big commit

This commit is contained in:
liquidex 2024-02-18 23:37:31 +01:00
parent aff885cf17
commit b506f5a219
22 changed files with 692 additions and 556 deletions

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@ -67,6 +67,13 @@
% id = "01H8W7VEVPSHDWDH58HFKBMGD6"
- but I don't wanna replace it because it's just too good
- ### random places
% id = "emoji/ahyes"
- :ahyes: - ah, yes
- smuggest expression for the smuggest of moments, and some tea with it.
% id = "01HA4HJKQ7FKV8JJ70Q2CY9R86"
- ### [Noto Color Emoji](https://github.com/googlefonts/noto-emoji/)

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@ -1,11 +1,6 @@
%% title = "tairu - an interactive exploration of 2D autotiling techniques"
scripts = [
"components/literate-programming.js",
"tairu/cardinal-directions.js",
"tairu/framework.js",
"tairu/tairu.js",
"tairu/tilemap-registry.js",
"tairu/tilemap.js",
"vendor/codejar.js",
]
styles = ["tairu.css"]
@ -20,8 +15,9 @@ styles = ["tairu.css"]
- TODO: short videos demoing this here
% id = "01HPD4XQPWJBTJ4DWAQE3J87C9"
- once upon a time I stumbled upon a technique called...\
**bitwise autotiling**
- once upon a time I stumbled upon a technique called...
- ### bitwise autotiling
% id = "01HPD4XQPW6VK3FDW5QRCE6HSS"
+ I learned about it way back when I was just a kid building 2D Minecraft clones using [Construct 2](https://www.construct.net/en/construct-2/manuals/construct-2), and I wanted my terrain to look nice as it does in Terraria
@ -29,37 +25,194 @@ styles = ["tairu.css"]
% id = "01HPD4XQPWJ1CE9ZVRW98X7HE6"
- Construct 2 was one of my first programming experiences and the first game engine I truly actually liked :smile:
% id = "01HPJ8GHDET8ZGNN0AH3FWA8HX"
- let's begin with a tilemap. say we have the following grid of tiles: (the examples are interactive, try editing it!)
- so to help us learn, I made a little tile editor so that we can experiment with rendering tiles! have a look:
<canvas
is="tairu-editor"
data-tilemap-id="bitwiseAutotiling"
data-tile-size="40">
Your browser does not support &lt;canvas&gt;.
</canvas>
```javascript tairu
import { Tilemap } from "tairu/tilemap.js";
import { TileEditor } from "tairu/editor.js";
% id = "01HPJ8GHDEC0Z334M04MTNADV9"
- for each tile we can assign a bitset of cardinal directions, based on which tiles it should connect to - like so:
export const tilemapSquare = Tilemap.parse(" x", [
" ",
" xxx ",
" xxx ",
" xxx ",
" ",
]);
<canvas
is="tairu-editor-cardinal-directions"
data-tilemap-id="bitwiseAutotiling"
data-tile-size="40">
Your browser does not support &lt;canvas&gt;.
</canvas>
new TileEditor({
tilemap: tilemapSquare,
tileSize: 40,
});
```
```output tairu
```
- `Tilemap` is a class wrapping a flat [`Uint8Array`] with a `width` and a `height`, so that we can index it using (x, y) coordinates.
```javascript tairu
console.log(tilemapSquare.at(0, 0));
console.log(tilemapSquare.at(3, 1));
```
```output tairu
```
[`Uint8Array`]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Uint8Array
- `at` has a `setAt` counterpart which sets tiles instead of getting them.
- `TileEditor` provides a graphical editor for a `Tilemap` based on a `<canvas>`.
- this editor is _Certified Battery Efficient™_, so it won't redraw unless it needs to!\
we'll need to keep this in mind for later when we try to draw images, which may not be loaded during the initial draw.
- to kick this off, let's set off a goal. I would like the tiles in our little renderer to connect together, like this:
![red rectangle with a black outline, made out of 3x3 tiles][pic:01HPYW5SNTY0Z0ENDE5K3XWMTH]
- let's break this down into smaller steps. drawing a border around the rectangle will involve:
- determining *on which tiles* to draw it,
- determining *where in these tiles* to draw it,
- and actually drawing it!
- so let's zoom in a bit and look at the tiles one by one. in particular, let's focus on *these* two tiles:
![the same red rectangle, now with a focus on the northern tile at its center][pic:01HPYWPJB1P0GK53BSJFJFRAGR]
- notice how the two highlighted tiles are *different.* therefore, we can infer we should probably connect together any tiles that are *the same*.
- knowing that, we can extract the logic to a function:
```javascript tairu
export function shouldConnect(a, b) {
return a == b;
}
```
+ now, also note that the border around this particular tile is only drawn on its *northern* edge -
therefore we can infer that borders should only be drawn on edges for whom `shouldConnect(thisTile, adjacentTile)` is **`false`** (not `true`!).
a tile generally has four edges - east, south, west, north - so we need to perform this check for all of them, and draw our border accordingly.
- you might be wondering why I'm using this particular order for cardinal directions - why not [north, south, east, west]? or [north, east, south, west]?
- the reason comes from math - `[cos(0) sin(0)]` is a vector pointing rightwards, not upwards!
and I chose clockwise order, because that's how the vector rotates as we increase the angle, in a coordinate space where +Y points downward - such as the `<canvas>` coordinate space.
- this choice yields some nice orderliness in the code that handles fetching tiles for connections - first you check `+X`, then `+Y`, then `-X`, and then `-Y` -
which my pedantic mind really appreciates :ahyes:\
as `X` is first alphabetically, so checking `Y` first would feel wrong.
- to do that, I'm gonna override the tile editor's `drawTilemap` function - as this is where the actual tilemap rendering happens!
