From 1f6d8d3d527de278f223496838356f3ba6fe5739 Mon Sep 17 00:00:00 2001 From: Shahram Najm Date: Mon, 7 Jan 2019 13:54:29 +0000 Subject: [PATCH] Remove DOS line endings --- doxygen/gribex/callGribex.html | 38 +- doxygen/gribex/gaussianGrid.html | 1190 ++++++------- doxygen/gribex/ksec0.html | 922 +++++----- doxygen/gribex/ksec1.html | 1388 +++++++-------- doxygen/gribex/ksec2.html | 932 +++++----- doxygen/gribex/ksec3.html | 928 +++++----- doxygen/gribex/ksec4.html | 1508 ++++++++--------- doxygen/gribex/lambertEtcGrid.html | 1202 ++++++------- doxygen/gribex/latLongGrid.html | 1178 ++++++------- doxygen/gribex/mercatorGrid.html | 1148 ++++++------- doxygen/gribex/oceanData.html | 976 +++++------ doxygen/gribex/polarStereoGrid.html | 1134 ++++++------- doxygen/gribex/psec2.html | 948 +++++------ doxygen/gribex/psec3.html | 916 +++++----- doxygen/gribex/psec4.html | 896 +++++----- .../gribex/reducedGaussianGridSubArea.html | 1188 ++++++------- doxygen/gribex/spaceView.html | 1166 ++++++------- doxygen/gribex/sphericalHarmonics.html | 1060 ++++++------ examples/python/flight_data.csv | 372 ++-- 19 files changed, 9545 insertions(+), 9545 deletions(-) diff --git a/doxygen/gribex/callGribex.html b/doxygen/gribex/callGribex.html index 32acabc93..9a238f5e3 100644 --- a/doxygen/gribex/callGribex.html +++ b/doxygen/gribex/callGribex.html @@ -375,25 +375,25 @@ manual -

-      

The following GRIBEX Fortan interface is not present any -longer in the GRIB API. You will have seen from the GRIB API Fortran -90 interface that the information contained in the grib message -can be accessed through alphanumeric keys.

-

In your Fortran code, you will have to name explicitly the keys that you -are using. The tables below will help you to find the key names -corresponding to the "old" GRIB header section elements. -

-

These tables include the GRIB API Coded key names and also - Recommended GRIB API key names. You should use the latter.
-

-

  INTEGER
INTEGER KSEC0(2)
INTEGER KSEC1(1024)
INTEGER KSEC2(1024)
INTEGER KSEC3(2)
INTEGER KSEC4(512)
INTEGER KLENP, KLENG, KWORD, KRET
INTEGER KGRIB(*)
C
REAL PSEC2(512)
REAL PSEC3(2)
REAL PSEC4(*)
C
CHARACTER*1 HOPER
:
:
CALL GRIBEX(KSEC0,KSEC1,KSEC2,PSEC2,KSEC3,PSEC3,KSEC4,
X PSEC4,KLENP,KGRIB,KLENG,KWORD,HOPER,KRET)
+

+      

The following GRIBEX Fortan interface is not present any +longer in the GRIB API. You will have seen from the GRIB API Fortran +90 interface that the information contained in the grib message +can be accessed through alphanumeric keys.

+

In your Fortran code, you will have to name explicitly the keys that you +are using. The tables below will help you to find the key names +corresponding to the "old" GRIB header section elements. +

+

These tables include the GRIB API Coded key names and also + Recommended GRIB API key names. You should use the latter.
+

+

  INTEGER
INTEGER KSEC0(2)
INTEGER KSEC1(1024)
INTEGER KSEC2(1024)
INTEGER KSEC3(2)
INTEGER KSEC4(512)
INTEGER KLENP, KLENG, KWORD, KRET
INTEGER KGRIB(*)
C
REAL PSEC2(512)
REAL PSEC3(2)
REAL PSEC4(*)
C
CHARACTER*1 HOPER
:
:
CALL GRIBEX(KSEC0,KSEC1,KSEC2,PSEC2,KSEC3,PSEC3,KSEC4,
X PSEC4,KLENP,KGRIB,KLENG,KWORD,HOPER,KRET)
diff --git a/doxygen/gribex/gaussianGrid.html b/doxygen/gribex/gaussianGrid.html index 009d7f893..8e12b0549 100644 --- a/doxygen/gribex/gaussianGrid.html +++ b/doxygen/gribex/gaussianGrid.html @@ -1,595 +1,595 @@ - - - - - - - - - - - - - - -GRIB API Manual - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Gaussian grids
Element Contents - GRIB API keys
1 Data representation type (see WMO -code table 6) gridType -
2 Number of points along a parallel. -Cannot be used for quasi-regular (reduced) grids. Ni
Nx
-
3 Number of points along a meridian (Nj). - Nj
Ny
-
4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000 -
5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000 -
6 -
Resolution flag:
0 Direction increments not given.
128 Direction increments given.
-
ijDirectionIncrementGiven*128 -
7 Latitude of the last grid point. latitudeOfLastGridPointInDegrees*1000 -
8 Longitude of the last grid point. longitudeOfLastGridPointInDegrees*1000 -
9 i direction increment. Cannot be used -for quasi-regular (reduced) grids. iDirectionIncrementInDegrees*1000 -
10 Number of parallels between a pole and -the Equator,ie the gaussian grid number. numberOfParallelsBetweenAPoleAndTheEquator
-
11 Scanning mode flags (see WMO -code table 8) -

iScansNegatively

-

jScansNegatively

-

jPointsAreConsecutive

-
12 Number of vertical coordinate -parameters. NV
-
13 Latitude of the southern pole of -rotation. latitudeOfSouthernPoleInDegrees*1000 -
14 Longitude of the southern pole of -rotation. longitudeOfSouthernPoleInDegrees*1000 -
15 Latitude of the pole of stretching. latitudeOfPoleOfStretchingInDegrees - *1000
16 Longitude of the pole of stretching. longitudeOfPoleOfStretchingInDegrees - *1000
17 -
0       Regular grid.
1 Quasi-regular (reduced) grid.
-
gridType -
18 -
Earth flag:
0 Earth assumed spherical with radius 6367.47 km.
64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
6378.160km, 6356.775km, f=1/297.0
-
earthIsOblate -
19 -
Components flag.
0 Resolved u and v components of vector quantities relative to easterly
and northerly directions; or not used.
8 Resolved u and v components of vector quantities relative to the
defined grid in the direction of increasing x and y (or i and j)
coordinates respectively.
-
uvRelativeToGrid -
20-22 Reserved. Set to 0.
-
23-nn For a quasi-regular (reduced) grid, NN -the number of points along a full parallel (360 degrees) is defined for -each latitude row in the area. The number of parallels is given by Nj -above. pl
- - - -
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+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
Gaussian grids
Element Contents + GRIB API keys
1 Data representation type (see WMO +code table 6) gridType +
2 Number of points along a parallel. +Cannot be used for quasi-regular (reduced) grids. Ni
Nx
+
3 Number of points along a meridian (Nj). + Nj
Ny
+
4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000 +
5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000 +
6 +
Resolution flag:
0 Direction increments not given.
128 Direction increments given.
+
ijDirectionIncrementGiven*128 +
7 Latitude of the last grid point. latitudeOfLastGridPointInDegrees*1000 +
8 Longitude of the last grid point. longitudeOfLastGridPointInDegrees*1000 +
9 i direction increment. Cannot be used +for quasi-regular (reduced) grids. iDirectionIncrementInDegrees*1000 +
10 Number of parallels between a pole and +the Equator,ie the gaussian grid number. numberOfParallelsBetweenAPoleAndTheEquator
+
11 Scanning mode flags (see WMO +code table 8) +

iScansNegatively

+

jScansNegatively

+

jPointsAreConsecutive

+
12 Number of vertical coordinate +parameters. NV
+
13 Latitude of the southern pole of +rotation. latitudeOfSouthernPoleInDegrees*1000 +
14 Longitude of the southern pole of +rotation. longitudeOfSouthernPoleInDegrees*1000 +
15 Latitude of the pole of stretching. latitudeOfPoleOfStretchingInDegrees + *1000
16 Longitude of the pole of stretching. longitudeOfPoleOfStretchingInDegrees + *1000
17 +
0       Regular grid.
1 Quasi-regular (reduced) grid.
+
gridType +
18 +
Earth flag:
0 Earth assumed spherical with radius 6367.47 km.
64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
6378.160km, 6356.775km, f=1/297.0
+
earthIsOblate +
19 +
Components flag.
0 Resolved u and v components of vector quantities relative to easterly
and northerly directions; or not used.
8 Resolved u and v components of vector quantities relative to the
defined grid in the direction of increasing x and y (or i and j)
coordinates respectively.
+
uvRelativeToGrid +
20-22 Reserved. Set to 0.
+
23-nn For a quasi-regular (reduced) grid, NN +the number of points along a full parallel (360 degrees) is defined for +each latitude row in the area. The number of parallels is given by Nj +above. pl
+ + + +
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GRIB section 0, the indicator section

- -

An INTEGER array of 2 elements. - - - - - - - - - - - - - - - - - - -
Contents of KSEC0
Element Contents GRIB API keys
-
1 Number of octets in the GRIB message -(not including any padding to a word boundary or rounding to a multiple -of 120 octets). totalLength
-
2 GRIB edition number. edition
-
- - - -
-   -
-
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+ +  
+
  + + + +

GRIB section 0, the indicator section

+ +

An INTEGER array of 2 elements. + + + + + + + + + + + + + + + + + + +
Contents of KSEC0
Element Contents GRIB API keys
+
1 Number of octets in the GRIB message +(not including any padding to a word boundary or rounding to a multiple +of 120 octets). totalLength
+
2 GRIB edition number. edition
+
+ + + +
+   +
+
+

+ + + + + +
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GRIB section 1, the product definition section

-KSEC1 must be initialised when encoding; it is filled in by GRIBEX when -decoding. -

An INTEGER array.

