This commit is contained in:
Stefan Kögl 2012-10-26 23:22:31 +02:00
parent 501ea3995e
commit eb7b4a3060
4 changed files with 459 additions and 3 deletions

78
Arduino_Monitor.py Normal file
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@ -0,0 +1,78 @@
"""
Listen to serial, return most recent numeric values
Lots of help from here:
http://stackoverflow.com/questions/1093598/pyserial-how-to-read-last-line-sent-from-serial-device
"""
from threading import Thread
import time
import serial
import struct
last_received = ''
profile = []
PI_TS_MIN = 0
PI_TS_MAX = 1
PI_TL = 2
PI_TP = 3
PI_TIME_MAX = 4
PI_RAMP_UP_MIN = 5
PI_RAMP_UP_MAX = 6
PI_RAMP_DOWN_MIN = 7
PI_RAMP_DOWN_MAX = 8
PI_TS_DURATION_MIN = 9
PI_TS_DURATION_MAX = 10
PI_TL_DURATION_MIN = 11
PI_TL_DURATION_MAX = 12
PI_TP_DURATION_MIN = 13
PI_TP_DURATION_MAX = 14
def receiving(ser):
global last_received
buffer = ''
ser.write(chr(255))
ser.flush()
profile = struct.unpack("hhhhhhhhhhhhhhh", ser.read(30))
ser.flushInput()
while 1:
ser.write(chr(254))
ser.flush()
last_received = ser.read(11)
print repr(last_received)
ser.flushInput()
class SerialData(object):
def __init__(self, init=50):
try:
self.ser = ser = serial.Serial(
port='/dev/ttyUSB0',
baudrate=9600, timeout=2)
except serial.serialutil.SerialException:
#no serial connection
self.ser = None
else:
Thread(target=receiving, args=(self.ser,)).start()
def next(self):
if not self.ser:
return 100 #return anything so we can test when Arduino isn't connected
try:
return int(struct.unpack("hhhhhb", last_received)[1])
except Exception, e:
print e
return 0
def __del__(self):
if self.ser:
self.ser.close()
if __name__=='__main__':
s = SerialData()
for i in range(500):
time.sleep(1)
print s.next()

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@ -11,8 +11,8 @@ Profile _profile;
OvenCtl::OvenCtl() {
time = 0;
temperature = 0;
last_temperature = 0;
temperature = 1;
last_temperature = 1;
actual_dt = 0;
// timestamps of event beginnings/ends
Ts_time_start = 0;

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@ -43,7 +43,7 @@ Profile::Profile() :
180,
60,
150,
1,
20,
40}),
config_index(0),
config_state(0),

378
plot.py Normal file
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# -*- coding: utf-8 -*-
"""
GP:
Changed datasource, title, and refresh interval to use
as a poor man's Arduino oscilliscope.
This demo demonstrates how to draw a dynamic mpl (matplotlib)
plot in a wxPython application.
It allows "live" plotting as well as manual zooming to specific
regions.
Both X and Y axes allow "auto" or "manual" settings. For Y, auto
mode sets the scaling of the graph to see all the data points.
For X, auto mode makes the graph "follow" the data. Set it X min
to manual 0 to always see the whole data from the beginning.
Note: press Enter in the 'manual' text box to make a new value
affect the plot.
Eli Bendersky (eliben@gmail.com)
License: this code is in the public domain
Last modified: 31.07.2008
"""
import os
import pprint
import random
import sys
import wx
REFRESH_INTERVAL_MS = 1000
# The recommended way to use wx with mpl is with the WXAgg
# backend.
#
import matplotlib
matplotlib.use('WXAgg')
from matplotlib.figure import Figure
from matplotlib.backends.backend_wxagg import \
FigureCanvasWxAgg as FigCanvas, \
NavigationToolbar2WxAgg as NavigationToolbar
from matplotlib.path import Path
import matplotlib.patches as patches
import numpy as np
import pylab
#Data comes from here
from Arduino_Monitor import SerialData as DataGen
class BoundControlBox(wx.Panel):
""" A static box with a couple of radio buttons and a text
box. Allows to switch between an automatic mode and a
manual mode with an associated value.
