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dranke:master dranke:gh-pages dranke:v0.2.1-cherry-picking dranke:testing dranke:v0.2.1-sound-fix dranke:zig-game dranke:next dranke:sprites dranke:gpu-window dranke:sound dranke:browser-run
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34 Commits
v0.1.2 ... a5edeb21d8

Author SHA1 Message Date
Dennis Ranke
a5edeb21d8 update some dependencies 2022-04-17 22:32:59 +02:00
Dennis Ranke
2839fe5be4 implement sound in native runtime 2022-04-17 22:16:17 +02:00
Dennis Ranke
893158e136 use setTimeout instead of requestAnimationFrame for 60 fps update 2022-04-17 12:26:01 +02:00
Dennis Ranke
7c5f43f152 Merge branch 'master' into sound 2022-04-11 00:23:08 +02:00
Dennis Ranke
f32b0762b0 update curlywas 2022-04-11 00:18:26 +02:00
Dennis Ranke
9ebb6b6d34 pause module when page doesn't have focus 2022-04-10 23:24:04 +02:00
Dennis Ranke
8a10b99eeb fix non-windows build 2022-04-08 21:22:34 +02:00
Dennis Ranke
6c064a1dd8 enable ansi terminal on windows 10 cmd 2022-04-08 21:11:51 +02:00
Dennis Ranke
37f12f5a2c update web runtime 2022-04-04 09:31:43 +02:00
Dennis Ranke
8ad2885a55 implement ring modulation 2022-04-02 18:19:45 +02:00
Dennis Ranke
1917057b81 fixed one pole filter, wide stereo bit 2022-04-02 00:06:04 +02:00
Dennis Ranke
82c1ddb867 improve attack and noise 2022-04-01 00:40:56 +02:00
Dennis Ranke
8713aa8930 adjust tim_ges to new soundchip version 2022-03-19 22:55:40 +01:00
Dennis Ranke
0f82e6e711 removed aliasing in rect and saw oscilators 2022-03-19 14:53:21 +01:00
Dennis Ranke
0ade24ebf6 add source file to build wasm module with just ges emulation 2022-03-19 11:03:05 +01:00
Dennis Ranke
29186c806f add pulse width support to other wave types 2022-03-10 23:05:07 +01:00
Dennis Ranke
b626d2609a implement proper exponential envelope timings 2022-03-09 23:03:15 +01:00
Dennis Ranke
39ead8220f slight optimization, add pulse width modulation to melody voices 2022-03-09 09:22:27 +01:00
Dennis Ranke
ce18a8a162 add initial pulse width support 2022-03-08 22:52:12 +01:00
Dennis Ranke
a15e796489 first full version of time for ges 2022-03-08 22:20:54 +01:00
Dennis Ranke
f178076b86 all basic wave forms, filters, panning 2022-03-08 09:46:35 +01:00
Dennis Ranke
81adcf0198 implement more of the sound-chip 2022-03-07 23:58:54 +01:00
Dennis Ranke
780caf965a sync sound registers to sound thread 2022-03-07 09:35:11 +01:00
Dennis Ranke
2033f9a172 wait for audio ready before starting cart, add button to unsuspend audio 
fixes missing sound when auto-starting cart in chrome
 2022-03-06 14:08:44 +01:00
Dennis Ranke
0d514c7dd3 steady on now down to 197 bytes 2022-03-06 10:13:48 +01:00
Dennis Ranke
a8eb3bda27 some clean up and optimization on steady on tim 2022-03-05 23:54:13 +01:00
Dennis Ranke
8b765a5742 Merge branch 'master' into sound 2022-03-05 23:10:14 +01:00
Dennis Ranke
7197c11586 fix microw8.html no-autoload mode 2022-03-05 23:10:04 +01:00
Dennis Ranke
99a423619e fix watch mode not working when initial compile fails 2022-03-05 21:18:55 +01:00
Dennis Ranke
9063e872d3 ported steady on tim as a sound test 2022-03-04 23:38:27 +01:00
Dennis Ranke
85240599e8 first working version with sound 2022-03-04 09:50:10 +01:00
Dennis Ranke
35ec5fdb59 add simple bytebeat example to test first implementation with 2022-03-02 22:42:23 +01:00
Dennis Ranke
a6a82ff5a1 update wasmtime version 2022-03-02 21:50:26 +01:00
Dennis Ranke
973814a629 update hero link to 0.1.2 2022-03-02 08:54:34 +01:00
24 changed files with 1380 additions and 450 deletions
Expand all files Collapse all files

818
Cargo.lock generated
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File diff suppressed because it is too large Load Diff

10
Cargo.toml
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@@ -11,16 +11,18 @@ native = ["wasmtime"]
browser = ["warp", "tokio", "tokio-stream", "webbrowser"]
[dependencies]
wasmtime = { version = "0.30", optional = true }
wasmtime = { version = "0.35.3", optional = true }
anyhow = "1"
minifb = { version = "0.20", default-features = false, features = ["x11"] }
minifb = { version = "0.22", default-features = false, features = ["x11"] }
notify = "4"
pico-args = "0.4"
curlywas = { git = "https://github.com/exoticorn/curlywas.git", rev = "89638565" }
curlywas = { git = "https://github.com/exoticorn/curlywas.git", rev = "aac7bbd" }
wat = "1"
uw8-tool = { path = "uw8-tool" }
same-file = "1"
warp = { version = "0.3.2", optional = true }
tokio = { version = "1.17.0", features = ["sync", "rt"], optional = true }
tokio-stream = { version = "0.1.8", features = ["sync"], optional = true }
webbrowser = { version = "0.6.0", optional = true }
webbrowser = { version = "0.6.0", optional = true }
ansi_term = "0.12.1"
cpal = "0.13.5"