-

When section 1 contains data for ECMWF local use, KSEC1 must -be dimensioned -accordingly, see ECMWF -local GRIB usage -definitions.

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Contents of KSEC1
Element Contents GRIB API - keys
-
1 Version number of code table 2 (see ECMWF -local -code table 2). -

paramId

-


-

-
2 Identification of centre (see WMO -code table 0), 98 for ECMWF.
centre
-
3 Generating process identification number, allocated by -the originating centre. (255 is used at ECMWF as an indicator for dummy -surface pressure fields). -See ECMWF -model identifiers.
generatingProcessIdentifier
-
4 Grid definition. NNN catalogue number of grid used by -the originating centre (See Volume B of WMO publication No.9). 255 for -a non-catalogued grid, in which case the grid description follows in -KSEC2.
5 Flag showing whether sections 2 and 3 are present (see - WMO -code table 1):
-
  0, Sections 2 and 3 are omitted.
 64, Section 2 is omitted, Section 3 is included.
128, Section 2 is included, Section 3 is omitted.
192, Sections 2 and 3 are included.
-
-

gridType

-

bitmapPresent
-

-
6 Parameter indicator (see WMO -code table 2). -

shortName

-

paramId
-

-
7 Type of level indicator (see WMO -code table 3), or satellite -identifier. Satellite usage is as defined by INPE/CPTEC and used by -ECMWF pending final definition by WMO.
typeOfLevel
-
8 Height, pressure, etc of level (see WMO -code table 3). Single level or top -of layer, or satellite spectral band. Satellite usage is as defined by -INPE/CPTEC and used by ECMWF pending final definition by WMO.
level
-
9 Height, pressure, etc of level (see WMO -code table 3). Bottom of layer if -element 7 indicates a layer. -

typeOfLevel
-

-
10-14 Reference time of data. Date and time of start of -averaging or accumulation.
dataDate
-
10 Year of century (YY).

-
- dataDate
-
11 Month (MM).
12 Day (DD).
13 Hour (HH).
dataTime
-
-
14 Minute (MM).
15 Time unit indicator (see WMO -code table 4).
stepType = instant | - avg | - accum | - max | - min | diff | - rms |
- sd | - cov | - ratio

-
-
-

stepUnits = s (seconds) | m (minutes) | h (hours) | 3h | 6h | 12h | D (day) | M (month) | Y (year) | 10Y | 30Y | C (century)

-

default value for stepUnits is "h"

-

startStep, endStep

-

stepRange (= "endStep" | "startStep-endStep" )

-

step

-
16 P1 - Time period (number of time units) 0 for analyses - or initialised analyses.
17 P2 - Time period (number of time units). Or time - interval between successive analyses, initialised analyses or forecasts - undergoing averaging or accumulation. Otherwise set to zero.
18 Time range indicator (see WMO - code table 5).
19 Number of products included in an average, when the - time range indicates an average or accumulation. Otherwise set to zero. -
20 Number of products missing from an average, when the - time range indicates an average or accumulation. Otherwise set to zero. -
21 Century of reference time of data (eg 20 for 1997).
date/1000-1
-
22 Sub-centre identifier.
subCentre
-
23 Decimal scale factor.
-

decimalScaleFactor

-

decimalPrecision
-

-
24 Flag field to indicate local use in Section 1:
-
0       No local use in section 1.
1 Local use in section 1.
-
setLocalDefinition
-
25-36 Reserved for WMO reserved fields. Set to 0.

-
37 ECMWF local GRIB use definition identifier. This -number determines the contents of elements 38-nn. See ECMWF -local GRIB usage definitions. -Local definition numbers 192 to 255 inclusive will not be used for -ECMWF local extensions. They are free for use by Member States. -

class

-

type

-

stream

-

expver

-

...
-

-
-
Note:
For year 2000, KSEC1(21) = 20 and KSEC1(10) = 100
For year 2001, KSEC1(21) = 21 and KSEC1(10) = 1
- - - -
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-"Top22.10.2010-->--> -
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- - - - - + + + + + + + + + + + + + + +GRIB API Manual + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
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+

+
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+ +  
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  + + + + +

GRIB section 1, the product definition section

+KSEC1 must be initialised when encoding; it is filled in by GRIBEX when +decoding. +

An INTEGER array.

+

When section 1 contains data for ECMWF local use, KSEC1 must +be dimensioned +accordingly, see ECMWF +local GRIB usage +definitions.

+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
Contents of KSEC1
Element Contents GRIB API + keys
+
1 Version number of code table 2 (see ECMWF +local +code table 2). +

paramId

+


+

+
2 Identification of centre (see WMO +code table 0), 98 for ECMWF.
centre
+
3 Generating process identification number, allocated by +the originating centre. (255 is used at ECMWF as an indicator for dummy +surface pressure fields). +See ECMWF +model identifiers.
generatingProcessIdentifier
+
4 Grid definition. NNN catalogue number of grid used by +the originating centre (See Volume B of WMO publication No.9). 255 for +a non-catalogued grid, in which case the grid description follows in +KSEC2.
5 Flag showing whether sections 2 and 3 are present (see + WMO +code table 1):
+
  0, Sections 2 and 3 are omitted.
 64, Section 2 is omitted, Section 3 is included.
128, Section 2 is included, Section 3 is omitted.
192, Sections 2 and 3 are included.
+
+

gridType

+

bitmapPresent
+

+
6 Parameter indicator (see WMO +code table 2). +

shortName

+

paramId
+

+
7 Type of level indicator (see WMO +code table 3), or satellite +identifier. Satellite usage is as defined by INPE/CPTEC and used by +ECMWF pending final definition by WMO.
typeOfLevel
+
8 Height, pressure, etc of level (see WMO +code table 3). Single level or top +of layer, or satellite spectral band. Satellite usage is as defined by +INPE/CPTEC and used by ECMWF pending final definition by WMO.
level
+
9 Height, pressure, etc of level (see WMO +code table 3). Bottom of layer if +element 7 indicates a layer. +

typeOfLevel
+

+
10-14 Reference time of data. Date and time of start of +averaging or accumulation.
dataDate
+
10 Year of century (YY).

+
+ dataDate
+
11 Month (MM).
12 Day (DD).
13 Hour (HH).
dataTime
+
+
14 Minute (MM).
15 Time unit indicator (see WMO +code table 4).
stepType = instant | + avg | + accum | + max | + min | diff | + rms |
+ sd | + cov | + ratio

+
+
+

stepUnits = s (seconds) | m (minutes) | h (hours) | 3h | 6h | 12h | D (day) | M (month) | Y (year) | 10Y | 30Y | C (century)

+

default value for stepUnits is "h"

+

startStep, endStep

+

stepRange (= "endStep" | "startStep-endStep" )

+

step

+
16 P1 - Time period (number of time units) 0 for analyses + or initialised analyses.
17 P2 - Time period (number of time units). Or time + interval between successive analyses, initialised analyses or forecasts + undergoing averaging or accumulation. Otherwise set to zero.
18 Time range indicator (see WMO + code table 5).
19 Number of products included in an average, when the + time range indicates an average or accumulation. Otherwise set to zero. +
20 Number of products missing from an average, when the + time range indicates an average or accumulation. Otherwise set to zero. +
21 Century of reference time of data (eg 20 for 1997).
date/1000-1
+
22 Sub-centre identifier.
subCentre
+
23 Decimal scale factor.
+

decimalScaleFactor

+

decimalPrecision
+

+
24 Flag field to indicate local use in Section 1:
+
0       No local use in section 1.
1 Local use in section 1.
+
setLocalDefinition
+
25-36 Reserved for WMO reserved fields. Set to 0.

+
37 ECMWF local GRIB use definition identifier. This +number determines the contents of elements 38-nn. See ECMWF +local GRIB usage definitions. +Local definition numbers 192 to 255 inclusive will not be used for +ECMWF local extensions. They are free for use by Member States. +

class

+

type

+

stream

+

expver

+

...
+

+
+
Note:
For year 2000, KSEC1(21) = 20 and KSEC1(10) = 100
For year 2001, KSEC1(21) = 21 and KSEC1(10) = 1
+ + + +
+   +
+
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GRIB section 2, the grid description section

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GRIB section 2, the grid description section

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GRIB section 3, the bitmap section

-

An INTEGER array of at least 2 elements.

-

- - - - - - - - - - - - - - - - - - -
Contents of KSEC3
Element Contents - GRIB API keys
-
1 -
0          A bitmap is included in the GRIB message.
The data array PSEC4 contains a value which serves as a
missing data indicator for use at missing data points.

Non-zero The number of a predefined bitmap.
The bitmap is not included in the message. The binary
data array contains only valid data values; missing
points are suppressed.
bitmapPresent
-
2 -

-
The value used at missing data points in an INTEGER -data field. This value must be supplied for both encoding and decoding. -
missingValue
-
- - - -
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+ + + + + + + + + + + + + + + + + + + + +
+ +  
+
  + + + +

GRIB section 3, the bitmap section

+

An INTEGER array of at least 2 elements.

+

+ + + + + + + + + + + + + + + + + + +
Contents of KSEC3
Element Contents + GRIB API keys
+
1 +
0          A bitmap is included in the GRIB message.
The data array PSEC4 contains a value which serves as a
missing data indicator for use at missing data points.

Non-zero The number of a predefined bitmap.
The bitmap is not included in the message. The binary
data array contains only valid data values; missing
points are suppressed.
bitmapPresent
+
2 +

+
The value used at missing data points in an INTEGER +data field. This value must be supplied for both encoding and decoding. +
missingValue
+
+ + + +
+   +
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- -  
-
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GRIB section 4, the binary data section

-An INTEGER array of at least 42 elements. -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
- Contents of KSEC4 -
Element Contents GRIB API keys
-
1 Number of data values in array PSEC4 to be encoded or -which have been decoded. When the 'A' coding option is used, the count -is the number of image bytes stored four to an integer. When the 'B' -coding option is used, the count is the number of integers used to -return image bytes, stored four to an integer. -

When a bitmap is used, this number includes the total -of both missing and present data values.

