Hi everybody, My weewx is installed with setup.py. Driver is te923.
I try to make some customizing in the skin.conf. I added extraTemp3 in
[daytemp] and extraHumid3 in [dayhum]. I did this also for the week-,
month- and year-entries.
Like this:
[[[daytemp]]]
yscale = None, None, 0.5
[[[[outTemp]]]]
[[[[extraTemp1]]]]
[[[[extraTemp2]]]]
[[[[extraTemp3]]]]
[[[dayhum]]]
[[[[outHumidity]]]]
[[[[extraHumid1]]]]
[[[[extraHumid2]]]]
[[[[extraHumid3]]]]
Then I stopped and started weewx and run wee_reports, but the output in the
index.html didn't show the new entries.
My first question now is: Is that the right way to go?
regards, Hans
--
You received this message because you are subscribed to the Google Groups
"weewx-user" group.
To unsubscribe from this group and stop receiving emails from it, send an email
to [email protected].
For more options, visit https://groups.google.com/d/optout.
############################################################################### # SEASONS SKIN CONFIGURATION FILE # # Copyright (c) 2018 Tom Keffer <[email protected]> and Matthew Wall # # See the file LICENSE.txt for your rights. # ############################################################################### skin_semantics = 2 ############################################################################### # The following section is for any extra tags that you want to be available in the templates [Extras] # This radar image would be available as $Extras.radar_img #radar_img = http://radar.weather.gov/ridge/lite/N0R/RTX_loop.gif # This URL will be used as the image hyperlink: #radar_url = http://radar.weather.gov/ridge/radar.php?product=NCR&rid=RTX&loop=yes # Similar to radar, but for satellite image. #satellite_img = http://images.intellicast.com/WxImages/SatelliteLoop/hipacsat_None_anim.gif #satellite_url = http://images.intellicast.com/WxImages/SatelliteLoop/hipacsat_None_anim.gif # To display a map, enter an API key for google maps #google_maps_apikey = xxx # If you have a Google Analytics ID, uncomment and edit the next line, and # the analytics code will be included in your generated HTML files: #googleAnalyticsId = UA-12345678-1 ############################################################################### [Labels] # Override some labels. No need to identify these as a "Battery" # or "Voltage", because that is included in the template. [[Generic]] txBatteryStatus = Transmitter windBatteryStatus = Wind rainBatteryStatus = Rain outTempBatteryStatus = Outside Temperature inTempBatteryStatus = Inside Temperature consBatteryVoltage = Console heatingVoltage = Heating supplyVoltage = Supply referenceVoltage = Reference # Some specialized labels rain_today = Rain Today wind = Wind ############################################################################### # The CheetahGenerator creates files from templates. This section # specifies which files will be generated from which template. [CheetahGenerator] # Possible encodings are 'html_entities', 'utf8', or 'strict_ascii' encoding = html_entities [[SummaryByMonth]] # Reports that summarize "by month" [[[NOAA_month]]] encoding = strict_ascii template = NOAA/NOAA-YYYY-MM.txt.tmpl [[SummaryByYear]] # Reports that summarize "by year" [[[NOAA_year]]] encoding = strict_ascii template = NOAA/NOAA-YYYY.txt.tmpl [[ToDate]] # Reports that show statistics "to date", such as day-to-date, # week-to-date, month-to-date, etc. [[[index]]] template = index.html.tmpl [[[statistics]]] template = statistics.html.tmpl [[[telemetry]]] template = telemetry.html.tmpl [[[tabular]]] template = tabular.html.tmpl [[[celestial]]] template = celestial.html.tmpl # Uncomment the following to have WeeWX generate a celestial page only once an hour: # stale_age = 3600 [[[RSS]]] template = rss.xml.tmpl ############################################################################### # The CopyGenerator copies files from one location to another. [CopyGenerator] # List of files to be copied only the first time the generator runs copy_once = seasons.css, seasons.js, favicon.ico, font/*.woff, font/*.woff2 # List of files to be copied each time the generator runs # copy_always = ############################################################################### # The ImageGenerator creates image plots of data. [ImageGenerator] # This section lists all the images to be generated, what SQL types are to # be included in them, along with many plotting options. There is a default # for almost everything. Nevertheless, values for most options are included # to make it easy to see and understand the options. # # Fonts can be anything accepted by the Python Imaging Library (PIL), which # includes truetype (.ttf), or PIL's own font format (.pil). See # http://www.pythonware.com/library/pil/handbook/imagefont.htm for more # details. Note that "font size" is only used with truetype (.ttf) # fonts. For others, font size is determined by the bit-mapped size, # usually encoded in the file name (e.g., courB010.pil). A relative path # for a font is relative to the SKIN_ROOT. If a font cannot be found, # then a default font will be used. # # Colors can be specified any of three ways: # 1. Notation 0xBBGGRR; # 2. Notation #RRGGBB; or # 3. Using an English name, such as 'yellow', or 'blue'. # So, 0xff0000, #0000ff, or 'blue' would all specify a pure blue color. image_width = 500 image_height = 180 image_background_color = 0xffffff chart_background_color = 0xffffff chart_gridline_color = 0xd0d0d0 # Setting to 2 or more might give a sharper image with fewer jagged edges anti_alias = 1 top_label_font_path = font/OpenSans-Bold.ttf top_label_font_size = 14 unit_label_font_path = font/OpenSans-Bold.ttf unit_label_font_size = 12 unit_label_font_color = 0x787878 bottom_label_font_path = font/OpenSans-Regular.ttf bottom_label_font_size = 12 bottom_label_font_color = 0x787878 bottom_label_offset = 3 axis_label_font_path = font/OpenSans-Regular.ttf axis_label_font_size = 10 axis_label_font_color = 0x787878 # Options for the compass rose, used for progressive vector plots rose_label = N rose_label_font_path = font/OpenSans-Regular.ttf rose_label_font_size = 9 rose_label_font_color = 0x222222 # Default colors for the plot lines. These can be overridden for # individual lines using option 'color'. chart_line_colors = 0xb48242, 0x4242b4, 0x42b442, 0xb4b442, 0xb442b4 # Default fill colors for bar charts. These can be overridden for # individual bar plots using option 'fill_color'. chart_fill_colors = 0xc4b272, 0x7272c4, 0x72c472, 0xc4c472, 0xc472c4 # Type of line. Options are 'solid' or 'none'. line_type = 'solid' # Size of marker in pixels marker_size = 8 # Type of marker. Options are 'cross', 'x', 'circle', 'box', or 'none'. marker_type ='none' # The following option merits an explanation. The y-axis scale used for # plotting can be controlled using option 'yscale'. It is a 3-way tuple, # with values (ylow, yhigh, min_interval). If set to "None", a parameter is # set automatically, otherwise the value is used. However, in the case of # min_interval, what is set is the *minimum* y-axis tick interval. yscale = None, None, None # For progressive vector plots, you can choose to rotate the vectors. # Positive is clockwise. # For my area, westerlies overwhelmingly predominate, so by rotating # positive 90 degrees, the average vector will point straight up. vector_rotate = 90 # This defines what fraction of the difference between maximum and minimum # horizontal chart bounds is considered a gap in the samples and should not # be plotted. line_gap_fraction = 0.01 # This controls whether day/night bands will be shown. They only look good # on plots wide enough to show individual days such as day and week plots. show_daynight = true # These control the appearance of the bands if they are shown. # Here's a monochrome scheme: daynight_day_color = 0xfffafd daynight_night_color = 0xe2dfdf daynight_edge_color = 0xd8d8e0 # Here's an alternative, using a blue/yellow tint: #daynight_day_color = 0xf8ffff #daynight_night_color = 