Perl ForecastIO module README for GitHub markdown=yes # ForecastIO.pm This Perl wrapper API is used to process the excellent weather data, provided in JSON format by [forecast.io](http://forecast.io/). Related: [forecast.io developer API info](https://developer.forecast.io). From the forecast.io website: > *"The easiest, most advanced, weather API on the web. The same API that powers Forecast.io and Dark Sky for iOS can provide accurate short­term and long­term weather predictions to your business, application, or crazy idea."* A working example that uses this Perl module can be found at [Toledo Weather](http://toledotalk.com/weather). This weather Web app uses jQuery mobile on the client side. Several Perl scripts execute at different intervals in cron that fetch RSS, custom XML, and HTML files from the National Weather Service to provide the data for display. The [forecast.io section](http://toledotalk.com/weather/html/forecastio.html) of this Web app uses a small part of this Perl module. Code for the entire Toledo weather Web app exists on GitHub at [ToledoWX](https://github.com/jrsawvel/ToledoWX). ## Perl Module This ForecastIO.pm Perl module was inspired by the PHP forecast.io wrapper located at [tobias-redmann/forecast.io-php-api](https://github.com/tobias-redmann/forecast.io-php-api). ## Usage View the [test Perl script](https://github.com/jrsawvel/Perl-ForecastIO/blob/master/bin/test-forecastio-1.pl) in the bin directory. Also, view the [output file](https://github.com/jrsawvel/Perl-ForecastIO/blob/master/data/toledo-10jul2013-output.txt), created by the above test script. Include the module in your program. ``` use ForecastIO; ``` Create the forecast object and set API key and location. ``` my $forecast = ForecastIO->new($api_key, $latitude, $longitude); ``` Download JSON data and convert it to a Perl hash. ``` $forecast->fetch_data; ``` ## Alerts Forecast.io data includes special weather statements, watches, and warnings that have been issued by the National Weather Service, such as Severe Thunderstorm Warning, Heat Advisory, etc. my @alerts = $forecast->alerts; if ( @alerts ) { foreach my $a ( @alerts ) { # loop through the array of objects and # use get methods to process data for # each object $a in the array. Example: print "alert description = " . $a->alert_description . "\n"; } } Get methods: ``` $a->alert_title $a->alert_uri $a->alert_expires $a->alert_description ``` ## Current Conditions Get the object for the current conditions. ``` my $currently = $forecast->currently; ``` Get methods available for the currently object: ``` $currently->time $currently->summary $currently->icon $currently->temperature $currently->dewPoint $currently->windBearing $currently->windSpeed $currently->pressure $currently->humidity $currently->ozone $currently->precipProbability $currently->cloudCover $currently->cloudCover $currently->precipIntensity $currently->precipType $currently->visibility ``` ## Forecast - Next 48 Hours Return an array of hourly objects, which contain the following forecast information for each hour up to 48 hours: time, icon, temperature, pressure, wind direction, and wind speed. my @hourly = $forecast->hourly; if ( @hourly ) { foreach my $h ( @hourly ) { print ForecastIOUtils::format_date( $h->time ) . # loop through the array of objects and # use get methods to process data for # each object $h in the array. Example: print "precip type = " . $h->precipType . "\n"; } } Get methods: ``` $h->icon $h->temperature $h->precipType $h->pressure $h->windBearing $h->windSpeed ``` ## Forecast - Next 60 Minutes Return an array of minutely objects, which contain the following forecast information for each minute for the next 60 minutes: time and precipitation probability, intensity, and type. my @minutely = $forecast->minutely; if ( @minutely ) { foreach my $m ( @minutely ) { # loop through the array of objects and # use get methods to process data for # each object $m in the array. Example: print "precip type = " . $h->precipType . "\n"; } } Get methods: ``` $m->time $m->precipProbability $m->precipIntensity $m->precipType ``` ## Forecast - Next 7 Days Return an array of ``daily`` objects, which contain the following forecast information for each day for the next seven days: time, sunrise time, sunset time, cloud cover, min temp and min temp time, max temp and max temp time, wind speed, wind direction, and precipitation type, max intensity, and max intensity time. my @daily = $forecast->daily; if ( @daily ) { foreach my $d ( @daily ) { # loop through the array of objects and # use get methods to process data for # each object $d in the array. Example: print "precip accumulation = " . $d->precipAccumulation . "\n"; } } Get methods ``` $d->time $d->icon $d->sunriseTime $d->sunsetTime $d->cloudCover $d->precipType $d->precipIntensityMax $d->precipIntensityMaxTime $d->precipAccumulation $d->temperatureMin $d->temperatureMinTime $d->temperatureMax $d->temperatureMaxTime $d->windSpeed $d->windBearing ``` ## Additional Info The very detailed forecast.io JSON data set contains other information. Review the current API doc for details [https://developer.forecast.io/docs/v2](https://developer.forecast.io/docs/v2). The ForecastIO.pm provides get methods for the ``forecast`` object to access some of this additional info: ``` $forecast->offset #timezone offset $forecast->timezone $forecast->hourlysummary $forecast->dailysummary $forecast->minutelysummary ``` ## Utilities I like the raw data provided by forecast.io. It provides the user or developer with options on how to display the data. Some of the forecast.io data needs additional processing or formatting to display it in a more "normal" way. This ForecastIO.pm module also contains a utilities package. The utilities below may apply to different blocks of data. For example, barometric pressure is available for the current conditions object (currently) and the 48 hour forecast object (hourly). Time exists for all blocks of data, so the format_date utility could be used for the get time method in all the objects. The object could be alerts, current conditions, hourly forecast, etc., depending upon what data is available for each block of data. Refer to the [test perl script](https://github.com/jrsawvel/Perl-ForecastIO/blob/master/bin/test-forecastio-1.pl) and the [output from the test script](https://github.com/jrsawvel/Perl-ForecastIO/blob/master/data/toledo-10jul2013-output.txt) located in this repository. And read the [forecast.io API doc](https://developer.forecast.io/docs/v2). Each utility subroutine is preceded by ``ForecastIOUtils::`` ``` format_date($object->time) degrees_to_cardinal($object->windBearing) round($object->windSpeed) round($object->temperature) round($object->dewPoint) millibars_to_inches($object->pressure) cloud_cover_description($object->cloudCover) calc_intensity($currently->precipIntensity) calc_intensity_color($currently->precipIntensity) ``` The module contains a meters to miles per hour conversion subroutine, but it can be ignored because the forecast.io data uses mph as the default format for wind speed. ### format_date Forecast.io contains date and time in epoch seconds. The format_date subroutine returns info in the format as: 2013-07-10T17:57:36Z which is ISO 8601 format. If no epoch seconds are passed to subroutine, then format_date returns the current date and time. You can modify the format_date subroutine to produce a different format. ### degrees to cardinal The direction that the wind is blowing from. The 360 degree compass data (clockwise) is converted into its text representation. So 0 degrees equals North. 90 degrees equals East. 180 degrees equals South. 270 degrees equals West. In between data can be represented, such as WSW, which means the wind is blowing from the west-southwest. The subroutine returns one to three uppercase letters to represent wind direction, such as NE, S, WNW. ### rounding Some data is returned in decimal format, such as temperature and wind speed, and the subroutine will round up if necessary. ### millibars to inches Forecast.io presents barometric pressure in millibars, so this routine converts it to inches of mercury, which is how pressure is normally displayed for general usage. ### cloud cover description Forecast.io data returns cloud cover data in a decimal or whole number format between 0 and 1. From the [forecast.io API doc](https://developer.forecast.io/docs/v2): - A value of 0 corresponds to clear sky, - 0.4 to scattered clouds, - 0.75 to broken cloud cover, - 1 to completely overcast skies. Refer to: [http://forecast.weather.gov/glossary.php?word=SKY%20CONDITION](http://forecast.weather.gov/glossary.php?word=SKY%20CONDITION) In ForecastIO.pm, I established my own breakpoints and applied the above cloud cover or sky condition terms, which include clear, mostly clear, partly cloudy, mostly cloudy, and cloudy. Refer to the ForecastIO.pm module code to see the breakpoints. ### calc precip intensity Forecast.io data returns precipitation intensity data in a decimal or whole number format between 0 and 1. From the [forecast.io API doc](https://developer.forecast.io/docs/v2): # # precipIntensity: A numerical value representing the average expected intensity # (in inches of liquid water per hour) of precipitation occurring at the given # time conditional on probability (that is, assuming any precipitation occurs at all). # A very rough guide is that a value of 0 corresponds to no precipitation, # 0.002 corresponds to very light precipitation, # 0.017 corresponds to light precipitation, # 0.1 corresponds to moderate precipitation, # and 0.4 corresponds to very heavy precipitation. And you can play with the precipitation intensity subroutine to produce text values that seem more appropriate with your own observations. Thus far, I think the text-based intensity values returned in this module match my observations in Toledo, Ohio.