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wip- big refactoring to generalize games

This commit is contained in:
Vivian Lim 2020-03-08 20:43:55 -07:00
parent 2b5f05deb4
commit 6d66f5e80b
11 changed files with 226 additions and 192 deletions
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2
.vscode/launch.json vendored
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@ -14,7 +14,7 @@
"cwd": "${workspaceFolder}", "cwd": "${workspaceFolder}",
"environment": [{ "environment": [{
"name": "RUST_BACKTRACE", "name": "RUST_BACKTRACE",
"value": "1" "value": "full"
}], }],
"externalConsole": false, "externalConsole": false,
}, },

42
src/emulator.rs → src/emulator/emulator.rs
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@ -4,8 +4,7 @@ use ferretro::retro::constants::{InputIndex, JoypadButton, AnalogAxis, DeviceTyp
use ferretro::retro::wrapped_types::{ControllerDescription2, InputDescriptor2, InputDeviceId, SubsystemInfo2, Variable2}; use ferretro::retro::wrapped_types::{ControllerDescription2, InputDescriptor2, InputDeviceId, SubsystemInfo2, Variable2};
use ferretro::retro::wrapper::LibretroWrapper; use ferretro::retro::wrapper::LibretroWrapper;
use ferretro_synced::sync::memory_rw::ReadWriteMemoryMap; use crate::sync::game::{SyncableGame, KnownGames, read_game_name, create_game};
use ferretro_synced::sync::pokemon_rb::SyncedPokemonRedBlue;
use std::ffi::CStr; use std::ffi::CStr;
use std::io::Read; use std::io::Read;
@ -48,8 +47,8 @@ pub struct MyEmulator {
gamepads: Vec<GameController>, gamepads: Vec<GameController>,
pressed_keys: Vec<Keycode>, pressed_keys: Vec<Keycode>,
// memory pub memory_map: Option<MemoryMap>,
synced_pokemonrb: SyncedPokemonRedBlue, synced_game: Option<Box<dyn SyncableGame>>,
} }
impl MyEmulator { impl MyEmulator {
@ -116,8 +115,11 @@ impl MyEmulator {
let pressed_keys = Vec::new(); let pressed_keys = Vec::new();
/*
let memory_map = std::default::Default::default(); let memory_map = std::default::Default::default();
let which_game = read_game_name("whatever");
let synced_pokemonrb = SyncedPokemonRedBlue::create(memory_map); let synced_pokemonrb = SyncedPokemonRedBlue::create(memory_map);
*/
let emu = MyEmulator { let emu = MyEmulator {
retro, retro,
@ -136,7 +138,8 @@ impl MyEmulator {
gamepad_subsys, gamepad_subsys,
gamepads, gamepads,
pressed_keys, pressed_keys,
synced_pokemonrb, memory_map: None,
synced_game: None,
}; };
let mut pin_emu = Box::pin(emu); let mut pin_emu = Box::pin(emu);
retro::wrapper::set_handler(pin_emu.as_mut()); retro::wrapper::set_handler(pin_emu.as_mut());
@ -144,9 +147,12 @@ impl MyEmulator {
pin_emu pin_emu
} }
pub fn begin_sync(&mut self, synced_game: Box<dyn SyncableGame>){
self.synced_game = Some(synced_game);
}
pub fn run(&mut self) { pub fn run(&mut self) {
self.audio_device.resume(); self.audio_device.resume();
self.synced_pokemonrb.start_comms();
let mut event_pump = self.sdl_context.event_pump().unwrap(); let mut event_pump = self.sdl_context.event_pump().unwrap();
'running: loop { 'running: loop {
let frame_begin = Instant::now(); let frame_begin = Instant::now();
@ -164,6 +170,18 @@ impl MyEmulator {
self.update_key_state(&event_pump.keyboard_state()); self.update_key_state(&event_pump.keyboard_state());
match &mut self.synced_game {
Some(g) => {
match g.handle_inbound_messages() {
Ok(_) => (),
Err(e) => {
println!("Error while handling inbound messages: {:?}", e);
}
}
},
None => ()
}
// The rest of the game loop goes here... // The rest of the game loop goes here...
self.retro.run(); self.retro.run();
self.canvas.present(); self.canvas.present();
@ -174,9 +192,13 @@ impl MyEmulator {
spf = 1.0 / 60.0; spf = 1.0 / 60.0;
} }
self.synced_pokemonrb.handle_inbound_msgs(); match &mut self.synced_game {
Some(g) => {
self.synced_pokemonrb.update_from_mem(); g.update_state();
g.send_state_messages();
},
None => ()
}
//println!("{}", self.synced_pokemonrb); //println!("{}", self.synced_pokemonrb);
Duration::from_secs_f64(spf) Duration::from_secs_f64(spf)
@ -410,7 +432,7 @@ impl retro::wrapper::Handler for MyEmulator {
} }
fn set_memory_maps(&mut self, memory_map: MemoryMap) -> bool { fn set_memory_maps(&mut self, memory_map: MemoryMap) -> bool {
self.synced_pokemonrb.libretro_set_memory_maps(memory_map); self.memory_map = Some(memory_map);
true true
} }
} }