"""
def __init__(self, parent, ID, label, initval):
wx.Panel.__init__(self, parent, ID)
self.value = initval
box = wx.StaticBox(self, -1, label)
sizer = wx.StaticBoxSizer(box, wx.VERTICAL)
self.radio_auto = wx.RadioButton(self, -1,
label="Auto", style=wx.RB_GROUP)
self.radio_manual = wx.RadioButton(self, -1,
label="Manual")
self.manual_text = wx.TextCtrl(self, -1,
size=(35,-1),
value=str(initval),
style=wx.TE_PROCESS_ENTER)
self.Bind(wx.EVT_UPDATE_UI, self.on_update_manual_text, self.manual_text)
self.Bind(wx.EVT_TEXT_ENTER, self.on_text_enter, self.manual_text)
manual_box = wx.BoxSizer(wx.HORIZONTAL)
manual_box.Add(self.radio_manual, flag=wx.ALIGN_CENTER_VERTICAL)
manual_box.Add(self.manual_text, flag=wx.ALIGN_CENTER_VERTICAL)
sizer.Add(self.radio_auto, 0, wx.ALL, 10)
sizer.Add(manual_box, 0, wx.ALL, 10)
self.radio_auto.SetValue(False);
self.radio_manual.SetValue(True);
self.SetSizer(sizer)
sizer.Fit(self)
def on_update_manual_text(self, event):
self.manual_text.Enable(self.radio_manual.GetValue())
def on_text_enter(self, event):
self.value = self.manual_text.GetValue()
def is_auto(self):
return self.radio_auto.GetValue()
def manual_value(self):
return self.value
class GraphFrame(wx.Frame):
""" The main frame of the application
"""
title = 'Demo: dynamic matplotlib graph'
def __init__(self):
wx.Frame.__init__(self, None, -1, self.title)
self.datagen = DataGen()
self.data = [self.datagen.next()]
self.paused = False
self.create_menu()
self.create_status_bar()
self.create_main_panel()
self.redraw_timer = wx.Timer(self)
self.Bind(wx.EVT_TIMER, self.on_redraw_timer, self.redraw_timer)
self.redraw_timer.Start(REFRESH_INTERVAL_MS)
def create_menu(self):
self.menubar = wx.MenuBar()
menu_file = wx.Menu()
m_expt = menu_file.Append(-1, "&Save plot\tCtrl-S", "Save plot to file")
self.Bind(wx.EVT_MENU, self.on_save_plot, m_expt)
menu_file.AppendSeparator()
m_exit = menu_file.Append(-1, "E&xit\tCtrl-X", "Exit")
self.Bind(wx.EVT_MENU, self.on_exit, m_exit)
self.menubar.Append(menu_file, "&File")
self.SetMenuBar(self.menubar)
def create_main_panel(self):
self.panel = wx.Panel(self)
self.init_plot()
self.canvas = FigCanvas(self.panel, -1, self.fig)
self.xmin_control = BoundControlBox(self.panel, -1, "X min", 0)
self.xmax_control = BoundControlBox(self.panel, -1, "X max", 250)
self.ymin_control = BoundControlBox(self.panel, -1, "Y min", 0)
self.ymax_control = BoundControlBox(self.panel, -1, "Y max", 280)
self.pause_button = wx.Button(self.panel, -1, "Pause")
self.Bind(wx.EVT_BUTTON, self.on_pause_button, self.pause_button)
self.Bind(wx.EVT_UPDATE_UI, self.on_update_pause_button, self.pause_button)
self.cb_grid = wx.CheckBox(self.panel, -1,
"Show Grid",
style=wx.ALIGN_RIGHT)
self.Bind(wx.EVT_CHECKBOX, self.on_cb_grid, self.cb_grid)
self.cb_grid.SetValue(True)
self.cb_xlab = wx.CheckBox(self.panel, -1,
"Show X labels",
style=wx.ALIGN_RIGHT)
self.Bind(wx.EVT_CHECKBOX, self.on_cb_xlab, self.cb_xlab)
self.cb_xlab.SetValue(True)
self.hbox1 = wx.BoxSizer(wx.HORIZONTAL)