-

If this number is negative:

-
  • the number of field points is -KSEC4(1),
  • -
  • the entire field is missing,
  • -
  • all values in PSEC4 are 0,
  • -
  • the coded data has all the bits of its scale factor -are set to 1
  • -
  • all the bits of the exponent and mantissa of its -reference value are set to 1 (This is an ECMWF convention).
  • -
    -

    numberOfPoints

    -

    numberOfValues

    -

    numberOfCodedValues

    -

    numberOfMissing
    -

    -
    2 Number of bits used for each encoded value.
    -

    decimalPrecision

    -

    bitsPerValue

    -
    3 -
    Type of data:
    0 Grid point data.
    128 Spherical harmonic coefficients
    (Used only if Section 2 is not included when
    coding data.)
    4 -
    Type of packing:
    0 Simple packing.
    64 Complex or second-order packing.
    -
    packingType = - grid_simple | grid_ieee | spectral_complex | spectral_simple |
    - spectral_ieee | grid_simple_matrix | grid_second_order |
    - grid_second_order_different_width | grid_complex |
    - grid_complex_spatial_differencing | grid_jpeg | grid_png |
    - grid_simple_log_preprocessing
    -

    -
    5 -
    Data representation:
    0 Floating point data.
    32 Integer data.
    -

    -
    6 -
    Additional flags indicator:
    0 No additional flags.
    16 Additional flags.
    -

    -
    7 Reserved. Set to 0.

    -
    8 -
    Number of values indicator:
    0 Single datum at each grid point.
    64 Matrix of values at each grid point.
    -

    -
    9 -
    Secondary bitmaps indicator:
    0 No secondary bitmaps.
    32 Secondary bitmaps present.
    -

    -
    10 -
    Values width indicator:
    0 Second order values have constant width.
    16 Second order values have different widths.
    -

    -
    11 Number of bits for second order values when these have -constant width.

    -
    12-15 Reserved for WMO reserved flag fields. Set to 0.

    -
    16 For complex packing, a pointer to the start of packed -data values (ie the octet number). Otherwise set to 0.

    -
    17 For complex packing, the scaling factor P, stored as -the INTEGER value P*1000 (in the range -10000 to +10000). Otherwise set -to 0.

    -
    18 For complex packing, the pentagonal resolution -parameter J specifying the truncation of the subset of the data -represented as 32-bit floating point numbers (ie not packed). Otherwise -set to 0.

    -
    19 For complex packing, the pentagonal resolution -parameter K specifying the truncation of the subset of the data -represented as 32-bit floating point numbers (ie not packed). Otherwise -set to 0.

    -
    20 For complex packing, the pentagonal resolution -parameter M specifying the truncation of the subset of the data -represented as 32-bit floating point numbers (ie not packed). Otherwise -set to 0.

    -
    21 The number of non-missing values in a field which uses -a bitmap. -

    When the 'B' coding option is used, this count is the -number of image bytes -(versions of GRIBEX after 13.040).

    -

    -
    22-33 Reserved. Set to 0.

    -
    34 An offset bit pointer to coded values in the GRIB -record. (This is returned by the 'G', 'I' or 'J' decoding options).

    -
    -

    -

    X decoding option.

    -Elements 34 to 42 are used only for the 'X' option, which decodes up to -4 values. (See HOPER above). The scanning mode must be from West to -East and from North to South. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    KSEC4 - X decoding option
    Element Contents
    34 Number of points to be decoded (maximum 4).
    35 Number of the latitude row of the first value.
    36 Number of the longitude point of the first value.
    37 Number of the latitude row of the second value.
    38 Number of the longitude point of the second value.
    39 Number of the latitude row of the third value.
    40 Number of the longitude point of the third value.
    41 Number of the latitude row of the fourth value.
    42 Number of the longitude point of the fourth value.
    -

    Grid point matrix packing.

    -For grid point packing, with a matrix of values at each grid point, -elements 50 to (50+NC1+NC2) are used as follows: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    KSEC4 - grid matrix packing
    Element Contents
    50 First dimension of each matrix (the number of rows).
    51 Second dimension of each matrix (the number of -columns).
    52 First dimension coordinate values definition.
    53 Number of coefficients or values used to specify the -first dimension coordinate function, NC1.
    54 Second dimension coordinate values definition.
    55 Number of coefficients or values used to specify the -second dimension coordinate function, NC2.
    56 First dimension physical significance.
    57 Second dimension physical significanc.
    58 - 59 Reserved. Set to 0.
    -

    ECMWF use of REALs.

    -In the WMO specification, the following fields are INTEGER values. -ECMWF uses floating-point values for its wave models, so these fields -contain REAL values in both input and output. - - - - - - - - - - - - - - - -
    KSEC4 - ECMWF use of REALs
    Elements Contents
    60 - (59+NC1) Coefficients to define the first dimension coordinate -values in functional form, or the explicit coordinate values.
    (60+NC1)-(59+NC1+NC2) Coefficients to define the second dimension coordinate -values in functional form, or the explicit coordinate values
    - - - -
    -   -
    -
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    - - - - - -
    -"Top22.10.2010-->--> -
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    shimshimshim
    - - - - - + + + + + + + + + + + + + + +GRIB API Manual + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
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    + + + + + + + + + + + + + + + + + + + + +
    + +  
    +
      + + + + +

    GRIB section 4, the binary data section

    +An INTEGER array of at least 42 elements. +

    + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    + Contents of KSEC4 +
    Element Contents GRIB API keys
    +
    1 Number of data values in array PSEC4 to be encoded or +which have been decoded. When the 'A' coding option is used, the count +is the number of image bytes stored four to an integer. When the 'B' +coding option is used, the count is the number of integers used to +return image bytes, stored four to an integer. +

    When a bitmap is used, this number includes the total +of both missing and present data values.

    +

    If this number is negative:

    +
  • the number of field points is -KSEC4(1),
  • +
  • the entire field is missing,
  • +
  • all values in PSEC4 are 0,
  • +
  • the coded data has all the bits of its scale factor +are set to 1
  • +
  • all the bits of the exponent and mantissa of its +reference value are set to 1 (This is an ECMWF convention).
  • +
    +

    numberOfPoints

    +

    numberOfValues

    +

    numberOfCodedValues

    +

    numberOfMissing
    +

    +
    2 Number of bits used for each encoded value.
    +

    decimalPrecision

    +

    bitsPerValue

    +
    3 +
    Type of data:
    0 Grid point data.
    128 Spherical harmonic coefficients
    (Used only if Section 2 is not included when
    coding data.)
    4 +
    Type of packing:
    0 Simple packing.
    64 Complex or second-order packing.
    +
    packingType = + grid_simple | grid_ieee | spectral_complex | spectral_simple |
    + spectral_ieee | grid_simple_matrix | grid_second_order |
    + grid_second_order_different_width | grid_complex |
    + grid_complex_spatial_differencing | grid_jpeg | grid_png |
    + grid_simple_log_preprocessing
    +

    +
    5 +
    Data representation:
    0 Floating point data.
    32 Integer data.
    +

    +
    6 +
    Additional flags indicator:
    0 No additional flags.
    16 Additional flags.
    +

    +
    7 Reserved. Set to 0.

    +
    8 +
    Number of values indicator:
    0 Single datum at each grid point.
    64 Matrix of values at each grid point.
    +

    +
    9 +
    Secondary bitmaps indicator:
    0 No secondary bitmaps.
    32 Secondary bitmaps present.
    +

    +
    10 +
    Values width indicator:
    0 Second order values have constant width.
    16 Second order values have different widths.
    +

    +
    11 Number of bits for second order values when these have +constant width.

    +
    12-15 Reserved for WMO reserved flag fields. Set to 0.

    +
    16 For complex packing, a pointer to the start of packed +data values (ie the octet number). Otherwise set to 0.

    +
    17 For complex packing, the scaling factor P, stored as +the INTEGER value P*1000 (in the range -10000 to +10000). Otherwise set +to 0.

    +
    18 For complex packing, the pentagonal resolution +parameter J specifying the truncation of the subset of the data +represented as 32-bit floating point numbers (ie not packed). Otherwise +set to 0.

    +
    19 For complex packing, the pentagonal resolution +parameter K specifying the truncation of the subset of the data +represented as 32-bit floating point numbers (ie not packed). Otherwise +set to 0.

    +
    20 For complex packing, the pentagonal resolution +parameter M specifying the truncation of the subset of the data +represented as 32-bit floating point numbers (ie not packed). Otherwise +set to 0.

    +
    21 The number of non-missing values in a field which uses +a bitmap. +

    When the 'B' coding option is used, this count is the +number of image bytes +(versions of GRIBEX after 13.040).

    +

    +
    22-33 Reserved. Set to 0.

    +
    34 An offset bit pointer to coded values in the GRIB +record. (This is returned by the 'G', 'I' or 'J' decoding options).

    +
    +

    +

    X decoding option.

    +Elements 34 to 42 are used only for the 'X' option, which decodes up to +4 values. (See HOPER above). The scanning mode must be from West to +East and from North to South. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    KSEC4 - X decoding option
    Element Contents
    34 Number of points to be decoded (maximum 4).
    35 Number of the latitude row of the first value.
    36 Number of the longitude point of the first value.
    37 Number of the latitude row of the second value.
    38 Number of the longitude point of the second value.
    39 Number of the latitude row of the third value.
    40 Number of the longitude point of the third value.
    41 Number of the latitude row of the fourth value.
    42 Number of the longitude point of the fourth value.
    +

    Grid point matrix packing.

