Commit b639f453 authored by Uwe Schulzweida's avatar Uwe Schulzweida
Browse files

Removed duplicated blanks.

parent 4666ec68
...@@ -162,19 +162,19 @@ static const char SU_LONGNAME_ET[] = "Number of Summer Days"; ...@@ -162,19 +162,19 @@ static const char SU_LONGNAME_ET[] = "Number of Summer Days";
static const char SU_UNITS_ET[] = "days"; static const char SU_UNITS_ET[] = "days";
static const char TG10P_NAME[] = "cold_days_percent_wrt_10th_percentile_of_reference_period"; static const char TG10P_NAME[] = "cold_days_percent_wrt_10th_percentile_of_reference_period";
static const char TG10P_LONGNAME[] = "This is the percent of time per time period where daily mean temperature is below a reference value. The reference value is calculated as the 10th percentile of daily mean temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char TG10P_LONGNAME[] = "This is the percent of time per time period where daily mean temperature is below a reference value. The reference value is calculated as the 10th percentile of daily mean temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char TG10P_UNITS[] = "Percent"; static const char TG10P_UNITS[] = "Percent";
static const char TG90P_NAME[] = "warm_days_percent_wrt_90th_percentile_of_reference_period"; static const char TG90P_NAME[] = "warm_days_percent_wrt_90th_percentile_of_reference_period";
static const char TG90P_LONGNAME[] = "This is the percent of time per time period where daily mean temperature is above a reference value. The reference value is calculated as the 90th percentile of daily mean temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char TG90P_LONGNAME[] = "This is the percent of time per time period where daily mean temperature is above a reference value. The reference value is calculated as the 90th percentile of daily mean temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char TG90P_UNITS[] = "Percent"; static const char TG90P_UNITS[] = "Percent";
static const char TN10P_NAME[] = "cold_nights_percent_wrt_10th_percentile_of_reference_period"; static const char TN10P_NAME[] = "cold_nights_percent_wrt_10th_percentile_of_reference_period";
static const char TN10P_LONGNAME[] = "This is the percent of time per time period where daily minimum temperature is below a reference value. The reference value is calculated as the 10th percentile of daily minimum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char TN10P_LONGNAME[] = "This is the percent of time per time period where daily minimum temperature is below a reference value. The reference value is calculated as the 10th percentile of daily minimum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char TN10P_UNITS[] = "Percent"; static const char TN10P_UNITS[] = "Percent";
static const char TN90P_NAME[] = "warm_nights_percent_wrt_90th_percentile_of_reference_period"; static const char TN90P_NAME[] = "warm_nights_percent_wrt_90th_percentile_of_reference_period";
static const char TN90P_LONGNAME[] = "This is the percent of time per time period where daily minimum temperature is above a reference value. The reference value is calculated as the 90th percentile of daily minimum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char TN90P_LONGNAME[] = "This is the percent of time per time period where daily minimum temperature is above a reference value. The reference value is calculated as the 90th percentile of daily minimum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char TN90P_UNITS[] = "Percent"; static const char TN90P_UNITS[] = "Percent";
static const char TR_NAME[] = "tropical_nights_index_per_time_period"; static const char TR_NAME[] = "tropical_nights_index_per_time_period";
...@@ -185,16 +185,16 @@ static const char TR_UNITS[] = "No."; ...@@ -185,16 +185,16 @@ static const char TR_UNITS[] = "No.";
static const char TR_UNITS_ET[] = "days"; static const char TR_UNITS_ET[] = "days";
static const char TX10P_NAME[] = "very_cold_days_percent_wrt_10th_percentile_of_reference_period"; static const char TX10P_NAME[] = "very_cold_days_percent_wrt_10th_percentile_of_reference_period";
static const char TX10P_LONGNAME[] = "This is the percent of time per time period where daily maximum temperature is below a reference value. The reference value is calculated as the 10th percentile of daily maximum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char TX10P_LONGNAME[] = "This is the percent of time per time period where daily maximum temperature is below a reference value. The reference value is calculated as the 10th percentile of daily maximum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char TX10P_UNITS[] = "Percent"; static const char TX10P_UNITS[] = "Percent";
static const char TX90P_NAME[] = "very_warm_days_percent_wrt_90th_percentile_of_reference_period"; static const char TX90P_NAME[] = "very_warm_days_percent_wrt_90th_percentile_of_reference_period";
static const char TX90P_LONGNAME[] = "This is the percent of time per time period where daily maximum temperature is above a reference value. The reference value is calculated as the 90th percentile of daily maximum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char TX90P_LONGNAME[] = "This is the percent of time per time period where daily maximum temperature is above a reference value. The reference value is calculated as the 90th percentile of daily maximum temperatures of a five day window centred on each calendar day of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char TX90P_UNITS[] = "Percent"; static const char TX90P_UNITS[] = "Percent";
