ESPTerm web interface submodule, separated to make testing and development easier
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
espterm-front-end/js/term/debug_screen.js

382 lines
12 KiB

const { mk } = require('../utils')
module.exports = function attachDebugScreen (screen) {
const debugCanvas = mk('canvas')
const ctx = debugCanvas.getContext('2d')
debugCanvas.classList.add('debug-canvas')
let mouseHoverCell = null
let updateToolbar
let onMouseMove = e => {
mouseHoverCell = screen.screenToGrid(e.offsetX, e.offsetY)
startDrawing()
updateToolbar()
}
let onMouseOut = () => (mouseHoverCell = null)
let addCanvas = function () {
if (!debugCanvas.parentNode) {
screen.canvas.parentNode.appendChild(debugCanvas)
screen.canvas.addEventListener('mousemove', onMouseMove)
screen.canvas.addEventListener('mouseout', onMouseOut)
}
}
let removeCanvas = function () {
if (debugCanvas.parentNode) {
debugCanvas.parentNode.removeChild(debugCanvas)
screen.canvas.removeEventListener('mousemove', onMouseMove)
screen.canvas.removeEventListener('mouseout', onMouseOut)
onMouseOut()
}
}
let updateCanvasSize = function () {
let { width, height, devicePixelRatio } = screen.window
let cellSize = screen.getCellSize()
debugCanvas.width = width * cellSize.width * devicePixelRatio
debugCanvas.height = height * cellSize.height * devicePixelRatio
debugCanvas.style.width = `${width * cellSize.width}px`
debugCanvas.style.height = `${height * cellSize.height}px`
}
let drawInfo = mk('div')
drawInfo.classList.add('draw-info')
let startTime, endTime, lastReason
let cells = new Map()
let clippedRects = []
let updateFrames = []
let startDrawing
screen._debug = {
drawStart (reason) {
lastReason = reason
startTime = Date.now()
clippedRects = []
},
drawEnd () {
endTime = Date.now()
console.log(drawInfo.textContent = `Draw: ${lastReason} (${(endTime - startTime)} ms) with graphics=${screen.window.graphics}`)
startDrawing()
},
setCell (cell, flags) {
cells.set(cell, [flags, Date.now()])
},
clipRect (...args) {
clippedRects.push(args)
},
pushFrame (frame) {
frame.push(Date.now())
updateFrames.push(frame)
startDrawing()
}
}
let clipPattern
{
let patternCanvas = document.createElement('canvas')
patternCanvas.width = patternCanvas.height = 12
let pctx = patternCanvas.getContext('2d')
pctx.lineWidth = 1
pctx.strokeStyle = '#00f'
pctx.beginPath()
pctx.moveTo(0, 0)
pctx.lineTo(0 - 4, 12)
pctx.moveTo(4, 0)
pctx.lineTo(4 - 4, 12)
pctx.moveTo(8, 0)
pctx.lineTo(8 - 4, 12)
pctx.moveTo(12, 0)
pctx.lineTo(12 - 4, 12)
pctx.moveTo(16, 0)
pctx.lineTo(16 - 4, 12)
pctx.stroke()
clipPattern = ctx.createPattern(patternCanvas, 'repeat')
}
let isDrawing = false
let lastDrawTime = 0
let t = 0
let drawLoop = function () {
if (isDrawing) window.requestAnimationFrame(drawLoop)
let dt = (Date.now() - lastDrawTime) / 1000
lastDrawTime = Date.now()
t += dt
let { devicePixelRatio, width, height } = screen.window
let { width: cellWidth, height: cellHeight } = screen.getCellSize()
let screenLength = width * height
let now = Date.now()
ctx.setTransform(devicePixelRatio, 0, 0, devicePixelRatio, 0, 0)
ctx.clearRect(0, 0, width * cellWidth, height * cellHeight)
let activeCells = 0
for (let cell = 0; cell < screenLength; cell++) {
if (!cells.has(cell) || cells.get(cell)[0] === 0) continue
let [flags, timestamp] = cells.get(cell)
let elapsedTime = (now - timestamp) / 1000
if (elapsedTime > 1) continue
activeCells++
ctx.globalAlpha = 0.5 * Math.max(0, 1 - elapsedTime)
let x = cell % width
let y = Math.floor(cell / width)
