ucar.nc2.dt.point.decode.MP Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of cdm Show documentation
Show all versions of cdm Show documentation
The NetCDF-Java Library is a Java interface to NetCDF files,
as well as to many other types of scientific data formats.
The newest version!
/*
* Copyright 1998-2009 University Corporation for Atmospheric Research/Unidata
*
* Portions of this software were developed by the Unidata Program at the
* University Corporation for Atmospheric Research.
*
* Access and use of this software shall impose the following obligations
* and understandings on the user. The user is granted the right, without
* any fee or cost, to use, copy, modify, alter, enhance and distribute
* this software, and any derivative works thereof, and its supporting
* documentation for any purpose whatsoever, provided that this entire
* notice appears in all copies of the software, derivative works and
* supporting documentation. Further, UCAR requests that the user credit
* UCAR/Unidata in any publications that result from the use of this
* software or in any product that includes this software. The names UCAR
* and/or Unidata, however, may not be used in any advertising or publicity
* to endorse or promote any products or commercial entity unless specific
* written permission is obtained from UCAR/Unidata. The user also
* understands that UCAR/Unidata is not obligated to provide the user with
* any support, consulting, training or assistance of any kind with regard
* to the use, operation and performance of this software nor to provide
* the user with any updates, revisions, new versions or "bug fixes."
*
* THIS SOFTWARE IS PROVIDED BY UCAR/UNIDATA "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL UCAR/UNIDATA BE LIABLE FOR ANY SPECIAL,
* INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
* FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
* NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
* WITH THE ACCESS, USE OR PERFORMANCE OF THIS SOFTWARE.
*/
package ucar.nc2.dt.point.decode;
/* a class to contain the patterns in the Metar servers
*
* Author Robb Kambic
* Date 3/4/07
* @deprecated
*/
import java.util.regex.Pattern;
public class MP {
public static final Pattern N9999 = Pattern.compile(" 9999\\s+");
public static final Pattern ACFT = Pattern.compile(" \\(?ACFT( |_)?MSHP\\)?\\s+");
public static final Pattern AUTOS = Pattern.compile(" AUTO\\s+");
public static final Pattern automatic_report = Pattern.compile(" (A01|A01A|A02|A02A|AO1|AO1A|AO2|AO2A|AOA)\\s+");
//public static final Pattern B_slash = Pattern.compile("^\\/");
public static final Pattern B_CR = Pattern.compile("^\\n");
public static final Pattern B_metar = Pattern.compile("^(METAR|SPECI|TESTM|TESTS) ");
//public static final Pattern B_P = Pattern.compile("^P");
public static final Pattern FIRST = Pattern.compile(" FIRST\\s+");
public static final Pattern FZRANO = Pattern.compile(" FZRANO\\s+");
public static final Pattern LAST = Pattern.compile(" LAST\\s+");
public static final Pattern NOSPECI = Pattern.compile(" NOSPECI\\s+");
public static final Pattern PNO = Pattern.compile(" PNO\\s+");
public static final Pattern station = Pattern.compile("^(\\w{4})\\s+");
//public static final Pattern station_dateZ1 = Pattern.compile("^\\w{4} \\d{2}(\\d{2})(\\d{2})Z");
public static final Pattern ddhhmmZ = Pattern.compile(" (\\d{2})(\\d{2})(\\d{2})Z\\s+");