static const char CDD_NAME[] = "consecutive_dry_days_index_per_time_period"; static const char CDD_NAME[] = "consecutive_dry_days_index_per_time_period";
static const char CDD_NAME_ET[] = "cddETCCDI"; static const char CDD_NAME_ET[] = "cddETCCDI";
static const char CDD_LONGNAME[] = "Consecutive dry days is the greatest number of consecutive days per time period with daily precipitation amount below %g mm. The time period should be defined by the bounds of the time coordinate."; static const char CDD_LONGNAME[] = "Consecutive dry days is the greatest number of consecutive days per time period with daily precipitation amount below %g mm. The time period should be defined by the bounds of the time coordinate.";
static const char CDD_LONGNAME_ET[] = "Maximum Number of Consecutive Days with Less Than 1mm of Precipitation [days]"; static const char CDD_LONGNAME_ET[] = "Maximum Number of Consecutive Days with Less Than 1mm of Precipitation [days]";
static const char CDD_UNITS[] = "No."; static const char CDD_UNITS[] = "No.";
static const char CDD_UNITS_ET[] = "days"; static const char CDD_UNITS_ET[] = "days";
...@@ -234,51 +234,51 @@ static const char R20MM_UNITS[] = "No."; ...@@ -234,51 +234,51 @@ static const char R20MM_UNITS[] = "No.";
static const char R20MM_UNITS_ET[] = "days"; static const char R20MM_UNITS_ET[] = "days";
static const char R75P_NAME[] = "moderate_wet_days_wrt_75th_percentile_of_reference_period"; static const char R75P_NAME[] = "moderate_wet_days_wrt_75th_percentile_of_reference_period";
static const char R75P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 75th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char R75P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 75th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char R75P_UNITS[] = "Percent"; static const char R75P_UNITS[] = "Percent";
static const char R75PTOT_NAME[] = "precipitation_percent_due_to_R75p_days"; static const char R75PTOT_NAME[] = "precipitation_percent_due_to_R75p_days";
static const char R75PTOT_LONGNAME[] = "Percentage of total precipitation amount per time period due to moderate_wet_days_wrt_75th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate."; static const char R75PTOT_LONGNAME[] = "Percentage of total precipitation amount per time period due to moderate_wet_days_wrt_75th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate.";
static const char R75PTOT_UNITS[] = "Percent"; static const char R75PTOT_UNITS[] = "Percent";
static const char R90P_NAME[] = "wet_days_wrt_90th_percentile_of_reference_period"; static const char R90P_NAME[] = "wet_days_wrt_90th_percentile_of_reference_period";
static const char R90P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 90th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char R90P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 90th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char R90P_UNITS[] = "Percent"; static const char R90P_UNITS[] = "Percent";
static const char R90PTOT_NAME[] = "precipitation_percent_due_to_R90p_days"; static const char R90PTOT_NAME[] = "precipitation_percent_due_to_R90p_days";
static const char R90PTOT_LONGNAME[] = "Percentage of total precipitation amount per time period due towet_days_wrt_90th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate."; static const char R90PTOT_LONGNAME[] = "Percentage of total precipitation amount per time period due towet_days_wrt_90th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate.";
static const char R90PTOT_UNITS[] = "Percent"; static const char R90PTOT_UNITS[] = "Percent";
static const char R95P_NAME[] = "very_wet_days_wrt_95th_percentile_of_reference_period"; static const char R95P_NAME[] = "very_wet_days_wrt_95th_percentile_of_reference_period";
static const char R95P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 95th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char R95P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 95th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char R95P_UNITS[] = "Percent"; static const char R95P_UNITS[] = "Percent";
static const char R95PTOT_NAME[] = "precipitation_percent_due_to_R95p_days"; static const char R95PTOT_NAME[] = "precipitation_percent_due_to_R95p_days";
static const char R95PTOT_LONGNAME[] = "Percentage of total precipitation amount per time period due to very_wet_days_wrt_95th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate."; static const char R95PTOT_LONGNAME[] = "Percentage of total precipitation amount per time period due to very_wet_days_wrt_95th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate.";
static const char R95PTOT_UNITS[] = "Percent"; static const char R95PTOT_UNITS[] = "Percent";
static const char R99P_NAME[] = "extremely_wet_days_wrt_99th_percentile_of_reference_period"; static const char R99P_NAME[] = "extremely_wet_days_wrt_99th_percentile_of_reference_period";
static const char R99P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 99th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate."; static const char R99P_LONGNAME[] = "This is the percent of time per time period of wet days (daily sum at least 1 mm / day) where daily precipitation amount of a wet day is above a reference value. The reference value is calculated as the 99th percentile of all wet days of a given 30 year climate reference period. The time period should be defined by the bounds of the time coordinate.";
static const char R99P_UNITS[] = "Percent"; static const char R99P_UNITS[] = "Percent";
static const char R99PTOT_NAME[] = "precipitation_percent_due_to_R99p_days"; static const char R99PTOT_NAME[] = "precipitation_percent_due_to_R99p_days";
static const char R99PTOT_LONGNAME[] = "percentage of total precipitation amount per time period due to extremely_wet_days_wrt_99th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate."; static const char R99PTOT_LONGNAME[] = "percentage of total precipitation amount per time period due to extremely_wet_days_wrt_99th_percentile_of_reference_period. The time period should be defined by the bounds of the time coordinate.";
//static const char R99PTOT_UNITS[] = "Percent"; //static const char R99PTOT_UNITS[] = "Percent";
static const char RR1_NAME[] = "wet_days_index_per_time_period"; static const char RR1_NAME[] = "wet_days_index_per_time_period";
static const char RR1_LONGNAME[] = "Wet days index is the number of days per time period with daily precipitation of at least %g mm. The time period should be defined by the bounds of the time coordinate."; static const char RR1_LONGNAME[] = "Wet days index is the number of days per time period with daily precipitation of at least %g mm. The time period should be defined by the bounds of the time coordinate.";
static const char RR1_UNITS[] = "No."; static const char RR1_UNITS[] = "No.";
static const char RX1DAY_NAME[] = "highest_one_day_precipitation_amount_per_time_period"; static const char RX1DAY_NAME[] = "highest_one_day_precipitation_amount_per_time_period";
static const char RX1DAY_NAME_ET[] = "rx1dayETCCDI"; static const char RX1DAY_NAME_ET[] = "rx1dayETCCDI";
static const char RX1DAY_LONGNAME[] = "Highest one day precipitation is the maximum of one day precipitation amount in a given time period. The time period should be defined by the bounds of the time coordinate."; static const char RX1DAY_LONGNAME[] = "Highest one day precipitation is the maximum of one day precipitation amount in a given time period. The time period should be defined by the bounds of the time coordinate.";
static const char RX1DAY_LONGNAME_ET[]= "Maximum 1-day Precipitation"; static const char RX1DAY_LONGNAME_ET[]= "Maximum 1-day Precipitation";
static const char RX1DAY_UNITS[] = "mm per day"; static const char RX1DAY_UNITS[] = "mm per day";
static const char RX1DAY_UNITS_ET[] = "mm"; static const char RX1DAY_UNITS_ET[] = "mm";
static const char RX5DAY_NAME[] = "highest_five_day_precipitation_amount_per_time_period"; static const char RX5DAY_NAME[] = "highest_five_day_precipitation_amount_per_time_period";
static const char RX5DAY_NAME_ET[] = "rx5dayETCCDI"; static const char RX5DAY_NAME_ET[] = "rx5dayETCCDI";
static const char RX5DAY_LONGNAME[] = "Highest precipitation amount for five day interval (including the calendar day as the last day). The time period should be defined by the bounds of the time coordinate."; static const char RX5DAY_LONGNAME[] = "Highest precipitation amount for five day interval (including the calendar day as the last day). The time period should be defined by the bounds of the time coordinate.";
static const char RX5DAY_LONGNAME_ET[]= "Maximum Consecutive 5-day Precipitation"; static const char RX5DAY_LONGNAME_ET[]= "Maximum Consecutive 5-day Precipitation";
static const char RX5DAY_UNITS[] = "mm per 5 day"; static const char RX5DAY_UNITS[] = "mm per 5 day";
static const char RX5DAY_UNITS_ET[] = "mm"; static const char RX5DAY_UNITS_ET[] = "mm";
...@@ -293,8 +293,8 @@ static const char SDII_LONGNAME_ET[] = "Simple Precipitation Intensity Index"; ...@@ -293,8 +293,8 @@ static const char SDII_LONGNAME_ET[] = "Simple Precipitation Intensity Index";
static const char SDII_UNITS[] = "mm"; static const char SDII_UNITS[] = "mm";
static const char SDII_UNITS_ET[] = "mm d-1"; static const char SDII_UNITS_ET[] = "mm d-1";
static const char FDNS_NAME[] = "frost_days_where_no_snow_index_per_time_period"; static const char FDNS_NAME[] = "frost_days_where_no_snow_index_per_time_period";
static const char FDNS_LONGNAME[] = "Frost days where no snow index is the number of days without snowcover and where the minimum of temperature is below 0 degree Celsius. The time period should be defined by the bounds of the time coordinate."; static const char FDNS_LONGNAME[] = "Frost days where no snow index is the number of days without snowcover and where the minimum of temperature is below 0 degree Celsius. The time period should be defined by the bounds of the time coordinate.";
static const char FDNS_UNITS[] = "No."; static const char FDNS_UNITS[] = "No.";
static const char STRWIN_NAME[] = "strong_wind_days_index_per_time_period"; static const char STRWIN_NAME[] = "strong_wind_days_index_per_time_period";
......
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