You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
'use strict'
-const initialize = Promise.all([
+
+/* State */
+const output = {
+ print: (string) => {},
+ updateViews: () => {}
+}
+let wasmMem, wasmMain
+
+/* Environment functions */
+const bufString = (arrayBuf, addr, u) =>
+ String.fromCharCode.apply(null, new Uint16Array(arrayBuf, addr, u >> 1))
+const wasmString = (addr, u) => bufString(wasmMem, addr, u)
+const wasmBase = () => new DataView(wasmMem, 14348, 4).getUint32(0,true)
+const strToArrayBuffer = (str) => {
+ const buf = new ArrayBuffer(str.length << 1)
+ const bufView = new Uint16Array(buf)
+ for (let i = 0, strLen = str.length; i < strLen; i++)
+ bufView[i] = str.charCodeAt(i)
+ return buf
+}
+const bufJoin = (buf1, buf2) => {
+ const newBuf = new Uint8Array(buf1.byteLength + buf2.byteLength)
+ newBuf.set(new Uint8Array(buf1), 0)
+ newBuf.set(new Uint8Array(buf2), buf1.byteLength)
+ return newBuf.buffer
+}
+
+/* I/O Channel Drivers */
+const channels = []
+const getChannel = (chno) => {
+ const channel = channels[chno]
+ if (!channel)
+ throw new Error(`invalid channel access ${chno}`)
+ return channel
+}
+class Channel {
+ constructor(opt) {
+ opt = opt || Object.create(null)
+ opt.chno = channels.indexOf(undefined)
+ if (opt.chno === -1)
+ opt.chno = channels.length
+ Object.assign(this, opt)
+ if (this.buffer === undefined)
+ this.buffer = new ArrayBuffer(0)
+ channels[this.chno] = this
+ return this
+ }
+ read(writeArray, writeAddr, writeMax) {
+ const bufBytes = Math.min(writeMax, this.buffer.byteLength)
+ new Uint8Array(writeArray).set(new Uint8Array(this.buffer, 0, bufBytes), writeAddr)
+ this.buffer = this.buffer.slice(bufBytes)
+ return bufBytes
+ }
+ write(readArray, readAddr, readSize) {
+ this.buffer = bufJoin(this.buffer, new Uint8Array(readArray, readAddr, readSize))
+ wasmMain(this.chno)
+ output.updateViews()
+ }
+ send(readArray, readAddr, readSize) {
+ this.write(readArray, readAddr, readSize)
+ }
+}
+
+/* System runtime */
+const simstack = []
+const rstack = []
+const dictionary = { EXECUTE: 12 }
+const doesDictionary = {}
+const wasmImport = {
+ env: {
+ pop: () => simstack.pop(),
+ push: (val) => simstack.push(val),
+ rinit: () => rstack.length = 0,
+ rpop: () => rstack.pop(),
+ rpush: (val) => rstack.push(val),
+ sys_write: (chno, addr, u) => getChannel(chno).write(wasmMem, addr, u),
+ sys_read: (chno, addr, u) => getChannel(chno).read(wasmMem, addr, u),
+ sys_send: (chno, addr, u) => getChannel(chno).send(wasmMem, addr, u),
+ sys_connect: (addr, u) => {
+ //TODO: call into the module to wasm fn "event" to push an event
+ //to forth, which pushes esi to the return stack and queues the
+ //callback function provided from listen. reqaddr could be
+ //"fetch", in which case no channel is used. otherwise very
+ //similar to sys_fetch.
