tests/network-clock.scm (plot-simulation): Pipe data to the elite python skript.

Original commit message from CVS:
2005-06-23  Andy Wingo  <wingo@pobox.com>

* tests/network-clock.scm (plot-simulation): Pipe data to the
elite python skript.

* tests/network-clock-utils.scm (define-parameter): New macro,
defines a parameter that can be set via the command line.
(set-parameter!, parse-parameter-arguments): Command line args
parser.

* tests/plot-data: Simple matplotlib-based plotter, takes input on
stdin.
This commit is contained in:
Andy Wingo 2005-06-23 13:20:44 +00:00
parent df9cfd8830
commit 3433bdcf17
7 changed files with 345 additions and 72 deletions

View file

@ -1,3 +1,16 @@
2005-06-23 Andy Wingo <wingo@pobox.com>
* tests/network-clock.scm (plot-simulation): Pipe data to the
elite python skript.
* tests/network-clock-utils.scm (define-parameter): New macro,
defines a parameter that can be set via the command line.
(set-parameter!, parse-parameter-arguments): Command line args
parser.
* tests/plot-data: Simple matplotlib-based plotter, takes input on
stdin.
2005-06-23 Jan Schmidt <thaytan@mad.scientist.com>
* gst/elements/gsttypefindelement.c:

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@ -108,7 +108,7 @@
(stream-cons start (arithmetic-series (+ start step) step)))
(define (scale-stream stream factor)
(stream-map (lambda (t) (* t factor)) *absolute-time*))
(stream-map (lambda (t) (* t factor)) stream))
(define (stream-while pred proc . streams)
(if (apply pred (map stream-car streams))
@ -129,8 +129,6 @@
;; Queues with a maximum length.
(define *q-length* 32)
(define (make-q l)
(cons l (last-pair l)))
@ -145,6 +143,66 @@
(if (null? (q-tail q))
(make-q tail)
(let ((l (append! (q-head q) tail)))
(if (> (length (q-head q)) *q-length*)
(if (> (length (q-head q)) *queue-length*)
(make-q (cdr (q-head q)))
q)))))
;; Parameters, settable via command line arguments.
(define %parameters '())
(define-macro (define-parameter name val)
(let ((str (symbol->string name)))
(or (and (eqv? (string-ref str 0) #\*)
(eqv? (string-ref str (1- (string-length str))) #\*))
(error "Invalid parameter name" name))
(let ((param (string->symbol
(substring str 1 (1- (string-length str)))))
(val-sym (gensym)))
`(begin
(define ,name #f)
(let ((,val-sym ,val))
(set! ,name ,val-sym)
(set! %parameters (cons (cons ',param ,val-sym)
%parameters)))))))
(define (set-parameter! name val)
(define (symbol-append . args)
(string->symbol (apply string-append (map symbol->string args))))
(or (assq name %parameters)
(error "Unknown parameter" name))
(module-set! (current-module) (symbol-append '* name '*) val))
(define (parse-parameter-arguments args)
(define (usage)
(format #t "Usage: ~a ARG1...\n\n" "network-clock.scm")
(for-each
(lambda (pair)
(format #t "\t--~a=VAL \t(default: ~a)\n" (car pair) (cdr pair)))
%parameters))
(define (unknown-arg arg)
(with-output-to-port (current-error-port)
(lambda ()
(format #t "\nUnknown argument: ~a\n\n" arg)
(usage)
(quit))))
(define (parse-arguments args)
(let lp ((in args) (out '()))
(cond
((null? in)
(reverse! out))
((not (string=? (substring (car in) 0 2) "--"))
(unknown-arg (car in)))
(else
(let ((divider (or (string-index (car in) #\=)
(unknown-arg (car in)))))
(or (> divider 2) (unknown-arg (car in)))
(let ((param (string->symbol (substring (car in) 2 divider)))
(val (with-input-from-string (substring (car in) (1+ divider))
read)))
(lp (cdr in) (acons param val out))))))))
(for-each
(lambda (pair)
(or (false-if-exception
(set-parameter! (car pair) (cdr pair)))
(unknown-arg (format #f "--~a=~a" (car pair) (cdr pair)))))
(parse-arguments args)))