20
src/sync/memory_rw.rs → src/emulator/libretro_memory_map.rs
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@ -1,13 +1,11 @@
use std::convert::TryFrom; use std::convert::TryFrom;
use std::default::Default;
use ferretro::retro::ffi::{MemoryMap}; use ferretro::retro::ffi::{MemoryMap};
#[derive(Default)] pub struct LibRetroMemoryMap {
pub struct ReadWriteMemoryMap { regions: Vec<LibRetroMemoryRegion>,
regions: Vec<MemoryRegion>,
} }
impl ReadWriteMemoryMap { impl LibRetroMemoryMap {
pub fn get_slice_from_region(&self, offset: usize, length: usize, bank_switch: usize) -> Option<&'static mut [u8]> { pub fn get_slice_from_region(&self, offset: usize, length: usize, bank_switch: usize) -> Option<&'static mut [u8]> {
match self.find_bank(offset, length, bank_switch) { match self.find_bank(offset, length, bank_switch) {
Some(ptr) => Some(unsafe { std::slice::from_raw_parts_mut(ptr as *mut u8, length) }), Some(ptr) => Some(unsafe { std::slice::from_raw_parts_mut(ptr as *mut u8, length) }),
@ -36,8 +34,8 @@ impl ReadWriteMemoryMap {
None None
} }
pub fn libretro_set_memory_maps(&mut self, memory_map: MemoryMap) { pub fn create(memory_map: &MemoryMap) -> Self {
let mut regions: Vec<MemoryRegion> = Vec::new(); let mut regions: Vec<LibRetroMemoryRegion> = Vec::new();
let num_descriptors = isize::try_from(memory_map.num_descriptors).unwrap(); let num_descriptors = isize::try_from(memory_map.num_descriptors).unwrap();
for i in 0..num_descriptors { for i in 0..num_descriptors {
let region = unsafe { &*memory_map.descriptors.offset(i) }; let region = unsafe { &*memory_map.descriptors.offset(i) };
@ -48,18 +46,20 @@ impl ReadWriteMemoryMap {
println!("truncating memory region {:x} from size {:x} to {:x} banks of size {:x}", region.start, region.len, region.len/length, length) println!("truncating memory region {:x} from size {:x} to {:x} banks of size {:x}", region.start, region.len, region.len/length, length)
} }
regions.push(MemoryRegion { regions.push(LibRetroMemoryRegion {
start: region.start, start: region.start,
end: region.start + length, end: region.start + length,
pointer: region.ptr, pointer: region.ptr,
}) })
} }
self.regions = regions; LibRetroMemoryMap {
regions: regions
}
} }
} }
struct MemoryRegion { struct LibRetroMemoryRegion {
start: usize, start: usize,
end: usize, end: usize,
pointer: *const std::ffi::c_void, pointer: *const std::ffi::c_void,

2
src/emulator/mod.rs Normal file
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@ -0,0 +1,2 @@
pub mod emulator;
pub mod libretro_memory_map;

3
src/lib.rs
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@ -4,4 +4,5 @@ extern crate num;
#[macro_use] #[macro_use]
extern crate num_derive; extern crate num_derive;
pub mod sync; pub mod sync;
pub mod emulator;