```javascript tairu
import { TileEditor } from "tairu/editor.js";
export class TileEditorWithBorders extends TileEditor {
constructor({ borderWidth, ...options }) {
super(options);
this.borderWidth = borderWidth;
this.colorScheme.borderColor = "#000000";
}
drawTilemap() {
// Let the base class render out the infill, we'll just handle the borders.
super.drawTilemap();
this.ctx.fillStyle = this.colorScheme.borderColor;
for (let y = 0; y < this.tilemap.height; ++y) {
for (let x = 0; x < this.tilemap.width; ++x) {
let tile = this.tilemap.at(x, y);
// We only want to draw non-empty tiles, so skip tile 0.
if (tile == 0) {
continue;
}
// Check which of this tile's neighbors should *not* connect to it.
let disjointWithEast = !shouldConnect(tile, this.tilemap.at(x + 1, y));
let disjointWithSouth = !shouldConnect(tile, this.tilemap.at(x, y + 1));
let disjointWithWest = !shouldConnect(tile, this.tilemap.at(x - 1, y));
let disjointWithNorth = !shouldConnect(tile, this.tilemap.at(x, y - 1));
let { borderWidth, tileSize } = this;
let tx = x * tileSize;
let ty = y * tileSize;
// For each disjoint neighbor, we want to draw a border between us and them.
if (disjointWithEast) {
this.ctx.fillRect(tx + tileSize - borderWidth, ty, borderWidth, tileSize);
}
if (disjointWithSouth) {
this.ctx.fillRect(tx, ty + tileSize - borderWidth, tileSize, borderWidth);
}
if (disjointWithWest) {
this.ctx.fillRect(tx, ty, borderWidth, tileSize);
}
if (disjointWithNorth) {
this.ctx.fillRect(tx, ty, tileSize, borderWidth);
}
}
}
}
}
```
and here's the result:
```javascript tairu
new TileEditorWithBorders({
tilemap: tilemapSquare,
tileSize: 40,
borderWidth: 4,
});
```
```output tairu
```
- this looks pretty perfect - maybe sans corners, which I'll conveniently skip for now - because most games don't actually render graphics in a vectorial way like this!
instead, the more common way is to use a tileset - a big texture with a bunch of sprites to use for rendering each tile.
- not only does this have the advantage of allowing for richer graphics, but it is also a lot easier to modify by artists, because you no longer need knowledge of graphics APIs to draw tiles.
% template = true
id = "01HPJ8GHDE9QKQ4QFZK1Z1KQD4"
classes.branch = "tileset-cardinal-directions-demo"
+ now given a tileset, such as the one below that I drew a while ago, we can assign each tile to a set of cardinal directions.
I'll indicate where there's a connection between individual tiles with the letters **N**, **E**, **S**, **W**, standing for the cardinal directions **N**orth, **E**ast, **S**outh, and **W**est.
- for example, here's a tileset I drew for the 3rd iteration of my game [Planet Overgamma] - though tweaked a bit because I had never used it before writing this post :hueh:
<ul class="tileset-demo">
<li class="full-image">
<img alt="a 16-tile tileset of 8x8 pixel metal" src="{% pic 01HPHVDRV0F0251MD0A2EG66C4 %}">
</li>
<li class="tileset-pieces">
![heavy metal sheet tileset from Planet Overgamma, made out of 16 tiles. it looks like heavy embossed sheets of metal, resembling steel in its heavyness][pic:01HPHVDRV0F0251MD0A2EG66C4]
[Planet Overgamma]: https://github.com/liquidev/planet-overgamma
% classes.branch = "tileset-cardinal-directions-demo"
- we can split this tileset up into 16 individual tiles, each one 8 × 8 pixels; people choose various resolutions, I chose a fairly low one to hide my lack of artistic skill.
<div class="horizontal-tile-strip">
<span class="metal x-0 y-0"></span>
<span class="metal x-1 y-0"></span>
<span class="metal x-2 y-0"></span>
<span class="metal x-3 y-0"></span>
<span class="metal x-0 y-1"></span>
<span class="metal x-1 y-1"></span>
<span class="metal x-2 y-1"></span>
<span class="metal x-3 y-1"></span>
<span class="metal x-0 y-2"></span>
<span class="metal x-1 y-2"></span>
<span class="metal x-2 y-2"></span>
<span class="metal x-3 y-2"></span>
<span class="metal x-0 y-3"></span>
<span class="metal x-1 y-3"></span>
<span class="metal x-2 y-3"></span>
<span class="metal x-3 y-3"></span>
</div>
% classes.branch = "tileset-cardinal-directions-demo"
- the keen eyed among you have probably noticed that this is very similar to the case we had before with drawing procedural borders -
except that instead of determining which borders to draw based on a tile's neighbors, this time we'll determine which *whole tile* to draw based on its neighbors!
<div class="horizontal-tile-strip">
<span class="metal x-0 y-0"><span class="east">E</span><span class="south">S</span></span>
<span class="metal x-1 y-0"><span class="east">E</span><span class="south">S</span><span class="west">W</span></span>
<span class="metal x-2 y-0"><span class="south">S</span><span class="west">W</span></span>
@ -76,21 +229,28 @@ styles = ["tairu.css"]
<span class="metal x-1 y-3"><span class="east">E</span><span class="west">W</span></span>
<span class="metal x-2 y-3"><span class="west">W</span></span>
<span class="metal x-3 y-3"></span>
</li>
</ul>
</div>
% id = "01HPMVT9BM65YD5AXWPT4Z67H5"
- (it's frustratingly hard to center individual letters like this in CSS. please forgive me for how crooked these are!)
- previously we represented which single border to draw with a single boolean.
now we will represent which single tile to draw with *four* booleans, because each tile can connect to four different directions.
% id = "01HPMVT9BM5V4BP8K80X0C1HJZ"
- note that the state of connection for a given cardinal direction can be represented using two values: **connected**, and **not connected**.
two values make one bit, so we can pack these four connection states into four bits, and use that as an array index!
- four booleans like this can easily be packed into a single integer using some bitwise operations, hence we get ***bitwise autotiling*** - autotiling using bitwise operations!
- now the clever part of bitwise autotiling is that we can use this packed integer *as an array index* - therefore selecting which tile to draw can be determined using just a single lookup table! neat, huh?