    +For grid point packing, with a matrix of values at each grid point, +elements 50 to (50+NC1+NC2) are used as follows: + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    KSEC4 - grid matrix packing
    Element Contents
    50 First dimension of each matrix (the number of rows).
    51 Second dimension of each matrix (the number of +columns).
    52 First dimension coordinate values definition.
    53 Number of coefficients or values used to specify the +first dimension coordinate function, NC1.
    54 Second dimension coordinate values definition.
    55 Number of coefficients or values used to specify the +second dimension coordinate function, NC2.
    56 First dimension physical significance.
    57 Second dimension physical significanc.
    58 - 59 Reserved. Set to 0.
    +

    ECMWF use of REALs.

    +In the WMO specification, the following fields are INTEGER values. +ECMWF uses floating-point values for its wave models, so these fields +contain REAL values in both input and output. + + + + + + + + + + + + + + + +
    KSEC4 - ECMWF use of REALs
    Elements Contents
    60 - (59+NC1) Coefficients to define the first dimension coordinate +values in functional form, or the explicit coordinate values.
    (60+NC1)-(59+NC1+NC2) Coefficients to define the second dimension coordinate +values in functional form, or the explicit coordinate values
    + + + +
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    + + + + + diff --git a/doxygen/gribex/lambertEtcGrid.html b/doxygen/gribex/lambertEtcGrid.html index 2c27e8b07..0d15fdd45 100644 --- a/doxygen/gribex/lambertEtcGrid.html +++ b/doxygen/gribex/lambertEtcGrid.html @@ -1,601 +1,601 @@ - - - - - - - - - - - - - - -GRIB API Manual - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    Lambert conformal, secant or tangent, conical -or bi-polar (normal or -oblique) or Albers equal-area, secant or tangent, conical or bi-polar -(normal or oblique)
    Element Contents - GRIB API keys
    1 -
    Data representation type (see WMO code table 6); eg
    3 Lambert conformal
    8 Albers equal area
    13 Oblique Lambert conformal
    -
    gridType -
    2 Number of points along X-axis. Nx
    Ni
    -
    3 Number of points along Y-axis. Ny
    Nj -
    4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000
    -
    5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000
    -
    6 -
    Resolution flag:
    0 Direction increments not given.
    128 Direction increments given.
    -
    ijDirectionIncrementGiven*128 -
    7 Orientation of the grid. The East longitude of the -meridian which is parallel to the Y-axis along which latitude increases -as the Y-coordinate increases. orientationOfTheGridInDegrees*1000
    -
    8 Reserved. Set to 0.
    -
    9 X-direction grid length. xDirectionGridLength
    -
    10 Y-direction grid length. yDirectionGridLength
    -
    11 Scanning mode flag (see WMO -code table 8) -

    iScansNegatively

    -

    jScansNegatively

    -

    jPointsAreConsecutive

    -
    12 Number of vertical coordinate parameters. NV
    -
    13 -
    Projection centre flag:
    0 North pole is on the projection plane.
    Only one projection centre is used.
    128 South pole is on the projection plane.
    Only one projection centre is used.
    64 North pole is on the projection plane.
    Projection is bi-polar and symmetric.
    192 South pole is on the projection plane.
    Projection is bi-polar and symmetric.
    -
    projectionCenterFlag
    -
    14 First latitude from the pole at which the secant cone -cuts the sphere. firstLatitudeFromThePoleAtWhichTheSecantConeCutsTheSphereInDegrees*1000 -
    15 Second latitude at which the secant cone cuts the -sphere. secondLatitudeFromThePoleAtWhichTheSecantConeCutsTheSphereInDegrees*1000 -
    16 Reserved. Set to 0.
    -
    17 0 Regular grid gridType -
    18 -
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    -
    earthIsOblate -
    19 -
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    -
    uvRelativeToGrid -
    20 Latitude of the southern pole. latitudeOfSouthernPoleInDegrees*1000
    -
    21 Longitude of the southern pole. longitudeOfSouthernPoleInDegrees*1000
    -
    22 Reserved. Set to 0.
    -
    -

    Notes: Grid lengths are in metres, at the 60-degree parallel -nearest to -the pole on the projection plane. - - - -
    -   -
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    - - - - - -
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    + +  
    +
      + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    Lambert conformal, secant or tangent, conical +or bi-polar (normal or +oblique) or Albers equal-area, secant or tangent, conical or bi-polar +(normal or oblique)
    Element Contents + GRIB API keys
    1 +
    Data representation type (see WMO code table 6); eg
    3 Lambert conformal
    8 Albers equal area
    13 Oblique Lambert conformal
    +
    gridType +
    2 Number of points along X-axis. Nx
    Ni
    +
    3 Number of points along Y-axis. Ny
    Nj +
    4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000
    +
    5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000
    +
    6 +
    Resolution flag:
    0 Direction increments not given.
    128 Direction increments given.
    +
    ijDirectionIncrementGiven*128 +
    7 Orientation of the grid. The East longitude of the +meridian which is parallel to the Y-axis along which latitude increases +as the Y-coordinate increases. orientationOfTheGridInDegrees*1000
    +
    8 Reserved. Set to 0.
    +
    9 X-direction grid length. xDirectionGridLength
    +
    10 Y-direction grid length. yDirectionGridLength
    +
    11 Scanning mode flag (see WMO +code table 8) +

    iScansNegatively

    +

    jScansNegatively

    +

    jPointsAreConsecutive

    +
    12 Number of vertical coordinate parameters. NV
    +
    13 +
    Projection centre flag:
    0 North pole is on the projection plane.
    Only one projection centre is used.
    128 South pole is on the projection plane.
    Only one projection centre is used.
    64 North pole is on the projection plane.
    Projection is bi-polar and symmetric.
    192 South pole is on the projection plane.
    Projection is bi-polar and symmetric.
    +
    projectionCenterFlag
    +
    14 First latitude from the pole at which the secant cone +cuts the sphere. firstLatitudeFromThePoleAtWhichTheSecantConeCutsTheSphereInDegrees*1000 +
    15 Second latitude at which the secant cone cuts the +sphere. secondLatitudeFromThePoleAtWhichTheSecantConeCutsTheSphereInDegrees*1000 +
    16 Reserved. Set to 0.
    +
    17 0 Regular grid gridType +
    18 +
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    +
    earthIsOblate +
    19 +
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    +
    uvRelativeToGrid +
    20 Latitude of the southern pole. latitudeOfSouthernPoleInDegrees*1000
    +
    21 Longitude of the southern pole. longitudeOfSouthernPoleInDegrees*1000
    +
    22 Reserved. Set to 0.
    +
    +

    Notes: Grid lengths are in metres, at the 60-degree parallel +nearest to +the pole on the projection plane. + + + +
    +   +
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    -

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      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    Latitude/longitude or equidistant cylindrical -or plate carree grids
    Element Contents - GRIB API keys
    -
    1 Data representation type (see WMO code table 6)
    2 Number of points along a parallel (Ni).
    -

    Ni
    - Nx
    -

    -
    3 Number of points along a meridian (Nj).
    -

    Nj
    - Ny
    -

    -
    4 Latitude of the first grid point.
    latitudeOfFirstGridPointInDegrees*1000
    5 Longitude of the first grid point.
    longitudeOfFirstGridPointInDegrees*1000
    6 -
    Resolution flag:
    0 Direction increments not given.
    128 Direction increments given.
    -
    ijDirectionIncrementGiven*128
    -
    7 Latitude of the last grid point.
    latitudeOfLastGridPointInDegrees*1000
    8 Longitude of the last grid point.
    longitudeOfLastGridPointInDegrees*1000
    9 i direction increment.
    iDirectionIncrementInDegrees*1000
    -
    10 j direction increment.
    jDirectionIncrementInDegrees*1000
    -
    11 Scanning mode flags (see WMO -code table 8) -

    iScansNegatively

    -

    jScansNegatively

    -

    jPointsAreConsecutive

    -


    -

    -
    12 Number of vertical coordinate parameters.
    NV
    -
    13 Latitude of the southern pole of rotation.
    latitudeOfSouthernPoleInDegrees*1000
    -
    14 Longitude of the southern pole of rotation.
    longitudeOfSouthernPoleInDegrees*1000
    -
    15 Latitude of the pole of stretching.
    latitudeOfPoleOfStretchingInDegrees - *1000
    16 Longitude of the pole of stretching.
    longitudeOfPoleOfStretchingInDegrees - *1000
    17
    0  Regular grid.
    1 Quasi-regular (reduced) grid.
    At the moment, quasi-regular (reduced) latitude/longitude grids are
    not unambiguously defined. The resolution flag field indicates whether
    or not both direction increments are given; at least one must be given,
    as grids are only allowed to be irregular in one direction.
    -
    18
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    -
    earthIsOblate
    -
    19 -
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    -
    uvRelativeToGrid
    -
    20-22 Reserved. Set to 0.