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@ -1,6 +1,6 @@
#!/bin/bash
# -*- scheme -*-
exec guile -l $0 -e main "$@"
exec guile -l $0 -e main -- "$@"
!#
;; GStreamer
@ -55,26 +55,22 @@ exec guile -l $0 -e main "$@"
;; is called. In that way all times are actually infinite series.
;;
;; Knobs: sample rate, send delay, receive delay, send noise, receive
;; noise, queue length, rate of remote clock, rate of local clock.
;; Fixme: Make knobs more accesible tomorrow; also make graphs.
;; noise, queue length, rate of remote clock, rate of local clock. See
;; network-clock.scm --help.
;;
;;; Code:
(use-modules (ice-9 slib))
(use-modules (ice-9 slib)
(ice-9 popen))
(require 'printf)
(load "network-clock-utils.scm")
(define *sample-frequency* 40)
(define (time->samples t)
(iround (* t *sample-frequency*)))
(define *absolute-time* (arithmetic-series 0.0 (/ 1.0 *sample-frequency*)))
(define *empty-event-stream* (stream-of #f))
(define (schedule-event events e time)
(let lp ((response-time (time->samples time))
@ -89,10 +85,13 @@ exec guile -l $0 -e main "$@"
(schedule-event events (list 'send-time-query) time))
(define (schedule-time-query events l)
(schedule-event events (list 'time-query l) (+ 0.20 (random 0.20))))
(schedule-event events (list 'time-query l)
(+ *send-delay* (random *send-noise*))))
(define (schedule-time-response events l r)
(schedule-event events (list 'time-response l r) (+ 0.20 (random 0.20))))
(schedule-event events (list 'time-response l r)
(+ *receive-delay* (random *receive-noise*))))
(define (network-time remote-time local-time events m b x y)
(let ((r (stream-car remote-time))
@ -108,11 +107,11 @@ exec guile -l $0 -e main "$@"
(case (and=> event car)
((send-time-query)
(format #t "sending time query: ~a\n" l)
(format #t "; sending time query: ~a\n" l)
(next (schedule-time-query events l) m b x y))
((time-query)
(format #t "time query received, replying with ~a\n" r)
(format #t "; time query received, replying with ~a\n" r)
(next (schedule-time-response events (cadr event) r) m b x y))
((time-response)
@ -123,34 +122,36 @@ exec guile -l $0 -e main "$@"
(lambda (m b r-squared)
(define (next-time)
(max
(if (< (length (q-head x)) *q-length*)
(if (< (length (q-head x)) *queue-length*)
0
(/ 1 (- 1 (min r-squared 0.99999)) 1000))
0.10))
(format #t "new slope and offset: ~a ~a (~a)\n" m b r-squared)
(format #t "; new slope and offset: ~a ~a (~a)\n" m b r-squared)
(next (schedule-send-time-query events (next-time)) m b x y)))))
(else
(next events m b x y)))))
(define (run-simulation remote-speed local-speed)
(let ((remote-time (scale-stream *absolute-time* remote-speed))
(local-time (scale-stream *absolute-time* local-speed)))
(let ((absolute-time (arithmetic-series 0.0 (/ 1.0 *sample-frequency*)))
(event-stream (stream-of #f)))
(let ((remote-time (scale-stream absolute-time remote-speed))
(local-time (scale-stream absolute-time local-speed)))
(values
*absolute-time*
absolute-time
remote-time
local-time
(network-time
remote-time
local-time
(schedule-send-time-query *empty-event-stream* 0.0)
(schedule-send-time-query event-stream 0.0)
1.0
(stream-car local-time)
(make-q (list (stream-car local-time)))
(make-q (list (stream-car remote-time)))))))
(make-q (list (stream-car remote-time))))))))
(define (print-simulation total-time sample-rate remote-speed local-speed)
(display ";; absolute remote local network\n")
(display "Absolute time; Remote time; Local time; Network time\n")
(call-with-values
(lambda () (run-simulation remote-speed local-speed))
(lambda streams
@ -160,5 +161,26 @@ exec guile -l $0 -e main "$@"
(lambda (a r l n) (printf "%.3f %.3f %.3f %.3f\n" a r l n))
streams))))
(define (main . args)
(print-simulation 20 #f 2.0 1.1))
(define (plot-simulation)
(let ((port (open-output-pipe "./plot-data Network Clock Simulation")))
(with-output-to-port port
(lambda ()
(print-simulation *total-time* #f *remote-rate* *local-rate*)))
(close-pipe port)))
(define-parameter *sample-frequency* 40)
(define-parameter *send-delay* 0.1)
(define-parameter *receive-delay* 0.1)
(define-parameter *send-noise* 0.1)
(define-parameter *receive-noise* 0.1)
(define-parameter *queue-length* 32)
(define-parameter *local-rate* 1.0)
(define-parameter *remote-rate* 1.1)
(define-parameter *total-time* 5.0)
(define (main args)
(parse-parameter-arguments (cdr args))
(plot-simulation)
(quit))