0xfff8f8 #daynight_edge_color = 0xf8f8ff # What follows is a list of subsections, each specifying a time span, such # as a day, week, month, or year. There's nothing special about them or # their names: it's just a convenient way to group plots with a time span # in common. You could add a time span [[biweek_images]] and add the # appropriate time length, aggregation strategy, etc., without changing # any code. # # Within each time span, each sub-subsection is the name of a plot to be # generated for that time span. The generated plot will be stored using # that name, in whatever directory was specified by option 'HTML_ROOT' # in weewx.conf. # # With one final nesting (four brackets!) is the sql type of each line to # be included within that plot. # # Unless overridden, leaf nodes inherit options from their parent # Default plot parameters plot_type = line aggregate_type = none width = 1 time_length = 86400 # 24 hours [[day_images]] x_label_format = %H:%M bottom_label_format = %x %X time_length = 97200 # 27 hours [[[daytemp]]] yscale = None, None, 0.5 [[[[outTemp]]]] [[[[extraTemp2]]]] [[[[extraTemp3]]]] [[[dayhum]]] [[[[outHumidity]]]] [[[[extraHumid1]]]] [[[[extraHumid2]]]] [[[daybarometer]]] [[[[barometer]]]] [[[daytempin]]] [[[[inTemp]]]] [[[daytempdew]]] [[[[outTemp]]]] [[[[dewpoint]]]] [[[daytempfeel]]] [[[[windchill]]]] [[[[heatindex]]]] [[[daywind]]] [[[[windSpeed]]]] [[[[windGust]]]] [[[daywinddir]]] # Hardwire in the y-axis scale for wind direction yscale = 0.0, 360.0, 45.0 line_type = None marker_type = box marker_size = 2 [[[[windDir]]]] [[[daywindvec]]] [[[[windvec]]]] plot_type = vector [[[dayrain]]] # Make sure the y-axis increment is at least 0.02 for the rain plot yscale = None, None, 0.02 plot_type = bar [[[[rain]]]] aggregate_type = sum aggregate_interval = 3600 label = Rain (hourly total) #hub [[[dayradiation]]] #hub [[[[radiation]]]] #hub [[[dayuv]]] # yscale = 0, 16, 1 #hub [[[[UV]]]] #hub [[[dayrx]]] #hub yscale = 0.0, 100.0, 25.0 #hub [[[[rxCheckPercent]]]] [[[dayvolt]]] [[[[consBatteryVoltage]]]] [[[[heatingVoltage]]]] [[[[supplyVoltage]]]] [[[[referenceVoltage]]]] [[week_images]] x_label_format = %d bottom_label_format = %x %X time_length = 604800 # 7 days aggregate_type = avg aggregate_interval = 3600 [[[weekbarometer]]] [[[[barometer]]]] [[[weektempdew]]] [[[[outTemp]]]] [[[[dewpoint]]]] [[[weektempfeel]]] [[[[windchill]]]] [[[[heatindex]]]] [[[weektempin]]] [[[[inTemp]]]] [[[weektemp]]] yscale = None, None, 0.5 [[[[extraTemp1]]]] [[[[extraTemp2]]]] [[[[extraTemp3]]]] [[[weekhum]]] [[[[outHumidity]]]] [[[[extraHumid1]]]] [[[[extraHumid2]]]] [[[weekrain]]] yscale = None, None, 0.02 plot_type = bar [[[[rain]]]] aggregate_type = sum aggregate_interval = 86400 label = Rain (daily total) [[[weekwind]]] [[[[windSpeed]]]] [[[[windGust]]]] aggregate_type = max [[[weekwinddir]]] yscale = 0.0, 360.0, 45.0 line_type = None marker_type = box marker_size = 2 [[[[windDir]]]] [[[weekwindvec]]] [[[[windvec]]]] plot_type = vector [[[weekradiation]]] [[[[radiation]]]] [[[weekuv]]] # yscale = 0, 16, 1 [[[[UV]]]] [[[weekrx]]] yscale = 0.0, 100.0, 25.0 [[[[rxCheckPercent]]]] [[[weekvolt]]] [[[[consBatteryVoltage]]]] [[[[heatingVoltage]]]] [[[[supplyVoltage]]]] [[[[referenceVoltage]]]] [[month_images]] x_label_format = %d bottom_label_format = %x %X time_length = 2592000 # 30 days aggregate_type = avg aggregate_interval = 10800 # 3 hours show_daynight = false [[[monthbarometer]]] [[[[barometer]]]] [[[monthtempdew]]] [[[[outTemp]]]] [[[[dewpoint]]]] [[[monthtempfeel]]] [[[[windchill]]]] [[[[heatindex]]]] [[[monthtempin]]] [[[[inTemp]]]] [[[monthtemp]]] yscale = None, None, 0.5 [[[[extraTemp1]]]] [[[[extraTemp2]]]] [[[[extraTemp3]]]] [[[monthhum]]] [[[[outHumidity]]]] [[[[extraHumid1]]]] [[[[extraHumid2]]]] [[[monthrain]]] yscale = None, None, 0.02 plot_type = bar [[[[rain]]]] aggregate_type = sum aggregate_interval = 86400 label = Rain (daily total) [[[monthwind]]] [[[[windSpeed]]]] [[[[windGust]]]] aggregate_type = max [[[monthwinddir]]] yscale = 0.0, 360.0, 45.0 line_type = None marker_type = box marker_size = 2 [[[[windDir]]]] [[[monthwindvec]]] [[[[windvec]]]] plot_type = vector [[[daytempin]]] [[[[inTemp]]]] [[[daytemp]]] yscale = None, None, 0.5 [[[[extraTemp1]]]] [[[[extraTemp2]]]] [[[[extraTemp3]]]] [[[dayhum]]] [[[[outHumidity]]]] [[[[extraHumid1]]]] [[[[extraHumid2]]]] [[[monthradiation]]] [[[[radiation]]]] [[[monthuv]]] # yscale = 0, 16, 1 [[[[UV]]]] [[[monthrx]]] yscale = 0.0, 100.0, 25.0 [[[[rxCheckPercent]]]] [[[monthvolt]]] [[[[consBatteryVoltage]]]] [[[[heatingVoltage]]]] [[[[supplyVoltage]]]] [[[[referenceVoltage]]]] [[year_images]] x_label_format = %m/%d bottom_label_format = %x %X time_length = 31536000 # 365 days aggregate_type = avg aggregate_interval = 86400 show_daynight = false [[[yearbarometer]]] [[[[barometer]]]] [[[yeartempdew]]] [[[[outTemp]]]] [[[[dewpoint]]]] [[[yeartempfeel]]] [[[[windchill]]]] [[[[heatindex]]]] [[[yeartempin]]] [[[[inTemp]]]] [[[yeartemp]]] yscale = None, None, 0.5 [[[[extraTemp1]]]] [[[[extraTemp2]]]] [[[[extraTemp3]]]] [[[yearhum]]] [[[[outHumidity]]]] [[[[extraHumid1]]]] [[[[extraHumid2]]]] [[[yearrain]]] yscale = None, None, 0.02 plot_type = bar [[[[rain]]]] aggregate_type = sum # aggregate_interval = 2629800 # the length of a nominal month aggregate_interval = 604800 # one week label = Rain (weekly total) [[[yearwind]]] [[[[windSpeed]]]] [[[[windGust]]]] aggregate_type = max [[[yearwinddir]]] yscale = 0.0, 360.0, 45.0 line_type = None marker_type = box marker_size = 2 [[[[windDir]]]] [[[yearwindvec]]] [[[[windvec]]]] plot_type = vector [[[yearradiation]]] [[[[radiation]]]] [[[yearuv]]] # yscale = 0, 16, 1 [[[[UV]]]] [[[yearrx]]] yscale = 0.0, 100.0, 25.0 [[[[rxCheckPercent]]]] [[[yearvolt]]] [[[[consBatteryVoltage]]]] [[[[heatingVoltage]]]] [[[[supplyVoltage]]]] [[[[referenceVoltage]]]] # Plot of high/low temperatures [[[yearhilow]]] [[[[hi]]]] data_type = outTemp aggregate_type = max label = High [[[[low]]]] data_type = outTemp aggregate_type = min label = Low Temperature # A progressive vector plot of daily gust vectors overlayed # with the daily wind average would look something like this: # [[[yeargustvec]]] # [[[[windvec]]]] # plot_type = vector # aggregate_type = avg # [[[[windgustvec]]]] # plot_type = vector # aggregate_type = max ############################################################################### [Generators] # The list of generators that are to be run: generator_list = weewx.cheetahgenerator.CheetahGenerator, weewx.imagegenerator.ImageGenerator, weewx.reportengine.CopyGenerator
# WEEWX CONFIGURATION FILE # # Copyright (c) 2009-2019 Tom Keffer <[email protected]> # See the file LICENSE.txt for your rights. ############################################################################## # This section is for general configuration information. # Set to 1 for extra debug info, otherwise comment it out or set to zero debug = 1 # Root directory of the weewx data file hierarchy for this station WEEWX_ROOT = /home/weewx # Whether to log successful operations log_success = True # Whether to log unsuccessful operations log_failure = True # How long to wait before timing out a socket (FTP, HTTP) connection socket_timeout = 20 # Do not modify this. It is used when installing and updating weewx. version = 3.9.1 ############################################################################## # This section is for information about the station. [Station] # Description of the station location location = TE831X Teufen # Latitude and longitude in decimal degrees latitude = 74.7153 longitude = 25.0649 # Altitude of the station, with unit it is in. This is downloaded from # from the station if the hardware supports it. altitude = 800, meter # Choose 'foot' or 'meter' for unit # Set to type of station hardware. There must be a corresponding stanza # in this file with a 'driver' parameter indicating the driver to be used. station_type = TE923 # If you have a website, you may specify an URL #station_url = http://www.example.com # The start of the rain year (1=January; 10=October, etc.). This is # downloaded from the station if the hardware supports it. rain_year_start = 1 # Start of week (0=Monday, 6=Sunday) week_start = 0 ############################################################################## [TE923] # This section is for the Hideki TE923 series of weather stations. # The station model, e.g., 'Meade TE923W' or 'TFA Nexus' model = TE831X # The driver to use: driver = weewx.drivers.te923 ############################################################################## # This section is for uploading data to Internet sites [StdRESTful] [[StationRegistry]] # To register this weather station with weewx, set this to true register_this_station = false [[AWEKAS]] # This section is for configuring posts to AWEKAS. # If you wish to do this, set the option 'enable' to true, # and specify a username and password. # To guard against parsing errors, put the password in quotes. enable = false username = replace_me password = replace_me [[CWOP]] # This section is for configuring posts to CWOP. # If you wish to do this, set the option 'enable' to true, # and specify the station ID (e.g., CW1234). enable = false station = replace_me # If this is an APRS (radio amateur) station, uncomment # the following and replace with a passcode (e.g., 12345). #passcode = replace_me (APRS stations only) [[PWSweather]] # This section is for configuring posts to PWSweather.com. # If you wish to do this, set the option 'enable' to true, # and specify a station and password. # To guard against parsing errors, put the password in quotes. enable = false station = replace_me password = replace_me [[WOW]] # This section is for configuring posts to WOW. # If you wish to do this, set the option 'enable' to true, # and specify a station and password. # To guard against parsing errors, put the password in quotes. enable = false station = replace_me password = replace_me [[Wunderground]] # This section is for configuring posts to the Weather Underground. # If you wish to do this, set the option 'enable' to true, # and specify a station (e.g., 'KORHOODR3') and password. # To guard against parsing errors, put the password in quotes. enable = false station = replace_me password = replace_me # Set the following to True to have weewx use the WU "Rapidfire" # protocol. Not all hardware can support it. See the User's Guide. rapidfire = False ############################################################################## # This section specifies what reports, using which skins, to generate. [StdReport] # Where the skins reside, relative to WEEWX_ROOT SKIN_ROOT = skins # Where the generated reports should go, relative to WEEWX_ROOT HTML_ROOT = public_html # The database binding indicates which data should be used in reports. data_binding = wx_binding # Whether to log a successful operation log_success = True # Whether to log an unsuccessful operation log_failure = False # Each of the following subsections defines a report that will be run. # See the customizing guide to change the units, plot types and line # colors, modify the fonts, display additional sensor data, and other # customizations. Many of those changes can be made here by overriding # parameters, or by modifying templates within the skin itself. [[SeasonsReport]] # The SeasonsReport uses the 'Seasons' skin, which contains the # images, templates and plots for the report. skin = Seasons enable = true [[SmartphoneReport]] # The SmartphoneReport uses the 'Smartphone' skin, and the images and # files are placed in a dedicated subdirectory. skin = Smartphone enable = false HTML_ROOT = public_html/smartphone [[MobileReport]] # The MobileReport uses the 'Mobile' skin, and the images and files # are placed in a dedicated subdirectory. skin = Mobile enable = false HTML_ROOT = public_html/mobile [[StandardReport]] # This is the old "Standard" skin. By default, it is not enabled. skin = Standard enable = false [[FTP]] # FTP'ing the results