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8bitworkshop/src/common/emu.ts

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"use strict";
import { hex, clamp, lpad } from "./util";
import { SourceLocation } from "./workertypes";
import Mousetrap = require('mousetrap');
import { VirtualList } from "./vlist"
// external modules
declare var jt, Javatari;
// Emulator classes
export var PLATFORMS = {};
var _random_state = 1;
export function noise() {
let x = _random_state;
x ^= x << 13;
x ^= x >> 17;
x ^= x << 5;
return (_random_state = x) & 0xff;
}
export function getNoiseSeed() {
return _random_state;
}
export function setNoiseSeed(x : number) {
_random_state = x;
}
type KeyboardCallback = (which:number, charCode:number, flags:KeyFlags) => void;
function __createCanvas(mainElement:HTMLElement, width:number, height:number) : HTMLCanvasElement {
var canvas = document.createElement('canvas');
canvas.width = width;
canvas.height = height;
canvas.classList.add("emuvideo");
canvas.tabIndex = -1; // Make it focusable
mainElement.appendChild(canvas);
return canvas;
}
export enum KeyFlags {
KeyDown = 1,
Shift = 2,
Ctrl = 4,
Alt = 8,
Meta = 16,
KeyUp = 64,
KeyPress = 128,
}
export function _setKeyboardEvents(canvas:HTMLElement, callback:KeyboardCallback) {
canvas.onkeydown = (e) => {
callback(e.which, 0, KeyFlags.KeyDown|_metakeyflags(e));
if (e.which == 8 || e.which == 9 || e.which == 27) { // eat backspace, tab, escape keys
e.preventDefault();
}
};
canvas.onkeyup = (e) => {
callback(e.which, 0, KeyFlags.KeyUp|_metakeyflags(e));
};
canvas.onkeypress = (e) => {
callback(e.which, e.charCode, KeyFlags.KeyPress|_metakeyflags(e));
};
};
type VideoCanvasOptions = {rotate?:number, overscan?:boolean};
export class RasterVideo {
mainElement : HTMLElement;
width : number;
height : number;
options : VideoCanvasOptions;
constructor(mainElement:HTMLElement, width:number, height:number, options?:VideoCanvasOptions) {
this.mainElement = mainElement;
this.width = width;
this.height = height;
this.options = options;
}
canvas : HTMLCanvasElement;
ctx : CanvasRenderingContext2D;
imageData : ImageData;
datau32 : Uint32Array;
vcanvas : JQuery;
paddle_x = 255;
paddle_y = 255;
setRotate(rotate:number) {
var canvas = this.canvas;
if (rotate) {
// TODO: aspect ratio?
canvas.style.transform = "rotate("+rotate+"deg)";
if (canvas.width < canvas.height)
canvas.style.paddingLeft = canvas.style.paddingRight = "10%";
} else {
canvas.style.transform = null;
canvas.style.paddingLeft = canvas.style.paddingRight = null;
}
}
create() {
var canvas;
this.canvas = canvas = __createCanvas(this.mainElement, this.width, this.height);
this.vcanvas = $(canvas);
if (this.options && this.options.rotate) {
this.setRotate(this.options.rotate);
}
if (this.options && this.options.overscan) {
this.vcanvas.css('padding','0px');
}
this.ctx = canvas.getContext('2d');
this.imageData = this.ctx.createImageData(this.width, this.height);
this.datau32 = new Uint32Array(this.imageData.data.buffer);
}
setKeyboardEvents(callback) {
_setKeyboardEvents(this.canvas, callback);
}
getFrameData() { return this.datau32; }
getContext() { return this.ctx; }
updateFrame(sx?:number, sy?:number, dx?:number, dy?:number, w?:number, h?:number) {
if (w && h)
this.ctx.putImageData(this.imageData, sx, sy, dx, dy, w, h);
else
this.ctx.putImageData(this.imageData, 0, 0);
}
clearRect(dx:number, dy:number, w:number, h:number) {
var ctx = this.ctx;