50
tests/misc/plot-data Executable file
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@ -0,0 +1,50 @@
#!/usr/bin/env python
from __future__ import division
import pylab
import optparse
import sys
def read_line(fd):
l = fd.readline()
if not l:
return None
l = l.strip()
if l[0] == ';':
return read_line(fd)
return [float(x) for x in filter(None, l.split(' '))]
def read_data(fd):
data = []
l = read_line(fd)
while l:
data.append(l)
l = read_line(fd)
return data
def make_xticks(start, end, numticks):
return range(int(start), int(end), int((start-end)/numticks))
def make_plot(title):
l = sys.stdin.readline()
labels = l.strip().split(';')
data = read_data(sys.stdin)
domain = [x[0] for x in data]
for i in range(1,len(labels)):
pylab.plot(domain, [x[i] for x in data], label=labels[i])
pylab.legend()
pylab.ylabel(r'Clock time (s)')
pylab.xlabel(r'Real time (s)')
pylab.title(title)
pylab.grid(True)
pylab.show()
def main(args):
parser = optparse.OptionParser()
title = ' '.join(args[1:])
make_plot(title)
main(sys.argv)

View file

@ -108,7 +108,7 @@
(stream-cons start (arithmetic-series (+ start step) step)))
(define (scale-stream stream factor)
(stream-map (lambda (t) (* t factor)) *absolute-time*))
(stream-map (lambda (t) (* t factor)) stream))
(define (stream-while pred proc . streams)
(if (apply pred (map stream-car streams))
@ -129,8 +129,6 @@
;; Queues with a maximum length.
(define *q-length* 32)
(define (make-q l)
(cons l (last-pair l)))
@ -145,6 +143,66 @@
(if (null? (q-tail q))
(make-q tail)
(let ((l (append! (q-head q) tail)))
(if (> (length (q-head q)) *q-length*)
(if (> (length (q-head q)) *queue-length*)
(make-q (cdr (q-head q)))
q)))))
;; Parameters, settable via command line arguments.
(define %parameters '())
(define-macro (define-parameter name val)
(let ((str (symbol->string name)))
(or (and (eqv? (string-ref str 0) #\*)
(eqv? (string-ref str (1- (string-length str))) #\*))
(error "Invalid parameter name" name))
(let ((param (string->symbol
(substring str 1 (1- (string-length str)))))
(val-sym (gensym)))
`(begin
(define ,name #f)
(let ((,val-sym ,val))
(set! ,name ,val-sym)
(set! %parameters (cons (cons ',param ,val-sym)
%parameters)))))))
(define (set-parameter! name val)
(define (symbol-append . args)
(string->symbol (apply string-append (map symbol->string args))))
(or (assq name %parameters)
(error "Unknown parameter" name))
(module-set! (current-module) (symbol-append '* name '*) val))
(define (parse-parameter-arguments args)
(define (usage)
(format #t "Usage: ~a ARG1...\n\n" "network-clock.scm")
(for-each
(lambda (pair)
(format #t "\t--~a=VAL \t(default: ~a)\n" (car pair) (cdr pair)))
%parameters))
(define (unknown-arg arg)
(with-output-to-port (current-error-port)
(lambda ()
(format #t "\nUnknown argument: ~a\n\n" arg)
(usage)
(quit))))
(define (parse-arguments args)
(let lp ((in args) (out '()))
(cond
((null? in)
(reverse! out))
((not (string=? (substring (car in) 0 2) "--"))
(unknown-arg (car in)))
(else
(let ((divider (or (string-index (car in) #\=)
(unknown-arg (car in)))))
(or (> divider 2) (unknown-arg (car in)))
(let ((param (string->symbol (substring (car in) 2 divider)))
(val (with-input-from-string (substring (car in) (1+ divider))
read)))
(lp (cdr in) (acons param val out))))))))
(for-each
(lambda (pair)
(or (false-if-exception
(set-parameter! (car pair) (cdr pair)))
(unknown-arg (format #f "--~a=~a" (car pair) (cdr pair)))))
(parse-arguments args)))