to a webserver is treated as just another report, # albeit one with an unusual report generator! skin = Ftp # If you wish to use FTP, set "enable" to "true", then # fill out the next four lines. # Use quotes around passwords to guard against parsing errors. enable = false user = replace_me password = replace_me server = replace_me # The ftp server name, e.g, www.myserver.org path = replace_me # The destination directory, e.g., /weather # Set to True for an FTP over TLS (FTPS) connection. Not all servers # support this. secure_ftp = False # To upload files from something other than what HTML_ROOT is set # to above, specify a different HTML_ROOT here. #HTML_ROOT = public_html # Most FTP servers use port 21 port = 21 # Set to 1 to use passive mode, zero for active mode passive = 1 [[RSYNC]] # rsync'ing to a webserver is treated as just another report skin = Rsync # If you wish to use rsync, you must configure passwordless ssh using # public/private key authentication from the user account that weewx # runs to the user account on the remote machine where the files # will be copied. # # If you wish to use rsync, set "enable" to "true", then # fill out server, user, and path. # The server should appear in your .ssh/config file. # The user is the username used in the identity file. # The path is the destination directory, such as /var/www/html/weather. # Be sure that the user has write permissions on the destination! enable = false server = replace_me user = replace_me path = replace_me # To upload files from something other than what HTML_ROOT is set # to above, specify a different HTML_ROOT here. #HTML_ROOT = public_html # Rsync can be configured to remove files from the remote server if # they don't exist under HTML_ROOT locally. USE WITH CAUTION: if you # make a mistake in the remote path, you could could unintentionally # cause unrelated files to be deleted. Set to 1 to enable remote file # deletion, zero to allow files to accumulate remotely. delete = 0 #### # Various options for customizing your reports. [[Defaults]] [[[Units]]] # The following section sets what unit to use for each unit group. # NB: The unit is always in the singular. I.e., 'mile_per_hour', # NOT 'miles_per_hour' [[[[Groups]]]] group_altitude = meter # Options are 'foot' or 'meter' group_degree_day = degree_C_day # Options are 'degree_F_day' or 'degree_C_day' group_pressure = mbar # Options are 'inHg', 'mmHg', 'mbar', or 'hPa' group_rain = mm # Options are 'inch', 'cm', or 'mm' group_rainrate = mm_per_hour # Options are 'inch_per_hour', 'cm_per_hour', or 'mm_per_hour' group_speed = meter_per_second # Options are 'mile_per_hour', 'km_per_hour', 'knot', or 'meter_per_second' group_speed2 = meter_per_second2 # Options are 'mile_per_hour2', 'km_per_hour2', 'knot2', or 'meter_per_second2' group_temperature = degree_C # Options are 'degree_F' or 'degree_C' # The following section sets the formatting for each type of unit. [[[[StringFormats]]]] centibar = %.0f cm = %.2f cm_per_hour = %.2f degree_C = %.1f degree_F = %.1f degree_compass = %.0f foot = %.0f hPa = %.1f hour = %.1f inHg = %.3f inch = %.2f inch_per_hour = %.2f km_per_hour = %.0f km_per_hour2 = %.1f knot = %.0f knot2 = %.1f mbar = %.1f meter = %.0f meter_per_second = %.1f meter_per_second2 = %.1f mile_per_hour = %.0f mile_per_hour2 = %.1f mm = %.1f mmHg = %.1f mm_per_hour = %.1f percent = %.0f second = %.0f uv_index = %.1f volt = %.1f watt_per_meter_squared = %.0f NONE = " N/A" # The following section sets the label for each type of unit [[[[Labels]]]] day = " day", " days" hour = " hour", " hours" minute = " minute", " minutes" second = " second", " seconds" NONE = "" # The following section sets the format for each time scale. # The values below will work in every locale, but they may not look # particularly attractive. [[[[TimeFormats]]]] hour = %H:%M day = %X week = %X (%A) month = %x %X year = %x %X rainyear = %x %X current = %x %X ephem_day = %X ephem_year = %x %X [[[[Ordinates]]]] # Ordinal directions. The