28
src/main.rs
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@ -7,18 +7,42 @@ extern crate serde_bytes;
use structopt::StructOpt; use structopt::StructOpt;
use std::path::{Path, PathBuf}; use std::path::{Path, PathBuf};
mod emulator; use ferretro_synced::emulator::emulator::MyEmulator;
use emulator::MyEmulator; use ferretro_synced::emulator::libretro_memory_map::LibRetroMemoryMap;
use ferretro_synced::sync::game::{SyncableGame, KnownGames, read_game_name, create_game};
use ferretro_synced::sync::comms::CommunicationSettings;
pub fn main() -> failure::Fallible<()> { pub fn main() -> failure::Fallible<()> {
let opt: Opt = Opt::from_args(); let opt: Opt = Opt::from_args();
let mut emu = MyEmulator::new(&opt.core, &opt.system); let mut emu = MyEmulator::new(&opt.core, &opt.system);
emu.load_game(&opt.rom); emu.load_game(&opt.rom);
// memory map should be ready after init & loading game.
let ffi_memory_map = emu.memory_map.as_ref().expect("Memory map was not set by emulator core, cannot continue.");
let memory_map = LibRetroMemoryMap::create(ffi_memory_map);
match (&opt.state) { match (&opt.state) {
Some(s) => emu.load_state(s), Some(s) => emu.load_state(s),
None => () None => ()
} }
let which_game = read_game_name("assume you can get it from emu".to_string());
let comms_settings = CommunicationSettings {
connection: "ws://127.0.0.1:8765".to_string()
};
match which_game {
Some(which_game) => {
let synced_game = create_game(which_game, comms_settings, &memory_map);
emu.begin_sync(synced_game);
},
None => {
println!("Game is unknown, not syncing.")
}
}
//let mut comms = Communication::new::<ferretro_synced::sync::pokemon_rb::Message>(); //let mut comms = Communication::new::<ferretro_synced::sync::pokemon_rb::Message>();
emu.run(); emu.run();

13
src/sync/comms.rs
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@ -20,15 +20,19 @@ pub struct Communication<T> {
outbound_thread: JoinHandle<Result<(), failure::Error>>, outbound_thread: JoinHandle<Result<(), failure::Error>>,
} }
pub struct CommunicationSettings {
pub connection: String
}
impl<T> Communication<T> where T: std::marker::Send, T: Serialize, T: DeserializeOwned, T: 'static { impl<T> Communication<T> where T: std::marker::Send, T: Serialize, T: DeserializeOwned, T: 'static {
pub fn new() -> Self { pub fn new(settings: CommunicationSettings) -> Self {
let (tx, from_main): (Sender<OwnedMessage>, Receiver<OwnedMessage>) = mpsc::channel(); let (tx, from_main): (Sender<OwnedMessage>, Receiver<OwnedMessage>) = mpsc::channel();
let (to_main, rx): (Sender<T>, Receiver<T>) = mpsc::channel(); let (to_main, rx): (Sender<T>, Receiver<T>) = mpsc::channel();
// transmitter for ping and close messages // transmitter for ping and close messages
let tx_1 = tx.clone(); let tx_1 = tx.clone();
let ws_client = ClientBuilder::new(CONNECTION) let ws_client = ClientBuilder::new(settings.connection.as_str())
.unwrap() .unwrap()
.add_protocol("rust-websocket") .add_protocol("rust-websocket")
.connect_insecure() .connect_insecure()
@ -124,9 +128,4 @@ impl<T> Communication<T> where T: std::marker::Send, T: Serialize, T: Deserializ
pub fn try_recv(&mut self) -> Result<T, std::sync::mpsc::TryRecvError> { pub fn try_recv(&mut self) -> Result<T, std::sync::mpsc::TryRecvError> {
self.rx.try_recv() self.rx.try_recv()
} }
}
struct WebsocketClient<T> {
thread_tx: Sender<T>,
thread_rx: Receiver<T>,
} }

30
src/sync/game.rs Normal file
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@ -0,0 +1,30 @@
use crate::sync::pokemon_rb::SyncedPokemonRedBlue;
use crate::sync::comms::CommunicationSettings;
use crate::emulator::libretro_memory_map::LibRetroMemoryMap;
pub trait SyncableGame {
// Update internal state based on tracked memory and the emulator
fn update_state(&mut self);
// Check for messages and handle them
fn handle_inbound_messages(&mut self) -> Result<(), failure::Error>;
// Check for messages and handle them
fn send_state_messages(&mut self) -> Result<(), failure::Error>;
}
pub enum KnownGames {
PokemonRedBlue,
}
pub fn read_game_name(name: String) -> Option<KnownGames> {
Some(KnownGames::PokemonRedBlue) // todo: actually read the name of the game
}
pub fn create_game(which_game: KnownGames, comms_settings: CommunicationSettings, memory_map: &LibRetroMemoryMap) -> Box<dyn SyncableGame> {
match which_game {
KnownGames::PokemonRedBlue => Box::from(SyncedPokemonRedBlue::create(comms_settings, memory_map))
}
}