self.hbox1.Add(self.pause_button, border=5, flag=wx.ALL | wx.ALIGN_CENTER_VERTICAL)
self.hbox1.AddSpacer(5)
self.hbox1.Add(self.cb_grid, border=5, flag=wx.ALL | wx.ALIGN_CENTER_VERTICAL)
self.hbox1.AddSpacer(5)
self.hbox1.Add(self.cb_xlab, border=5, flag=wx.ALL | wx.ALIGN_CENTER_VERTICAL)
self.hbox2 = wx.BoxSizer(wx.HORIZONTAL)
self.hbox2.Add(self.xmin_control, border=5, flag=wx.ALL)
self.hbox2.Add(self.xmax_control, border=5, flag=wx.ALL)
self.hbox2.AddSpacer(24)
self.hbox2.Add(self.ymin_control, border=5, flag=wx.ALL)
self.hbox2.Add(self.ymax_control, border=5, flag=wx.ALL)
self.vbox = wx.BoxSizer(wx.VERTICAL)
self.vbox.Add(self.canvas, 1, flag=wx.LEFT | wx.TOP | wx.GROW)
self.vbox.Add(self.hbox1, 0, flag=wx.ALIGN_LEFT | wx.TOP)
self.vbox.Add(self.hbox2, 0, flag=wx.ALIGN_LEFT | wx.TOP)
self.panel.SetSizer(self.vbox)
self.vbox.Fit(self)
def create_status_bar(self):
self.statusbar = self.CreateStatusBar()
def init_plot(self):
self.dpi = 100
self.fig = Figure((3.0, 3.0), dpi=self.dpi)
self.axes = self.fig.add_subplot(111)
self.axes.set_axis_bgcolor('black')
self.axes.set_title(u'Reflow Temperature', size=12)
self.axes.set_xlabel(u'Time / seconds', size=12)
self.axes.set_ylabel(u'Temperature / °C', size=12)
pylab.setp(self.axes.get_xticklabels(), fontsize=8)
pylab.setp(self.axes.get_yticklabels(), fontsize=8)
# plot the data as a line series, and save the reference
# to the plotted line series
#
ts_min_x_min = Arduino_Monitor.profile[Arduino_Monitor.PI_TS_MIN] / Arduino_Monitor.profile[Arduino_Monitor.PI_RAMP_UP_MAX]
ts_min_y_min = ts_min
ts_max_x_min = ts_min_x_min + Arduino_Monitor.profile[Arduino_Monitor.PI_TS_DURATION_MIN]
ts_max_y_min = ts_max
ts_max_x_max = ts_min_x_min + Arduino_Monitor.profile[Arduino_Monitor.PI_TS_DURATION_MAX]
ts_max_y_max = ts_max
ts_min_x_max = ts_max_x_max - (ts_max_y_max - ts_min_y) / Arduino_Monitor.profile[Arduino_Monitor.PI_RAMP_UP_MAX])
ts_min_y_max = ts_min
tl_x_min = ts_max_x_min + (Arduino_Monitor.profile[Arduino_Monitor.PI_TL] - Arduino_Monitor.profile[Arduino_Monitor.PI_TS_MAX]) / Arduino_Monitor.profile[Arduino_Monitor.PI_RAMP_UP_MAX]
tl_x_min = Arduino_Monitor.profile[Arduino_Monitor.PI_TL]
tl_x_min = ts_max_x_min + (Arduino_Monitor.profile[Arduino_Monitor.PI_TL] - Arduino_Monitor.profile[Arduino_Monitor.PI_TS_MAX]) / Arduino_Monitor.profile[Arduino_Monitor.PI_RAMP_UP_MAX]
tl_y_min = Arduino_Monitor.profile[Arduino_Monitor.PI_TL]
tl_x_max = tl_x_min + Arduino_Monitor.profile[Arduino_Monitor.PI_TL_DURATION_MIN]
tl_y_max = Arduino_Monitor.profile[Arduino_Monitor.PI_TL]
verts = [
[ 0.0, 0.0],
[ 75.0, 150.0],
[100.0, 200.0],
[108.5, 217.0],
[130.0, 260.0],
[170.0, 260.0],
[300.0, 0.0],
[ 0.0, 0.0]]
codes = [Path.MOVETO,
Path.LINETO,
Path.LINETO,
Path.LINETO,
Path.LINETO,
Path.LINETO,
Path.LINETO,
Path.CLOSEPOLY]
self.plot_data = self.axes.plot(
self.data,
linewidth=1,
color=(1, 1, 0),
)[0]
path = Path(verts, codes)
self.patch = patches.PathPatch(path, edgecolor="red", facecolor='orange', lw=2)
self.axes.add_patch(self.patch)
def draw_plot(self):
""" Redraws the plot
"""