    -
    23-nn -
    For a quasi-regular (reduced) grid, the number of points along each parallel
    must be defined. The number of parallels is given by Nj above.
    Alternatively, this may be the number of pointqs along each meridian, where
    the number of meridians is given by Ni above.q
    -
    pl
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    +
      + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    Latitude/longitude or equidistant cylindrical +or plate carree grids
    Element Contents + GRIB API keys
    +
    1 Data representation type (see WMO code table 6)
    2 Number of points along a parallel (Ni).
    +

    Ni
    + Nx
    +

    +
    3 Number of points along a meridian (Nj).
    +

    Nj
    + Ny
    +

    +
    4 Latitude of the first grid point.
    latitudeOfFirstGridPointInDegrees*1000
    5 Longitude of the first grid point.
    longitudeOfFirstGridPointInDegrees*1000
    6 +
    Resolution flag:
    0 Direction increments not given.
    128 Direction increments given.
    +
    ijDirectionIncrementGiven*128
    +
    7 Latitude of the last grid point.
    latitudeOfLastGridPointInDegrees*1000
    8 Longitude of the last grid point.
    longitudeOfLastGridPointInDegrees*1000
    9 i direction increment.
    iDirectionIncrementInDegrees*1000
    +
    10 j direction increment.
    jDirectionIncrementInDegrees*1000
    +
    11 Scanning mode flags (see WMO +code table 8) +

    iScansNegatively

    +

    jScansNegatively

    +

    jPointsAreConsecutive

    +


    +

    +
    12 Number of vertical coordinate parameters.
    NV
    +
    13 Latitude of the southern pole of rotation.
    latitudeOfSouthernPoleInDegrees*1000
    +
    14 Longitude of the southern pole of rotation.
    longitudeOfSouthernPoleInDegrees*1000
    +
    15 Latitude of the pole of stretching.
    latitudeOfPoleOfStretchingInDegrees + *1000
    16 Longitude of the pole of stretching.
    longitudeOfPoleOfStretchingInDegrees + *1000
    17
    0  Regular grid.
    1 Quasi-regular (reduced) grid.
    At the moment, quasi-regular (reduced) latitude/longitude grids are
    not unambiguously defined. The resolution flag field indicates whether
    or not both direction increments are given; at least one must be given,
    as grids are only allowed to be irregular in one direction.
    +
    18
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    +
    earthIsOblate
    +
    19 +
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    +
    uvRelativeToGrid
    +
    20-22 Reserved. Set to 0.

    +
    23-nn +
    For a quasi-regular (reduced) grid, the number of points along each parallel
    must be defined. The number of parallels is given by Nj above.
    Alternatively, this may be the number of pointqs along each meridian, where
    the number of meridians is given by Ni above.q
    +
    pl
    +
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    -

    -
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    - - - - - - - - - - - - - - - - - - - - -
    - -  
    -
      - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    Mercator
    Element Contents - GRIB API keys
    -
    1 Data representation type (see WMO -code table 6); 1 for Mercator gridType -
    2 Number of points along a parallel. Ni
    Nx -
    3 Number of points along a meridian. Nj
    Ny -
    4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000 -
    5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000 -
    6 -
    Resolution flag:
    0 Direction increments are not given.
    128 Direction increments are given.
    -
    ijDirectionIncrementGiven*128 -
    7 Latitude of the last grid point. latitudeOfLastGridPointInDegrees*1000 -
    8 Longitude of the last grid point. longitudeOfLastGridPointInDegrees*1000 -
    9 Latitude at which the Mercator projection cylinder -intersects the Earth(Latin). latitudeAtWhichTheMercatorProjectionCylinderIntersectsTheEarthInDegrees*1000 -
    10 Reserved. Set to 0.
    -
    11 Scanning mode flags (see WMO -code table 8) -

    iScansNegatively

    -

    jScansNegatively

    -

    jPointsAreConsecutive

    -
    12 Number of vertical coordinate parameters. NV
    -
    13 i direction grid length. longitudinalDirectionGridLength
    -
    14 j direction grid length. latitudinalDirectionGridLength
    -
    15-16 Reserved. Set to 0.
    -
    17 0 Regular grid. gridType -
    18 -
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    -
    earthIsOblate -
    19 -
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the defined
    grid in the direction of increasing x and y (or i and j) coordinates
    respectively.
    -
    uvRelativeToGrid -
    20-22 Reserved. Set to 0.
    -
    -

    Grid lengths are in units of metres, at the parallel -specified by Latin. - - - -
    -   -
    -
    -

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    Mercator
    Element Contents + GRIB API keys
    +
    1 Data representation type (see WMO +code table 6); 1 for Mercator gridType +
    2 Number of points along a parallel. Ni
    Nx +
    3 Number of points along a meridian. Nj
    Ny +
    4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000 +
    5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000 +
    6 +
    Resolution flag:
    0 Direction increments are not given.
    128 Direction increments are given.
    +
    ijDirectionIncrementGiven*128 +
    7 Latitude of the last grid point. latitudeOfLastGridPointInDegrees*1000 +
    8 Longitude of the last grid point. longitudeOfLastGridPointInDegrees*1000 +
    9 Latitude at which the Mercator projection cylinder +intersects the Earth(Latin). latitudeAtWhichTheMercatorProjectionCylinderIntersectsTheEarthInDegrees*1000 +
    10 Reserved. Set to 0.
    +
    11 Scanning mode flags (see WMO +code table 8) +

    iScansNegatively

    +

    jScansNegatively

    +

    jPointsAreConsecutive

    +
    12 Number of vertical coordinate parameters. NV
    +
    13 i direction grid length. longitudinalDirectionGridLength
    +
    14 j direction grid length. latitudinalDirectionGridLength
    +
    15-16 Reserved. Set to 0.
    +
    17 0 Regular grid. gridType +
    18 +
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    +
    earthIsOblate +
    19 +
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the defined
    grid in the direction of increasing x and y (or i and j) coordinates
    respectively.
    +
    uvRelativeToGrid +
    20-22 Reserved. Set to 0.
    +
    +

    Grid lengths are in units of metres, at the parallel +specified by Latin. + + + +
    +   +
    +
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    ECMWF ocean data
    Element Contents - GRIB API keys
    1 Data representation type = 192. gridType -
    2 Number of points along first axis (32767 = not used). Nx
    Ni -
    3 Number of points along second axis (32767 = not used). Ny
    Nj -
    4-10 Reserved. Set to 0.
    -
    11 Scanning mode flags (see WMO -code table 8). -

    iScansNegatively

    -

    jScansNegatively

    -

    jPointsAreConsecutive

    -
    12-22 Reserved. Set to 0.
    -
    -

    This data representation type should always be used in -conjunction -with the ECMWF local definition 4 extension to GRIB section 1: ocean -model data. - - - -
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    ECMWF ocean data
    Element Contents + GRIB API keys
    1 Data representation type = 192. gridType +
    2 Number of points along first axis (32767 = not used). Nx
    Ni +
    3 Number of points along second axis (32767 = not used). Ny
    Nj +
    4-10 Reserved. Set to 0.
    +
    11 Scanning mode flags (see WMO +code table 8). +

    iScansNegatively

    +

    jScansNegatively

    +

    jPointsAreConsecutive

    +
    12-22 Reserved. Set to 0.
    +
    +

    This data representation type should always be used in +conjunction +with the ECMWF local definition 4 extension to GRIB section 1: ocean +model data. + + + +
    +   +
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    + + + + + diff --git a/doxygen/gribex/polarStereoGrid.html b/doxygen/gribex/polarStereoGrid.html index 553e8951d..bbd53fa17 100644 --- a/doxygen/gribex/polarStereoGrid.html +++ b/doxygen/gribex/polarStereoGrid.html @@ -1,567 +1,567 @@ - - - - - - - - - - - - - - -GRIB API Manual - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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    Polar stereographic
    Element Contents - GRIB API keys
    1 Data representation type (see WMO -code table 6). 5 for polar stereographic gridType -
    2 Number of points along X-axis. Nx
    Ni -
    3 Number of points along Y-axis. Ny
    Nj -
    4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000
    -
    5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000
    -
    6 Reserved. Set to 0. (Resolution flag is not applicable -to polar stereographic.)
    -
    7 Orientation of the grid, ie the longitude of the -meridian which is parallel to the Y-axis along which latitude increases -as the Y-coordinate increases. orientationOfTheGrid
    -
    8 Reserved. Set to 0.
    -
    9 X-direction grid length. xDirectionGridLengthInMetres
    -
    10 Y-direction grid length. yDirectionGridLengthInMetres
    -
    11 Scanning mode flag (see WMO -code table 8)
    -
    12 Zero
    -
    13 -
    Projection centre flag:
    0 North pole is on projection plane.
    128 South pole is on projection plane.
    -
    projectionCenterFlag
    -
    14-16 Reserved. Set to 0.
    -
    17 0 Regular grid. gridType -
    18 -
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    -
    earthIsOblate -
    19 -
    Components flag. Valid values are:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    -
    uvRelativeToGrid -
    20-22 Reserved. Set to 0.
    -
    -

    Grid lengths are in metres, at the 60-degree parallel nearest -to the pole on the projection plane. - - - -
    -   -
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    - - - - - -
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    Polar stereographic
    Element Contents + GRIB API keys
    1 Data representation type (see WMO +code table 6). 5 for polar stereographic gridType +
    2 Number of points along X-axis. Nx
    Ni +
    3 Number of points along Y-axis. Ny
    Nj +
    4 Latitude of the first grid point. latitudeOfFirstGridPointInDegrees*1000
    +
    5 Longitude of the first grid point. longitudeOfFirstGridPointInDegrees*1000
    +
    6 Reserved. Set to 0. (Resolution flag is not applicable +to polar stereographic.)
    +
    7 Orientation of the grid, ie the longitude of the +meridian which is parallel to the Y-axis along which latitude increases +as the Y-coordinate increases. orientationOfTheGrid
    +
    8 Reserved. Set to 0.
    +
    9 X-direction grid length. xDirectionGridLengthInMetres
    +
    10 Y-direction grid length. yDirectionGridLengthInMetres
    +
    11 Scanning mode flag (see WMO +code table 8)
    +
    12 Zero
    +
    13 +
    Projection centre flag:
    0 North pole is on projection plane.
    128 South pole is on projection plane.
    +
    projectionCenterFlag
    +
    14-16 Reserved. Set to 0.
    +
    17 0 Regular grid. gridType +
    18 +
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    +
    earthIsOblate +
    19 +
    Components flag. Valid values are:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    +
    uvRelativeToGrid +
    20-22 Reserved. Set to 0.
    +
    +

    Grid lengths are in metres, at the 60-degree parallel nearest +to the pole on the projection plane. + + + +
    +   +
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    REAL values for GRIB section 2, the grid description section.