- but because I'm lazy, and CPU time is valuable, instead of using an array I'll just rearrange the tileset texture a bit to be able to slice it in place using this index.
- say we arrange our bits like this:
```javascript tairu
export const E = 0b0001;
export const S = 0b0010;
export const W = 0b0100;
export const N = 0b1000;
```
% classes.branch = "tileset-cardinal-directions-demo"
id = "01HPMVT9BM4AXG2Z1D2QBH828G"
+ for that to work though, we need to rearrange our tilemap somewhat such that we can index into it easily using our integer.
assuming we pack our bits as `NWSE` (bit 0 is east, each next bit we go clockwise),
therefore the final arrangement is this:
- that means we'll need to arrange our tiles like so, where the leftmost tile is at index 0 (`0b0000`) and the rightmost tile is at index 15 (`0b1111`):
<div class="horizontal-tile-strip">
<span class="metal x-3 y-3"></span>
@ -111,57 +271,129 @@ styles = ["tairu.css"]
<span class="metal x-1 y-1"><span class="east">E</span><span class="south">S</span><span class="west">W</span><span class="north">N</span></span>
</div>
packing that into a single tilesheet, or rather tile *strip*, we get this image:
- packing that into a single tileset, or rather this time, a *tile strip*, we get this image:
![horizontal tile strip of 16 8x8 pixel metal tiles][pic:01HPMMR6DGKYTPZ9CK0WQWKNX5]
% id = "01HPQCCV4RB65D5Q4RANJKGC0D"
- **hint:** you can actually just use the original image, but use a lookup table from these indices to (x, y) coordinates.
this makes creating the assets a lot easier! (at the expense of some CPU time, though it is totally possible to offload tilemap rendering to the GPU - in that case it barely even matters.)
- now it's time to actually implement it as code! I'll start by defining a *tile index* function as a general way of looking up tiles in a tileset.
% id = "01HPMVT9BMMEM4HT4ANZ40992P"
- in JavaScript, drawing on a `<canvas>` using bitwise autotiling would look like this:
```javascript
for (let y = 0; y < tilemap.height; ++y) {
for (let x = 0; x < tilemap.width; ++x) {
// Assume `tilemap.at` is a function which returns the type of tile
// stored at coordinates (x, y).
let tile = tilemap.at(x, y);
- I want to make the tile renderer a bit more general, so being able to attach a different tile lookup function to each tileset sounds like a great feature.
// We need to treat *some* tile as an empty (fully transparent) tile.
// In our case that'll be 0.
if (tile != 0) {
let tileset = tilesets[tile];
- just imagine some game where glass connects to metal, but metal doesn't connect to glass - I bet that would look pretty great!
// Now it's time to represent the tile connections as bits.
// For each cardinal direction we produce a different bit value, or 0 if there is
// no connection:
let connectedWithEast = shouldConnect(tile, tilemap.at(x + 1, y)) ? 0b0001 : 0;
let connectedWithSouth = shouldConnect(tile, tilemap.at(x, y + 1)) ? 0b0010 : 0;
let connectedWithWest = shouldConnect(tile, tilemap.at(x - 1, y)) ? 0b0100 : 0;
let connectedWithNorth = shouldConnect(tile, tilemap.at(x, y - 1)) ? 0b1000 : 0;
// Then we OR them together into one integer.
let tileIndex = connectedWithNorth
| connectedWithWest
| connectedWithSouth
| connectedWithEast;
- …but anyways, here's the basic bitwise magic function:
// With that, we can draw the correct tile.
// Our strip is a single horizontal line, so we can assume
let tilesetTileSize = tileset.height;
let tilesetX = tileIndex * tilesetTileSize;
let tilesetY = 0;
ctx.drawImage(
tilesets[tile],
tilesetX, tilesetY, tilesetTileSize, tilesetTileSize,
x * tileSize, y * tileSize, tileSize, tileSize,
);
```javascript tairu
export function tileIndexInBitwiseTileset(tilemap, x, y) {
let tile = tilemap.at(x, y);
let tileIndex = 0;
tileIndex |= shouldConnect(tile, tilemap.at(x + 1, y)) ? E : 0;
tileIndex |= shouldConnect(tile, tilemap.at(x, y + 1)) ? S : 0;
tileIndex |= shouldConnect(tile, tilemap.at(x - 1, y)) ? W : 0;
tileIndex |= shouldConnect(tile, tilemap.at(x, y - 1)) ? N : 0;
return tileIndex;
}
```
% template = true
- we'll define our tilesets by their texture, tile size, and a tile indexing function. so let's create an object that will hold our tileset data:
```javascript tairu
// You'll probably want to host the assets on your own website rather than
// hotlinking to others. It helps longevity!
const tilesetImage = new Image();
tilesetImage.src = "{% pic 01HPMMR6DGKYTPZ9CK0WQWKNX5 %}";
export const heavyMetalTileset = {
image: tilesetImage,
tileSize: 8,
tileIndex: tileIndexInBitwiseTileset,
};
```
- with all that, we should now be able to write a tile renderer which can handle textures! so let's try it:
```javascript tairu
import { TileEditor } from "tairu/editor.js";
export class TilesetTileEditor extends TileEditor {
constructor({ tilesets, ...options }) {
super(options);
this.tilesets = tilesets;
// The image may not be loaded once the editor is first drawn, so we need to request a
// redraw for each image that gets loaded in.
for (let tileset of this.tilesets) {
tileset.image.addEventListener("load", () => this.draw());
}
}
drawTilemap() {
// We're dealing with pixel tiles so we want our images to be pixelated,
// not interpolated.
this.ctx.imageSmoothingEnabled = false;
for (let y = 0; y < this.tilemap.height; ++y) {
for (let x = 0; x < this.tilemap.width; ++x) {
let tile = this.tilemap.at(x, y);
if (tile == 0) {
continue;
}
// Subtract one from the tile because tile 0 is always empty.