ctx.fillStyle = '#000000';
ctx.fillRect(dx, dy, w, h);
}
setupMouseEvents(el? : HTMLCanvasElement) {
if (!el) el = this.canvas;
$(el).mousemove( (e) => {
var pos = getMousePos(el, e);
var new_x = Math.floor(pos.x * 255 / this.canvas.width);
var new_y = Math.floor(pos.y * 255 / this.canvas.height);
this.paddle_x = clamp(0, 255, new_x);
this.paddle_y = clamp(0, 255, new_y);
});
};
}
export class VectorVideo extends RasterVideo {
persistenceAlpha = 0.5;
jitter = 1.0;
gamma = 0.8;
sx : number;
sy : number;
create() {
super.create();
this.sx = this.width/1024.0;
this.sy = this.height/1024.0;
}
clear() {
var ctx = this.ctx;
ctx.globalCompositeOperation = 'source-over';
ctx.globalAlpha = this.persistenceAlpha;
ctx.fillStyle = '#000000';
ctx.fillRect(0, 0, this.width, this.height);
ctx.globalAlpha = 1.0;
ctx.globalCompositeOperation = 'lighter';
}
COLORS = [
'#111111',
'#1111ff',
'#11ff11',
'#11ffff',
'#ff1111',
'#ff11ff',
'#ffff11',
'#ffffff'
];
drawLine(x1:number, y1:number, x2:number, y2:number, intensity:number, color:number) {
var ctx = this.ctx;
var sx = this.sx;
var sy = this.sy;
//console.log(x1,y1,x2,y2,intensity,color);
if (intensity > 0) {
// TODO: landscape vs portrait
var alpha = Math.pow(intensity / 255.0, this.gamma);
ctx.globalAlpha = alpha;
ctx.lineWidth = 3;
ctx.beginPath();
// TODO: bright dots
var jx = this.jitter * (Math.random() - 0.5);
var jy = this.jitter * (Math.random() - 0.5);
x1 += jx;
x2 += jx;
y1 += jy;
y2 += jy;
ctx.moveTo(x1*sx, this.height-y1*sy);
if (x1 == x2 && y1 == y2)
ctx.lineTo(x2*sx+1, this.height-y2*sy);
else
ctx.lineTo(x2*sx, this.height-y2*sy);
ctx.strokeStyle = this.COLORS[color & 7];
ctx.stroke();
}
}
}
export class RAM {
mem : Uint8Array;
constructor(size:number) {
this.mem = new Uint8Array(new ArrayBuffer(size));
}
}
export class EmuHalt extends Error {
$loc : SourceLocation;
constructor(msg: string, loc?: SourceLocation) {
super(msg);
this.$loc = loc;
Object.setPrototypeOf(this, EmuHalt.prototype);
}
}
export class AnimationTimer {
callback;
running : boolean = false;
pulsing : boolean = false;
lastts = 0;
useReqAnimFrame = typeof window.requestAnimationFrame === 'function'; // need for unit test
nframes;
startts; // for FPS calc
frameRate;
intervalMsec;
constructor(frequencyHz:number, callback:() => void) {
this.frameRate = frequencyHz;
this.intervalMsec = 1000.0 / frequencyHz;
this.callback = callback;
}
scheduleFrame(msec:number) {
var fn = () => {
try {
this.nextFrame();
} catch (e) {
this.running = false;
this.pulsing = false;
throw e;
}
}
if (this.useReqAnimFrame)
window.requestAnimationFrame(fn);
else
setTimeout(fn, msec);
}
nextFrame(ts?:number) {
if (!ts) ts = Date.now();
if (ts - this.lastts < this.intervalMsec*10) {
this.lastts += this.intervalMsec;
} else {
this.lastts = ts + this.intervalMsec; // frames skipped, catch up
}
if (!this.useReqAnimFrame || this.lastts - ts > this.intervalMsec/2) {
if (this.running) {
this.callback();
}
if (this.nframes == 0)
this.startts = ts;
if (this.nframes++ == 300) {
console.log("Avg framerate: " + this.nframes*1000/(ts-this.startts) + " fps");
}
}
if (this.running) {
this.scheduleFrame(this.lastts - ts);
} else {
this.pulsing = false;
}
}
isRunning() {
return this.running;
}
start() {
if (!this.running) {
this.running = true;
this.lastts = 0;
this.nframes = 0;
if (!this.pulsing) {
this.scheduleFrame(0);
this.pulsing = true;
}
}
}
stop() {
this.running = false;
}
}
// TODO: move to util?