    -

    A REAL array of at least (10 + nn) elements, where nn is the -number of -vertical -coordinate parameters

    - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    Contents of PSEC2
    Element Contents GRIBAPI - keys
    -
    1 Angle of rotation. angleOfRotationInDegrees
    -
    2 Stretching factor.
    -
    3-10 Reserved. Set to 0.
    -
    11-(10+nn) Vertical coordinate parameters. nn is given in -KSEC2(12).
    -
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    REAL values for GRIB section 2, the grid description section.

    +

    A REAL array of at least (10 + nn) elements, where nn is the +number of +vertical +coordinate parameters

    + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    Contents of PSEC2
    Element Contents GRIBAPI + keys
    +
    1 Angle of rotation. angleOfRotationInDegrees
    +
    2 Stretching factor.
    +
    3-10 Reserved. Set to 0.
    +
    11-(10+nn) Vertical coordinate parameters. nn is given in +KSEC2(12).
    +
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    REAL parameters for GRIB code section 3, the -bitmap section.

    -A REAL array of at least 2 elements. - - - - - - - - - - - - - - - - - - -
    Contents of PSEC3
    Element Contents GRIB API keys
    -
    1 Ignored.
    -
    2 The value used at missing data points in a REAL data -field. This value must be supplied for both coding and decoding. missingValue
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    + +  
    +
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    REAL parameters for GRIB code section 3, the +bitmap section.

    +A REAL array of at least 2 elements. + + + + + + + + + + + + + + + + + + +
    Contents of PSEC3
    Element Contents GRIB API keys
    +
    1 Ignored.
    +
    2 The value used at missing data points in a REAL data +field. This value must be supplied for both coding and decoding. missingValue
    + + + +
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    Field data values.

    -An array of field values to be encoded in GRIB code or which have been -decoded. If there is a bitmap in the GRIB message, this array contains -missing data indicators at appropriate places. This array is accessible -through the GRIB_API Key "values".
    -

    The value used to indicate a missing value must be supplied -as a REAL value in PSEC3(2) (GRIB API key missingValue) or as an -INTEGER -value in KSEC3(2) (GRIB API Key missingValue).

    -

    Although declared as REAL in GRIBEX, PSEC4 can contain -INTEGER data. KSEC4(5) indicates whether -values are integer or real. - - - -
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    + +  
    +
      + + + +

    Field data values.

    +An array of field values to be encoded in GRIB code or which have been +decoded. If there is a bitmap in the GRIB message, this array contains +missing data indicators at appropriate places. This array is accessible +through the GRIB_API Key "values".
    +

    The value used to indicate a missing value must be supplied +as a REAL value in PSEC3(2) (GRIB API key missingValue) or as an +INTEGER +value in KSEC3(2) (GRIB API Key missingValue).

    +

    Although declared as REAL in GRIBEX, PSEC4 can contain +INTEGER data. KSEC4(5) indicates whether +values are integer or real. + + + +
    +   +
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    +

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    + + + + + diff --git a/doxygen/gribex/reducedGaussianGridSubArea.html b/doxygen/gribex/reducedGaussianGridSubArea.html index 9fbee3c17..773fb1f24 100644 --- a/doxygen/gribex/reducedGaussianGridSubArea.html +++ b/doxygen/gribex/reducedGaussianGridSubArea.html @@ -1,594 +1,594 @@ - - - - - - - - - - - - - - -GRIB API Manual - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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    - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    Sub-area of a quasi-regular -gaussian grid (ECMWF convention)
    Element Contents - GRIB API keys
    1 Data representation type, = 4gridType -
    2 Not specified for quasi-regular -(reduced) grids.
    -
    3 Number of points along a meridian (Nj). - Nj
    Ny -
    4 Latitude of the first grid point, La1. latitudeOfFirstGridPointInDegrees*1000 -
    5 Longitude of the first grid point, Lo1. - longitudeOfFirstGridPointInDegrees*1000 -
    6 Resolution flag, = 0 (direction -increments not given) ijDirectionIncrementGiven*128 -
    7 Latitude of the last grid point, La2. latitudeOfLastGridPointInDegrees*1000 -
    8 Longitude of the last grid point, Lo2. longitudeOfLastGridPointInDegrees*1000 -
    9 i direction increment. Cannot be used -for quasi-regular (reduced) grids. iDirectionIncrementInDegrees*1000 -
    10 Number of parallels between a pole and -the Equator,ie the gaussian grid number. numberOfParallelsBetweenAPoleAndTheEquator -
    11 Scanning mode flags (see WMO -code table 8) -

    iScansNegatively

    -

    jScansNegatively

    -

    jPointsAreConsecutive

    -
    12 Number of vertical coordinate -parameters. NV
    13 Latitude of the southern pole of -rotation. latitudeOfSouthernPoleInDegrees*1000 -
    14 Longitude of the southern pole of -rotation. longitudeOfSouthernPoleInDegrees*1000 -
    15 Latitude of the pole of stretching. latitudeOfPoleOfStretchingInDegrees - *1000
    16 Longitude of the pole of stretching. longitudeOfPoleOfStretchingInDegrees - *1000
    17 1 = quasi-regular (reduced) grid. gridType -
    18 -
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    -
    earthIsOblate -
    19 -
    Components flag.
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions; or not used.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    -
    uvRelativeToGrid -
    20-22 Reserved. Set to 0.
    -
    23-nn NN, the number of points along a full -parallel (360 degrees) is defined for each latitude row in the -sub-area. The number of parallels is given by Nj above. See the -algorithm below for calculating the actual number of points along each -sub-area latitude row (ECMWF convention).pl
    -

    The number of points Np within a subarea along a parallel of -a reduced grid can be obtained as:

    -
       Np = [(Loe-Low)/Res] + 1

    where:

    Loe = Lo2
    Res = 360000/NN
    If Mod(Lo1/Res,1.0) = 0,
    Incr = 0
    otherwise
    Incr = 1
    Ninter = [Lo1/Res] + Incr
    Low = Ninter*Res ; Low -> (Low - 360000) if Lo2 is less then Lo1.

    - - - -
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      + + + +

    + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    Sub-area of a quasi-regular +gaussian grid (ECMWF convention)
    Element Contents + GRIB API keys
    1 Data representation type, = 4gridType +
    2 Not specified for quasi-regular +(reduced) grids.
    +
    3 Number of points along a meridian (Nj). + Nj
    Ny +
    4 Latitude of the first grid point, La1. latitudeOfFirstGridPointInDegrees*1000 +
    5 Longitude of the first grid point, Lo1. + longitudeOfFirstGridPointInDegrees*1000 +
    6 Resolution flag, = 0 (direction +increments not given) ijDirectionIncrementGiven*128 +
    7 Latitude of the last grid point, La2. latitudeOfLastGridPointInDegrees*1000 +
    8 Longitude of the last grid point, Lo2. longitudeOfLastGridPointInDegrees*1000 +
    9 i direction increment. Cannot be used +for quasi-regular (reduced) grids. iDirectionIncrementInDegrees*1000 +
    10 Number of parallels between a pole and +the Equator,ie the gaussian grid number. numberOfParallelsBetweenAPoleAndTheEquator +
    11 Scanning mode flags (see WMO +code table 8) +

    iScansNegatively

    +

    jScansNegatively

    +

    jPointsAreConsecutive

    +
    12 Number of vertical coordinate +parameters. NV
    13 Latitude of the southern pole of +rotation. latitudeOfSouthernPoleInDegrees*1000 +
    14 Longitude of the southern pole of +rotation. longitudeOfSouthernPoleInDegrees*1000 +
    15 Latitude of the pole of stretching. latitudeOfPoleOfStretchingInDegrees + *1000
    16 Longitude of the pole of stretching. longitudeOfPoleOfStretchingInDegrees + *1000
    17 1 = quasi-regular (reduced) grid. gridType +
    18 +
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    +
    earthIsOblate +
    19 +
    Components flag.
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions; or not used.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates respectively.
    +
    uvRelativeToGrid +
    20-22 Reserved. Set to 0.
    +
    23-nn NN, the number of points along a full +parallel (360 degrees) is defined for each latitude row in the +sub-area. The number of parallels is given by Nj above. See the +algorithm below for calculating the actual number of points along each +sub-area latitude row (ECMWF convention).pl
    +

    The number of points Np within a subarea along a parallel of +a reduced grid can be obtained as:

    +
       Np = [(Loe-Low)/Res] + 1

    where:

    Loe = Lo2
    Res = 360000/NN
    If Mod(Lo1/Res,1.0) = 0,
    Incr = 0
    otherwise
    Incr = 1
    Ninter = [Lo1/Res] + Incr
    Low = Ninter*Res ; Low -> (Low - 360000) if Lo2 is less then Lo1.