View file

@ -1,6 +1,6 @@
#!/bin/bash
# -*- scheme -*-
exec guile -l $0 -e main "$@"
exec guile -l $0 -e main -- "$@"
!#
;; GStreamer
@ -55,26 +55,22 @@ exec guile -l $0 -e main "$@"
;; is called. In that way all times are actually infinite series.
;;
;; Knobs: sample rate, send delay, receive delay, send noise, receive
;; noise, queue length, rate of remote clock, rate of local clock.
;; Fixme: Make knobs more accesible tomorrow; also make graphs.
;; noise, queue length, rate of remote clock, rate of local clock. See
;; network-clock.scm --help.
;;
;;; Code:
(use-modules (ice-9 slib))
(use-modules (ice-9 slib)
(ice-9 popen))
(require 'printf)
(load "network-clock-utils.scm")
(define *sample-frequency* 40)
(define (time->samples t)
(iround (* t *sample-frequency*)))
(define *absolute-time* (arithmetic-series 0.0 (/ 1.0 *sample-frequency*)))
(define *empty-event-stream* (stream-of #f))
(define (schedule-event events e time)
(let lp ((response-time (time->samples time))
@ -89,10 +85,13 @@ exec guile -l $0 -e main "$@"
(schedule-event events (list 'send-time-query) time))
(define (schedule-time-query events l)
(schedule-event events (list 'time-query l) (+ 0.20 (random 0.20))))
(schedule-event events (list 'time-query l)
(+ *send-delay* (random *send-noise*))))
(define (schedule-time-response events l r)
(schedule-event events (list 'time-response l r) (+ 0.20 (random 0.20))))
(schedule-event events (list 'time-response l r)
(+ *receive-delay* (random *receive-noise*))))
(define (network-time remote-time local-time events m b x y)
(let ((r (stream-car remote-time))
@ -108,11 +107,11 @@ exec guile -l $0 -e main "$@"
(case (and=> event car)
((send-time-query)
(format #t "sending time query: ~a\n" l)
(format #t "; sending time query: ~a\n" l)
(next (schedule-time-query events l) m b x y))
((time-query)
(format #t "time query received, replying with ~a\n" r)
(format #t "; time query received, replying with ~a\n" r)
(next (schedule-time-response events (cadr event) r) m b x y))
((time-response)
@ -123,34 +122,36 @@ exec guile -l $0 -e main "$@"
(lambda (m b r-squared)
(define (next-time)
(max
(if (< (length (q-head x)) *q-length*)
(if (< (length (q-head x)) *queue-length*)
0
(/ 1 (- 1 (min r-squared 0.99999)) 1000))
0.10))
(format #t "new slope and offset: ~a ~a (~a)\n" m b r-squared)
(format #t "; new slope and offset: ~a ~a (~a)\n" m b r-squared)
(next (schedule-send-time-query events (next-time)) m b x y)))))
(else
(next events m b x y)))))
(define (run-simulation remote-speed local-speed)
(let ((remote-time (scale-stream *absolute-time* remote-speed))
(local-time (scale-stream *absolute-time* local-speed)))