// Having to specify a null entry at array index 0 would be pretty annoying.
let tileset = this.tilesets[tile - 1];
if (tileset != null) {
let { tileSize } = this;
let tileIndex = tileset.tileIndex(this.tilemap, x, y);
this.ctx.drawImage(
tileset.image,
tileIndex * tileset.tileSize, 0, tileset.tileSize, tileset.tileSize,
x * tileSize, y * tileSize, tileSize, tileSize,
);
}
}
}
}
}
```
TODO this should be literate code
- drum roll please...
```javascript tairu
new TilesetTileEditor({
tilemap: tilemapSquare,
tileSize: 40,
tilesets: [heavyMetalTileset],
});
```
```output tairu
```
- it works! buuuut if you play around with it you'll quickly start noticing some problems:
```javascript tairu
import { Tilemap } from "tairu/tilemap.js";
export const tilemapEdgeCase = Tilemap.parse(" x", [
" ",
" xxx ",
" x x ",
" xxx ",
" ",
]);
new TilesetTileEditor({
tilemap: tilemapEdgeCase,
tileSize: 40,
tilesets: [heavyMetalTileset],
});
```
```output tairu
```
- where did our nice seamless connections go!?
% template = true
id = "01HPMVT9BM9CS9375MX4H9WKW8"

13
jsconfig.json Normal file
View file

@ -0,0 +1,13 @@
{
"compilerOptions": {
"baseUrl": "./static/js",
"paths": {
"treehouse/*": [
"./*"
],
"tairu/*": [
"./components/tairu/*"
]
}
},
}

View file

@ -255,14 +255,12 @@ th-literate-program {
.tree summary:hover {
& pre,
& th-literate-program {
& th-literate-program:not([data-mode="output"]) {
background-color: var(--shaded-against-background-twice);
}
}
}
pre>code,
th-literate-program>code {
padding: 0;
@ -276,7 +274,8 @@ th-literate-program {
/* And don't let code examples fly off and overflow the window */
pre {
pre,
th-literate-program {
min-width: 0;
width: auto;
overflow: auto;
@ -554,30 +553,6 @@ th-literate-program[data-mode="input"] {
}
th-literate-program[data-mode="output"] {
position: relative;
& code {
display: block;
}
& code.error {
color: var(--error-color);
}
&::after {
content: 'Output';
padding: 8px;
position: absolute;
right: 0;
top: 0;
opacity: 50%;
}
}
th-literate-program[data-mode="graphics"] {
padding: 0;
background: none;
border: none;
@ -593,6 +568,10 @@ th-literate-program[data-mode="graphics"] {
display: none;
}
& pre>code {
display: block;
}
& pre.error {
color: var(--error-color);
position: relative;
@ -614,6 +593,27 @@ th-literate-program[data-mode="graphics"] {
opacity: 50%;
}
}
& pre.console {
position: relative;
&:empty {
display: none;
}
&::after {
content: 'Console';
padding: 8px;
position: absolute;
right: 0;
top: 0;
color: var(--text-color);
opacity: 50%;
}
}
}
/* Syntax highlighting */

View file

@ -1,28 +1,4 @@
.tileset-cardinal-directions-demo th-bc {
& ul {
display: flex;
flex-direction: row;
}
& ul.tileset-demo {
margin-top: 16px;
}
& ul.tileset-demo::after {
display: none !important;
}
& li.full-image {
flex-shrink: 0;
}
& li.tileset-pieces {
display: flex;
flex-wrap: wrap;
align-items: center;
justify-content: center;
}
& .horizontal-tile-strip {
display: flex;
flex-direction: row;

View file

@ -218,8 +218,8 @@ th-bc {
flex-grow: 1;
/* Bit of a hack to make <pre>s in <th-bc> have scrollbars proper. */
&:has(pre) {
overflow: auto;
&:has(pre, th-literate-program) {
overflow: hidden;
}
}

BIN
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After

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@ -12,10 +12,8 @@ function getLiterateProgram(name) {
outputCount: 0,
nextOutputIndex() {
let index = this.outputCount;
++this.outputCount;
return index;
}
return this.outputCount++;
},
});
}
return literatePrograms.get(name);
@ -28,7 +26,7 @@ function getLiterateProgramWorkerCommands(name) {
if (frame.mode == "input") {
commands.push({ kind: "module", source: frame.textContent });
} else if (frame.mode == "output") {
commands.push({ kind: "output", expected: frame.textContent });
commands.push({ kind: "output" });
}
}
return commands;
@ -51,7 +49,7 @@ class InputMode {
{ regex: /"(\\"|[^"])*"/, as: "string" },
{ regex: /`(\\`|[^"])*`/, as: "string" },
// TODO: RegExp literals?
{ regex: /[+=/*^%<>!~|&\.-]+/, as: "operator" },
{ regex: /[+=/*^%<>!~|&\.?:-]+/, as: "operator" },
{ regex: /[,;]/, as: "punct" },
],
keywords: new Map([
@ -132,54 +130,84 @@ class InputMode {
}
}
function messageOutputArrayToString(output) {
return output
.map(x => {
if (typeof x === "object") return JSON.stringify(x);
else return x + "";
})
.join(" ");
}
class OutputMode {
constructor(frame) {
this.clearResultsOnNextOutput = false;
this.frame = frame;
this.frame.program.onChanged.push(_ => this.evaluate());
this.outputIndex = this.frame.program.nextOutputIndex();
this.evaluate();
}
this.console = document.createElement("pre");
this.console.classList.add("console");
this.frame.appendChild(this.console);
this.clearConsoleOnNextOutput = false;
evaluate() {
// This is a small bit of debouncing. If we cleared the output right away, the page would
// jitter around irritatingly.
