示例#1
0
文件: cmd.go 项目: knz/reg
func (ts *ticksource_cmd) Start(prod chan<- t.Ticks) {

	cmdout := make(chan string)
	go ts.cmd.Start(nil, cmdout)

	lastval := t.Ticks(0)

	if (ts.sourcetype&t.SRC_Z != 0) || (ts.sourcetype&t.SRC_O == 0) {
		// we produce zero as origin in this case.
		// If the command also produces an origin, just wait for it and then ignore.
		if ts.sourcetype&t.SRC_O != 0 {
			<-cmdout
		}
		// then emit the zero origin.
		prod <- t.Ticks(0)
	}

	for {
		tickstr := <-cmdout

		v, err := strconv.ParseFloat(tickstr, 64)
		Assert(err == nil, "parsing ticks", ":", err)

		val := t.Ticks(v)

		if ts.sourcetype&t.SRC_M != 0 {
			tmp := val - lastval
			lastval = val
			val = tmp
		}

		prod <- val
	}
}
示例#2
0
文件: input.go 项目: knz/reg
func parse(input <-chan string, ticksctl chan<- t.Ticks, supplycmd chan<- SupplyCmd, acmd chan<- bool, statusctl chan<- bool) {
	for cmd := range input {
		cmdargs := strings.Split(cmd, " ")

		switch cmdargs[0] {
		case ".":
			Assert(len(cmdargs) == 2, "invalid syntax for . on input: ", cmd)
			v, err := strconv.ParseFloat(cmdargs[1], 64)
			Assert(err == nil, "parsing . on input", ":", err)
			ticksctl <- t.Ticks(v)
		case "+":
			Assert(len(cmdargs) == 2, "invalid syntax for + on input: ", cmd)
			v, err := strconv.ParseFloat(cmdargs[1], 64)
			Assert(err == nil, "parsing + on input", ":", err)
			supplycmd <- SupplyCmd{t.StuffSteps(v)}
		case "aon":
			acmd <- true
		case "aoff":
			acmd <- false
		case "?":
			Assert(len(cmdargs) == 1, "invalid syntax for ? on input: ", cmd)
			statusctl <- true
		}
	}
}
示例#3
0
文件: timer.go 项目: knz/reg
func (ts *ticksource_timer) Start(prod chan<- t.Ticks) {

	ticker := time.NewTicker(ts.period)
	src := (*ticker).C

	var div float64

	if ts.divper {
		div = 1 / float64(ts.period)
	} else {
		div = 1 / 1e9
	}

	var lasttime time.Time

	if ts.stype&t.SRC_Z != 0 {
		// origin forced to zero, so consume
		// first tick to define origin
		lasttime = <-src
	}

	for v := range src {
		d := v.Sub(lasttime)
		lasttime = v
		prod <- t.Ticks(float64(d) * div)
	}
}
示例#4
0
文件: ticks.go 项目: knz/reg
func throttle_ticks(minperiod t.Ticks, src <-chan t.Ticks, prod chan<- t.Ticks) {
	val := float64(0)
	mp := float64(minperiod)

	for v := range src {
		val += float64(v)
		if val >= mp {
			prod <- t.Ticks(val)
			val = 0
		}
	}
}
示例#5
0
文件: ticks.go 项目: knz/reg
func mergeticks(src_ext <-chan t.Ticks, src_ctl <-chan t.Ticks, prod chan<- t.Ticks) {

	prod <- <-src_ext // forward init

	for {
		// forward deltas from either external tick source
		// or input stream
		v := t.Ticks(0)
		select {
		case v = <-src_ctl:
		case v = <-src_ext:
		}
		if v > 0 {
			prod <- v
		}
	}
}
示例#6
0
文件: integrate.go 项目: knz/reg
func (qs *qstate) make_status(supply t.StuffSteps) t.Status {

	qs.ticks += qs.dticks
	qs.steps += qs.dsteps

	st := t.Status{
		Ticks:      qs.ticks,
		TicksDelta: qs.dticks,
		Steps:      qs.steps,
		StepsDelta: qs.dsteps,
		Supply:     supply,
		Delta:      supply - qs.psupply,
	}
	qs.psupply = supply
	qs.dticks = t.Ticks(0)
	qs.dsteps = t.Steps(0)