    + + + +
    +   +
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    +"Top22.10.2010-->--> +
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    +   +Page Details +        © ECMWF
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    Space view perspective or orthographic
    Element Contents - GRIB API keys
    -
    1 Data representation type (see WMO -code table 6); = 90. gridType -
    2 Number of points along the x-axis. Nx
    Ni -
    3 Number of points along the y-axis. Ny
    Nj -
    4 Latitude of the sub-satellite point. latitudeOfSubSatellitePointInDegrees*1000
    -
    5 Longitude of the sub-satellite point. longitudeOfSubSatellitePointInDegrees*1000
    -
    6 -
    Resolution flag:
    0 Direction increments are not given.
    128 Direction increments are given.
    -
    ijDirectionIncrementGiven*128 -
    7 Apparent diameter of the Earth in grid lengths in x -direction. apparentDiameterOfEarthInGridLengthsInXDirection
    -
    8 Apparent diameter of the Earth in grid lengths in y -direction. apparentDiameterOfEarthInGridLengthsInYDirection
    -
    9 X-coordinate of the sub-satellite point. xCoordinateOfSubSatellitePoint
    -
    10 Y-coordinate of the sub-satellite point. yCoordinateOfSubSatellitePoint
    -
    11 Scanning mode flag (see WMO -code table 8). -

    iScansNegatively

    -

    jScansNegatively

    -

    jPointsAreConsecutive

    -
    12 Number of vertical coordinate parameters. NV
    -
    13 The orientation of the grid. orientationOfTheGridInDegrees*1000
    -
    14 Altitude of the camera from the Earth's centre divided -by the Earth's radius and scaled by 10**6 to give an integer value. -Currently = 6610839 for Meteosat. For orthographic view from infinite -distance, the value is 16777215. altitudeOfTheCameraFromTheEarthSCenterMeasuredInUnitsOfTheEarth
    -
    15 X coordinate of the origin of the sector image. xCoordinateOfOriginOfSectorImage
    -
    16 Y coordinate of the origin of the sector image. yCoordinateOfOriginOfSectorImage
    -
    17 0 Regular grid. gridType -
    18 -
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    -
    earthIsOblate -
    19 -
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates.
    -
    uvRelativeToGrid -
    20-22 Reserved. Set to 0.
    -
    - - - -
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    -"Top22.10.2010-->--> -
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      + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
    Space view perspective or orthographic
    Element Contents + GRIB API keys
    +
    1 Data representation type (see WMO +code table 6); = 90. gridType +
    2 Number of points along the x-axis. Nx
    Ni +
    3 Number of points along the y-axis. Ny
    Nj +
    4 Latitude of the sub-satellite point. latitudeOfSubSatellitePointInDegrees*1000
    +
    5 Longitude of the sub-satellite point. longitudeOfSubSatellitePointInDegrees*1000
    +
    6 +
    Resolution flag:
    0 Direction increments are not given.
    128 Direction increments are given.
    +
    ijDirectionIncrementGiven*128 +
    7 Apparent diameter of the Earth in grid lengths in x +direction. apparentDiameterOfEarthInGridLengthsInXDirection
    +
    8 Apparent diameter of the Earth in grid lengths in y +direction. apparentDiameterOfEarthInGridLengthsInYDirection
    +
    9 X-coordinate of the sub-satellite point. xCoordinateOfSubSatellitePoint
    +
    10 Y-coordinate of the sub-satellite point. yCoordinateOfSubSatellitePoint
    +
    11 Scanning mode flag (see WMO +code table 8). +