export function dumpRAM(ram:ArrayLike<number>, ramofs:number, ramlen:number) : string {
var s = "";
var bpel = ram['BYTES_PER_ELEMENT'] || 1;
var perline = Math.ceil(16 / bpel);
var isFloat = ram instanceof Float32Array || ram instanceof Float64Array;
// TODO: show scrollable RAM for other platforms
for (var ofs=0; ofs<ramlen; ofs+=perline) {
s += '$' + hex(ofs+ramofs) + ':';
for (var i=0; i<perline; i++) {
if (ofs+i < ram.length) {
if (i == perline/2) s += " ";
if (isFloat) s += " " + ram[ofs+i].toPrecision(bpel*2);
else s += " " + hex(ram[ofs+i], bpel*2);
}
}
s += "\n";
}
return s;
}
export interface KeyDef {
c:number, // key code
n:string, // name
// for gamepad
plyr?:number,
xaxis?:number,
yaxis?:number,
button?:number
};
export interface KeyMapEntry {
index:number;
mask:number;
def:KeyDef;
}
type KeyCodeMap = Map<number,KeyMapEntry>;
export const Keys = {
ANYKEY: {c: 0, n: "?"},
// gamepad and keyboard (player 0)
UP: {c: 38, n: "Up", plyr:0, yaxis:-1},
DOWN: {c: 40, n: "Down", plyr:0, yaxis:1},
LEFT: {c: 37, n: "Left", plyr:0, xaxis:-1},
RIGHT: {c: 39, n: "Right", plyr:0, xaxis:1},
A: {c: 32, n: "Space", plyr:0, button:0},
B: {c: 16, n: "Shift", plyr:0, button:1},
GP_A: {c: 88, n: "X", plyr:0, button:0},
GP_B: {c: 90, n: "Z", plyr:0, button:1},
GP_C: {c: 86, n: "V", plyr:0, button:2},
GP_D: {c: 67, n: "C", plyr:0, button:3},
SELECT: {c: 220, n: "\\", plyr:0, button:8},
START: {c: 13, n: "Enter", plyr:0, button:9},
// gamepad and keyboard (player 1)
P2_UP: {c: 87, n: "W", plyr:1, yaxis:-1},
P2_DOWN: {c: 83, n: "S", plyr:1, yaxis:1},
P2_LEFT: {c: 65, n: "A", plyr:1, xaxis:-1},
P2_RIGHT: {c: 68, n: "D", plyr:1, xaxis:1},
P2_A: {c: 84, n: "T", plyr:1, button:0},
P2_B: {c: 82, n: "R", plyr:1, button:1},
P2_GP_A: {c: 69, n: "E", plyr:1, button:0},
P2_GP_B: {c: 82, n: "R", plyr:1, button:1},
P2_GP_C: {c: 84, n: "T", plyr:1, button:2},
P2_GP_D: {c: 89, n: "Y", plyr:1, button:3},
P2_SELECT: {c: 70, n: "F", plyr:1, button:8},
P2_START: {c: 71, n: "G", plyr:1, button:9},
// keyboard only
VK_ESCAPE: {c: 27, n: "Esc"},
VK_F1: {c: 112, n: "F1"},
VK_F2: {c: 113, n: "F2"},
VK_F3: {c: 114, n: "F3"},
VK_F4: {c: 115, n: "F4"},
VK_F5: {c: 116, n: "F5"},
VK_F6: {c: 117, n: "F6"},
VK_F7: {c: 118, n: "F7"},
VK_F8: {c: 119, n: "F8"},
VK_F9: {c: 120, n: "F9"},
VK_F10: {c: 121, n: "F10"},
VK_F11: {c: 122, n: "F11"},
VK_F12: {c: 123, n: "F12"},
