What can I change or add in my skin.conf? Am Sonntag, 29. Dezember 2019 16:05:12 UTC+1 schrieb Geni: > > Hello, > > i use weewx 3.9.2 on a raspberry 3+ with a mysql database, the template is > season. > unfortunately since switching to a new raspberry the rainrate is displayed > with xx mm/hr but i want mm/h. > What do I have to change so that the rain rate is displayed in mm/h? > > Thanks, Geni > > Livesite is https://affolter.familyds.net/wetter/index.html >
-- 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 weewx-user+unsubscr...@googlegroups.com. To view this discussion on the web visit https://groups.google.com/d/msgid/weewx-user/1a1815d3-9d93-41d9-a462-a21557110d4a%40googlegroups.com.
############################################################################## # Modified by ea, 29.12.2019 # # # # SEASONS SKIN CONFIGURATION FILE # # Copyright (c) 2018 Tom Keffer <tkef...@gmail.com> and Matthew Wall # # See the file LICENSE.txt for your rights. # ############################################################################### ############################################################################### # 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 = Sender windBatteryStatus = Wind rainBatteryStatus = Regen outTempBatteryStatus = Aussen Temperatur inTempBatteryStatus = Raum Temperatur consBatteryVoltage = Console heatingVoltage = Heizung supplyVoltage = Supply referenceVoltage = Reference # Some specialized labels rain_today = Regen heute 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 generate a celestial page only once # an hour instead of every report cycle. # 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 [[[daybarometer]]] [[[[barometer]]]] [[[daytempdew]]] [[[[outTemp]]]] [[[[dewpoint]]]] [[[daytempfeel]]] [[[[windchill]]]] [[[[heatindex]]]] [[[daytempin]]] [[[[inTemp]]]] [[[daytemp]]] yscale = None, None, 0.5 [[[[extraTemp1]]]] [[[[extraTemp2]]]] [[[[extraTemp3]]]] [[[dayhum]]] [[[[outHumidity]]]] [[[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 = Regen mm/h [[[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 [[[dayradiation]]] [[[[radiation]]]] [[[dayuv]]] # yscale = 0, 16, 1 [[[[UV]]]] [[[dayrx]]] yscale = 0.0, 100.0, 25.0 [[[[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]]]] [[[weekrain]]] yscale = None, None, 0.02 plot_type = bar [[[[rain]]]] aggregate_type = sum aggregate_interval = 86400 label = Regen mm/Tag [[[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]]]] [[[monthrain]]] yscale = None, None, 0.02 plot_type = bar [[[[rain]]]] aggregate_type = sum aggregate_interval = 86400 label = Regen mm/Tag [[[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 [[[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]]]] [[[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 = Regen mm/Woche [[[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