38
examples/curlywas/steadyon.cwa Normal file
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@@ -0,0 +1,38 @@
// Steady On Tim, It's Only A Budget Game
// by Gasman / Hooy-Program
// ported to MicroW8 by exoticorn/icebird
include "../include/microw8-api.cwa"
fn melody(t: i32, T: i32) -> i32 {
let inline riff_pos = abs(((T&31) - 16) as f32) as i32;
let lazy shift = ((1-((T>>5)&3))%2-1) as f32 / 6 as f32;
let inline note_count = 5 - (T >= 512);
let inline octave = (riff_pos/5) as f32;
let inline riff_note = 5514 >> (riff_pos % note_count * 4) & 15;
let inline melody_freq = pow(2 as f32, shift + octave - (riff_note as f32 / 12 as f32));
let inline melody = (t as f32 * melody_freq) as i32 & 128;
let inline arp_note = ((0x85>>((t>>12)%3*4)) & 15) - 1;
let inline arp_freq = pow(2 as f32, shift + (arp_note as f32 / 12 as f32));
let inline arp_vol = (T >= 256) * (12-T%12);
let inline arpeggio = ((t as f32 * arp_freq) as i32 & 128) * arp_vol / 12;
melody + arpeggio
}
export fn snd(t: i32) -> f32 {
let lazy T = t/10000;
let inline mel_arp = melody(t, T)/3 + melody(t, T-3)/5;
let inline bass_vol = (T >= 128) & (197 >> (T % 8));
let inline bass_freq = pow(2 as f32, (((T & 4) * ((T & 7) - 1)) as f32 / 24 as f32 - 5 as f32));
let inline bass = ((t as f32 * bass_freq) as i32 & 63) * bass_vol;
let inline snare_ish = (random() & 31) * (8 - (T + 4) % 8) / 8;
let inline sample = mel_arp + bass + snare_ish;
sample as f32 / 255 as f32
}

59
examples/curlywas/tim_ges.cwa Normal file
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@@ -0,0 +1,59 @@
import "env.memory" memory(4);
fn melody(ch: i32, t: i32, T: i32) {
let lazy riff_pos = abs(((T&31) - 16) as f32) as i32;
let lazy shift = ((1-((T>>5)&3))%2-1) * 2;
let inline note_count = 5 - (T >= 512);
let inline octave = (riff_pos/5) * 12;
let inline riff_note = 5514 >> (riff_pos % note_count * 4) & 15;
let inline melody_note = shift + octave - riff_note;
ch?1 = 248 - riff_pos * 15;
ch?3 = melody_note + 64;
let inline arp_note = shift + ((0x85>>((t/2)%3*4)) & 15) - 1;
80?3 = arp_note + 64;
}
export fn upd() {
let lazy t = 32!32 / (1000/60);
let lazy T = t / 7;
melody(98, t, T - 3);
melody(92, t, T);
80?0 = ((T >= 256) & (T/12+(T-3)/12)) * 2 | 0x44; // arp trigger
if T >= 128 {
let inline bass_step = T % 8;
86?3 = if bass_step / 2 == 2 {
86?0 = 0xc2;
80
} else {
86?0 = ((197 >> bass_step) & 1) | 0x48;
((T & 4) * ((T & 7) - 1)) / 2 + 28
};
}
}
data 80 {
i8(
0, 0x81, 0, 0, 0, 0x90,
0, 0x4c, 0, 0, 0, 0x5c,
5, 0, 0, 0, 0, 0x4c,
5, 0, 0, 0, 0, 0x4c,
0xfa, 0x85,
0x81, 0x81, 0, 110, 0, 90
)
}
/*
include "../../platform/src/ges.cwa"
import "env.pow" fn pow(f32, f32) -> f32;
import "env.sin" fn sin(f32) -> f32;
export fn snd(t: i32) -> f32 {
gesSnd(t)
}
*/

2
platform/Cargo.lock generated
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@@ -146,7 +146,7 @@ checksum = "7a81dae078cea95a014a339291cec439d2f232ebe854a9d672b796c6afafa9b7"
[[package]]
name = "curlywas"
version = "0.1.0"
source = "git+https://github.com/exoticorn/curlywas.git?rev=89638565#896385654ab2c089200920b6dea4abec641c88d6"
source = "git+https://github.com/exoticorn/curlywas.git?rev=aac7bbd#aac7bbd8786a26da0dcbe8320b1afefaf6086464"
dependencies = [
"anyhow",
"ariadne",

2
platform/Cargo.toml
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@@ -6,7 +6,7 @@ edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]
curlywas = { git="https://github.com/exoticorn/curlywas.git", rev="89638565" }
curlywas = { git="https://github.com/exoticorn/curlywas.git", rev="aac7bbd" }
uw8-tool = { path="../uw8-tool" }
anyhow = "1"
lodepng = "3.4"

BIN
platform/bin/platform.uw8
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Binary file not shown.