VK_SCROLL_LOCK: {c: 145, n: "ScrLck"},
VK_PAUSE: {c: 19, n: "Pause"},
VK_QUOTE: {c: 192, n: "'"},
VK_1: {c: 49, n: "1"},
VK_2: {c: 50, n: "2"},
VK_3: {c: 51, n: "3"},
VK_4: {c: 52, n: "4"},
VK_5: {c: 53, n: "5"},
VK_6: {c: 54, n: "6"},
VK_7: {c: 55, n: "7"},
VK_8: {c: 56, n: "8"},
VK_9: {c: 57, n: "9"},
VK_0: {c: 48, n: "0"},
VK_MINUS: {c: 189, n: "-"},
VK_MINUS2: {c: 173, n: "-"},
VK_EQUALS: {c: 187, n: "="},
VK_EQUALS2: {c: 61, n: "="},
VK_BACK_SPACE: {c: 8, n: "Bkspc"},
VK_TAB: {c: 9, n: "Tab"},
VK_Q: {c: 81, n: "Q"},
VK_W: {c: 87, n: "W"},
VK_E: {c: 69, n: "E"},
VK_R: {c: 82, n: "R"},
VK_T: {c: 84, n: "T"},
VK_Y: {c: 89, n: "Y"},
VK_U: {c: 85, n: "U"},
VK_I: {c: 73, n: "I"},
VK_O: {c: 79, n: "O"},
VK_P: {c: 80, n: "P"},
VK_ACUTE: {c: 219, n: "´"},
VK_OPEN_BRACKET: {c: 221, n: "["},
VK_CLOSE_BRACKET: {c: 220, n: "]"},
VK_CAPS_LOCK: {c: 20, n: "CpsLck"},
VK_A: {c: 65, n: "A"},
VK_S: {c: 83, n: "S"},
VK_D: {c: 68, n: "D"},
VK_F: {c: 70, n: "F"},
VK_G: {c: 71, n: "G"},
VK_H: {c: 72, n: "H"},
VK_J: {c: 74, n: "J"},
VK_K: {c: 75, n: "K"},
VK_L: {c: 76, n: "L"},
VK_CEDILLA: {c: 186, n: "Ç"},
VK_TILDE: {c: 222, n: "~"},
VK_ENTER: {c: 13, n: "Enter"},
VK_SHIFT: {c: 16, n: "Shift"},
VK_BACK_SLASH: {c: 226, n: "\\"},
VK_Z: {c: 90, n: "Z"},
VK_X: {c: 88, n: "X"},
VK_C: {c: 67, n: "C"},
VK_V: {c: 86, n: "V"},
VK_B: {c: 66, n: "B"},
VK_N: {c: 78, n: "N"},
VK_M: {c: 77, n: "M"},
VK_COMMA: {c: 188, n: "] ="},
VK_PERIOD: {c: 190, n: "."},
VK_SEMICOLON: {c: 191, n: ";"},
VK_SLASH: {c: 193, n: "/"},
VK_CONTROL: {c: 17, n: "Ctrl"},
VK_ALT: {c: 18, n: "Alt"},
VK_SPACE: {c: 32, n: "Space"},
VK_INSERT: {c: 45, n: "Ins"},
VK_DELETE: {c: 46, n: "Del"},
VK_HOME: {c: 36, n: "Home"},
VK_END: {c: 35, n: "End"},
VK_PAGE_UP: {c: 33, n: "PgUp"},
VK_PAGE_DOWN: {c: 34, n: "PgDown"},
VK_UP: {c: 38, n: "Up"},
VK_DOWN: {c: 40, n: "Down"},
VK_LEFT: {c: 37, n: "Left"},
VK_RIGHT: {c: 39, n: "Right"},
VK_NUM_LOCK: {c: 144, n: "Num"},
VK_DIVIDE: {c: 111, n: "Num /"},
VK_MULTIPLY: {c: 106, n: "Num *"},
VK_SUBTRACT: {c: 109, n: "Num -"},
VK_ADD: {c: 107, n: "Num +"},
VK_DECIMAL: {c: 194, n: "Num ."},
VK_NUMPAD0: {c: 96, n: "Num 0"},
VK_NUMPAD1: {c: 97, n: "Num 1"},
VK_NUMPAD2: {c: 98, n: "Num 2"},
VK_NUMPAD3: {c: 99, n: "Num 3"},
VK_NUMPAD4: {c: 100, n: "Num 4"},
VK_NUMPAD5: {c: 101, n: "Num 5"},
VK_NUMPAD6: {c: 102, n: "Num 6"},
VK_NUMPAD7: {c: 103, n: "Num 7"},