last one is for no wind direction directions = N, NNE, NE, ENE, E, ESE, SE, SSE, S, SSW, SW, WSW, W, WNW, NW, NNW, N/A # The following section sets the base temperatures used for the # calculation of heating and cooling degree-days. [[[[[DegreeDays]]]]] # Base temperature for heating days, with unit: heating_base = 65, degree_F # Base temperature for cooling days, with unit: cooling_base = 65, degree_F # A trend takes a difference across a time period. The following # section sets the time period, and how big an error is allowed to # still be counted as the start or end of a period. [[[[[Trend]]]]] time_delta = 10800 # 3 hours time_grace = 300 # 5 minutes # The labels to be used for each observation type [[[Labels]]] # Set to hemisphere abbreviations suitable for your location: hemispheres = N, S, E, W # Formats to be used for latitude whole degrees, longitude whole # degrees, and minutes: latlon_formats = %02d, %03d, %05.2f # Generic labels, keyed by an observation type. [[[[Generic]]]] barometer = Barometer dewpoint = Taupunkt ET = ET heatindex = Wärmeindex inHumidity = Raumfeuchte inTemp = Raumtemperatur outHumidity = Aussenfeuchte outTemp = Aussentemperatur radiation = Strahlung rain = Regen rainRate = Regenmenge UV = UV Index windDir = Windrichtung windGust = Böen windGustDir = Böen Richtung windSpeed = Windgeschwindigkeit windchill = Wind Chill windgustvec = Böen Vector windvec = Windrichtung extraTemp1 = Temp_S2 extraTemp2 = Temp_S3 extraTemp3 = Temp_S4 extraTemp4 = Temp_S5 extraHumid1 = Feuchte_S2 extraHumid2 = Feuchte_S3 extraHumid3 = Feuchte_S4 extraHumid4 = Feuchte_S5 # Sensor status indicators rxCheckPercent = Signal Quality txBatteryStatus = Transmitter Battery windBatteryStatus = Wind Battery rainBatteryStatus = Rain Battery outTempBatteryStatus = Outside Temperature Battery inTempBatteryStatus = Inside Temperature Battery consBatteryVoltage = Console Battery heatingVoltage = Heating Battery supplyVoltage = Supply Voltage referenceVoltage = Reference Voltage [[[Almanac]]] # The labels to be used for the phases of the moon: moon_phases = New, Waxing crescent, First quarter, Waxing gibbous, Full, Waning gibbous, Last quarter, Waning crescent ############################################################################## # This service acts as a filter, converting the unit system coming from # the hardware to a unit system in the database. [StdConvert] # The target_unit affects only the unit system in the database. Once # chosen it cannot be changed without converting the entire database. # Modification of target_unit after starting weewx will result in # corrupt data - the database will contain a mix of US and METRIC data. # # The value of target_unit does not affect the unit system for # reporting - reports can display US, Metric, or any combination of units. # # In most cases, target_unit should be left as the default: US # # In particular, those migrating from a standard wview installation # should use US since that is what the wview database contains. # DO NOT MODIFY THIS VALUE UNLESS YOU KNOW WHAT YOU ARE DOING! target_unit = US # Options are 'US', 'METRICWX', or 'METRIC' ############################################################################## # This section can adjust data using calibration expressions. [StdCalibrate] [[Corrections]] # For each type, an arbitrary calibration expression can be given. # It should be in the units defined in the StdConvert section. # Example: foo = foo + 0.2 ############################################################################## # This section is for quality control checks. If units are not specified, # values must be in the units defined in the StdConvert section. [StdQC] [[MinMax]] barometer = 26, 32.5, inHg pressure = 24, 34.5, inHg outTemp = -40, 120, degree_F inTemp = 10, 120, degree_F outHumidity = 0, 100 inHumidity = 0, 100 windSpeed = 0, 120, mile_per_hour rain = 0, 10, inch ############################################################################## # This section