this.clearResultsOnNextOutput = true;
this.error = document.createElement("pre");
this.error.classList.add("error");
this.frame.appendChild(this.error);
if (this.worker != null) {
this.worker.terminate();
}
this.worker = new Worker(import.meta.resolve("./literate-programming/worker.js"), {
type: "module",
name: `evaluate LiterateOutput ${this.frame.programName}`
});
this.iframe = document.createElement("iframe");
this.iframe.classList.add("hidden");
this.iframe.src = `${TREEHOUSE_SITE}/sandbox`;
this.frame.appendChild(this.iframe);
this.worker.addEventListener("message", event => {
this.iframe.contentWindow.treehouseSandboxInternals = { outputIndex: this.outputIndex };
this.iframe.contentWindow.addEventListener("message", event => {
let message = event.data;
if (message.kind == "evalComplete") {
this.worker.terminate();
if (message.kind == "ready") {
this.evaluate();
} else if (message.kind == "resize" && message.outputIndex == this.outputIndex) {
this.resize();
} else if (message.kind == "output" && message.outputIndex == this.outputIndex) {
this.addOutput(message.output);
if (message.output.kind == "error") {
this.error.textContent = messageOutputArrayToString(message.output.message);
this.iframe.classList.add("hidden");
} else {
this.addOutput(message.output);
}
} else if (message.kind == "evalComplete") {
this.error.textContent = "";
this.flushConsoleClear();
}
});
this.worker.postMessage({
this.frame.program.onChanged.push(_ => this.evaluate());
}
evaluate() {
this.requestConsoleClear();
this.iframe.contentWindow.postMessage({
action: "eval",
input: getLiterateProgramWorkerCommands(this.frame.programName),
});
}
addOutput(output) {
if (this.clearResultsOnNextOutput) {
this.clearResultsOnNextOutput = false;
this.clearResults();
}
clearConsole() {
this.console.replaceChildren();
}
// Don't show anything if the function didn't return a value.
if (output.kind == "result" && output.message[0] === undefined) return;
requestConsoleClear() {
this.clearConsoleOnNextOutput = true;
}
flushConsoleClear() {
if (this.clearConsoleOnNextOutput) {
this.clearConsole();
this.clearConsoleOnNextOutput = false;
}
}
addOutput(output) {
this.flushConsoleClear();
let line = document.createElement("code");
@ -194,65 +222,22 @@ class OutputMode {
})
.join(" ");
this.frame.appendChild(line);
this.console.appendChild(line);
}
clearResults() {
this.frame.replaceChildren();
}
static messageOutputArrayToString(output) {
return output
.map(x => {
if (typeof x === "object") return JSON.stringify(x);
else return x + "";
})
.join(" ");
}
}
class GraphicsMode {
constructor(frame) {
this.frame = frame;
this.error = document.createElement("pre");
this.error.classList.add("error");
this.frame.appendChild(this.error);
this.iframe = document.createElement("iframe");
this.iframe.classList.add("hidden");
this.iframe.src = import.meta.resolve("../../html/sandbox.html");
this.frame.appendChild(this.iframe);
this.iframe.contentWindow.addEventListener("message", event => {
let message = event.data;
if (message.kind == "ready") {
this.evaluate();
}
else if (message.kind == "resize") {
this.resize(message);
} else if (message.kind == "output" && message.output.kind == "error") {
this.error.textContent = OutputMode.messageOutputArrayToString(message.output.message);
this.iframe.classList.add("hidden");
} else if (message.kind == "evalComplete") {
this.error.textContent = "";
}
});
this.frame.program.onChanged.push(_ => this.evaluate());
}
evaluate() {
this.iframe.contentWindow.postMessage({
action: "eval",
input: getLiterateProgramWorkerCommands(this.frame.programName),
});
}
resize(message) {
this.iframe.width = message.width;
this.iframe.height = message.height;
resize() {
// iframe cannot be `display: none` to get its scrollWidth/scrollHeight.
this.iframe.classList.remove("hidden");
let width = this.iframe.contentDocument.body.scrollWidth;
let height = this.iframe.contentDocument.body.scrollHeight;
if (width == 0 || height == 0) {
this.iframe.classList.add("hidden");
} else {
this.iframe.width = width;
this.iframe.height = height;
}
}
}
@ -266,8 +251,6 @@ class LiterateProgram extends HTMLElement {
this.modeImpl = new InputMode(this);
} else if (this.mode == "output") {
this.modeImpl = new OutputMode(this);
} else if (this.mode == "graphics") {
this.modeImpl = new GraphicsMode(this);
}
}

View file

@ -1,8 +1,21 @@
let outputIndex = 0;
export function getOutputIndex() {
return outputIndex;
}
export const jsConsole = console;
// Overwrite globalThis.console with domConsole to redirect output to the DOM console.
// To always output to the JavaScript console regardless, use jsConsole.
export const domConsole = {
log(...message) {
postMessage({
kind: "output",
output: {
kind: "console.log",
message: [...message],
},
outputIndex,
});
}
};
async function withTemporaryGlobalScope(callback) {
let state = {
@ -13,6 +26,7 @@ async function withTemporaryGlobalScope(callback) {
}
};
await callback(state);
jsConsole.trace(state.oldValues, "bringing back old state");
for (let key in state.oldValues) {
globalThis[key] = state.oldValues[key];
}
@ -20,15 +34,11 @@ async function withTemporaryGlobalScope(callback) {
let evaluationComplete = null;
export async function evaluate(commands, { start, success, error }) {
export async function evaluate(commands, { error, newOutput }) {
if (evaluationComplete != null) {
await evaluationComplete;
}
if (start != null) {
start();
}
let signalEvaluationComplete;
evaluationComplete = new Promise((resolve, _reject) => {
signalEvaluationComplete = resolve;
@ -36,21 +46,19 @@ export async function evaluate(commands, { start, success, error }) {
outputIndex = 0;
try {
await withTemporaryGlobalScope(async scope => {
for (let command of commands) {
if (command.kind == "module") {
let blobUrl = URL.createObjectURL(new Blob([command.source], { type: "text/javascript" }));
let module = await import(blobUrl);
for (let exportedKey in module) {
scope.set(exportedKey, module[exportedKey]);
}
} else if (command.kind == "output") {
++outputIndex;
for (let command of commands) {
if (command.kind == "module") {
let blobUrl = URL.createObjectURL(new Blob([command.source], { type: "text/javascript" }));
let module = await import(blobUrl);
for (let exportedKey in module) {
globalThis[exportedKey] = module[exportedKey];
}
} else if (command.kind == "output") {
if (newOutput != null) {
newOutput(outputIndex);
}
++outputIndex;
}
});
if (success != null) {
success();
}
postMessage({
kind: "evalComplete",

View file

@ -1,23 +0,0 @@
import { evaluate, getOutputIndex } from "./eval.js";
let debugLog = console.log;
globalThis.console = {
log(...message) {
postMessage({
kind: "output",
output: {
kind: "log",
message: [...message],
},
outputIndex: getOutputIndex(),
});
}
};
addEventListener("message", async event => {
let message = event.data;
if (message.action == "eval") {
evaluate(message.input, {});
}
});

View file

@ -0,0 +1,134 @@
import { Sketch } from "treehouse/sandbox.js";
export class TileEditor extends Sketch {
constructor({ tilemap, tileSize }) {
super(tilemap.width * tileSize, tilemap.height * tileSize);
this.colorScheme = {
background: "#F7F7F7",
grid: "#00000011",
tileCursor: "#222222",
tiles: [
"transparent", // never actually drawn to the screen with the default renderer!
