 4] {
[
0,
brts[0],
brts[2],
brts[0].saturating_add(brts[2]).saturating_add(brts[4]),
]
}
pub fn parse_brts(brts: &[u16; 3], color: Color32) -> [Color32; 4] {
[
Color32::BLACK,
shade(brts[0] as u8, color),
shade(brts[1] as u8, color),
shade((brts[0] + brts[1] + brts[2]) as u8, color),
]
}
pub fn palette_colors(palette: u8, brts: &[u8; 8], color: Color32) -> [Color32; 4] {
let colors = parse_shades(brts).map(|s| shade(s, color));
parse_palette(palette).map(|p| colors[p as usize])
}
pub struct Object {
pub x: i16,
pub lon: bool,
pub ron: bool,
pub parallax: i16,
pub y: i16,
pub data: CellData,
}
impl Object {
pub fn parse(object: [u16; 4]) -> Self {
let x = ((object[0] & 0x03ff) << 6 >> 6) as i16;
let parallax = ((object[1] & 0x03ff) << 6 >> 6) as i16;
let lon = object[1] & 0x8000 != 0;
let ron = object[1] & 0x4000 != 0;
let y = (object[2] & 0x00ff) as i16;
// Y is stored as the bottom 8 bits of an i16,
// so only sign extend if it's out of range.
let y = if y > 224 { y << 8 >> 8 } else { y };
let data = CellData::parse(object[3]);
Self {
x,
lon,
ron,
parallax,
y,
data,
}
}
pub fn update(&self, source: &mut [u16; 4]) -> bool {
let mut changed = false;
let new_x = (self.x as u16 & 0x03ff) | (source[0] & 0xfc00);
changed |= source[0] != new_x;
source[0] = new_x;
let new_p = if self.lon { 0x8000 } else { 0x0000 }
| if self.ron { 0x4000 } else { 0x0000 }
| (self.parallax as u16 & 0x3ff)
| (source[1] & 0x3c00);
changed |= source[1] != new_p;
source[1] = new_p;
let new_y = (self.y as u16 & 0x00ff) | (source[2] & 0xff00);
changed |= source[2] != new_y;
source[2] = new_y;
if self.data.update(&mut source[3]) {
changed = true;
}
changed
}
}
pub struct CellData {
pub palette_index: usize,
pub hflip: bool,
pub vflip: bool,
pub char_index: usize,
}
impl CellData {
pub fn parse(cell: u16) -> Self {
let char_index = (cell & 0x7ff) as usize;
let vflip = cell & 0x1000 != 0;
let hflip = cell & 0x2000 != 0;
let palette_index = (cell >> 14) as usize;
Self {
char_index,
vflip,
hflip,
palette_index,
}
}
pub fn update(&self, source: &mut u16) -> bool {
let new_value = (self.palette_index as u16) << 14
| if self.hflip { 0x2000 } else { 0x0000 }
| if self.vflip { 0x1000 } else { 0x0000 }
| (self.char_index as u16 & 0x07ff)
| (*source & 0x0800);
let changed = *source != new_value;
*source = new_value;
changed
}
}
pub fn read_char_row(
char: &[u16; 8],
hflip: bool,
vflip: bool,
row: usize,
) -> impl Iterator<Item = u8> {
let pixels = if vflip { char[7 - row] } else { char[row] };
(0..16).step_by(2).map(move |i| {
let pixel = if hflip { 14 - i } else { i };
((pixels >> pixel) & 0x3) as u8
})
}
pub fn read_char_pixel(char: &[u16; 8], hflip: bool, vflip: bool, row: usize, col: usize) -> u8 {
let pixels = if vflip { char[7 - row] } else { char[row] };
let pixel = if hflip { 7 - col } else { col } << 1;
((pixels >> pixel) & 0x3) as u8
}
pub struct CharacterGrid<'a> {
source: ImageSource<'a>,
scale: f32,
show_grid: bool,
selected: Option<usize>,
}
impl<'a> CharacterGrid<'a> {
pub fn new(source: impl Into<ImageSource<'a>>) -> Self {
Self {
source: source.into(),
scale: 1.0,
show_grid: false,
selected: None,
}
}
pub fn with_scale(self, scale: f32) -> Self {
Self { scale, ..self }
}
pub fn with_grid(self, show_grid: bool) -> Self {
Self { show_grid, ..self }
}
pub fn with_selected(self, selected: usize) -> Self {
Self {
selected: Some(selected),
..self
}
}
pub fn show(self, ui: &mut Ui) -> Option<usize> {
let start_pos = ui.cursor().min;
let cell_size = 8.0 * self.scale;
let res = self.ui(ui);
let grid_width_cells = ((res.rect.max.x - res.rect.min.x) / cell_size).round() as usize;
if res.clicked() {
let click_pos = res.interact_pointer_pos()?;
let grid_pos = (click_pos - start_pos) / cell_size;
Some((grid_pos.y as usize * grid_width_cells) + grid_pos.x as usize)
} else {
None
}
}
}
impl Widget for CharacterGrid<'_> {
fn ui(self, ui: &mut Ui) -> Response {
let image = Image::new(self.source)
.fit_to_original_size(self.scale)
.texture_options(TextureOptions::NEAREST)
.sense(Sense::click());
let res = ui.add(image);
let cell_size = 8.0 * self.scale;
let grid_width_cells = ((res.rect.max.x - res.rect.min.x) / cell_size).round() as usize;
let grid_height_cells = ((res.rect.max.y - res.rect.min.y) / cell_size).round() as usize;
let painter = ui.painter_at(res.rect);
if self.show_grid {
let stroke = ui.style().visuals.widgets.noninteractive.fg_stroke;
for x in (1..grid_width_cells).map(|i| (i as f32) * cell_size) {
let p1 = (res.rect.min.x + x, res.rect.min.y).into();
let p2 = (res.rect.min.x + x, res.rect.max.y).into();
painter.line(vec![p1, p2], stroke);
}
for y in (1..grid_height_cells).map(|i| (i as f32) * cell_size) {
let p1 = (res.rect.min.x, res.rect.min.y + y).into();
let p2 = (res.rect.max.x, res.rect.min.y + y).into();
painter.line(vec![p1, p2], stroke);
}
}
if let Some(selected) = self.selected {
let x1 = (selected % grid_width_cells) as f32 * cell_size;
let x2 = x1 + cell_size;
let y1 = (selected / grid_width_cells) as f32 * cell_size;
let y2 = y1 + cell_size;
painter.line(
vec![
(res.rect.min + (x1, y1).into()),
(res.rect.min + (x2, y1).into()),
(res.rect.min + (x2, y2).into()),
(res.rect.min + (x1, y2).into()),
(res.rect.min + (x1, y1).into()),
],
ui.style().visuals.widgets.active.fg_stroke,
);
}
res
}
}

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src/window/vip/world.rs Normal file
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