controls the origin of derived values. [StdWXCalculate] [[Calculations]] # How to calculate derived quantities. Possible values are: # hardware - use the value provided by hardware # software - use the value calculated by weewx # prefer_hardware - use value provide by hardware if available, # otherwise use value calculated by weewx pressure = prefer_hardware barometer = prefer_hardware altimeter = prefer_hardware windchill = prefer_hardware heatindex = prefer_hardware dewpoint = prefer_hardware inDewpoint = prefer_hardware rainRate = prefer_hardware ############################################################################## # For hardware that supports it, this section controls how often the # onboard clock gets updated. [StdTimeSynch] # How often to check the weather station clock for drift (in seconds) clock_check = 14400 # How much it can drift before we will correct it (in seconds) max_drift = 5 ############################################################################## # This section is for configuring the archive service. [StdArchive] # If the station hardware supports data logging then the archive interval # will be downloaded from the station. Otherwise, specify it (in seconds). archive_interval = 300 # If possible, new archive records are downloaded from the station # hardware. If the hardware does not support this, then new archive # records will be generated in software. # Set the following to "software" to force software record generation. record_generation = hardware # Whether to include LOOP data in hi/low statistics loop_hilo = True # The data binding used to save archive records data_binding = wx_binding ############################################################################## # This section binds a data store to a database. [DataBindings] [[wx_binding]] # The database must match one of the sections in [Databases]. # This is likely to be the only option you would want to change. database = archive_sqlite # The name of the table within the database table_name = archive # The manager handles aggregation of data for historical summaries manager = weewx.wxmanager.WXDaySummaryManager # The schema defines the structure of the database. # It is *only* used when the database is created. schema = schemas.wview.schema ############################################################################## # This section defines various databases. [Databases] # A SQLite database is simply a single file [[archive_sqlite]] database_name = weewx.sdb database_type = SQLite # MySQL [[archive_mysql]] database_name = weewx database_type = MySQL ############################################################################## # This section defines defaults for the different types of databases. [DatabaseTypes] # Defaults for SQLite databases [[SQLite]] driver = weedb.sqlite # Directory in which the database files are located SQLITE_ROOT = %(WEEWX_ROOT)s/archive # Defaults for MySQL databases [[MySQL]] driver = weedb.mysql # The host where the database is located host = localhost # The user name for logging in to the host user = weewx # The password for the user name (quotes guard against parsing errors) password = weewx ############################################################################## # This section configures the internal weewx engine. [Engine] [[Services]] # This section specifies the services that should be run. They are # grouped by type, and the order of services within each group # determines the order in which the services will be run. prep_services = weewx.engine.StdTimeSynch data_services = , process_services = weewx.engine.StdConvert, weewx.engine.StdCalibrate, weewx.engine.StdQC, weewx.wxservices.StdWXCalculate archive_services = weewx.engine.StdArchive restful_services = weewx.restx.StdStationRegistry, weewx.restx.StdWunderground, weewx.restx.StdPWSweather, weewx.restx.StdCWOP, weewx.restx.StdWOW, weewx.restx.StdAWEKAS report_services = weewx.engine.StdPrint, weewx.engine.StdReport
mylog
Description: Binary data