# when xmin is on auto, it "follows" xmax to produce a
# sliding window effect. therefore, xmin is assigned after
# xmax.
#
if self.xmax_control.is_auto():
xmax = len(self.data) if len(self.data) > 50 else 50
else:
xmax = int(self.xmax_control.manual_value())
if self.xmin_control.is_auto():
xmin = xmax - 50
else:
xmin = int(self.xmin_control.manual_value())
#xmax = 480
# for ymin and ymax, find the minimal and maximal values
# in the data set and add a mininal margin.
#
# note that it's easy to change this scheme to the
# minimal/maximal value in the current display, and not
# the whole data set.
#
if self.ymin_control.is_auto():
ymin = round(min(self.data), 0) - 1
else:
ymin = int(self.ymin_control.manual_value())
if self.ymax_control.is_auto():
ymax = round(max(self.data), 0) + 1
else:
ymax = int(self.ymax_control.manual_value())
#ymax = 300
self.axes.set_xbound(lower=xmin, upper=xmax)
self.axes.set_ybound(lower=ymin, upper=ymax)
# anecdote: axes.grid assumes b=True if any other flag is
# given even if b is set to False.
# so just passing the flag into the first statement won't
# work.
#
if self.cb_grid.IsChecked():
self.axes.grid(True, color='gray')
else:
self.axes.grid(False)
# Using setp here is convenient, because get_xticklabels
# returns a list over which one needs to explicitly
# iterate, and setp already handles this.
#
pylab.setp(self.axes.get_xticklabels(),
visible=self.cb_xlab.IsChecked())
self.plot_data.set_xdata(np.arange(len(self.data)))
self.plot_data.set_ydata(np.array(self.data))
self.canvas.draw()
def on_pause_button(self, event):
self.paused = not self.paused
def on_update_pause_button(self, event):
label = "Resume" if self.paused else "Pause"
self.pause_button.SetLabel(label)
def on_cb_grid(self, event):
self.draw_plot()
def on_cb_xlab(self, event):
self.draw_plot()
def on_save_plot(self, event):
file_choices = "PNG (*.png)|*.png"
dlg = wx.FileDialog(
self,
message="Save plot as...",
defaultDir=os.getcwd(),
defaultFile="plot.png",
wildcard=file_choices,
style=wx.SAVE)
if dlg.ShowModal() == wx.ID_OK:
path = dlg.GetPath()
self.canvas.print_figure(path, dpi=self.dpi)
self.flash_status_message("Saved to %s" % path)
def on_redraw_timer(self, event):
# if paused do not add data, but still redraw the plot
# (to respond to scale modifications, grid change, etc.)
#
if not self.paused:
self.data.append(self.datagen.next())
self.draw_plot()
def on_exit(self, event):
self.Destroy()
def flash_status_message(self, msg, flash_len_ms=1500):
self.statusbar.SetStatusText(msg)
self.timeroff = wx.Timer(self)
self.Bind(
wx.EVT_TIMER,
self.on_flash_status_off,
self.timeroff)
self.timeroff.Start(flash_len_ms, oneShot=True)
def on_flash_status_off(self, event):
self.statusbar.SetStatusText('')
if __name__ == '__main__':
app = wx.PySimpleApp()
app.frame = GraphFrame()
app.frame.Show()
app.MainLoop()