221
platform/src/ges.cwa Normal file
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@@ -0,0 +1,221 @@
const GesChannelState.Trigger = 0;
const GesChannelState.EnvState = 1;
const GesChannelState.EnvVol = 2;
const GesChannelState.Phase = 4;
const GesChannelState.Size = 8;
const GesState.Filter = GesChannelState.Size * 4;
const GesState.Size = GesState.Filter + 8*4;
const GesStateOffset = 112;
const GesBufferOffset = 112 + GesState.Size;
export fn gesSnd(t: i32) -> f32 {
if !(t & 127) {
let i: i32;
loop clearLoop {
i!GesBufferOffset = 0;
branch_if (i := i + 4) < 128*8: clearLoop;
}
let ch: i32;
loop channelLoop {
let lazy channelState = GesStateOffset + ch * GesChannelState.Size;
let lazy channelReg = 80 + ch * 6;
let envState = channelState?GesChannelState.EnvState;
let envVol = i32.load16_u(channelState, GesChannelState.EnvVol);
let lazy oldTrigger = channelState?GesChannelState.Trigger;
let lazy ctrl = channelReg?0;
if (oldTrigger ^ ctrl) & (ctrl | 2) & 3 {
envState = 1;
envVol = 0;
}
channelState?GesChannelState.Trigger = ctrl;
if envState {
let lazy attack = channelReg?4 & 15;
envVol = envVol + 12 * pow(1.675, (15 - attack) as f32) as i32;
if envVol >= 65535 {
envVol = 65535;
envState = 0;
}
} else {
let inline decay = (channelReg - (ctrl & 1))?5 >> 4;
let inline dec = 8 * pow(1.5625, (15 - decay) as f32) as i32;
envVol = envVol - ((dec * (envVol + 8192)) >> 16);
let inline sustain = (channelReg?5 & 15) << 12;
let lazy targetVol = (ctrl & 1) * sustain;
if envVol < targetVol {
envVol = targetVol;
}
}
channelState?GesChannelState.EnvState = envState;
i32.store16(envVol, channelState, GesChannelState.EnvVol);
let inline note = i32.load16_u(channelReg, 2);
let lazy freq = 440 as f32 * pow(2.0, (note - 69*256) as f32 / (12*256) as f32);
let phaseInc = (freq * (65536.0 / 44100.0)) as i32;
let phase = channelState!GesChannelState.Phase;
let inline pulseWidth = channelReg?1;
let phaseShift = (pulseWidth - 128) * 255;
let invPhaseInc = 1 as f32 / phaseInc as f32;
i = 0;
let wave = ctrl >> 6;
if wave < 2 {
if wave {
let pulsePhase1 = pulseWidth << 23;
let pulsePhase2 = (511 - pulseWidth) << 23;
loop sawLoop {
let p = (phase ^ 32768) << 16;
let saw = (p >> 16) - polyBlep(phase, invPhaseInc, -32767);
let saw2 = select(p #>= pulsePhase1 & p #< pulsePhase2, -saw, saw);
let saw2 = saw2 -
polyBlep((p - pulsePhase1) >> 16, invPhaseInc, -saw) -
polyBlep((p - pulsePhase2) >> 16, invPhaseInc, saw);
i!(GesBufferOffset + 128*4) = saw2;
phase = phase + phaseInc;
branch_if (i := i + 4) < 64*4: sawLoop;
}
}
else
{
let pulsePhase = 32768 + pulseWidth * 128;
loop rectLoop {
i!(GesBufferOffset + 128*4) = select((phase & 65535) < pulsePhase, -32768, 32767) -
polyBlep(phase, invPhaseInc, -32767) -
polyBlep(phase - pulsePhase, invPhaseInc, 32767);
phase = phase + phaseInc;
branch_if (i := i + 4) < 64*4: rectLoop;
}
}
} else {
if wave == 2 {
let scale = pulseWidth + 256;
loop triLoop {
let s = phase << 16;
s = (s ^ (s >> 31));
s = (s >> 8) * scale;
s = (s ^ (s >> 31));
i!(GesBufferOffset + 128*4) = (s >> 15) - 32768;
phase = phase + phaseInc;
branch_if (i := i + 4) < 64*4: triLoop;
}
} else {
loop noiseLoop {
let s = phase >> 12;
let inline pulse = ((phase >> 8) & 255) >= pulseWidth;
s = s * 0x6746ba73;
s = s ^ (s >> 15) * pulse;
i!(GesBufferOffset + 128*4) = (s * 0x835776c7) >> 16;
phase = phase + phaseInc;
branch_if (i := i + 4) < 64*4: noiseLoop;
}
}
}
channelState!GesChannelState.Phase = phase;
if ctrl & 32 {
let lazy modSrc = (ch - 1) & 3;
let inline channelState = GesStateOffset + modSrc * GesChannelState.Size;
let inline channelReg = 80 + modSrc * 6;
let inline note = i32.load16_u(channelReg, 2);
let inline freq = 440 as f32 * pow(2.0, (note - 69*256) as f32 / (12*256) as f32);
let phaseInc = (freq * (65536.0 / 44100.0)) as i32;
let phase = channelState!GesChannelState.Phase;
if modSrc > ch {
phase = phase - (phaseInc << 6);
}
i = 0;
loop ringLoop {
let s = phase << 16;
s = (s ^ (s >> 31));
i!(GesBufferOffset + 128*4) = (i!(GesBufferOffset + 128*4) * ((s >> 15) - 32768)) >> 15;
phase = phase + phaseInc;
branch_if (i := i + 4) < 64*4: ringLoop;
}
}
let channelVol = ((ch >> 1)?0x68 >> ((ch & 1) * 4)) & 15;
envVol = envVol * channelVol / 15;
let leftVol = (select(ctrl & 16, 0x3d5b, 0x6a79) >> (ch * 4)) & 15;
let rightVol = 16 - leftVol;
let lazy filter = (ctrl >> 2) & 3;
i = 0;
if filter < 2 {
if filter {
let f = (4096 as f32 - min(4096 as f32, 4096 as f32 * exp(freq * (-8.0 * 3.141 / 44100.0)))) as i32;
let low = (ch * 8)!(GesStateOffset + GesState.Filter);
loop filterLoop {
let in = (i!(GesBufferOffset + 128*4) * envVol) >> 18;
low = low + (((in - low) * f) >> 12);
(i * 2)!GesBufferOffset = (i * 2)!GesBufferOffset + ((low * leftVol) >> 4);
(i * 2)!(GesBufferOffset + 4) = (i * 2)!(GesBufferOffset + 4) + ((low * rightVol) >> 4);
branch_if (i := i + 4) < 64*4: filterLoop;
(ch * 8)!(GesStateOffset + GesState.Filter) = low;
(ch * 8)!(GesStateOffset + GesState.Filter + 4) = 0;
}
} else {
loop mixLoop {
let sample = (i!(GesBufferOffset + 128*4) * envVol) >> 18;
(i * 2)!GesBufferOffset = (i * 2)!GesBufferOffset + ((sample * leftVol) >> 4);
(i * 2)!(GesBufferOffset + 4) = (i * 2)!(GesBufferOffset + 4) + ((sample * rightVol) >> 4);
branch_if (i := i + 4) < 64*4: mixLoop;
(ch * 8)!(GesStateOffset + GesState.Filter) = sample;
(ch * 8)!(GesStateOffset + GesState.Filter + 4) = 0;
}
}
} else {
filter = filter - 2;
let ctrl = filter?0x6a;
let note = i32.load16_u(filter * 2, 0x6c);
let inline freq = 440 as f32 * pow(2.0, (note - 69*256) as f32 / (12*256) as f32);
let F = (8192 as f32 * sin(min(0.25, freq / 44100 as f32) * 3.1415)) as i32;
let Q = 8192 - (ctrl >> 4) * (7000/15);
let Qlimit = (8192*4096/F - F/2) * 3 / 4;
if Q > Qlimit {
Q = Qlimit;
}
let low_out = ctrl & 1;
let high_out = (ctrl >> 1) & 1;
let band_out = (ctrl >> 2) & 1;
let low = (ch * 8)!(GesStateOffset + GesState.Filter);
let band = (ch * 8)!(GesStateOffset + GesState.Filter + 4);
loop filterLoop {
let in = (i!(GesBufferOffset + 128*4) * envVol) >> 18;
let high = in - low - ((band * Q) >> 12);
band = band + ((F * high) >> 12);
low = low + ((F * band) >> 12);
let sample = low * low_out + high * high_out + band * band_out;
(i * 2)!GesBufferOffset = (i * 2)!GesBufferOffset + ((sample * leftVol) >> 4);
(i * 2)!(GesBufferOffset + 4) = (i * 2)!(GesBufferOffset + 4) + ((sample * rightVol) >> 4);
branch_if (i := i + 4) < 64*4: filterLoop;
(ch * 8)!(GesStateOffset + GesState.Filter) = low;
(ch * 8)!(GesStateOffset + GesState.Filter + 4) = band;
}
}
branch_if (ch := ch + 1) < 4: channelLoop;
}
}
(((t & 127) * 4)!GesBufferOffset) as f32 / 32768 as f32
}
fn polyBlep(transientPhase: i32, invPhaseInc: f32, magnitude: i32) -> i32 {
let lazy t = ((transientPhase << 16) >> 16) as f32 * invPhaseInc;
let lazy x = max(0 as f32, 1 as f32 - abs(t));
(f32.copysign(x * x, t) * magnitude as f32) as i32
}