	return st
}
示例#7
0
文件: dummy.go 项目: knz/reg
func (ts *ticksource_dummy) Start(prod chan<- t.Ticks) {
	prod <- t.Ticks(ts.v) // init,
	// then nothing
}
示例#8
0
文件: reg.go 项目: knz/reg
func main() {
	ifname := getopt.StringLong("input", 'i', "-", "Set input stream for supplies (default '-', stdin)", "FILE")
	ofname := getopt.StringLong("output", 'o', "-", "Set output stream for reports (default '-', stdout)", "FILE")
	tspec := getopt.StringLong("ticks", 't', "", "Set tick generator (produces tick events)", "SPEC")
	sspec := getopt.StringLong("steps", 's', "", "Set progress indicator (measures steps)", "SPEC")
	mspec := getopt.StringLong("monitor", 'm', "", "Set resource monitor (measures stuff)", "SPEC")
	aspec := getopt.StringLong("actuator", 'a', "", "Set actuator (triggered upon supply exhaustion)", "SPEC")
	gran := getopt.StringLong("granularity", 'g', "0", "Force tick granularity (default 0, disabled)", "N")
	thr := getopt.StringLong("periodic-output", 'p', "none", "Configure periodic output (default none)", "PER")
	help := getopt.BoolLong("help", 'h', "Print this help")
	ver := getopt.BoolLong("version", 0, "Report version number")

	getopt.SetParameters("")
	getopt.Parse()

	/*** -h / -v ***/
	if *help {
		getopt.Usage()
		fmt.Println("\nReport bugs to http://github.com/knz/reg/issues")
		os.Exit(0)
	}

	if *ver {
		fmt.Println("reg (REG-ulator)", version)
		os.Exit(0)
	}

	/*** -i / -o ***/

	var fin, fout *os.File
	var err error

	if *ifname == "-" {
		fin = os.Stdin
	} else {
		fin, err = os.Open(*ifname)
		Assert(err == nil, "-i :", err)
	}

	if *ofname == "-" {
		fout = os.Stdout
	} else {
		fout, err = os.OpenFile(*ofname, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0666)
		Assert(err == nil, "-o :", err)
	}

	/*** -g ***/

	g, err := strconv.ParseFloat(*gran, 64)
	Assert(err == nil, "-g :", err)
	Assert(g >= 0, "-g : granularity cannot be negative")

	/*** -p ***/

	throttle_type := reg.OUTPUT_EXPLICIT_ONLY
	throttle_period := float64(0)

	spec_type, spec_flags, spec_arg := split(*thr)
	switch spec_type {
	case "none":
		Assert(spec_flags == "" && spec_arg == "", "-p none does not accept flags/argument")
		throttle_type = reg.OUTPUT_EXPLICIT_ONLY
	case "flood":
		Assert(spec_flags == "" && spec_arg == "", "-p flood does not accept flags/argument")
		throttle_type = reg.OUTPUT_FLOOD
	case "ticks":
		throttle_type = reg.OUTPUT_THROTTLE_TICKS
		if spec_arg != "" {
			throttle_period, err = strconv.ParseFloat(spec_arg, 64)
			Assert(err == nil, "-p ticks :", err)
		}
		Assert(spec_flags == "", "-p ticks does not accept flags")
	case "steps":
		throttle_type = reg.OUTPUT_THROTTLE_STEPS
		if spec_arg != "" {
			throttle_period, err = strconv.ParseFloat(spec_arg, 64)
			Assert(err == nil, "-p steps :", err)
		}
		Assert(spec_flags == "", "-p steps does not accept flags")
	default:
		Assert(false, "invalid syntax for -p")
	}
	Assert(throttle_period >= 0, "-p : period cannot be negative")