VK_NUMPAD8: {c: 104, n: "Num 8"},
VK_NUMPAD9: {c: 105, n: "Num 9"},
VK_NUMPAD_CENTER: {c: 12, n: "Num Cntr"}
};
function _metakeyflags(e) {
return (e.shiftKey?KeyFlags.Shift:0) |
(e.ctrlKey?KeyFlags.Ctrl:0) |
(e.altKey?KeyFlags.Alt:0) |
(e.metaKey?KeyFlags.Meta:0);
}
type KeyMapFunction = (o:KeyMapEntry, key:number, code:number, flags:number) => void;
export function newKeyboardHandler(switches:number[]|Uint8Array, map:KeyCodeMap, func?:KeyMapFunction, alwaysfunc?:boolean) {
return (key:number,code:number,flags:number) => {
if (!map) {
func(null, key, code, flags);
return;
}
var o : KeyMapEntry = map[key];
if (!o) o = map[0];
if (func && (o || alwaysfunc)) {
func(o, key, code, flags);
}
if (o) {
//console.log(key,code,flags,o);
var mask = o.mask;
if (mask < 0) { // negative mask == active low
mask = -mask;
if (flags & (KeyFlags.KeyDown | KeyFlags.KeyUp))
flags ^= KeyFlags.KeyDown | KeyFlags.KeyUp;
}
if (flags & KeyFlags.KeyDown) {
switches[o.index] |= mask;
} else if (flags & KeyFlags.KeyUp) {
switches[o.index] &= ~mask;
}
}
};
}
export function setKeyboardFromMap(video:RasterVideo, switches:number[]|Uint8Array, map:KeyCodeMap, func?:KeyMapFunction, alwaysfunc?:boolean) {
var handler = newKeyboardHandler(switches, map, func, alwaysfunc);
video.setKeyboardEvents(handler);
return new ControllerPoller(handler);
}
export function makeKeycodeMap(table : [KeyDef,number,number][]) : KeyCodeMap {
var map = new Map<number,KeyMapEntry>();
for (var i=0; i<table.length; i++) {
var entry = table[i];
var val : KeyMapEntry = {index:entry[1], mask:entry[2], def:entry[0]};
map[entry[0].c] = val;
}
return map;
}
const DEFAULT_CONTROLLER_KEYS : KeyDef[] = [
Keys.UP, Keys.DOWN, Keys.LEFT, Keys.RIGHT, Keys.A, Keys.B, Keys.SELECT, Keys.START,
Keys.P2_UP, Keys.P2_DOWN, Keys.P2_LEFT, Keys.P2_RIGHT, Keys.P2_A, Keys.P2_B, Keys.P2_SELECT, Keys.P2_START,
];
export class ControllerPoller {
active = false;
handler;
state = new Int8Array(32);
lastState = new Int8Array(32);
AXIS0 = 24; // first joystick axis index
constructor(handler:(key,code,flags) => void) {
this.handler = handler;
window.addEventListener("gamepadconnected", (event) => {
console.log("Gamepad connected:", event);
this.active = typeof navigator.getGamepads === 'function';
});
window.addEventListener("gamepaddisconnected", (event) => {
console.log("Gamepad disconnected:", event);
});
}
poll() {