6
platform/src/ges_only.cwa Normal file
View File

@@ -0,0 +1,6 @@
import "env.memory" memory(1);
import "env.sin" fn sin(f32) -> f32;
import "env.pow" fn pow(f32, f32) -> f32;
import "env.exp" fn exp(f32) -> f32;
include "ges.cwa"

10
platform/src/main.rs
View File

@@ -11,16 +11,16 @@ fn main() -> Result<()> {
convert_font()?;
println!("Compiling loader module");
let loader = curlywas::compile_file("src/loader.cwa", curlywas::Options::default())?;
File::create("bin/loader.wasm")?.write_all(&loader.wasm)?;
let loader = curlywas::compile_file("src/loader.cwa", curlywas::Options::default()).0?;
File::create("bin/loader.wasm")?.write_all(&loader)?;
println!("Loader (including base module): {} bytes", loader.wasm.len());
println!("Loader (including base module): {} bytes", loader.len());
println!("Compiling platform module");
let platform = curlywas::compile_file("src/platform.cwa", curlywas::Options::default())?;
let platform = curlywas::compile_file("src/platform.cwa", curlywas::Options::default()).0?;
println!("Compressing platform module");
let platform = uw8_tool::pack(
&platform.wasm,
&platform,
&uw8_tool::PackConfig::default().with_compression_level(4),
)?;
File::create("bin/platform.uw8")?.write_all(&platform)?;

32
platform/src/platform.cwa
View File

@@ -1,6 +1,9 @@
import "env.memory" memory(4);
import "env.sin" fn sin(f32) -> f32;
import "env.cos" fn cos(f32) -> f32;
import "env.pow" fn pow(f32, f32) -> f32;
import "env.exp" fn exp(f32) -> f32;
export fn time() -> f32 {
(0!64) as f32 / 1000 as f32
@@ -500,6 +503,12 @@ export fn setCursorPosition(x: i32, y: i32) {
textCursorY = y * scale;
}
///////////
// SOUND //
///////////
include "ges.cwa"
///////////
// SETUP //
///////////
@@ -508,6 +517,13 @@ export fn endFrame() {
68!4 = 68!0;
}
fn memclr(base: i32, size: i32) {
loop bytes {
(base + (size := size - 1))?0 = 0;
branch_if size: bytes;
}
}
start fn setup() {
let i: i32 = 12*16*3-1;
let avg: f32;
@@ -540,10 +556,26 @@ start fn setup() {
branch_if (i := i - 1) >= 0: expand_sweetie;
}
memclr(0, 64);
memclr(112, 8);
memclr(0x14000, 0x2c000);
cls(0);
randomSeed(random());
}
data 80 {
i8(
0, 128, 0, 69, 0x8, 0xc8,
0, 128, 0, 69, 0x8, 0xc8,
0, 128, 0, 69, 0x8, 0xc8,
0, 128, 0, 69, 0x8, 0xc8,
0xff, 0xff,
1, 1, 0, 100, 0, 100
)
}
data 0x13000+192*4 {
i32(
0x2c1c1a,

36
site/content/docs.md
View File

@@ -18,7 +18,9 @@ The memory has to be imported as `env` `memory` and has a maximum size of 256kb
00000-00040: user memory
00040-00044: time since module start in ms
00044-0004c: gamepad state
0004c-00078: reserved
0004c-00050: reserved
00050-00070: sound registers
00070-00078: reserved
00078-12c78: frame buffer
12c78-13000: reserved
13000-13400: palette
@@ -269,6 +271,38 @@ Sets the background color.
Sets the cursor position. In normal mode `x` and `y` are multiplied by 8 to get the pixel position, in graphics mode they are used as is.
## Sound
```
Per channel:
00 : CTRL - wave form, ring, sync, filter send, trigger
bit 0: note on flag
bit 1: note trigger
bit 2,3: filter 0,1 send
bit 6,7: wave form (rect, saw, tri, noise)
01 : PULS - pulse width
02 : FINE - fine tuning
03 : NOTE - note
04 : ENVA - attack, decay
05 : ENVR - sustain, release
50-56: channel 0
56-5b: channel 1
5c-61: channel 2
62-67: channel 3
68: VO01 - volumes channel 0&1
69: VO23 - volumes channel 2&3
6a : FCTR 0 - type, resonance
6b : FCTR 1 - type, resonance
6c : FFIN 0 - cutoff fine tuning
6d : FNOT 0 - cutoff note
6e : FFIN 1 - cutoff fine tuning
6f : FNOT 1 - cutoff note
```
# The `uw8` tool
The `uw8` tool included in the MicroW8 download includes a number of useful tools for developing MicroW8 carts. For small productions written in

2
site/templates/index.html
View File

@@ -4,7 +4,7 @@
<section>
<h1 class="text-center heading-text">A WebAssembly based fantasy console</h1>
</section>
<a href="v0.1.1">
<a href="v0.1.2">
<img class="demonstration-gif" style="width:640px;height:480px;image-rendering:pixelated" src="img/technotunnel.png"></img>
</a>
</div>