"#eb134a",
],
};
this.tilemap = tilemap;
this.tileSize = tileSize;
this.hasFocus = false;
this.paintingTile = null;
this.tileCursor = { x: 0, y: 0 };
this.canvas.addEventListener("mousemove", event => this.mouseMoved(event));
this.canvas.addEventListener("mousedown", event => this.mousePressed(event));
this.canvas.addEventListener("mouseup", event => this.mouseReleased(event));
this.canvas.addEventListener("mouseenter", _ => this.mouseEnter());
this.canvas.addEventListener("mouseleave", _ => this.mouseLeave());
this.canvas.addEventListener("contextmenu", event => event.preventDefault());
// Only draw first frame after the constructor already runs.
// That way we can modify the color scheme however much we want without causing additional
// redraws.
requestAnimationFrame(() => this.draw());
}
draw() {
this.drawBackground();
this.drawTilemap();
this.drawGrid();
if (this.hasFocus) {
this.drawTileCursor();
}
}
drawBackground() {
this.ctx.fillStyle = this.colorScheme.background;
this.ctx.fillRect(0, 0, this.canvas.width, this.canvas.height);
}
drawTilemap() {
for (let y = 0; y < this.tilemap.height; ++y) {
for (let x = 0; x < this.tilemap.width; ++x) {
let tile = this.tilemap.at(x, y);
if (tile != 0) {
this.ctx.fillStyle = this.colorScheme.tiles[tile];
this.ctx.fillRect(x * this.tileSize, y * this.tileSize, this.tileSize, this.tileSize);
}
}
}
}
drawGrid() {
this.ctx.beginPath();
for (let x = 0; x < this.tilemap.width; ++x) {
this.ctx.moveTo(x * this.tileSize, 0);
this.ctx.lineTo(x * this.tileSize, this.canvas.height);
}
for (let y = 0; y < this.tilemap.width; ++y) {
this.ctx.moveTo(0, y * this.tileSize);
this.ctx.lineTo(this.canvas.width, y * this.tileSize);
}
this.ctx.strokeStyle = this.colorScheme.grid;
this.ctx.lineWidth = 1;
this.ctx.stroke();
}
drawTileCursor() {
this.ctx.strokeStyle = this.colorScheme.tileCursor;
this.ctx.lineWidth = 5;
this.ctx.strokeRect(this.tileCursor.x * this.tileSize, this.tileCursor.y * this.tileSize, this.tileSize, this.tileSize);
}
mouseMoved(event) {
this.tileCursor.x = Math.floor(event.offsetX / this.tileSize);
this.tileCursor.y = Math.floor(event.offsetY / this.tileSize);
this.paintTileUnderCursor();
this.draw();
}
mousePressed(event) {
event.preventDefault();
if (event.button == 0) {
this.paintingTile = 1;
} else if (event.button == 2) {
this.paintingTile = 0;
}
this.paintTileUnderCursor();
this.draw();
}
mouseReleased(_event) {
this.stopPainting();
this.draw();
}
mouseEnter() {
this.hasFocus = true;
this.draw();
}
mouseLeave() {
this.hasFocus = false;
this.stopPainting();
this.draw();
}
paintTileUnderCursor() {
if (this.paintingTile != null) {
this.tilemap.setAt(this.tileCursor.x, this.tileCursor.y, this.paintingTile);
}
}
stopPainting() {
this.paintingTile = null;
}
}

View file

@ -1,9 +1,45 @@
import { defineFrame, Frame } from './framework.js';
import { TileEditor, canConnect, shouldConnect } from './tairu.js';
import { TileEditor } from 'tairu/editor.js';
class CardinalDirectionsEditor extends TileEditor {
constructor() {
super();
export function alignTextInRectangle(ctx, text, x, y, width, height, hAlign, vAlign) {
let measurements = ctx.measureText(text);
let leftX;
switch (hAlign) {
case "left":
leftX = x;
break;
case "center":
leftX = x + width / 2 - measurements.width / 2;
break;
case "right":
leftX = x + width - measurements.width;
break;
}
let textHeight = measurements.fontBoundingBoxAscent;
let baselineY;
switch (vAlign) {
case "top":
baselineY = y + textHeight;
break;
case "center":
baselineY = y + height / 2 + textHeight / 2;
break;
case "bottom":
baselineY = y + height;
break;
}
return { leftX, baselineY };
}
export function shouldConnect(a, b) {
return a == b;
}
export class TileEditorWithCardinalDirections extends TileEditor {
constructor(options) {
super(options);
this.colorScheme.tiles[1] = "#f96565";
}
@ -38,4 +74,3 @@ class CardinalDirectionsEditor extends TileEditor {
}
}
}
defineFrame("tairu-editor-cardinal-directions", CardinalDirectionsEditor);

View file

@ -27,4 +27,16 @@ export class Tilemap {
this.tiles[this.tileIndex(x, y)] = tile;
}
}
static parse(alphabet, lineArray) {
let tilemap = new Tilemap(lineArray[0].length, lineArray.length);
for (let y in lineArray) {
let line = lineArray[y];
for (let x = 0; x < line.length; ++x) {
let char = line.charAt(x);
tilemap.setAt(x, y, alphabet.indexOf(char));
}