55
src/sync/memory_slice_handle.rs Normal file
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@ -0,0 +1,55 @@
use crate::emulator::libretro_memory_map::LibRetroMemoryMap;
pub struct MemorySliceHandle<'a> {
pub offset: usize,
pub length: usize,
pub bank_switch: usize,
pub slice: Option<&'a mut [u8]>,
pub last_read_value: Option<Vec<u8>>,
}
impl MemorySliceHandle<'_> {
pub fn create(offset: usize, length: usize, bank_switch: usize, memory_map: &LibRetroMemoryMap) -> Self {
let slice = memory_map.get_slice_from_region(offset, length, bank_switch);
MemorySliceHandle {
offset: offset,
length: length,
bank_switch: bank_switch,
slice,
last_read_value: None
}
}
pub fn get_copy_if_changed_since_last_read(&mut self) -> Option<Vec<u8>> {
match &mut self.slice {
None => None,
Some(data) => match &mut self.last_read_value {
None => {
// last read value isn't allocated yet
let last = data.to_vec();
self.last_read_value = Some(last);
self.last_read_value.clone()
},
Some(last) => {
let mut index: usize = 0;
let mut any_changes = false;
for value in data.into_iter() {
if last[index] != *value {
last[index] = *value;
any_changes = true;
}
index += 1;
}
if any_changes {
return Some(last.clone());
}
None
}
}
}
}
}

5
src/sync/mod.rs
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@ -1,3 +1,4 @@
pub mod pokemon_rb; pub mod pokemon_rb;
pub mod memory_rw; pub mod comms;
pub mod comms; pub mod memory_slice_handle;
pub mod game;