110
src/main.rs
View File

@@ -15,6 +15,10 @@ use uw8::Runtime;
fn main() -> Result<()> {
let mut args = Arguments::from_env();
// try to enable ansi support in win10 cmd shell
#[cfg(target_os="windows")]
let _ = ansi_term::enable_ansi_support();
match args.subcommand()?.as_deref() {
Some("version") => {
println!("{}", env!("CARGO_PKG_VERSION"));
@@ -101,19 +105,16 @@ fn run(mut args: Arguments) -> Result<()> {
while runtime.is_open() {
if first_run || watcher.poll_changed_file()?.is_some() {
match start_cart(&filename, &mut *runtime, &config) {
Ok(dependencies) => {
if watch_mode {
for dep in dependencies {
watcher.add_file(dep)?;
}
}
let (result, dependencies) = start_cart(&filename, &mut *runtime, &config);
if watch_mode {
for dep in dependencies {
watcher.add_file(dep)?;
}
Err(err) => {
eprintln!("Load error: {}", err);
if !watch_mode {
exit(1);
}
}
if let Err(err) = result {
eprintln!("Load error: {}", err);
if !watch_mode {
exit(1);
}
}
first_run = false;
@@ -136,37 +137,45 @@ struct Config {
output_path: Option<PathBuf>,
}
fn load_cart(filename: &Path, config: &Config) -> Result<(Vec<u8>, Vec<PathBuf>)> {
fn load_cart(filename: &Path, config: &Config) -> (Result<Vec<u8>>, Vec<PathBuf>) {
let mut dependencies = Vec::new();
let mut cart = match SourceType::of_file(filename)? {
SourceType::Binary => {
let mut cart = vec![];
File::open(filename)?.read_to_end(&mut cart)?;
dependencies.push(filename.to_path_buf());
cart
}
SourceType::Wat => {
let cart = wat::parse_file(filename)?;
dependencies.push(filename.to_path_buf());
cart
}
SourceType::CurlyWas => {
let module = curlywas::compile_file(filename, curlywas::Options::default())?;
dependencies = module.dependencies;
module.wasm
}
};
fn inner(filename: &Path, config: &Config, dependencies: &mut Vec<PathBuf>) -> Result<Vec<u8>> {
let mut cart = match SourceType::of_file(filename)? {
SourceType::Binary => {
let mut cart = vec![];
File::open(filename)?.read_to_end(&mut cart)?;
cart
}
SourceType::Wat => {
let cart = wat::parse_file(filename)?;
cart
}
SourceType::CurlyWas => {
let (module, deps) = curlywas::compile_file(filename, curlywas::Options::default());
*dependencies = deps;
module?
}
};
if let Some(ref pack_config) = config.pack {
cart = uw8_tool::pack(&cart, pack_config)?;
println!("packed size: {} bytes", cart.len());
if let Some(ref pack_config) = config.pack {
cart = uw8_tool::pack(&cart, pack_config)?;
println!("packed size: {} bytes", cart.len());
}
if let Some(ref path) = config.output_path {
File::create(path)?.write_all(&cart)?;
}
Ok(cart)
}
if let Some(ref path) = config.output_path {
File::create(path)?.write_all(&cart)?;
let result = inner(filename, config, &mut dependencies);
if dependencies.is_empty() {
dependencies.push(filename.to_path_buf());
}
Ok((cart, dependencies))
(result, dependencies)
}
enum SourceType {
@@ -205,14 +214,22 @@ impl SourceType {
}
#[cfg(any(feature = "native", feature = "browser"))]
fn start_cart(filename: &Path, runtime: &mut dyn Runtime, config: &Config) -> Result<Vec<PathBuf>> {
let cart = load_cart(filename, config)?;
fn start_cart(
filename: &Path,
runtime: &mut dyn Runtime,
config: &Config,
) -> (Result<()>, Vec<PathBuf>) {
let (cart, dependencies) = load_cart(filename, config);
let cart = match cart {
Ok(cart) => cart,
Err(err) => return (Err(err), dependencies),
};
if let Err(err) = runtime.load(&cart.0) {
if let Err(err) = runtime.load(&cart) {
eprintln!("Load error: {}", err);
Err(err)
(Err(err), dependencies)
} else {
Ok(cart.1)
(Ok(()), dependencies)
}
}
@@ -231,13 +248,14 @@ fn pack(mut args: Arguments) -> Result<()> {
let out_file = args.free_from_os_str::<PathBuf, bool>(|s| Ok(s.into()))?;
let (cart, _) = load_cart(
let cart = load_cart(
&in_file,
&Config {
pack: Some(pack_config),
output_path: None,
},
)?;
)
.0?;
File::create(out_file)?.write_all(&cart)?;
@@ -260,8 +278,8 @@ fn compile(mut args: Arguments) -> Result<()> {
let in_file = args.free_from_os_str::<PathBuf, bool>(|s| Ok(s.into()))?;
let out_file = args.free_from_os_str::<PathBuf, bool>(|s| Ok(s.into()))?;
let module = curlywas::compile_file(in_file, options)?;
File::create(out_file)?.write_all(&module.wasm)?;
let module = curlywas::compile_file(in_file, options).0?;
File::create(out_file)?.write_all(&module)?;
Ok(())
}

2
src/run-web.html
View File

File diff suppressed because one or more lines are too long

178
src/run_native.rs
View File

@@ -1,8 +1,9 @@
use std::sync::{Arc, Mutex};
use std::sync::{mpsc, Arc, Mutex};
use std::time::Duration;
use std::{thread, time::Instant};
use anyhow::Result;
use anyhow::{anyhow, Result};
use cpal::traits::*;
use minifb::{Key, Window, WindowOptions};
use wasmtime::{
Engine, GlobalType, Memory, MemoryType, Module, Mutability, Store, TypedFunc, ValType,
@@ -32,10 +33,11 @@ struct UW8Instance {
store: Store<()>,
memory: Memory,
end_frame: TypedFunc<(), ()>,
update: TypedFunc<(), ()>,
update: Option<TypedFunc<(), ()>>,
start_time: Instant,
module: Vec<u8>,
watchdog: Arc<Mutex<UW8WatchDog>>,
sound: Uw8Sound,
}
impl Drop for UW8Instance {
@@ -86,6 +88,11 @@ impl MicroW8 {
}
}
struct Uw8Sound {
stream: cpal::Stream,
tx: mpsc::SyncSender<[u8; 32]>,
}
impl super::Runtime for MicroW8 {
fn is_open(&self) -> bool {
self.window.is_open() && !self.window.is_key_down(Key::Escape)
@@ -119,43 +126,62 @@ impl super::Runtime for MicroW8 {
let module_length = load_uw8.call(&mut store, module_data.len() as i32)? as u32 as usize;
let module = wasmtime::Module::new(&self.engine, &memory.data(&store)[..module_length])?;
linker.func_wrap("env", "acos", |v: f32| v.acos())?;
linker.func_wrap("env", "asin", |v: f32| v.asin())?;
linker.func_wrap("env", "atan", |v: f32| v.atan())?;
linker.func_wrap("env", "atan2", |x: f32, y: f32| x.atan2(y))?;
linker.func_wrap("env", "cos", |v: f32| v.cos())?;
linker.func_wrap("env", "exp", |v: f32| v.exp())?;
linker.func_wrap("env", "log", |v: f32| v.ln())?;
linker.func_wrap("env", "sin", |v: f32| v.sin())?;
linker.func_wrap("env", "tan", |v: f32| v.tan())?;
linker.func_wrap("env", "pow", |a: f32, b: f32| a.powf(b))?;
for i in 9..64 {
linker.func_wrap("env", &format!("reserved{}", i), || {})?;
}
for i in 0..16 {
linker.define(
"env",
&format!("g_reserved{}", i),
wasmtime::Global::new(
&mut store,
GlobalType::new(ValType::I32, Mutability::Const),
0.into(),
)?,
)?;
fn add_native_functions(
linker: &mut wasmtime::Linker<()>,
store: &mut wasmtime::Store<()>,
) -> Result<()> {
linker.func_wrap("env", "acos", |v: f32| v.acos())?;
linker.func_wrap("env", "asin", |v: f32| v.asin())?;
linker.func_wrap("env", "atan", |v: f32| v.atan())?;
linker.func_wrap("env", "atan2", |x: f32, y: f32| x.atan2(y))?;
linker.func_wrap("env", "cos", |v: f32| v.cos())?;
linker.func_wrap("env", "exp", |v: f32| v.exp())?;
linker.func_wrap("env", "log", |v: f32| v.ln())?;
linker.func_wrap("env", "sin", |v: f32| v.sin())?;
linker.func_wrap("env", "tan", |v: f32| v.tan())?;
linker.func_wrap("env", "pow", |a: f32, b: f32| a.powf(b))?;
for i in 10..64 {
linker.func_wrap("env", &format!("reserved{}", i), || {})?;
}
for i in 0..16 {
linker.define(
"env",
&format!("g_reserved{}", i),
wasmtime::Global::new(
&mut *store,
GlobalType::new(ValType::I32, Mutability::Const),
0.into(),
)?,
)?;
}
Ok(())
}
let platform_instance = linker.instantiate(&mut store, &platform_module)?;
add_native_functions(&mut linker, &mut store)?;
for export in platform_instance.exports(&mut store) {
linker.define(
"env",
export.name(),
export
.into_func()
.expect("platform surely only exports functions"),
)?;
fn instantiate_platform(
linker: &mut wasmtime::Linker<()>,
store: &mut wasmtime::Store<()>,
platform_module: &wasmtime::Module,
) -> Result<wasmtime::Instance> {
let platform_instance = linker.instantiate(&mut *store, &platform_module)?;
for export in platform_instance.exports(&mut *store) {
linker.define(
"env",
export.name(),
export
.into_func()
.expect("platform surely only exports functions"),
)?;
}
Ok(platform_instance)
}
let platform_instance = instantiate_platform(&mut linker, &mut store, &platform_module)?;
let watchdog = Arc::new(Mutex::new(UW8WatchDog {
interupt: store.interrupt_handle()?,
timeout: self.timeout,
@@ -187,7 +213,77 @@ impl super::Runtime for MicroW8 {
watchdog.timeout = 0;
}
let end_frame = platform_instance.get_typed_func::<(), (), _>(&mut store, "endFrame")?;
let update = instance.get_typed_func::<(), (), _>(&mut store, "upd")?;
let update = instance.get_typed_func::<(), (), _>(&mut store, "upd").ok();
let sound = {
let mut store = wasmtime::Store::new(&self.engine, ());
let memory = wasmtime::Memory::new(&mut store, MemoryType::new(4, Some(4)))?;
let mut linker = wasmtime::Linker::new(&self.engine);
linker.define("env", "memory", memory)?;
add_native_functions(&mut linker, &mut store)?;
let platform_instance =
instantiate_platform(&mut linker, &mut store, &platform_module)?;
let instance = linker.instantiate(&mut store, &module)?;
let snd = instance
.get_typed_func::<(i32,), f32, _>(&mut store, "snd")
.or_else(|_| {
platform_instance.get_typed_func::<(i32,), f32, _>(&mut store, "gesSnd")
})?;
let host = cpal::default_host();
let device = host
.default_output_device()
.ok_or_else(|| anyhow!("No audio output device available"))?;
let config = device
.supported_output_configs()?
.find(|config| {
config.min_sample_rate().0 <= 44100
&& config.max_sample_rate().0 >= 44100
&& config.channels() == 2
&& config.sample_format() == cpal::SampleFormat::F32
})
.ok_or_else(|| anyhow!("Could not find 44.1kHz float config"))?;
let config = config.with_sample_rate(cpal::SampleRate(44100));
let buffer_size = match *config.buffer_size() {
cpal::SupportedBufferSize::Unknown => cpal::BufferSize::Default,
cpal::SupportedBufferSize::Range { min, max } => {
cpal::BufferSize::Fixed(256.max(min).min(max))
}
};
let config = cpal::StreamConfig {
buffer_size,
..config.config()
};
let (tx, rx) = mpsc::sync_channel::<[u8; 32]>(1);
let mut sample_index = 0;
let stream = {
device.build_output_stream(
&config,
move |buffer: &mut [f32], _| {
if let Ok(regs) = rx.try_recv() {
memory.write(&mut store, 80, &regs).unwrap();
}
for v in buffer {
*v = snd.call(&mut store, (sample_index,)).unwrap_or(0.0);
sample_index = sample_index.wrapping_add(1);
}
},
move |err| {
dbg!(err);
},
)?
};
Uw8Sound { stream, tx }
};
sound.stream.play()?;
self.instance = Some(UW8Instance {
store,
@@ -197,6 +293,7 @@ impl super::Runtime for MicroW8 {
start_time: Instant::now(),
module: module_data.into(),
watchdog,
sound,
});
Ok(())
@@ -227,13 +324,20 @@ impl super::Runtime for MicroW8 {
if let Ok(mut watchdog) = instance.watchdog.lock() {
watchdog.timeout = self.timeout;
}
result = instance.update.call(&mut instance.store, ());
if let Some(ref update) = instance.update {
result = update.call(&mut instance.store, ());
}
if let Ok(mut watchdog) = instance.watchdog.lock() {
watchdog.timeout = 0;
}
instance.end_frame.call(&mut instance.store, ())?;
let memory = instance.memory.data(&instance.store);
let mut sound_regs = [0u8; 32];
sound_regs.copy_from_slice(&memory[80..112]);
instance.sound.tx.send(sound_regs)?;
let framebuffer = &memory[120..(120 + 320 * 240)];
let palette = &memory[0x13000..];
for (i, &color_index) in framebuffer.iter().enumerate() {

30
test/ges_test.cwa Normal file
View File

@@ -0,0 +1,30 @@
import "env.memory" memory(4);
import "env.pow" fn pow(f32, f32) -> f32;
import "env.sin" fn sin(f32) -> f32;
import "env.cls" fn cls(i32);
import "env.rectangle" fn rectangle(f32, f32, f32, f32, i32);
include "../platform/src/ges.cwa"
export fn snd(t: i32) -> f32 {
gesSnd(t)
}
export fn upd() {
80?0 = 32!32 / 200 & 2 | 0x41;
80?3 = (32!32 / 400)%7*12/7 + 40;
let pulse = (32!32 * 256 / 2000) & 511;
if pulse >= 256 {
pulse = 511 - pulse;
}
80?1 = pulse;
cls(0);
rectangle(0.0, 100.0, (pulse * 320 / 256) as f32, 16.0, 15);
}
data 80 {
i8(
0x41, 0, 0, 80, 0x70, 0
)
}