if (!this.active) return;
var gamepads = navigator.getGamepads();
for (var gpi=0; gpi<gamepads.length; gpi++) {
var gp = gamepads[gpi];
if (gp) {
for (var i=0; i<gp.axes.length; i++) {
var k = i + this.AXIS0;
this.state[k] = Math.round(gp.axes[i]);
if (this.state[k] != this.lastState[k]) {
this.handleStateChange(gpi,k);
}
}
for (var i=0; i<gp.buttons.length; i++) {
this.state[i] = gp.buttons[i].pressed ? 1 : 0;
if (this.state[i] != this.lastState[i]) {
this.handleStateChange(gpi,i);
}
}
this.lastState.set(this.state);
}
}
}
handleStateChange(gpi:number, k:number) {
var axis = k - this.AXIS0;
// TODO: this is slow
for (var def of DEFAULT_CONTROLLER_KEYS) {
// is this a gamepad entry? same player #?
if (def && def.plyr == gpi) {
var code = def.c;
var state = this.state[k];
var lastState = this.lastState[k];
// check for button/axis match
if (k == def.button || (axis == 0 && def.xaxis == state) || (axis == 1 && def.yaxis == state)) {
//console.log(gpi,k,state,entry);
if (state != 0) {
this.handler(code, 0, KeyFlags.KeyDown);
} else {
this.handler(code, 0, KeyFlags.KeyUp);
}
break;
}
// joystick released?
else if (state == 0 && (axis == 0 && def.xaxis == lastState) || (axis == 1 && def.yaxis == lastState)) {
this.handler(code, 0, KeyFlags.KeyUp);
break;
}
}
}
}
}
export function padBytes(data:Uint8Array|number[], len:number, padstart?:boolean) : Uint8Array {
if (data.length > len) {
throw Error("Data too long, " + data.length + " > " + len);
}
var r = new RAM(len);
if (padstart)
r.mem.set(data, len-data.length);
else
r.mem.set(data);
return r.mem;
}
type AddressReadWriteFn = ((a:number) => number) | ((a:number,v:number) => void);
type AddressDecoderEntry = [number, number, number, AddressReadWriteFn];
type AddressDecoderOptions = {gmask?:number};
// TODO: better performance, check values
export function AddressDecoder(table : AddressDecoderEntry[], options?:AddressDecoderOptions) {
var self = this;
function makeFunction() {
var s = "";
if (options && options.gmask) {
s += "a&=" + options.gmask + ";";
}
for (var i=0; i<table.length; i++) {
var entry = table[i];
var start = entry[0]|0;
var end = entry[1]|0;
var mask = entry[2]|0;
var func = entry[3];
self['__fn'+i] = func;
s += "if (a>=" + start + " && a<="+end + "){";
if (mask) s += "a&="+mask+";";
s += "return this.__fn"+i+"(a,v)&0xff;}\n";
}
s += "return 0;"; // TODO: noise()?
return new Function('a', 'v', s);
}
return makeFunction().bind(self);
}
export function newAddressDecoder(table : AddressDecoderEntry[], options?:AddressDecoderOptions) : (a:number,v?:number) => number {
return new (AddressDecoder as any)(table, options);
}
/// TOOLBAR
export class Toolbar {
span : JQuery;
grp : JQuery;
mousetrap;
boundkeys = [];
constructor(parentDiv:HTMLElement, focusDiv:HTMLElement) {
this.mousetrap = focusDiv ? new Mousetrap(focusDiv) : Mousetrap;
this.span = $(document.createElement("span")).addClass("btn_toolbar");
parentDiv.appendChild(this.span[0]);
this.newGroup();
}
destroy() {
if (this.span) {
this.span.remove();
this.span = null;
}
if (this.mousetrap) {
for (var key of this.boundkeys) {
this.mousetrap.unbind(key);
}
this.mousetrap = null;
}
}
newGroup() {
return this.grp = $(document.createElement("span")).addClass("btn_group").appendTo(this.span).hide();
}
add(key:string, alttext:string, icon:string, fn:(e,combo) => void) {
var btn = null;
if (icon) {
btn = $(document.createElement("button")).addClass("btn");
if (icon.startsWith('glyphicon')) {
icon = '<span class="glyphicon ' + icon + '" aria-hidden="true"></span>';
}
btn.html(icon);
btn.prop("title", key ? (alttext+" ("+key+")") : alttext);
btn.click(fn);
this.grp.append(btn).show();
}
if (key) {
this.mousetrap.bind(key, fn);
this.boundkeys.push(key);
}
return btn;
}
}
// https://stackoverflow.com/questions/17130395/real-mouse-position-in-canvas
export function getMousePos(canvas : HTMLCanvasElement, evt) : {x:number,y:number} {
var rect = canvas.getBoundingClientRect(), // abs. size of element
scaleX = canvas.width / rect.width, // relationship bitmap vs. element for X
scaleY = canvas.height / rect.height; // relationship bitmap vs. element for Y
return {
x: (evt.clientX - rect.left) * scaleX, // scale mouse coordinates after they have
y: (evt.clientY - rect.top) * scaleY // been adjusted to be relative to element
}
}
///
// TODO: https://stackoverflow.com/questions/10463518/converting-em-to-px-in-javascript-and-getting-default-font-size
export function getVisibleEditorLineHeight() : number{
return $("#booksMenuButton").first().height();
}
export interface VirtualTextLine {
text : string;
clas? : string;
}
export class VirtualTextScroller {
memorylist;
maindiv : HTMLElement;
getLineAt : (row:number) => VirtualTextLine;
constructor(parent : HTMLElement) {
var div = document.createElement('div');
div.setAttribute("class", "memdump");
parent.appendChild(div);
this.maindiv = div;
}
create(workspace : HTMLElement, maxRowCount : number, fn : (row:number) => VirtualTextLine) {
this.getLineAt = fn;
this.memorylist = new VirtualList({
w: $(workspace).width(),
h: $(workspace).height(),
itemHeight: getVisibleEditorLineHeight(),
totalRows: maxRowCount, // TODO?
generatorFn: (row : number) => {
var line = fn(row);
var linediv = document.createElement("div");
linediv.appendChild(document.createTextNode(line.text));
if (line.clas != null) linediv.className = line.clas;
return linediv;
}
});
$(this.maindiv).append(this.memorylist.container);
}
// TODO: refactor with elsewhere
refresh() {
if (this.memorylist) {
$(this.maindiv).find('[data-index]').each( (i,e) => {
var div = e;
var row = parseInt(div.getAttribute('data-index'));
var oldtext = div.innerText;
var line = this.getLineAt(row);
var newtext = line.text;
if (oldtext != newtext) {
div.innerText = newtext;
if (line.clas != null && !div.classList.contains(line.clas)) {
var oldclasses = Array.from(div.classList);
oldclasses.forEach((c) => div.classList.remove(c));
div.classList.add('vrow');
div.classList.add(line.clas);
}
}
});
}
}
}
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