	/*** -a ***/

	var a act.Actuator
	spec_type, spec_flags, spec_arg = split(*aspec)
	Assert(spec_flags == "", "-a does not accept flags")
	switch spec_type {
	case "discard":
		Assert(spec_arg == "", "-a discard does not accept argument")
		a = act.MakeDummyActuator()
	case "print":
		var af *os.File
		if spec_arg == "-" || spec_arg == "" {
			af = os.Stdout
		} else {
			af, err = os.OpenFile(spec_arg, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0666)
			Assert(err == nil, "-a :", err)
		}
		a = act.MakePrinterActuator(af)
	case "proc":
		a = act.MakeCommandActuator(cmd.MakeInteractiveCommand(spec_arg))
	case "cmd":
		a = act.MakeCommandActuator(cmd.MakeOneShotCommand(spec_arg))
	default:
		Assert(false, "invalid -a, or -a not specified")
	}

	/*** -t ***/

	var ts ticks.Source
	spec_type, spec_flags, spec_arg = split(*tspec)
	switch spec_type {
	case "instant":
		Assert(spec_flags == "", "-t instant does not accept flags")
		v := float64(0)
		if spec_arg != "" {
			v, err = strconv.ParseFloat(spec_arg, 64)
			Assert(err == nil, "-t instant:", err)
		}
		ts = ticks.MakeDummySource(t.Ticks(v))
	case "time", "ptime", "cmd", "proc":
		stype, ok := flagconv(spec_flags)
		Assert(ok, "invalid flags for -t")
		switch spec_type {
		case "time", "ptime":
			d, err := time.ParseDuration(spec_arg)
			Assert(err == nil, "-t :", err)
			ts = ticks.MakeTimerSource(d, stype, spec_type == "ptype")
		case "cmd":
			ts = ticks.MakeCommandSource(cmd.MakeOneShotCommand(spec_arg), stype)
		case "proc":
			ts = ticks.MakeCommandSource(cmd.MakeInteractiveCommand(spec_arg), stype)
		}
	default:
		Assert(false, "invalid -t, or -t not specified")
	}

	/*** -s ***/

	var ss steps.Source
	spec_type, spec_flags, spec_arg = split(*sspec)
	switch spec_type {
	case "const":
		Assert(spec_flags == "", "-s dummy does not accept flags")
		v := float64(0)
		if spec_arg != "" {
			v, err = strconv.ParseFloat(spec_arg, 64)
			Assert(err == nil, "-s const:", err)
			Assert(v >= 0, "-s const: constant cannot be negative")
		}
		ss = steps.MakeDummySource(t.Steps(v))
	case "cmd", "proc":
		stype, ok := flagconv(spec_flags)
		Assert(ok, "invalid flags for -s")
		switch spec_type {
		case "cmd":
			ss = steps.MakeCommandSource(cmd.MakeOneShotCommand(spec_arg), stype)
		case "proc":
			ss = steps.MakeCommandSource(cmd.MakeInteractiveCommand(spec_arg), stype)
		}
	default:
		Assert(false, "invalid -s, or -s not specified")
	}

	/*** -m ***/

	var m sample.Sampler
	spec_type, spec_flags, spec_arg = split(*mspec)
	switch spec_type {
	case "const":
		Assert(spec_flags == "", "-m const does not accept flags")
		v := float64(0)
		if spec_arg != "" {
			v, err = strconv.ParseFloat(spec_arg, 64)
			Assert(err == nil, "-m const:", err)
		}
		m = sample.MakeDummySampler(t.Stuff(v))
	case "cmd", "proc":
		Assert(spec_flags == "", "-m cmd/proc does not accept flags")
		switch spec_type {
		case "cmd":
			m = sample.MakeCommandSampler(cmd.MakeOneShotCommand(spec_arg))
		case "proc":
			m = sample.MakeCommandSampler(cmd.MakeInteractiveCommand(spec_arg))
		}
	default:
		Assert(false, "invalid -m, or -m not specified")
	}

	d := reg.MakeDomain(ts, ss, a, m)
	d.Start(fin, fout, throttle_type, throttle_period, t.Ticks(g))
	d.Wait()
}