}
return tilemap;
}
}

View file

@ -1,5 +1,9 @@
export const internals = {
body: document.createElement("body"),
resetBody() {
this.body.replaceChildren();
}
};
export function body() {
@ -19,4 +23,13 @@ export class Sketch {
addElement(this.canvas);
}
animate(draw) {
let animationCallback;
animationCallback = () => {
draw();
requestAnimationFrame(animationCallback);
};
animationCallback();
}
}

View file

@ -1,251 +0,0 @@
import { Frame, defineFrame } from "./framework.js";
import tilemapRegistry from "./tilemap-registry.js";
export function canConnect(tile) {
return tile == 1;
}
export function shouldConnect(a, b) {
return a == b;
}
const dirs47 = {
E: 0b0000_0001,
SE: 0b0000_0010,
S: 0b0000_0100,
SW: 0b0000_1000,
W: 0b0001_0000,
NW: 0b0010_0000,
N: 0b0100_0000,
NE: 0b1000_0000,
};
function isSet(integer, bit) {
return (integer & bit) == bit;
}
function removeRedundancies(t) {
if (isSet(t, dirs47.SE) && (!isSet(t, dirs47.S) || !isSet(t, dirs47.E))) {
t &= ~dirs47.SE;
}
if (isSet(t, dirs47.SW) && (!isSet(t, dirs47.S) || !isSet(t, dirs47.W))) {
t &= ~dirs47.SW;
}
if (isSet(t, dirs47.NW) && (!isSet(t, dirs47.N) || !isSet(t, dirs47.W))) {
t &= ~dirs47.NW;
}
if (isSet(t, dirs47.NE) && (!isSet(t, dirs47.N) || !isSet(t, dirs47.E))) {
t &= ~dirs47.NE;
}
return t;
}
function ordinalDirections() {
let unique = new Set();
for (let i = 0; i <= 0b1111_1111; ++i) {
unique.add(removeRedundancies(i));
}
return Array.from(unique).sort((a, b) => a - b);
}
let xToConnectionBitSet = ordinalDirections();
let connectionBitSetToX = new Uint8Array(256);
for (let i = 0; i < xToConnectionBitSet.length; ++i) {
connectionBitSetToX[xToConnectionBitSet[i]] = i;
}
console.log(connectionBitSetToX);
export class TileEditor extends Frame {
constructor() {
super();
this.tileCursor = { x: 0, y: 0 };
this.colorScheme = {
background: "#F7F7F7",
grid: "#00000011",
tileCursor: "#222222",
tiles: [
"transparent",
"#eb134a",
],
};
this.tileColorPalette = [
"transparent",
"#eb134a",
];
}
connectedCallback() {
super.connectedCallback();
this.tileSize = parseInt(this.getAttribute("data-tile-size"));
let tilemapId = this.getAttribute("data-tilemap-id");
if (tilemapId != null) {
this.tilemap = tilemapRegistry[this.getAttribute("data-tilemap-id")];
} else {
throw new ReferenceError(`tilemap '${tilemapId}' does not exist`);
}
// 0st element is explicitly null because it represents the empty tile.
this.tilesets = [null];
this.tilesets47 = [null];
let attachedImages = this.getElementsByTagName("img");
for (let image of attachedImages) {
if (image.hasAttribute("data-tairu-tileset")) {
let tilesetIndex = parseInt(image.getAttribute("data-tairu-tileset"));
this.tilesets[tilesetIndex] = image;
} else if (image.hasAttribute("data-tairu-tileset-47")) {
let tilesetIndex = parseInt(image.getAttribute("data-tairu-tileset-47"));
this.tilesets47[tilesetIndex] = image;
}
}
this.width = this.tilemap.width * this.tileSize;
this.height = this.tilemap.height * this.tileSize;
this.hasFocus = false;
this.paintingTile = null;
this.addEventListener("mousemove", event => this.mouseMoved(event));
this.addEventListener("mousedown", event => this.mousePressed(event));
this.addEventListener("mouseup", event => this.mouseReleased(event));
this.addEventListener("mouseenter", _ => this.hasFocus = true);
this.addEventListener("mouseleave", _ => this.hasFocus = false);
this.addEventListener("contextmenu", event => event.preventDefault());
// TODO: This should also work on mobile.
}
draw() {
this.ctx.fillStyle = this.colorScheme.background;
this.ctx.fillRect(0, 0, this.width, this.height);
this.drawTiles();
this.drawGrid();
if (this.hasFocus) {
this.drawTileCursor();
}
}
drawGrid() {
this.ctx.beginPath();
for (let x = 0; x < this.tilemap.width; ++x) {
this.ctx.moveTo(x * this.tileSize, 0);
this.ctx.lineTo(x * this.tileSize, this.height);
}
for (let y = 0; y < this.tilemap.width; ++y) {
this.ctx.moveTo(0, y * this.tileSize);
this.ctx.lineTo(this.width, y * this.tileSize);
}
this.ctx.strokeStyle = this.colorScheme.grid;
this.ctx.lineWidth = 1;
this.ctx.stroke();
}
drawTileCursor() {
this.ctx.strokeStyle = this.colorScheme.tileCursor;
this.ctx.lineWidth = 5;
this.ctx.strokeRect(this.tileCursor.x * this.tileSize, this.tileCursor.y * this.tileSize, this.tileSize, this.tileSize);
}
get hasTilesets() {
// Remember that tile 0 represents emptiness.