218
src/sync/pokemon_rb.rs
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@ -1,181 +1,77 @@
use std::default::Default; use std::default::Default;
use std::fmt::Display; use std::fmt::Display;
use crate::sync::memory_rw::ReadWriteMemoryMap; use crate::emulator::libretro_memory_map::LibRetroMemoryMap;
use serde::{Serialize, Deserialize}; use serde::{Serialize, Deserialize};
use ferretro::retro::wrapper::LibretroWrapper; // want LibretroWrapper.api : LibretroApi.get_memory() use ferretro::retro::wrapper::LibretroWrapper; // want LibretroWrapper.api : LibretroApi.get_memory()
use crate::num::ToPrimitive; use crate::num::ToPrimitive;
use crate::sync::comms::Communication; use crate::sync::comms::Communication;
use crate::sync::comms::CommunicationSettings;
use crate::sync::memory_slice_handle::MemorySliceHandle;
use crate::sync::game::SyncableGame;
pub struct SyncedPokemonRedBlue { pub struct SyncedPokemonRedBlue {
raw: Raw<'static>, memory_handles: PokemonRedBlueMemoryHandles<'static>,
battle_context: BattleContext, battle_context: BattleContext,
comms: Option<Communication<Message>> comms: Communication<PokemonRedBlueMessage>
} }
#[derive(Serialize, Deserialize)] #[derive(Serialize, Deserialize)]
pub struct Message { pub struct PokemonRedBlueMessage {
active_pkmn: Option<Vec<u8>> active_pkmn: Option<Vec<u8>>
} }
impl From<&mut Raw<'_>> for Message { impl From<&mut PokemonRedBlueMemoryHandles<'_>> for PokemonRedBlueMessage {
fn from(src: &mut Raw) -> Self { fn from(src: &mut PokemonRedBlueMemoryHandles) -> Self {
Message { PokemonRedBlueMessage {
active_pkmn: src.active_pokemon_raw.get_copy_if_changed_since_last_read() active_pkmn: src.active_pokemon.get_copy_if_changed_since_last_read()
} }
} }
} }
struct Raw<'a> { struct PokemonRedBlueMemoryHandles<'a> {
active_pokemon_raw: EmulatorMemory<'a>, active_pokemon: MemorySliceHandle<'a>,
player_and_party: EmulatorMemory<'a>, player_and_party: MemorySliceHandle<'a>,
pokemon_out: EmulatorMemory<'a>, pokemon_out: MemorySliceHandle<'a>,
pub memory_map: ReadWriteMemoryMap,
}
struct EmulatorMemory<'a> {
offset: usize,
length: usize,
bank_switch: usize,
pub slice: Option<&'a mut [u8]>,
last_read_value: Option<Vec<u8>>,
}
impl EmulatorMemory<'_> {
pub fn update_slice(&mut self, map: &ReadWriteMemoryMap) {
self.slice = map.get_slice_from_region(self.offset, self.length, self.bank_switch);
}
pub fn get_copy_if_changed_since_last_read(&mut self) -> Option<Vec<u8>> {
match &mut self.slice {
None => None,
Some(data) => match &mut self.last_read_value {
None => {
// last read value isn't allocated yet
let mut last = vec![0; data.len()];
last.copy_from_slice(data);
self.last_read_value = Some(last);
self.last_read_value.clone()
},
Some(last) => {
let mut index: usize = 0;
let mut any_changes = false;
for value in data.into_iter() {
if last[index] != *value {
last[index] = *value;
any_changes = true;
}
index += 1;
}
if any_changes {
return Some(last.clone());
}
None
}
}
}
}
} }
struct BattleContext { struct BattleContext {
active_pokemon: Pokemon, active_pokemon: Pokemon,
} }
impl SyncableGame for SyncedPokemonRedBlue {
impl SyncedPokemonRedBlue { fn update_state(&mut self) {
pub fn update_from_mem(&mut self) {
let battle_context = BattleContext { let battle_context = BattleContext {
active_pokemon: match &self.raw.active_pokemon_raw.slice { active_pokemon: match &self.memory_handles.active_pokemon.slice {
Some(d) => num::FromPrimitive::from_u8(d[0xB]).unwrap_or(Pokemon::Unknown), Some(d) => num::FromPrimitive::from_u8(d[0xB]).unwrap_or(Pokemon::Unknown),
None => Pokemon::Unknown None => Pokemon::Unknown
} }
}; };
// test to see that we can indeed write back to the slice
// match self.raw.active_pokemon_raw.get_slice(mem){
// Some(s) => {
// s[0xD] = 69
// },
// _ => ()
// }
self.battle_context = battle_context; self.battle_context = battle_context;
}
let message: Message = (&mut self.raw).into(); fn send_state_messages(&mut self) -> Result<(), failure::Error>{
let message: PokemonRedBlueMessage = (&mut self.memory_handles).into();
match &mut self.comms { if !message.active_pkmn.is_none() {
Some(comms) => { self.comms.send(message)
comms.send(message); }
}, else {
None => () Ok(())
} }
} }
pub fn handle_inbound_msgs(&mut self) -> Result<(), failure::Error>{ fn handle_inbound_messages(&mut self) -> Result<(), failure::Error>{
let in_msg = self.comms.as_mut().ok_or(failure::err_msg("comms doesn't exist, can't handle inbound msgs"))?.try_recv()?; let in_msg = self.comms.try_recv()?;
self.handle_message(in_msg) self.handle_message(in_msg)