59
tests/plot_ges.cwa Normal file
View File

@@ -0,0 +1,59 @@
include "../examples/include/microw8-api.cwa"
export fn upd() {
80?0 = (32!32 >> 11 << 6) | 5;
80?1 = (sin(time() * 6 as f32) * 95 as f32) as i32 + 128;
plotGes();
}
data 80 { i8 (
1, 128, 0, 69, 0, 15,
0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0,
0xff, 0xff,
0xc1, 0, 0, 110, 0, 0
) }
//import "env.gesSnd" fn gesSnd(i32) -> f32;
include "../platform/src/ges.cwa"
export fn snd(t: i32) -> f32 {
gesSnd(t)
}
global mut samplePos: i32 = 0;
const SoundBuffer = 0x30000;
fn plotGes() {
rectangle(0 as f32, 10 as f32, 320 as f32, 320 as f32, 0);
let count = (time() * 44100 as f32) as i32 * 2 - samplePos;
let i: i32;
loop genLoop {
(i*4)$SoundBuffer = gesSnd(samplePos + i);
branch_if (i := i + 1) < count: genLoop;
}
samplePos = samplePos + count;
let ch: i32;
loop channelLoop {
let offset = 159;
i = 0;
loop searchLoop {
offset = offset + 1;
branch_if (offset * 8 + ch - 8)$SoundBuffer < 0 as f32 | (offset * 8 + ch)$SoundBuffer >= 0 as f32 & offset + 160 < count: searchLoop;
}
offset = ch + (offset - 160) * 8;
i = 0;
loop plotLoop {
setPixel(i, floor((i * 8 + offset)$SoundBuffer * 127 as f32) as i32 + 60 + ch * (120/8), 15);
branch_if (i := i + 1) < 320: plotLoop;
}
branch_if (ch := ch + 8) < 16: channelLoop;
}
}

2
web/run Executable file
View File

@@ -0,0 +1,2 @@
#!/bin/bash
rm -rf .parcel-cache && yarn parcel src/index.html

69
web/src/audiolet.js Normal file
View File

@@ -0,0 +1,69 @@
let U8 = (...a) => new Uint8Array(...a);
class APU extends AudioWorkletProcessor {
constructor() {
super();
this.sampleIndex = 0;
this.port.onmessage = (ev) => {
if(this.memory) {
U8(this.memory.buffer, 80, 32).set(U8(ev.data));
} else {
this.load(ev.data[0], ev.data[1]);
}
};
}
async load(platform_data, data) {
let memory = new WebAssembly.Memory({ initial: 4, maximum: 4 });
let importObject = {
env: {
memory
},
};
for (let n of ['acos', 'asin', 'atan', 'atan2', 'cos', 'exp', 'log', 'sin', 'tan', 'pow']) {
importObject.env[n] = Math[n];
}
for (let i = 9; i < 64; ++i) {
importObject.env['reserved' + i] = () => { };
}
for (let i = 0; i < 16; ++i) {
importObject.env['g_reserved' + i] = 0;
}
let instantiate = async (data) => (await WebAssembly.instantiate(data, importObject)).instance;
let platform_instance = await instantiate(platform_data);
for (let name in platform_instance.exports) {
importObject.env[name] = platform_instance.exports[name]
}
let instance = await instantiate(data);
this.memory = memory;
this.snd = instance.exports.snd || platform_instance.exports.gesSnd;
this.port.postMessage(2);
}
process(inputs, outputs, parameters) {
if(this.snd) {
let channels = outputs[0];
let index = this.sampleIndex;
let numSamples = channels[0].length;
for(let i = 0; i < numSamples; ++i) {
channels[0][i] = this.snd(index++);
channels[1][i] = this.snd(index++);
}
this.sampleIndex = index & 0xffffffff;
}
return true;
}
}
registerProcessor('apu', APU);

7
web/src/index.html
View File

@@ -13,10 +13,11 @@
<a href="https://exoticorn.github.io/microw8">MicroW8</a> 0.1.2
</div>
<div id="centered">
<canvas id="screen" width="320" height="240">
<canvas class="screen" id="screen" width="320" height="240">
</canvas>
<div id="timer" hidden="true"></div>
<div id="message"></div>
<button class="screen" id="start" style="display:none">Click to start</button>
<div id="timer" hidden="true"></div>
<div id="message"></div>
<button id="cartButton" style="visibility:hidden">Load cart...</button>
</div>
<div id="footer">

5
web/src/main.js
View File

@@ -12,6 +12,7 @@ let uw8 = MicroW8(document.getElementById('screen'), {
setMessage,
keyboardElement: window,
timerElement: document.getElementById("timer"),
startButton: document.getElementById("start")
});
function runModuleFromHash() {
@@ -79,7 +80,9 @@ if(location.hash.length != 0) {
url += 'cart.uw8';
}
try {
await uw8.runModuleFromURL(url, true);
if(!await uw8.runModuleFromURL(url, true)) {
setupLoad();
}
} catch(e) {
setupLoad();
}