(let ((absolute-time (arithmetic-series 0.0 (/ 1.0 *sample-frequency*)))
(event-stream (stream-of #f)))
(let ((remote-time (scale-stream absolute-time remote-speed))
(local-time (scale-stream absolute-time local-speed)))
(values
*absolute-time*
absolute-time
remote-time
local-time
(network-time
remote-time
local-time
(schedule-send-time-query *empty-event-stream* 0.0)
(schedule-send-time-query event-stream 0.0)
1.0
(stream-car local-time)
(make-q (list (stream-car local-time)))
(make-q (list (stream-car remote-time)))))))
(make-q (list (stream-car remote-time))))))))
(define (print-simulation total-time sample-rate remote-speed local-speed)
(display ";; absolute remote local network\n")
(display "Absolute time; Remote time; Local time; Network time\n")
(call-with-values
(lambda () (run-simulation remote-speed local-speed))
(lambda streams
@ -160,5 +161,26 @@ exec guile -l $0 -e main "$@"
(lambda (a r l n) (printf "%.3f %.3f %.3f %.3f\n" a r l n))
streams))))
(define (main . args)
(print-simulation 20 #f 2.0 1.1))
(define (plot-simulation)
(let ((port (open-output-pipe "./plot-data Network Clock Simulation")))
(with-output-to-port port
(lambda ()
(print-simulation *total-time* #f *remote-rate* *local-rate*)))
(close-pipe port)))
(define-parameter *sample-frequency* 40)
(define-parameter *send-delay* 0.1)
(define-parameter *receive-delay* 0.1)
(define-parameter *send-noise* 0.1)
(define-parameter *receive-noise* 0.1)
(define-parameter *queue-length* 32)
(define-parameter *local-rate* 1.0)
(define-parameter *remote-rate* 1.1)
(define-parameter *total-time* 5.0)
(define (main args)
(parse-parameter-arguments (cdr args))
(plot-simulation)
(quit))

50
tests/plot-data Executable file
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@ -0,0 +1,50 @@
#!/usr/bin/env python
from __future__ import division
import pylab
import optparse
import sys
def read_line(fd):
l = fd.readline()
if not l:
return None
l = l.strip()
if l[0] == ';':
return read_line(fd)
return [float(x) for x in filter(None, l.split(' '))]
def read_data(fd):
data = []
l = read_line(fd)
while l:
data.append(l)
l = read_line(fd)
return data
def make_xticks(start, end, numticks):
return range(int(start), int(end), int((start-end)/numticks))
def make_plot(title):
l = sys.stdin.readline()
labels = l.strip().split(';')
data = read_data(sys.stdin)
domain = [x[0] for x in data]
for i in range(1,len(labels)):
pylab.plot(domain, [x[i] for x in data], label=labels[i])
pylab.legend()
pylab.ylabel(r'Clock time (s)')
pylab.xlabel(r'Real time (s)')
pylab.title(title)
pylab.grid(True)
pylab.show()
def main(args):
parser = optparse.OptionParser()
title = ' '.join(args[1:])
make_plot(title)
main(sys.argv)