//public static final Pattern isodate = Pattern.compile("(\\d{4})-(\\d{2})-(\\d{2})T(\\d{2}):(\\d{2}):(\\d{2})");
//public static final Pattern station_dateZ = Pattern.compile("^\\w{4} (\\d{6,8})Z");
public static final Pattern CAVOKS = Pattern.compile(" CAVOK\\s+");
public static final Pattern altimeter = Pattern.compile(" (A|Q)(\\d{4}\\.?\\d?)\\s+");
public static final Pattern CIG = Pattern.compile(" CIG (\\d{1,4})V(\\d{1,4})\\s+");
public static final Pattern CIG_EST = Pattern.compile(" CIG(E)? (\\d{3})\\s+");
public static final Pattern CIGNO = Pattern.compile(" CIGNO\\s+");
public static final Pattern CIG_RY = Pattern.compile(" CIG (\\d{3}) (RY\\d{1,2})\\s+");
public static final Pattern CLR_or_SKC = Pattern.compile(" (CLR|SKC)\\s+");
public static final Pattern min_max_wind_dir = Pattern.compile(" (\\d{3})V(\\d{3})\\s+");
public static final Pattern visibility_direction = Pattern.compile(" (\\d{4})((NE)|(NW)|(SE)|(SW)|(N)|(S)|(E)|(W))\\s+");
public static final Pattern visibility2 = Pattern.compile(" (\\d{1,3})/(\\d{1,3})(KM|SM)\\s+");
public static final Pattern visibility3 = Pattern.compile(" P?(\\d{1,4})(KM|SM)\\s+");
public static final Pattern visibility1 = Pattern.compile(" (\\d{1,4}) (\\d{1,3})/(\\d{1,3})(SM|KM)\\s+");
public static final Pattern hourly_precip = Pattern.compile(" P ?(\\d{1,5})\\s+");
public static final Pattern wind_direction_speed = Pattern.compile(" (E|W|N|S)?(\\d{3}|VRB)(\\d{2,3})(G)?(\\d{2,3})?(KMH|KT|MPS|MPH)\\s+");
static final Pattern Temperature = Pattern.compile("(M|-)?(\\d{2})/(M|-)?(\\d{2})?\\s*");
static final Pattern Temperature_tenths = Pattern.compile("T(0|1)(\\d{3})(0|1)?(\\d{3})?\\s+");
public static final Pattern COR = Pattern.compile(" COR\\s+");
public static final Pattern cloud_cover = Pattern.compile(" (\\+|-)?(OVC|SCT|FEW|BKN)(\\d{3})(\\w{1,3})?\\s+");
public static final Pattern cloud_height = Pattern.compile(" 8/(\\d|/)(\\d|/)(\\d|/)\\s+");
//public static final Pattern weather = Pattern.compile(" (\\+|-|VC|PR)?(MI|BC|DR|BL|SH|TS|FZ)?(DZ|RA|SN|SG|IC|PE|PL|GR|GS|UP)?(BR|FG|FU|VA|DU|SA|HZ|PY)?(PO|SQ|FC|SS|DS)?\\s+");
static final Pattern WeatherObs = Pattern.compile("(\\+|-|VC|PR| )(MI|BC|DR|BL|SH|TS|FZ)?(BR|FG|FU|VA|DU|SA|HZ|PY)\\s+");
static final Pattern WeatherOther = Pattern.compile("(\\+|-|VC|PR| )(MI|BC|DR|BL|SH|TS|FZ)?(PO|SQ|FC|SS|DS)\\s+");
static final Pattern WeatherPrecip = Pattern.compile("(\\+|-|VC|PR| )(MI|BC|DR|BL|SH|TS|FZ)?(DZ|RA|SN|SG|IC|PE|PL|GR|GS|UP)\\s+");
//public static final Pattern recentWeather = Pattern.compile(" (\\+|-|VC|PR)?(MI|BC|DR|BL|SH|TS|FZ)?(DZ|RA|SN|SG|IC|PE|PL|GR|GS|UP)?(BR|FG|FU|VA|DU|SA|HZ|PY)?(PO|SQ|FC|SS|DS)?B(\\d{2,4})E(\\d{2,4})\\s+" );
//public static final Pattern recentWeather1 = Pattern.compile(" (\\+|-|VC|PR)?(MI|BC|DR|BL|SH|TS|FZ)?(DZ|RA|SN|SG|IC|PE|PL|GR|GS|UP)?(BR|FG|FU|VA|DU|SA|HZ|PY)?(PO|SQ|FC|SS|DS)?(B|E)(\\d{2,4})\\s+" );
public static final Pattern GR = Pattern.compile(" GS\\s+");
public static final Pattern GR1 = Pattern.compile(" GR M1/4\\s+");
public static final Pattern GR2 = Pattern.compile(" GR (\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern GR3 = Pattern.compile(" GR (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern GR4 = Pattern.compile(" GR (\\d{1,3})\\s+");