return this.tilesets.length > 1 || this.tilesets47.length > 1;
}
drawTiles() {
if (this.hasTilesets) {
this.drawTexturedTiles();
} else {
this.drawColoredTiles();
}
}
drawColoredTiles() {
for (let y = 0; y < this.tilemap.height; ++y) {
for (let x = 0; x < this.tilemap.width; ++x) {
let tile = this.tilemap.at(x, y);
if (tile != 0) {
this.ctx.fillStyle = this.colorScheme.tiles[tile];
this.ctx.fillRect(x * this.tileSize, y * this.tileSize, this.tileSize, this.tileSize);
}
}
}
}
drawTexturedTiles() {
this.ctx.imageSmoothingEnabled = false;
for (let y = 0; y < this.tilemap.height; ++y) {
for (let x = 0; x < this.tilemap.width; ++x) {
let tile = this.tilemap.at(x, y);
if (tile != 0) {
let tileset16 = this.tilesets[tile];
let tileset47 = this.tilesets47[tile];
let tileset = tileset47 != null ? tileset47 : tileset16;
let tileIndex = 0;
if (tileset47 != null) {
let rawTileIndex = 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x + 1, y)) ? dirs47.E : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x + 1, y + 1)) ? dirs47.SE : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x, y + 1)) ? dirs47.S : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x - 1, y + 1)) ? dirs47.SW : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x - 1, y)) ? dirs47.W : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x - 1, y - 1)) ? dirs47.NW : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x, y - 1)) ? dirs47.N : 0;
rawTileIndex |= shouldConnect(tile, this.tilemap.at(x + 1, y - 1)) ? dirs47.NE : 0;
tileIndex = connectionBitSetToX[removeRedundancies(rawTileIndex)];
} else {
tileIndex |= shouldConnect(tile, this.tilemap.at(x + 1, y)) ? 0b0001 : 0;
tileIndex |= shouldConnect(tile, this.tilemap.at(x, y + 1)) ? 0b0010 : 0;
tileIndex |= shouldConnect(tile, this.tilemap.at(x - 1, y)) ? 0b0100 : 0;
tileIndex |= shouldConnect(tile, this.tilemap.at(x, y - 1)) ? 0b1000 : 0;
}
let tilesetTileSize = tileset.height;
let tilesetX = tileIndex * tilesetTileSize;
let tilesetY = 0;
this.ctx.drawImage(
tileset,
tilesetX, tilesetY, tilesetTileSize, tilesetTileSize,
x * this.tileSize, y * this.tileSize, this.tileSize, this.tileSize,
);
}
}
}
}
mouseMoved(event) {
let mouse = this.getMousePositionFromEvent(event);
this.tileCursor.x = Math.floor(mouse.x / this.tileSize);
this.tileCursor.y = Math.floor(mouse.y / this.tileSize);
this.paintTileUnderCursor();
}
mousePressed(event) {
event.preventDefault();
if (event.button == 0) {
this.paintingTile = 1;
} else if (event.button == 2) {
this.paintingTile = 0;
}
this.paintTileUnderCursor();
}
mouseReleased() {
this.paintingTile = null;
}
paintTileUnderCursor() {
if (this.paintingTile != null) {
this.tilemap.setAt(this.tileCursor.x, this.tileCursor.y, this.paintingTile);
}
}
}
defineFrame("tairu-editor", TileEditor);

View file

@ -23,9 +23,10 @@ export function CodeJar(editor, highlight, opt = {}) {
editor.setAttribute('contenteditable', 'plaintext-only');
editor.setAttribute('spellcheck', options.spellcheck ? 'true' : 'false');
editor.style.outline = 'none';
editor.style.overflowWrap = 'break-word';
editor.style.overflowY = 'auto';
editor.style.whiteSpace = 'pre-wrap';
// PATCH(liquidex): I think I know better how I want to handle overflow.
// editor.style.overflowWrap = 'break-word';
// editor.style.overflowY = 'auto';
editor.style.whiteSpace = 'pre';
const doHighlight = (editor, pos) => {
highlight(editor, pos);
};

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@ -9,6 +9,8 @@
body {
margin: 0;
overflow: hidden;
width: fit-content;
height: fit-content;
}
canvas {
@ -16,43 +18,37 @@
}
</style>
<script type="importmap">{ "imports": { "treehouse/": "{{ config.site }}/static/js/" } }</script>
<script type="importmap">{
"imports": {
"treehouse/": "{{ config.site }}/static/js/",
"tairu/": "{{ config.site }}/static/js/components/tairu/"
}
}</script>
<script type="module">
import { evaluate } from "treehouse/components/literate-programming/eval.js";
import { evaluate, domConsole, jsConsole } from "treehouse/components/literate-programming/eval.js";
import { internals as sandboxInternals } from "treehouse/sandbox.js";
// I'm aware there's also ResizeObserver but it didn't seem to fire off any events when a
// canvas was added, rendering it pretty much useless.
let mutationObserver = new MutationObserver(() => {
postMessage({
kind: "resize",
width: document.body.scrollWidth,
height: document.body.scrollHeight,
});
});
mutationObserver.observe(document.body, { subtree: true, childList: true });
globalThis.console = domConsole;
addEventListener("message", async event => {
let message = event.data;
if (message.action == "eval") {
evaluate(message.input, {
success() {
// A double buffered approach for flickerless code modifications.
document.body.replaceChildren(...sandboxInternals.body.childNodes);
sandboxInternals.body.replaceChildren();
requestAnimationFrame(() => {
postMessage({
kind: "resize",
width: document.body.scrollWidth,
height: document.body.scrollHeight,
});
});
},
error() {
sandboxInternals.body.replaceChildren();
},
newOutput(currentOutputIndex) {
if (currentOutputIndex == window.treehouseSandboxInternals.outputIndex) {
document.body.replaceChildren(...sandboxInternals.body.childNodes);
postMessage({
kind: "resize",
outputIndex: currentOutputIndex,
});
}
sandboxInternals.resetBody();
},
});
}
});