if (flags & 1) {
// redrawn
ctx.fillStyle = '#f0f'
}
if (flags & 2) {
// updated
ctx.fillStyle = '#0f0'
}
ctx.fillRect(x * cellWidth, y * cellHeight, cellWidth, cellHeight)
if (flags & 4) {
// wide cell
ctx.lineWidth = 2
ctx.strokeStyle = '#f00'
ctx.strokeRect(x * cellWidth, y * cellHeight, cellWidth, cellHeight)
}
}
if (clippedRects.length) {
ctx.globalAlpha = 0.5
ctx.beginPath()
for (let rect of clippedRects) {
ctx.rect(...rect)
}
ctx.fillStyle = clipPattern
ctx.fill()
}
let didDrawUpdateFrames = false
if (updateFrames.length) {
let framesToDelete = []
for (let frame of updateFrames) {
let time = frame[4]
let elapsed = Date.now() - time
if (elapsed > 1000) framesToDelete.push(frame)
else {
didDrawUpdateFrames = true
ctx.globalAlpha = 1 - elapsed / 1000
ctx.strokeStyle = '#ff0'
ctx.lineWidth = 2
ctx.strokeRect(frame[0] * cellWidth, frame[1] * cellHeight, frame[2] * cellWidth, frame[3] * cellHeight)
}
}
for (let frame of framesToDelete) {
updateFrames.splice(updateFrames.indexOf(frame), 1)
}
}
if (mouseHoverCell) {
ctx.save()
ctx.globalAlpha = 1
ctx.lineWidth = 1 + 0.5 * Math.sin(t * 10)
ctx.strokeStyle = '#fff'
ctx.lineJoin = 'round'
ctx.setLineDash([2, 2])
ctx.lineDashOffset = t * 10
ctx.strokeRect(mouseHoverCell[0] * cellWidth, mouseHoverCell[1] * cellHeight, cellWidth, cellHeight)
ctx.lineDashOffset += 2
ctx.strokeStyle = '#000'
ctx.strokeRect(mouseHoverCell[0] * cellWidth, mouseHoverCell[1] * cellHeight, cellWidth, cellHeight)
ctx.restore()
}
if (activeCells === 0 && !mouseHoverCell && !didDrawUpdateFrames) {
isDrawing = false
removeCanvas()
}
}
startDrawing = function () {
if (isDrawing) return
addCanvas()
updateCanvasSize()
isDrawing = true
lastDrawTime = Date.now()
drawLoop()
}
// debug toolbar
const toolbar = mk('div')
toolbar.classList.add('debug-toolbar')
let toolbarAttached = false
const dataDisplay = mk('div')
dataDisplay.classList.add('data-display')
toolbar.appendChild(dataDisplay)
const internalDisplay = mk('div')
internalDisplay.classList.add('internal-display')
toolbar.appendChild(internalDisplay)
toolbar.appendChild(drawInfo)
const buttons = mk('div')
buttons.classList.add('toolbar-buttons')
toolbar.appendChild(buttons)
{
const redraw = mk('button')
redraw.textContent = 'Redraw'
redraw.addEventListener('click', e => {
screen.renderer.resetDrawn()
screen.renderer.draw('debug-redraw')
})
buttons.appendChild(redraw)
const fancyGraphics = mk('button')
fancyGraphics.textContent = 'Toggle Graphics'
fancyGraphics.addEventListener('click', e => {
screen.window.graphics = +!screen.window.graphics
})
buttons.appendChild(fancyGraphics)
}
const attachToolbar = function () {
screen.canvas.parentNode.appendChild(toolbar)
}
const detachToolbar = function () {
toolbar.parentNode.removeChild(toolbar)
}
screen.on('update-window:debug', debug => {
if (debug !== toolbarAttached) {
toolbarAttached = debug
if (debug) attachToolbar()
else {
detachToolbar()
removeCanvas()
}
}
})
const displayCellAttrs = attrs => {
let result = attrs.toString(16)
if (attrs & 1 || attrs & 2) {
result += ':has('
if (attrs & 1) result += 'fg'
if (attrs & 2) result += (attrs & 1 ? ',' : '') + 'bg'
result += ')'
}
let attributes = []
if (attrs & (1 << 2)) attributes.push('\\[bold]bold\\()')
if (attrs & (1 << 3)) attributes.push('\\[underline]underln\\()')
if (attrs & (1 << 4)) attributes.push('\\[invert]invert\\()')
if (attrs & (1 << 5)) attributes.push('blink')
if (attrs & (1 << 6)) attributes.push('\\[italic]italic\\()')
if (attrs & (1 << 7)) attributes.push('\\[strike]strike\\()')
if (attrs & (1 << 8)) attributes.push('\\[overline]overln\\()')
if (attrs & (1 << 9)) attributes.push('\\[faint]faint\\()')
if (attrs & (1 << 10)) attributes.push('fraktur')
if (attributes.length) result += ':' + attributes.join()
return result.trim()
}
const formatColor = color => color < 256 ? color : `#${`000000${(color - 256).toString(16)}`.substr(-6)}`
const getCellData = cell => {
if (cell < 0 || cell > screen.screen.length) return '(-)'
let cellAttrs = screen.renderer.drawnScreenAttrs[cell] | 0
let cellFG = screen.renderer.drawnScreenFG[cell] | 0
let cellBG = screen.renderer.drawnScreenBG[cell] | 0
let fgText = formatColor(cellFG)
let bgText = formatColor(cellBG)
fgText += `\\[color=${screen.renderer.getColor(cellFG).replace(/ /g, '')}]●\\[]`
bgText += `\\[color=${screen.renderer.getColor(cellBG).replace(/ /g, '')}]●\\[]`
let cellCode = (screen.renderer.drawnScreen[cell] || '').codePointAt(0) | 0
let hexcode = cellCode.toString(16).toUpperCase()
if (hexcode.length < 4) hexcode = `0000${hexcode}`.substr(-4)
hexcode = `U+${hexcode}`
let x = cell % screen.window.width
let y = Math.floor(cell / screen.window.width)
return `((${y},${x})=${cell}:\\[bold]${hexcode}\\[]:F${fgText}:B${bgText}:A(${displayCellAttrs(cellAttrs)}))`
}
const setFormattedText = (node, text) => {
node.innerHTML = ''
let match
let attrs = {}
let pushSpan = content => {
let span = mk('span')
node.appendChild(span)
span.textContent = content
for (let key in attrs) span[key] = attrs[key]
}
while ((match = text.match(/\\\[(.*?)\]/))) {
if (match.index > 0) pushSpan(text.substr(0, match.index))
attrs = { style: '' }
let data = match[1].split(' ')
for (let attr of data) {
if (!attr) continue
let key, value
if (attr.indexOf('=') > -1) {
key = attr.substr(0, attr.indexOf('='))
value = attr.substr(attr.indexOf('=') + 1)
} else {
key = attr
value = true
}
if (key === 'color') console.log(value)
if (key === 'bold') attrs.style += 'font-weight:bold;'
if (key === 'italic') attrs.style += 'font-style:italic;'
if (key === 'underline') attrs.style += 'text-decoration:underline;'
if (key === 'invert') attrs.style += 'background:#000;filter:invert(1);'
if (key === 'strike') attrs.style += 'text-decoration:line-through;'
if (key === 'overline') attrs.style += 'text-decoration:overline;'
if (key === 'faint') attrs.style += 'opacity:0.5;'
else if (key === 'color') attrs.style += `color:${value};`
else attrs[key] = value
}
text = text.substr(match.index + match[0].length)
}
if (text) pushSpan(text)
}
let internalInfo = {}
updateToolbar = () => {
if (!toolbarAttached) return
let text = `C((${screen.cursor.y},${screen.cursor.x}),hang:${screen.cursor.hanging},vis:${screen.cursor.visible})`
if (mouseHoverCell) {
text += ' m' + getCellData(mouseHoverCell[1] * screen.window.width + mouseHoverCell[0])
}
setFormattedText(dataDisplay, text)
if ('flags' in internalInfo) {
// we got ourselves some internal data
let text = ' '
text += ` flags:${internalInfo.flags.toString(2)}`
text += ` curAttrs:${internalInfo.cursorAttrs.toString(2)}`
text += ` Region:${internalInfo.regionStart}->${internalInfo.regionEnd}`
text += ` Charset:${internalInfo.charsetGx} (0:${internalInfo.charsetG0},1:${internalInfo.charsetG1})`
text += ` Heap:${internalInfo.freeHeap}`
text += ` Clients:${internalInfo.clientCount}`
setFormattedText(internalDisplay, text)
}
}
screen.on('draw', updateToolbar)
screen.on('internal', data => {
internalInfo = data
updateToolbar()
})
}