+
+ //callbacks are events, like listen events
+ //totally event-driven, one listener per event
+ //other listen types: mouse, keyboard, touch, main_loop (10ms interval), wrtc, etc
+ //fetch is different because it offers no "write" interface, doesn't repeat
+ },
+ sys_fetch: (chno, addr, u) => {
+ const str = wasmString(addr, u)
+ console.log(`fetching: ${str} || ${addr} ${u}`)
+ const args = JSON.parse(wasmString(addr, u))
+ console.log(args)
+ const url = args.url
+ delete args.url
+ const channel = channels[chno]
+ if (!channel) {
+ console.error(`invalid channel fetch: ${chno}`)
+ return -1
+ }
+ fetch(url, args).then((re) => {
+ if (args.headers === undefined ||
+ args.headers['content-type'] === undefined ||
+ args.headers['content-type'].toLowerCase().indexOf('text/plain') === 0 )
+ re.text().then((txt) => channel.write(strToArrayBuffer(txt), 0, txt.length << 1))
+ else {
+ const reader = new FileReader()
+ reader.onload = (evt) => channel.write(evt.target.result, 0, evt.target.result.byteLength)
+ re.blob().then((blob) => reader.readAsArrayBuffer(blob))
+ }
+ }).catch(console.error)
+ return 0
+ },
+ sys_open: () => new Channel().chno,
+ sys_close: (chno) => chno < 3 ? 0 : delete channels[chno],
+ sys_echo: (val) => output.print(`\\\ => ${val.toString(wasmBase())}\n`),
+ sys_log: (addr, u) => console.log(`=> ${wasmString(addr, u)}`),
+ sys_reflect: (addr) => {
+ console.log(`reflect: ${addr}: ${
+ new DataView(wasmMem, addr, 4)
+ .getUint32(0,true)
+ }`)
+ },
+ vocab_get: (addr, u) => dictionary[wasmString(addr, u).toUpperCase()] || 0,
+ vocab_set: (addr, u, v) => dictionary[wasmString(addr, u).toUpperCase()] = v,
+ does_get: (addr, u) => doesDictionary[wasmString(addr, u).toUpperCase()] || 0,
+ does_set: (addr, u, v) => doesDictionary[wasmString(addr, u).toUpperCase()] = v,
+ is_whitespace: (key) => /\s/.test(String.fromCharCode(key)),
+ sys_stack: () => { console.log(`[${simstack}][${rstack}]`)
+ console.log(new Uint32Array(wasmMem, 16900, 28))
+ },
+ sys_parsenum: (addr, u) => {
+ const answer = Number.parseInt(wasmString(addr, u), wasmBase())
+ if (Number.isNaN(answer))
+ return -1
+ new DataView(wasmMem, addr, 4).setUint32(0,answer,true)
+ return 0
+ },
+ sys_words: () => {
+ output.print(Object.getOwnPropertyNames(dictionary).toString().split(',').join(' '))
+ }
+ }
+}
+
+/* Initialization */
+/* 0 STDIN, 1 STDOUT, 2 STDERR */
+new Channel({
+ send(readArray, readAddr, readSize) { output.print(bufString(readArray, readAddr, readSize)) }
+})
+new Channel({
+ write(readArray, readAddr, readSize) { output.print(bufString(readArray, readAddr, readSize)) },
+ send(readArray, readAddr, readSize) { output.print(`\n\\\ => ${bufString(readArray, readAddr, readSize)}\n`) }
+})
+new Channel({
+ write(readArray, readAddr, readSize) { console.error(bufString(readArray, readAddr, readSize)) }
+})
+
+/* Fetch wasm file, and initial forth file */
+Promise.all([
fetch('forth.forth', {credentials: 'include', headers:{'content-type':'text/plain'}}).then((re) => re.text()),
fetch('forth.wasm', {credentials: 'include', headers:{'content-type':'application/wasm'}}).then(re => re.arrayBuffer())
-])
-window.onload = () => {
- const simstack = []
- const rstack = []
+]).then((results) => {
+ WebAssembly.instantiate(results[1], wasmImport).then((module) => {
+ wasmMem = module.instance.exports.memory.buffer
+ wasmMain = module.instance.exports.main
+ console.log('wasm loaded')
+ getChannel(0).write(strToArrayBuffer(results[0]))
+ })
+})
+/* View Logic */
+window.onload = () => {
let forthdiv = document.getElementById("forth")
if (forthdiv === null) {
forthdiv = document.createElement("div")
- forthdiv.setAttribute("style","height:100%;margin:auto;width:100%;overflow-x:hidden;")
+ forthdiv.setAttribute("style","height:100%;margin:auto;width:100%;max-width:640px;overflow-x:hidden;")
document.body.appendChild(forthdiv)
}
const outframe = document.createElement("div")
- outframe.setAttribute("style", "background-color:black;padding-left:6px;padding-right:6px;color:chartreuse;height:256px;resize:vertical;display:flex;align-items:flex-end;flex-flow:row")
+ outframe.setAttribute("style", "background-color:black;padding-left:6px;padding-right:6px;color:chartreuse;height:268px;resize:vertical;display:flex;align-items:flex-end;flex-flow:row;")
const stackview = document.createElement("pre")
- stackview.setAttribute("style", "white-space:pre-wrap;flex:0 0 8%;")
+ stackview.setAttribute("style", "white-space:pre-wrap;flex:0 0 6%;")
outframe.appendChild(stackview)
const txtoutput = document.createElement("pre")
- txtoutput.setAttribute("style", "white-space:pre-wrap;overflow-y:scroll;flex:1 0 342px;")
+ txtoutput.setAttribute("style", "white-space:pre-wrap;max-height:256px;overflow-y:scroll;flex:1 0 342px;")
outframe.appendChild(txtoutput)
- const rstackview = document.createElement("pre")
+ /* const rstackview = document.createElement("pre")
rstackview.setAttribute("style", "white-space:pre-wrap;flex:0 1 8%;")
- outframe.appendChild(rstackview)
+ outframe.appendChild(rstackview) */
const memview = document.createElement("pre")
- memview.setAttribute("style", "white-space:pre-wrap;flex:0 0 8%;")
+ memview.setAttribute("style", "padding-left: 8px; white-space:pre-wrap;flex:0 0 88px;")
outframe.appendChild(memview)
const txtinput = document.createElement("textarea")
txtinput.setAttribute("autofocus", "true")
txtinput.setAttribute("wrap", "hard")
- txtinput.setAttribute("style", "resize:none;white-space:pre;margin-left:8%;width:60%;")
- txtinput.oninput = () => txtinput.rows = (txtinput.value.match(/[\n]/g) || [1]).length + 1;
+ txtinput.setAttribute("style", "resize:none;white-space:pre;margin-left:6%;width:77%;")
+ txtinput.oninput = () => txtinput.setAttribute("rows", ((txtinput.value.match(/[\n]/g) || [1]).length + 1).toString());
txtinput.oninput()
- forthdiv.appendChild(outframe)
- forthdiv.appendChild(txtinput)
- let wasmMem
- let forth
- const output = {
- print: (string) => txtoutput.textContent += `\\\ => ${string} \n`
- }
- const updateViews = () => {
- stackview.textContent = simstack.join('\n')
- rstackview.textContent = rstack.join('\n')
- let cnt = 0;
- const maxBytes = 12
- let here = new DataView(wasmMem.buffer, 14340 /* here */, 4).getUint32(0,true)
- memview.textContent = Array.from(new Uint8Array(wasmMem.buffer, here - maxBytes, maxBytes), (v) => {
- cnt++;
- v = ('0' + (v & 0xFF).toString(16)).slice(-2)
- if (cnt === maxBytes)
- return v
- if ((cnt % 4) === 0)
- return v + '\n==\n'
- return v + '\n'
- }).join('')
- outframe.scrollTop = outframe.scrollHeight
- }
- /* Input capture */
- let stdin = ""
- txtinput.addEventListener('keydown', (event) => {
+ txtinput.onkeydown = (event) => {
switch (event.key) {
case "Enter":
if (event.ctrlKey) {
txtinput.oninput()
}
else {
- stdin += txtinput.value
- txtoutput.textContent += txtinput.value
- if (!/\s/.test(txtinput.value.slice(-1)))
- txtoutput.textContent += " "
- txtinput.value = ""
+ if (txtinput.value.length && !/\s/.test(txtinput.value.slice(-1)))
+ txtinput.value += " "
event.preventDefault()
event.stopPropagation()
- forth()
- updateViews()
+ getChannel(0).write(strToArrayBuffer(txtinput.value))
+ txtinput.value = ""
}
break
case "Backspace":
default:
break
}
- })
- const channels = [{
- read: (writeAddr, maxBytes) => {
- const maxChars = maxBytes >> 1
- const bufView = new Uint16Array(wasmMem.buffer, writeAddr, maxChars)
- let i
- for (i = 0; i < maxChars && i < stdin.length; i++)
- bufView[i] = stdin.charCodeAt(i)
- stdin = stdin.substring(maxChars)
- return i << 1
- },
- write: (readAddr, maxBytes) =>
- output.print(String.fromCharCode.apply(
- null,
- new Uint16Array(wasmMem.buffer, readAddr, maxBytes >> 1)
- ))
- }]
- const dictionary = {
- EXECUTE: 12
}
- const doesDictionary = {}
- const wasmImport = {
- env: {
- pop: () => simstack.pop(),
- push: (val) => simstack.push(val),
- rinit: () => rstack.length = 0,
- rpop: () => rstack.pop(),
- rpush: (val) => rstack.push(val),
- sys_write: (channel, addr, u) => channels[channel] === undefined ? 0 : channels[channel].write(addr, u),
- sys_read: (channel, addr, u) => channels[channel] === undefined ? 0 : channels[channel].read(addr, u),
- sys_listen: (reqAddr, cbAddr) => {
- //TODO: call into the module to wasm fn "event" to push an event
- //to forth, which pushes esi to the return stack and queues the
- //callback function provided from listen. reqaddr could be
- //"fetch", in which case no channel is used. otherwise very
- //similar to sys_fetch.
- },
- sys_fetch: (channel, reqAddr) => {
- //TODO: map to fetch promise, write to channel buffer,
- //javascript "fetch" as fallback, explicit handles for
- //"textEntry" or any third party protocols like activitypub
- console.log(`fetch ${channel} ${reqAddr}`)
- },
- sys_echo: (val) => output.print(`${val} `),
- sys_echochar: (val) => output.print(String.fromCharCode(val)),
- sys_reflect: (addr) => {
- console.log(`reflect: ${addr}: ${
- new DataView(wasmMem.buffer, addr, 4)
- .getUint32(0,true)
- }`)
- },
- vocab_get: (addr, u) => {
- const word = String.fromCharCode.apply(
- null,
- new Uint16Array(wasmMem.buffer, addr, u >> 1)
- )
- const answer = dictionary[word.toUpperCase()]
- if (answer === undefined)
- return 0
- return answer
- },
- vocab_set: (addr, u, num) => {
- const word = String.fromCharCode.apply(
- null,
- new Uint16Array(wasmMem.buffer, addr, u >> 1)
- )
- dictionary[word.toUpperCase()] = num
- return 0
- },
- does_get: (u) => doesDictionary[u] || 0,
- does_set: (u, v) => doesDictionary[u] = v,
- is_whitespace: (key) => /\s/.test(String.fromCharCode(key)),
- sys_stack: () => console.log(`[${simstack}]`),
- sys_parsenum: (addr, u, base) => {
- const word = String.fromCharCode.apply(
- null,
- new Uint16Array(wasmMem.buffer, addr, u >> 1)
- )
- const answer = Number.parseInt(word, base)
- if (Number.isNaN(answer))
- return -1
- new DataView(wasmMem.buffer, addr, 4).setUint32(0,answer,true)
- return 0
- },
- sys_words: () => {
- output.print(Object.getOwnPropertyNames(dictionary).toString().split(',').join(' '))
- }
- }
+ forthdiv.appendChild(outframe)
+ forthdiv.appendChild(txtinput)
+ /* Set up output functions */
+ output.print = (string) => txtoutput.textContent += string,
+ output.updateViews = () => {
+ const base = wasmBase()
+ stackview.textContent = simstack.map((v) => v.toString(base)).join('\n')
+ // rstackview.textContent = rstack.join('\n')
+ let cnt = 0;
+ const maxBytes = 64
+ let here = new DataView(wasmMem, 14340 /* here */, 4).getUint32(0,true)
+ memview.textContent = Array.from(new Uint8Array(wasmMem, here - maxBytes, maxBytes), (v) => {
+ cnt++;
+ v = ('0' + (v & 0xFF).toString(16)).slice(-2)
+ if (cnt === maxBytes)
+ return v
+ if ((cnt % 16) === 0)
+ return `${v}\n=> ${(here -maxBytes + cnt).toString(base)}\n`
+ if ((cnt % 4) === 0)
+ return `${v}\n`
+ return `${v} `
+ }).join('')
+ outframe.scrollTop = outframe.scrollHeight
+ txtoutput.scrollTop = txtoutput.scrollHeight
}
- initialize.then((results) => {
- stdin = results[0]
- WebAssembly.instantiate(results[1], wasmImport).then((module) => {
- wasmMem = module.instance.exports.memory
- forth = module.instance.exports.main
- console.log('wasm loaded')
- forth()
- updateViews()
- })
- })
}