public static final Pattern Lightning = Pattern.compile(" (((OCNL|FRQ|CNS) )?LTG\\s?(CG|IC|CC|CA)?\\s?(DSNT|AP|VCY STN|VCNTY STN)?\\s?(NE|NW|SE|SW|N|S|E|W)?)\\s+");
public static final Pattern NIL = Pattern.compile("NIL\\s*");
//public static final Pattern obscuring = Pattern.compile(" -X(VC|PR)?(MI|BC|DR|BL|SH|TS|FZ)?(DZ|RA|SN|SG|IC|PE|PL|GR|GS|UP)?(BR|FG|FU|VA|DU|SA|HZ|PY)?(PO|SQ|FC|SS|DS)?(\\d)\\s+");
//public static final Pattern obscuringPhen = Pattern.compile(" (VC|PR)?(MI|BC|DR|BL|SH|TS|FZ)?(DZ|RA|SN|SG|IC|PE|PL|GR|GS|UP)?(BR|FG|FU|VA|DU|SA|HZ|PY)?(PO|SQ|FC|SS|DS)? (FEW|SCT|BKN|OVC)(\\d3)\\s+" );
public static final Pattern variableSky = Pattern.compile(" (FEW|SCT|BKN|OVC)(\\d{3})? V (FEW|SCT|BKN|OVC)\\s+");
public static final Pattern Visibility2ndSite1 = Pattern.compile(" (VIS|VSBY) (\\d{1,3}) (\\d{1,2})/(\\d{1,2}) (RY\\d{1,2})\\s+");
public static final Pattern Visibility2ndSite2 = Pattern.compile(" (VIS|VSBY) (\\d{1,3}) (RY\\d{1,2})\\s+");
public static final Pattern Visibility2ndSite3 = Pattern.compile(" (VIS|VSBY) (\\d{1,2})/(\\d{1,2}) (RY\\d{1,2})\\s+");
public static final Pattern sectorVisibility1 = Pattern.compile(" (VIS|VSBY) (NE|NW|SE|SW|N|S|E|W) (\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern sectorVisibility2 = Pattern.compile(" (VIS|VSBY) (NE|NW|SE|SW|N|S|E|W) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern sectorVisibility3 = Pattern.compile(" (VIS|VSBY) (NE|NW|SE|SW|N|S|E|W) (\\d{1,3})\\s+");
//public static final Pattern significantCloud = Pattern.compile(" (CB|CBMAM|TCU|ACC|SCSL|ACSL|ROTOR CLD|ROPE|ROPE CLD)\\s+");
//public static final Pattern significantCloud1 = Pattern.compile(" (VCNTY STN|VCY STN|VC STN|VCY|VC|DSNT|OMT)\\s+");
//public static final Pattern significantCloud2 = Pattern.compile(" (NE|NW|SE|SW|N|S|E|W)(\\-| MOV )?(NE|NW|SE|SW|N|S|E|W)?/?\\s+" ) ;
public static final Pattern surfaceVisibility1 = Pattern.compile(" SFC (VIS|VSBY) (\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern surfaceVisibility2 = Pattern.compile(" SFC (VIS|VSBY) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern surfaceVisibility3 = Pattern.compile(" SFC (VIS|VSBY) (\\d{1,3})\\s+");
public static final Pattern towerVisibility1 = Pattern.compile(" TWR (VIS|VSBY) (\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern towerVisibility2 = Pattern.compile(" TWR (VIS|VSBY) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern towerVisibility3 = Pattern.compile(" TWR (VIS|VSBY) (\\d{1,3})\\s+");
public static final Pattern variableVisibility1 = Pattern.compile(" (VIS|VSBY) (\\d{1,3}) (\\d{1,2})/(\\d{1,2})V(\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern variableVisibility2 = Pattern.compile(" (VIS|VSBY) (\\d{1,3})V(\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern variableVisibility3 = Pattern.compile(" (VIS|VSBY) (\\d{1,2})/(\\d{1,2})V(\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern variableVisibility4 = Pattern.compile(" (VIS|VSBY) (\\d{1,3}) (\\d{1,2})/(\\d{1,2})V(\\d{1,3})\\s+");
public static final Pattern variableVisibility5 = Pattern.compile(" (VIS|VSBY) (\\d{1,3})V(\\d{1,3})\\s+");
public static final Pattern variableVisibility6 = Pattern.compile(" (VIS|VSBY) (\\d{1,2})/(\\d{1,2})V(\\d{1,3})\\s+");
public static final Pattern visibilityKM = Pattern.compile(" M1/4KM\\s+|<1/4KM\\s+");
public static final Pattern visibilitySM = Pattern.compile(" M1/4SM\\s+|<1/4SM\\s+");