117
web/src/microw8.js
View File

@@ -1,5 +1,15 @@
import loaderUrl from "data-url:../../platform/bin/loader.wasm";
import platformUrl from "data-url:../../platform/bin/platform.uw8";
import audioWorkletUrl from "data-url:./audiolet.js";
class AudioNode extends AudioWorkletNode {
constructor(context) {
super(context, 'apu', {outputChannelCount: [2]});
}
}
let U8 = (...a) => new Uint8Array(...a);
let U32 = (...a) => new Uint32Array(...a);
export default function MicroW8(screen, config = {}) {
if(!config.setMessage) {
@@ -18,9 +28,6 @@ export default function MicroW8(screen, config = {}) {
let currentData;
let U8 = (d) => new Uint8Array(d);
let U32 = (d) => new Uint32Array(d);
let pad = 0;
let keyboardElement = config.keyboardElement == undefined ? screen : config.keyboardElement;
if(keyboardElement) {
@@ -90,6 +97,15 @@ export default function MicroW8(screen, config = {}) {
cancelFunction = null;
}
let audioContext = new AudioContext({sampleRate: 44100});
let keepRunning = true;
let abortController = new AbortController();
cancelFunction = () => {
audioContext.close();
keepRunning = false;
abortController.abort();
}
let cartridgeSize = data.byteLength;
config.setMessage(cartridgeSize);
@@ -97,6 +113,40 @@ export default function MicroW8(screen, config = {}) {
return;
}
await audioContext.audioWorklet.addModule(audioWorkletUrl);
let audioNode = new AudioNode(audioContext);
let audioReadyFlags = 0;
let audioReadyResolve;
let audioReadyPromise = new Promise(resolve => audioReadyResolve = resolve);
let updateAudioReady = (f) => {
audioReadyFlags |= f;
if(audioReadyFlags == 3 && audioReadyResolve) {
audioReadyResolve(true);
audioReadyResolve = null;
}
};
audioNode.port.onmessage = (e) => updateAudioReady(e.data);
let audioStateChange = () => {
if(audioContext.state == 'suspended') {
if(config.startButton) {
config.startButton.style = '';
screen.style = 'display:none';
}
(config.startButton || screen).onclick = () => {
audioContext.resume();
};
} else {
if(config.startButton) {
config.startButton.style = 'display:none';
screen.style = '';
}
updateAudioReady(1);
}
};
audioContext.onstatechange = audioStateChange;
audioStateChange();
currentData = data;
let newURL = window.location.pathname;
@@ -119,7 +169,7 @@ export default function MicroW8(screen, config = {}) {
if(!devkitMode) {
memSize.maximum = 4;
}
let memory = new WebAssembly.Memory({ initial: 4, maximum: devkitMode ? 16 : 4 });
let memory = new WebAssembly.Memory(memSize);
let memU8 = U8(memory.buffer);
let importObject = {
@@ -142,9 +192,9 @@ export default function MicroW8(screen, config = {}) {
let instantiate = async (data) => (await WebAssembly.instantiate(data, importObject)).instance;
let loadModuleURL = async (url) => instantiate(loadModuleData(await (await fetch(url)).arrayBuffer()));
let loadModuleURL = async (url) => loadModuleData(await (await fetch(url)).arrayBuffer());
loader = await loadModuleURL(loaderUrl);
loader = await instantiate(await loadModuleURL(loaderUrl));
for (let n of ['acos', 'asin', 'atan', 'atan2', 'cos', 'exp', 'log', 'sin', 'tan', 'pow']) {
importObject.env[n] = Math[n];
@@ -160,7 +210,10 @@ export default function MicroW8(screen, config = {}) {
data = loadModuleData(data);
let platform_instance = await loadModuleURL(platformUrl);
let platform_data = await loadModuleURL(platformUrl);
audioNode.port.postMessage([platform_data, data]);
let platform_instance = await instantiate(platform_data);
for (let name in platform_instance.exports) {
importObject.env[name] = platform_instance.exports[name]
@@ -169,14 +222,33 @@ export default function MicroW8(screen, config = {}) {
let instance = await instantiate(data);
let buffer = U32(imageData.data.buffer);
await audioReadyPromise;
let startTime = Date.now();
let keepRunning = true;
cancelFunction = () => keepRunning = false;
const timePerFrame = 1000 / 60;
let nextFrame = startTime;
audioNode.connect(audioContext.destination);
let isPaused = false;
let pauseTime = startTime;
let updateVisibility = isVisible => {
let now = Date.now();
if(isVisible) {
isPaused = false;
audioContext.resume();
startTime += now - pauseTime;
} else {
isPaused = true;
audioContext.suspend();
pauseTime = now;
}
};
window.addEventListener('focus', () => updateVisibility(true), { signal: abortController.signal });
window.addEventListener('blur', () => updateVisibility(false), { signal: abortController.signal });
updateVisibility(document.hasFocus());
function mainloop() {
if (!keepRunning) {
@@ -184,9 +256,8 @@ export default function MicroW8(screen, config = {}) {
}
try {
let now = Date.now();
let restart = false;
if (now >= nextFrame) {
if (!isPaused) {
let gamepads = navigator.getGamepads();
let gamepad = 0;
for (let i = 0; i < 4; ++i) {
@@ -214,23 +285,30 @@ export default function MicroW8(screen, config = {}) {
}
let u32Mem = U32(memory.buffer);
u32Mem[16] = now - startTime;
u32Mem[16] = Date.now() - startTime;
u32Mem[17] = pad | gamepad;
instance.exports.upd();
if(instance.exports.upd) {
instance.exports.upd();
}
platform_instance.exports.endFrame();
let soundRegisters = new ArrayBuffer(32);
U8(soundRegisters).set(U8(memory.buffer, 80, 32));
audioNode.port.postMessage(soundRegisters, [soundRegisters]);
let palette = U32(memory.buffer.slice(0x13000, 0x13000 + 1024));
let palette = U32(memory.buffer, 0x13000, 1024);
for (let i = 0; i < 320 * 240; ++i) {
buffer[i] = palette[memU8[i + 120]] | 0xff000000;
}
canvasCtx.putImageData(imageData, 0, 0);
nextFrame = Math.max(nextFrame + timePerFrame, now);
}
let now = Date.now();
nextFrame = Math.max(nextFrame + timePerFrame, now);
if (restart) {
runModule(currentData);
} else {
window.requestAnimationFrame(mainloop);
window.setTimeout(mainloop, Math.round(nextFrame - now))
}
} catch (err) {
config.setMessage(cartridgeSize, err.toString());
@@ -305,10 +383,11 @@ export default function MicroW8(screen, config = {}) {
async function runModuleFromURL(url, keepUrl) {
let response = await fetch(url);
let type = response.headers.get('Content-Type');
if(type && type.includes('html')) {
throw false;
if((type && type.includes('html')) || response.status != 200) {
return false;
}
runModule(await response.arrayBuffer(), keepUrl || devkitMode);
return true;
}
return {

15
web/src/style.css
View File

@@ -37,7 +37,7 @@ a:hover {
color: #405040;
}
#screen {
.screen {
width: 320px;
height: 240px;
image-rendering: pixelated;
@@ -45,9 +45,16 @@ a:hover {
margin-bottom: 8px;
border: 4px solid #303040;
box-shadow: 5px 5px 20px black;
}
#screen {
cursor: none;
}
#start {
font-size: 150%;
}
#timer::before {
content: '';
display: inline-block;
@@ -84,21 +91,21 @@ button:active {
}
@media (min-width: 680px) and (min-height: 620px) {
#screen {
.screen {
width: 640px;
height: 480px;
}
}
@media (min-width: 1000px) and (min-height: 800px) {
#screen {
.screen {
width: 960px;
height: 720px;
}
}
@media (width:640px) and (height:480px) {
#screen {
.screen {
width: 640px;
height: 480px;
border: 0;