} }
fn handle_message(&mut self, msg: Message) -> Result<(), failure::Error> {
match msg.active_pkmn {
Some(src) => {
println!("message contains a new active pokemon. data: {:?}", &src);
let target_slice = self.raw.active_pokemon_raw.slice.as_mut().ok_or(failure::err_msg("can't write message back to None memory slice"))?;
if src.len() != target_slice.len() {
return Err(failure::err_msg("message size and slice size differ."));
}
let mut index: usize = 0;
for value in src.into_iter(){
target_slice[index] = value;
index += 1;
}
Ok(())
}
None => Ok(())
}
}
// pub fn get_message<'a>(&self) -> Message {
// Message {
// active_pkmn: Box::from(&self.raw.active_pokemon_raw.clone())
// }
// }
} }
impl Raw<'_> { impl PokemonRedBlueMemoryHandles<'_> {
pub fn create(map: ReadWriteMemoryMap) -> Self { pub fn create(memory_map: &LibRetroMemoryMap) -> Self {
Raw { PokemonRedBlueMemoryHandles {
active_pokemon_raw: EmulatorMemory { active_pokemon: MemorySliceHandle::create(0xd009, 0x27, 0, memory_map),
offset: 0xd009, player_and_party: MemorySliceHandle::create(0xd158, 0x19e, 0, memory_map),
length: 0x27, pokemon_out: MemorySliceHandle::create(0xcc2f, 0x1, 0, memory_map),
bank_switch: 0,
slice: None,
last_read_value: None,
},
player_and_party: EmulatorMemory {
offset: 0xd158,
length: 0x19e,
bank_switch: 0,
slice: None,
last_read_value: None,
},
pokemon_out: EmulatorMemory {
offset: 0xcc2f,
length: 0x1,
bank_switch: 0,
slice: None,
last_read_value: None,
},
memory_map: map
} }
} }
} }
@ -195,31 +91,34 @@ impl Display for SyncedPokemonRedBlue {
} }
impl SyncedPokemonRedBlue { impl SyncedPokemonRedBlue {
pub fn create(map: ReadWriteMemoryMap) -> Self { pub fn create(comms_settings: CommunicationSettings, memory_map: &LibRetroMemoryMap) -> Self {
SyncedPokemonRedBlue { SyncedPokemonRedBlue {
raw: Raw::create(map), memory_handles: PokemonRedBlueMemoryHandles::create(memory_map),
battle_context: BattleContext::default(), battle_context: BattleContext::default(),
comms: None, comms: Communication::new(comms_settings),
} }
} }
pub fn libretro_set_memory_maps(&mut self, libretro_memory_map: ferretro::retro::ffi::MemoryMap) { fn handle_message(&mut self, msg: PokemonRedBlueMessage) -> Result<(), failure::Error> {
self.raw.libretro_set_memory_maps(libretro_memory_map) match msg.active_pkmn {
} Some(src) => {
println!("message contains a new active pokemon. data: {:?}", &src);
let target_slice = self.memory_handles.active_pokemon.slice.as_mut().ok_or(failure::err_msg("can't write message back to None memory slice"))?;
if src.len() != target_slice.len() {
return Err(failure::err_msg("message size and slice size differ."));
}
pub fn start_comms(&mut self) { let mut index: usize = 0;
self.comms = Some(Communication::new()); for value in src.into_iter(){
} target_slice[index] = value;
} index += 1;
}
impl Raw<'_> { Ok(())
pub fn libretro_set_memory_maps(&mut self, libretro_memory_map: ferretro::retro::ffi::MemoryMap) {
self.memory_map.libretro_set_memory_maps(libretro_memory_map);
// update our slices }
self.active_pokemon_raw.update_slice(&self.memory_map); None => Ok(())
self.player_and_party.update_slice(&self.memory_map); }
self.pokemon_out.update_slice(&self.memory_map);
} }
} }
@ -384,8 +283,8 @@ mod tests {
use super::*; use super::*;
use serde_json; use serde_json;
fn build_message(em: &EmulatorMemory) -> Message { fn build_message(em: &MemorySliceHandle) -> PokemonRedBlueMessage {
Message { PokemonRedBlueMessage {
active_pkmn: match &em.slice { active_pkmn: match &em.slice {
Some(m) => Some(m.to_vec()), Some(m) => Some(m.to_vec()),
None => None None => None
@ -397,11 +296,12 @@ mod tests {
fn serde_mem() -> Result<(), String> { fn serde_mem() -> Result<(), String> {
let mut data: [u8; 5] = [1, 2, 3, 4, 5]; let mut data: [u8; 5] = [1, 2, 3, 4, 5];
let b: &mut [u8] = &mut data; let b: &mut [u8] = &mut data;
let slice = EmulatorMemory { let slice = MemorySliceHandle {
offset: 0, offset: 0,
length: 0, length: 0,
bank_switch: 0, bank_switch: 0,
slice: Some(b), slice: Some(b),
last_read_value: None
}; };
let message = build_message(&slice); let message = build_message(&slice);
@ -410,7 +310,7 @@ mod tests {
println!("serialized data: {}", serialized); println!("serialized data: {}", serialized);
let deserialized: Message = serde_json::from_str(&serialized).unwrap(); let deserialized: PokemonRedBlueMessage = serde_json::from_str(&serialized).unwrap();
assert_eq!(deserialized.active_pkmn.unwrap()[0], data[0]); assert_eq!(deserialized.active_pkmn.unwrap()[0], data[0]);
Ok(()) Ok(())