public static final Pattern visibilitySMKM = Pattern.compile(" (\\d{1,4}) (\\d{1,3})/(\\d{1,3})(SM|KM)\\s+");
public static final Pattern FROPA = Pattern.compile(" FROPA\\s+");
public static final Pattern NOSIG = Pattern.compile(" NOSIG\\s+");
public static final Pattern PWINO = Pattern.compile(" PWINO\\s+");
public static final Pattern PRESFR = Pattern.compile(" PRESFR/?\\s+");
public static final Pattern PRESRR = Pattern.compile(" PRESRR/?\\s+");
public static final Pattern SLPNO = Pattern.compile(" SLPNO\\s+");
public static final Pattern SLP = Pattern.compile(" SLP\\s?(\\d{3})\\s+");
public static final Pattern TSNO = Pattern.compile(" TSNO\\s+");
public static final Pattern peak_wind_speed = Pattern.compile(" PK WND\\s+(\\d{3})(\\d{1,3})/(\\d\\d)?(\\d\\d)\\s+");
public static final Pattern runway = Pattern.compile(" (R(\\d{2})(R|RR|L|LL|C)?/(M|P)?(\\d{1,4})V?(M|P)?(\\d{1,4})?(FT|N|D)?)\\s+");
public static final Pattern REMARKS = Pattern.compile("(RMK|REMARKS)");
public static final Pattern RVRNO = Pattern.compile(" RVRNO\\s+");
//public static final Pattern space = Pattern.compile(" ");
public static final Pattern spaces = Pattern.compile("\\s+");
public static final Pattern surface_visibility1 = Pattern.compile(" SFC (VIS|VSBY) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern surface_visibility2 = Pattern.compile(" SFC (VIS|VSBY) (\\d{1,3}) (\\d{1,2})/(\\d{1,2})\\s+");
public static final Pattern surface_visibility3 = Pattern.compile(" SFC (VIS|VSBY) (\\d{1,3})\\s+");
public static final Pattern SNINCR = Pattern.compile(" SNINCR (\\d{1,3})/(\\d{1,3})\\s+");
public static final Pattern snowDepth = Pattern.compile(" 4/(\\d{1,3})\\s+");
public static final Pattern vertical_VIS = Pattern.compile(" VV(\\d{3})\\s+");
public static final Pattern maintenace = Pattern.compile(" \\$\\s+");
public static final Pattern maxTemperature = Pattern.compile(" 1(0|1|/)(\\d{3}|///)\\s+");
public static final Pattern minTemperature = Pattern.compile(" 2(0|1|/)(\\d{3}|///)\\s+");
public static final Pattern maxMinTemp24 = Pattern.compile(" 4(0|1|/)(\\d{3}|///)(0|1|/)(\\d{3}|///)\\s+");
public static final Pattern peakWind = Pattern.compile(" PK WND (\\d{3})(\\d{1,3})/(\\d\\d)?(\\d\\d)\\s+");
//public static final Pattern plainText = Pattern.compile(" (\\w.*)\\s+");
public static final Pattern precipitation = Pattern.compile(" 6(\\d{4}|////)\\s+");
public static final Pattern precipitation24 = Pattern.compile(" 7(\\d{4}|////)\\s+");
public static final Pattern pressureTendency = Pattern.compile(" 5(0|1|2|3|4|5|6|7|8)(\\d{3}|///)\\s+");
public static final Pattern sunShine = Pattern.compile(" 98(\\d{1,3}|///)\\s+");
public static final Pattern tornado = Pattern.compile(" (TORNADO\\w{0,2}|WATERSPOUTS.*|FUNNEL CLOUDS.*)\\s+");
public static final Pattern tornadoTime = Pattern.compile(" (B|E)(\\d\\d)?(\\d\\d)\\s+");
public static final Pattern tornadoLocation = Pattern.compile(" (DSNT|VCY STN|VC STN|VCY|VC)\\s+");
public static final Pattern tornadoDirection = Pattern.compile(" (NE|NW|SE|SW|N|S|E|W)\\s+");
public static final Pattern VIRGA = Pattern.compile(" VIRGA( DSNT)?( NE| NW| SE| SW| N| S| E| W)?\\s+");
public static final Pattern waterEquiv = Pattern.compile(" 933(\\d{3})\\s+");
public static final Pattern windShift = Pattern.compile(" WSHFT (\\d\\d)?(\\d\\d)\\s+");
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy