430 lines
10 KiB
JavaScript
430 lines
10 KiB
JavaScript
/*
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TYPES OF PROFILING
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cpu gathering - gets stack frames randomly for a few seconds
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frames - user defined to see how long engine takes
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cache - can see specific events that happened
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memory - can see how much memory is allocated and from where
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*/
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var t_units = ["ns", "us", "ms", "s", "ks", "Ms"];
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function calc_cpu(fn, times, diff = 0) {
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var series = [];
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for (var i = 0; i < times; i++) {
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var st = profile.now();
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fn(i);
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series.push(profile.now() - st - diff);
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}
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return series;
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}
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function empty_fn() {}
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profile.cpu = function profile_cpu(fn, times = 1, q = "unnamed") {
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var retgather = gathering_cpu;
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profile.gather_stop();
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var empty = calc_cpu(empty_fn, 100000);
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var mean = Math.mean(empty);
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var series = calc_cpu(fn, times, mean);
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var elapsed = Math.sum(series);
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var avgt = profile.best_t(elapsed / series.length);
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var totalt = profile.best_t(elapsed);
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say(`profile [${q}]: ${avgt} ± ${profile.best_t(Math.ci(series))} [${totalt} for ${times} loops]`);
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say(`result of function is ${fn()}`);
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if (retgather) profile.start_prof_gather();
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};
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profile.ms = function (t) {
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return profile.secs(t) * 1000;
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};
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var callgraph = {};
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profile.rawstacks = {};
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function add_callgraph(fn, line, time, alone) {
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var cc = callgraph[line];
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if (!cc) {
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var cc = {};
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callgraph[line] = cc;
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cc.time = 0;
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cc.hits = 0;
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cc.fn = fn;
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cc.line = line;
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cc.alone = {
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time: 0,
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hits: 0,
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};
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}
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cc.time += time;
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cc.hits++;
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if (alone) {
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cc.alone.time += time;
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cc.alone.hits++;
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}
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}
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var hittar = 500; // number of call instructions before getting a new frame
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var hitpct = 0.2; // amount to randomize it
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var start_gather = profile.now();
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profile.cpu_start = undefined;
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profile.clear_cpu = function () {
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callgraph = {};
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profile.cpu_instr = undefined;
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};
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profile.start_cpu_gather = function (gathertime = 5) {
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profile.clear_cpu();
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// gather cpu frames for 'time' seconds
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if (profile.cpu_start) return;
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profile.cpu_start = profile.now();
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var st = profile.cpu_start;
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profile.gather(hittar, function () {
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var time = profile.now() - st;
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var err = new Error();
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var stack = err.stack.split("\n").slice(1);
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var rawstack = stack.join("\n");
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profile.rawstacks[rawstack] ??= {
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time: 0,
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hits: 0,
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};
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profile.rawstacks[rawstack].hits++;
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profile.rawstacks[rawstack].time += time;
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stack = stack.map(x => x.slice(7).split(" "));
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var fns = stack.map(x => x[0]).filter(x => x);
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var lines = stack.map(x => x[1]).filter(x => x);
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lines = lines.map(x => x.slice(1, x.length - 1));
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add_callgraph(fns[0], lines[0], time, true);
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for (var i = 1; i < fns.length; i++) add_callgraph(fns[i], lines[i], time, false);
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st = profile.now();
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if (profile.secs(st - profile.cpu_start) < gathertime) profile.gather_rate(Math.variate(hittar, hitpct));
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else {
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profile.gather_stop();
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profile.cpu_start = undefined;
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var e = Object.values(callgraph);
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e = e.filter(x => x.line);
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for (var x of e) {
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var ffs = x.line.split(":");
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x.timestr = profile.best_t(x.time);
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x.timeper = x.time / x.hits;
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x.timeperstr = profile.best_t(x.timeper);
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x.pct = (profile.secs(x.time) / gathertime) * 100;
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x.alone.timestr = profile.best_t(x.alone.time);
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x.alone.timeper = x.alone.time / x.alone.hits;
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x.alone.timeperstr = profile.best_t(x.alone.timeper);
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x.alone.pct = (profile.secs(x.alone.time) / gathertime) * 100;
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x.fncall = get_line(ffs[0], ffs[1]);
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x.log = x.line + " " + x.fn + " " + x.fncall;
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x.incl = {
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time: x.time,
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timestr: x.timestr,
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timeper: x.timeper,
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timeperstr: x.timeperstr,
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hits: x.hits,
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pct: x.pct,
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};
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}
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profile.cpu_instr = e;
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}
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});
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};
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function push_time(arr, ob, max) {
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arr.push({
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time: profile.now(),
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ob,
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});
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}
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profile.cpu_frames = [];
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profile.last_cpu_frame = undefined;
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profile.cpu_frame = function () {
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profile.gather(Math.random_range(300, 600), function () {
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var err = new Error();
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profile.last_cpu_frame = err.stack; //.split('\n').slicconsole.stack(2);
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profile.gather_stop();
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});
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};
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var filecache = {};
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function get_line(file, line) {
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var text = filecache[file];
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if (!text) {
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var f = io.slurp(file);
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if (!f) {
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filecache[file] = "undefined";
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return filecache[file];
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}
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filecache[file] = io.slurp(file).split("\n");
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text = filecache[file];
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}
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if (typeof text === "string") return text;
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text = text[Number(line) - 1];
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if (!text) return "NULL";
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return text.trim();
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}
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profile.stop_cpu_instr = function () {
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return;
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};
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profile.best_t = function (t) {
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var qq = 0;
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while (t > 1000 && qq < t_units.length - 1) {
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t /= 1000;
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qq++;
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}
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return `${t.toPrecision(4)} ${t_units[qq]}`;
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};
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/*
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Frame averages are an instrumented profiling technique. Place frame() calls
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in your code to get a call graph for things you are interested in.
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*/
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var frame_avg = false;
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profile.start_frame_avg = function () {
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if (frame_avg) return;
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profile_frames = {};
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profile_frame_ts = [];
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profile_cframe = profile_frames;
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pframe = 0;
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frame_avg = true;
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};
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profile.stop_frame_avg = function () {
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frame_avg = false;
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};
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profile.toggle_frame_avg = function () {
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if (frame_avg) profile.stop_frame_avg();
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else profile.start_frame_avg();
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};
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var profile_framer = {
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series: [],
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avg: {},
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frame: 72000,
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};
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var profile_cframe = undefined;
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var pframe = 0;
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var profile_stack = [];
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profile.frame = function profile_frame(title) {
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return;
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if (profile.cpu_start) return;
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if (!frame_avg) return;
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if (!profile_cframe) {
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profile_cframe = {};
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profile_framer.series.push({
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time: profile.now(),
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data: profile_cframe,
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});
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} else profile_stack.push(profile_cframe);
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profile_cframe[title] ??= {};
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profile_cframe = profile_cframe[title];
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profile_cframe.time = profile.now();
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};
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profile.endframe = function profile_endframe() {
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return;
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if (!frame_avg) return;
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profile_cframe.time = profile.now() - profile_cframe.time;
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profile_cframe = profile_frame_ts.pop();
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};
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/*
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Cache reporting is to measure how long specific events take, that are NOT every frame
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Useful to measure things like how long it takes to make a specific creature
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*/
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var cache_reporting = false;
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var report_cache = {};
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var cachest = 0;
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var cachegroup;
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var cachetitle;
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profile.cache_reporting = function () {
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return cache_reporting;
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};
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profile.cache_toggle = function () {
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cache_reporting = !cache_reporting;
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};
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profile.cache_dump = function () {
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report_cache = {};
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};
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profile.cache = function profile_cache(group, title) {
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if (!cache_reporting) return;
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cachest = profile.now();
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cachegroup = group;
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cachetitle = title;
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};
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profile.endcache = function profile_endcache(tag = "") {
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return;
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addreport(cachegroup, cachetitle + tag, cachest);
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};
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function addreport(group, line, start) {
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return;
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if (typeof group !== "string") group = "UNGROUPED";
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report_cache[group] ??= {};
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var cache = report_cache[group];
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cache[line] ??= [];
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var t = profile.now();
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cache[line].push(t - start);
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return t;
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}
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function printreport(cache, name) {
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var report = `==${name}==` + "\n";
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var reports = [];
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for (var i in cache) {
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var time = cache[i].reduce((a, b) => a + b);
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reports.push({
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time: time,
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name: i,
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hits: cache[i].length,
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avg: time / cache[i].length,
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});
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}
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reports = reports.sort((a, b) => {
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if (a.avg < b.avg) return 1;
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return -1;
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});
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for (var rep of reports) report += `${rep.name} ${profile.best_t(rep.avg)} (${rep.hits} hits) (total ${profile.best_t(rep.time)})\n`;
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return report;
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}
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profile.data = {};
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profile.curframe = 0;
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profile.snapshot = {};
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var classes = ["gameobject", "transform", "dsp_node", "texture", "font", "warp_gravity", "warp_damp", "sg_buffer", "datastream", "cpShape", "cpConstraint", "timer", "skin"];
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var get_snapshot = function()
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{
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var snap = profile.snapshot;
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snap.actors ??= {};
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Object.assign(snap.actors, actor.__stats());
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snap.memory ??= {};
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Object.assign(snap.memory, os.mem());
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snap.memory.textures = game.texture.total_size();
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snap.memory.texture_vram = game.texture.total_vram();
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snap.rusage ??= {};
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var rusage = os.rusage();
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rusage.ru_maxrss *= 1024; // delivered in KB; convert here to B
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Object.assign(snap.rusage, rusage);
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snap.mallinfo ??= {};
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Object.assign(snap.mallinfo, os.mallinfo());
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snap.obj ??= {};
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for (var i of classes) {
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var proto = globalThis[`${i}_proto`];
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if (!proto) continue;
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snap.obj[i] = proto._count();
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}
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}
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var fps = [];
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var frame_lead = 1;
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var fps_t = 0;
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profile.report_frame = function (t) {
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fps.push(t);
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if (profile.secs(profile.now() - fps_t) > frame_lead) {
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profile.snapshot.fps = Math.mean(fps);
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fps.length = 0;
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fps_t = profile.now();
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get_snapshot();
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}
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};
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function prof_add_stats(obj, stat) {
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for (var i in stat) {
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obj[i] ??= [];
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if (obj[i].last() !== stat[i]) obj[i][profile.curframe] = stat[i];
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}
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}
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profile.pushdata = function (arr, val) {
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if (arr.last() !== val) arr[profile.curframe] = val;
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};
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profile.capturing = false;
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profile.capture_data = function () {
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if (!profile.capturing && profile.data.memory.malloc_size) return;
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prof_add_stats(profile.data.memory, os.mem());
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prof_add_stats(profile.data.gfx, imgui.framestats());
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prof_add_stats(profile.data.actors, actor.__stats());
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profile.curframe++;
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};
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profile.best_mem = function (bytes) {
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var sizes = ["Bytes", "KB", "MB", "GB", "TB"];
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if (bytes == 0) return "0 Bytes";
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var i = parseInt(Math.floor(Math.log(bytes) / Math.log(1024)));
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return (bytes / Math.pow(1024, i)).toPrecision(3) + " " + sizes[i];
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};
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profile.cleardata = function () {
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profile.data.gpu = {};
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profile.data.physics = {};
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profile.data.script = {};
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profile.data.memory = {};
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profile.data.gfx = {};
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profile.data.actors = {};
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profile.data.cpu = {
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scripts: [],
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render: [],
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physics: [],
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};
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};
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profile.cleardata();
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profile.last_mem = undefined;
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profile.mems = [];
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profile.gcs = [];
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profile.print_gc = function () {
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var gc = os.check_gc();
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if (!gc) return;
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profile.data.gc ??= [];
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profile.data.gc[profile.curframe] = gc;
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};
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return { profile };
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