    iScansNegatively

    +

    jScansNegatively

    +

    jPointsAreConsecutive

    +
    12 Number of vertical coordinate parameters. NV
    +
    13 The orientation of the grid. orientationOfTheGridInDegrees*1000
    +
    14 Altitude of the camera from the Earth's centre divided +by the Earth's radius and scaled by 10**6 to give an integer value. +Currently = 6610839 for Meteosat. For orthographic view from infinite +distance, the value is 16777215. altitudeOfTheCameraFromTheEarthSCenterMeasuredInUnitsOfTheEarth
    +
    15 X coordinate of the origin of the sector image. xCoordinateOfOriginOfSectorImage
    +
    16 Y coordinate of the origin of the sector image. yCoordinateOfOriginOfSectorImage
    +
    17 0 Regular grid. gridType +
    18 +
    Earth flag:
    0 Earth assumed spherical with radius 6367.47 km.
    64 Earth assumed oblate spheroidal with size as determined by IAU in 1965:
    6378.160km, 6356.775km, f=1/297.0
    +
    earthIsOblate +
    19 +
    Components flag:
    0 Resolved u and v components of vector quantities relative to easterly
    and northerly directions.
    8 Resolved u and v components of vector quantities relative to the
    defined grid in the direction of increasing x and y (or i and j)
    coordinates.
    +
    uvRelativeToGrid +
    20-22 Reserved. Set to 0.
    +
    + + + +
    +   +
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    + + + + + +
    +"Top22.10.2010-->--> +
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    Spherical harmonic coefficients
    Element Contents Recommended  - GRIB_API keys
    -
    1 Data representation type (see WMO -code table 6) gridType -
    2 J pentagonal resolution parameter. pentagonalResolutionParameterJ
    -
    3 K pentagonal resolution parameter. pentagonalResolutionParameterK
    -
    4 M pentagonal resolution parameter. pentagonalResolutionParameterM
    -
    5 Representation type (see WMO -code table 9) representationType
    -
    6 -
    Representation mode (see WMO code table 10):
    1 Real part of (0,0) coefficient stored as a 32-bit floating
    point number; other coefficients are packed.
    2 Complex packing.
    -
    representationMode
    -
    7-11 Reserved. Set to 0.
    -
    12 Number of vertical coordinate parameters. NV
    -
    13 Latitude of the southern pole of rotation. latitudeOfSouthernPoleInDegrees*1000 -
    14 Longitude of the southern pole of rotation. longitudeOfSouthernPoleInDegrees*1000 -
    15 Latitude of the pole of stretching. latitudeOfPoleOfStretchingInDegrees*1000 -
    16 Longitude of the pole of stretching. longitudeOfPoleOfStretchingInDegrees*1000 -
    17-22 Reserved. Set to 0.
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    Spherical harmonic coefficients
    Element Contents Recommended  + GRIB_API keys
    +
    1 Data representation type (see WMO +code table 6) gridType +
    2 J pentagonal resolution parameter. pentagonalResolutionParameterJ
    +
    3 K pentagonal resolution parameter. pentagonalResolutionParameterK
    +
    4 M pentagonal resolution parameter. pentagonalResolutionParameterM
    +
    5 Representation type (see WMO +code table 9) representationType
    +
    6 +
    Representation mode (see WMO code table 10):
    1 Real part of (0,0) coefficient stored as a 32-bit floating
    point number; other coefficients are packed.
    2 Complex packing.
    +
    representationMode
    +
    7-11 Reserved. Set to 0.
    +
    12 Number of vertical coordinate parameters. NV
    +
    13 Latitude of the southern pole of rotation. latitudeOfSouthernPoleInDegrees*1000 +
    14 Longitude of the southern pole of rotation. longitudeOfSouthernPoleInDegrees*1000 +
    15 Latitude of the pole of stretching. latitudeOfPoleOfStretchingInDegrees*1000 +
    16 Longitude of the pole of stretching. longitudeOfPoleOfStretchingInDegrees*1000 +
    17-22 Reserved. Set to 0.
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    +   +Page Details +        © ECMWF
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    shimshimshim
    + + + + + diff --git a/examples/python/flight_data.csv b/examples/python/flight_data.csv index 0666c39cc..899d67f0a 100644 --- a/examples/python/flight_data.csv +++ b/examples/python/flight_data.csv @@ -1,186 +1,186 @@ -ymd,time,latitude,longitude,altitude,pressure,windSpeed,windDirection,temperature -20150101,05:30:00,51.75794 ,1.7008 ,2362.0,759.32 ,19.28 ,81.95 ,14.18 -20150101,05:30:01,51.75738 ,1.7014 ,2369.0,758.64 ,19.71 ,81.24 ,14.17 -20150101,05:30:02,51.75681 ,1.7020 ,2375.0,758.16 ,19.80 ,80.82 ,14.15 -20150101,05:30:03,51.75624 ,1.7026 ,2382.0,757.66 ,19.84 ,80.84 ,14.13 -20150101,05:30:04,51.75567 ,1.7031 ,2388.0,757.08 ,19.77 ,80.71 ,14.08 -20150101,05:30:05,51.75511 ,1.7037 ,2395.0,756.60 ,19.79 ,80.55 ,14.08 -20150101,05:30:06,51.75454 ,1.7043 ,2401.0,755.96 ,19.70 ,80.24 ,14.11 -20150101,05:30:07,51.75398 ,1.7049 ,2406.0,755.26 ,19.77 ,80.21 ,14.08 -20150101,05:33:41,51.61353 ,1.8529 ,2558.0,742.34 ,19.66 ,82.84 ,13.74 -20150101,05:33:42,51.61281 ,1.8536 ,2558.0,742.30 ,19.54 ,82.59 ,13.76 -20150101,05:33:43,51.61209 ,1.8543 ,2557.0,742.34 ,19.47 ,82.56 ,13.77 -20150101,05:33:44,51.61137 ,1.8551 ,2557.0,742.42 ,19.61 ,82.47 ,13.78 -20150101,05:33:45,51.61065 ,1.8558 ,2557.0,742.40 ,19.55 ,82.83 ,13.75 -20150101,05:33:46,51.60994 ,1.8565 ,2557.0,742.34 ,19.72 ,82.40 ,13.75 -20150101,05:33:47,51.60922 ,1.8573 ,2557.0,742.42 ,19.70 ,82.86 ,13.74 -20150101,05:33:48,51.60851 ,1.8580 ,2558.0,742.42 ,19.72 ,83.18 ,13.74 -20150101,05:33:49,51.60779 ,1.8588 ,2558.0,742.36 ,19.87 ,83.18 ,13.76 -20150101,05:33:50,51.60707 ,1.8595 ,2558.0,742.24 ,19.87 ,82.71 ,13.76 -20150101,05:33:51,51.60635 ,1.8602 ,2558.0,742.20 ,19.89 ,82.98 ,13.76 -20150101,05:33:52,51.60564 ,1.8609 ,2558.0,742.26 ,19.74 ,82.40 ,13.79 -20150101,05:33:53,51.60492 ,1.8617 ,2558.0,742.22 ,19.71 ,82.27 ,13.80 -20150101,05:33:54,51.60420 ,1.8624 ,2558.0,742.20 ,19.51 ,82.61 ,13.84 -20150101,05:33:55,51.60349 ,1.8631 ,2557.0,742.44 ,19.85 ,81.95 ,13.82 -20150101,05:33:56,51.60277 ,1.8639 ,2556.0,742.32 ,19.61 ,82.23 ,13.78 -20150101,05:33:57,51.60205 ,1.8646 ,2555.0,742.54 ,19.57 ,81.95 ,13.81 -20150101,05:35:59,51.51433 ,1.9565 ,2553.0,742.30 ,18.21 ,81.25 ,14.45 -20150101,05:36:00,51.51360 ,1.9572 ,2553.0,742.34 ,18.42 ,80.25 ,14.45 -20150101,05:36:01,51.51288 ,1.9580 ,2553.0,742.40 ,18.38 ,79.72 ,14.43 -20150101,05:36:02,51.51215 ,1.9588 ,2552.0,742.42 ,18.34 ,79.76 ,14.37 -20150101,05:36:03,51.51142 ,1.9595 ,2552.0,742.48 ,18.38 ,80.23 ,14.34 -20150101,05:36:04,51.51070 ,1.9603 ,2552.0,742.58 ,18.39 ,80.07 ,14.35 -20150101,05:36:05,51.50997 ,1.9610 ,2551.0,742.42 ,18.29 ,80.05 ,14.35 -20150101,05:36:06,51.50924 ,1.9618 ,2551.0,742.68 ,18.22 ,80.20 ,14.35 -20150101,05:36:07,51.50852 ,1.9625 ,2551.0,742.54 ,18.21 ,80.20 ,14.35 -20150101,05:36:08,51.50779 ,1.9633 ,2551.0,742.38 ,18.17 ,80.11 ,14.30 -20150101,05:36:09,51.50706 ,1.9641 ,2551.0,742.60 ,18.20 ,80.35 ,14.27 -20150101,05:36:10,51.50634 ,1.9648 ,2551.0,742.48 ,18.05 ,80.69 ,14.27 -20150101,05:36:11,51.50561 ,1.9656 ,2551.0,742.58 ,18.03 ,80.87 ,14.27 -20150101,05:36:12,51.50489 ,1.9664 ,2552.0,742.48 ,18.29 ,81.89 ,14.25 -20150101,05:36:13,51.50416 ,1.9671 ,2552.0,742.52 ,18.14 ,82.59 ,14.31 -20150101,05:36:14,51.50343 ,1.9679 ,2553.0,742.34 ,18.23 ,83.10 ,14.35 -20150101,05:36:15,51.50271 ,1.9686 ,2553.0,742.28 ,18.56 ,84.18 ,14.31 -20150101,05:36:16,51.50198 ,1.9694 ,2554.0,742.30 ,18.55 ,84.49 ,14.33 -20150101,05:36:17,51.50126 ,1.9702 ,2554.0,742.24 ,18.72 ,84.70 ,14.37 -20150101,05:36:18,51.50054 ,1.9709 ,2554.0,742.30 ,18.74 ,85.26 ,14.36 -20150101,05:36:19,51.49981 ,1.9717 ,2554.0,742.12 ,18.80 ,85.39 ,14.37 -20150101,05:36:20,51.49909 ,1.9724 ,2555.0,742.24 ,18.99 ,85.95 ,14.34 -20150101,05:36:21,51.49837 ,1.9732 ,2555.0,742.24 ,19.02 ,86.23 ,14.32 -20150101,05:36:22,51.49765 ,1.9739 ,2555.0,742.12 ,19.06 ,86.45 ,14.31 -20150101,05:36:23,51.49693 ,1.9747 ,2554.0,742.16 ,19.12 ,86.76 ,14.28 -20150101,05:36:24,51.49621 ,1.9754 ,2554.0,742.26 ,18.87 ,86.29 ,14.30 -20150101,05:36:25,51.49549 ,1.9762 ,2554.0,742.26 ,19.11 ,85.92 ,14.26 -20150101,05:36:26,51.49476 ,1.9769 ,2553.0,742.20 ,19.03 ,86.29 ,14.22 -20150101,05:36:27,51.49405 ,1.9777 ,2553.0,742.34 ,19.18 ,86.32 ,14.20 -20150101,05:36:28,51.49333 ,1.9784 ,2553.0,742.24 ,19.24 ,86.36 ,14.17 -20150101,05:36:29,51.49260 ,1.9792 ,2553.0,742.32 ,19.29 ,85.54 ,14.20 -20150101,05:36:30,51.49189 ,1.9799 ,2553.0,742.34 ,19.36 ,85.71 ,14.20 -20150101,05:36:31,51.49117 ,1.9807 ,2554.0,742.38 ,19.39 ,85.95 ,14.19 -20150101,05:36:32,51.49045 ,1.9814 ,2554.0,742.32 ,19.55 ,86.33 ,14.20 -20150101,05:36:33,51.48973 ,1.9822 ,2554.0,742.22 ,19.52 ,85.98 ,14.21 -20150101,05:36:34,51.48902 ,1.9829 ,2554.0,742.36 ,19.51 ,85.53 ,14.23 -20150101,05:36:35,51.48830 ,1.9837 ,2554.0,742.20 ,19.34 ,85.73 ,14.26 -20150101,05:36:36,51.48759 ,1.9844 ,2554.0,742.00 ,19.37 ,85.62 ,14.26 -20150101,05:36:37,51.48688 ,1.9852 ,2554.0,742.24 ,19.40 ,85.86 ,14.27 -20150101,05:36:38,51.48616 ,1.9859 ,2554.0,742.22 ,19.63 ,86.06 ,14.28 -20150101,05:36:39,51.48545 ,1.9867 ,2553.0,742.26 ,19.95 ,85.89 ,14.27 -20150101,05:36:40,51.48474 ,1.9874 ,2553.0,742.16 ,19.81 ,86.01 ,14.22 -20150101,05:36:41,51.48403 ,1.9881 ,2553.0,742.34 ,19.32 ,87.45 ,14.22 -20150101,05:36:42,51.48333 ,1.9889 ,2552.0,742.10 ,20.22 ,90.31 ,14.11 -20150101,05:36:43,51.48262 ,1.9896 ,2552.0,742.50 ,19.74 ,89.33 ,14.24 -20150101,05:36:44,51.48191 ,1.9904 ,2552.0,742.66 ,18.69 ,87.18 ,14.46 -20150101,05:36:45,51.48121 ,1.9911 ,2552.0,742.38 ,19.41 ,89.47 ,14.41 -20150101,05:36:46,51.48050 ,1.9919 ,2551.0,742.40 ,19.71 ,86.92 ,14.45 -20150101,05:36:47,51.47980 ,1.9926 ,2551.0,742.48 ,18.47 ,86.49 ,14.40 -20150101,05:36:48,51.47910 ,1.9933 ,2551.0,742.18 ,17.70 ,85.66 ,14.39 -20150101,05:36:49,51.47840 ,1.9941 ,2551.0,742.58 ,17.84 ,89.68 ,14.39 -20150101,05:36:50,51.47770 ,1.9948 ,2551.0,742.38 ,19.76 ,83.78 ,14.57 -20150101,05:36:51,51.47700 ,1.9955 ,2551.0,742.24 ,18.98 ,83.07 ,14.39 -20150101,05:36:52,51.47630 ,1.9963 ,2551.0,742.34 ,20.36 ,86.14 ,14.28 -20150101,05:36:53,51.47560 ,1.9970 ,2552.0,742.08 ,20.66 ,84.28 ,14.20 -20150101,05:36:54,51.47490 ,1.9978 ,2553.0,742.58 ,20.01 ,82.04 ,14.27 -20150101,05:36:55,51.47420 ,1.9985 ,2553.0,742.04 ,20.43 ,80.02 ,14.13 -20150101,05:36:56,51.47350 ,1.9992 ,2554.0,742.10 ,18.79 ,80.63 ,14.16 -20150101,05:36:57,51.47280 ,2.0000 ,2555.0,741.98 ,17.62 ,82.50 ,14.08 -20150101,05:36:58,51.47209 ,2.0007 ,2556.0,742.06 ,17.42 ,81.05 ,14.06 -20150101,05:36:59,51.47139 ,2.0014 ,2557.0,742.16 ,16.87 ,83.43 ,13.97 -20150101,05:37:00,51.47069 ,2.0022 ,2558.0,741.94 ,19.95 ,81.32 ,13.80 -20150101,05:37:01,51.46999 ,2.0029 ,2557.0,741.52 ,19.05 ,90.09 ,13.45 -20150101,05:37:02,51.46928 ,2.0036 ,2557.0,741.96 ,18.63 ,89.85 ,13.40 -20150101,05:37:03,51.46858 ,2.0044 ,2556.0,741.94 ,18.00 ,90.13 ,13.29 -20150101,05:37:04,51.46787 ,2.0051 ,2556.0,742.08 ,18.69 ,90.18 ,13.13 -20150101,05:37:05,51.46717 ,2.0058 ,2555.0,742.12 ,19.07 ,88.68 ,13.15 -20150101,05:37:06,51.46647 ,2.0066 ,2555.0,742.34 ,18.67 ,88.31 ,13.07 -20150101,05:37:07,51.46577 ,2.0073 ,2555.0,742.38 ,18.84 ,88.24 ,13.04 -20150101,05:37:08,51.46506 ,2.0080 ,2554.0,742.42 ,18.82 ,88.60 ,13.03 -20150101,05:37:09,51.46437 ,2.0088 ,2554.0,742.36 ,19.10 ,88.56 ,12.99 -20150101,05:37:10,51.46366 ,2.0095 ,2553.0,742.40 ,19.04 ,88.77 ,12.93 -20150101,05:37:11,51.46296 ,2.0102 ,2553.0,742.46 ,18.96 ,89.76 ,12.90 -20150101,05:37:12,51.46226 ,2.0110 ,2552.0,742.48 ,19.03 ,89.55 ,12.94 -20150101,05:37:13,51.46156 ,2.0117 ,2552.0,742.40 ,18.97 ,89.18 ,12.89 -20150101,05:37:14,51.46087 ,2.0124 ,2552.0,742.54 ,19.12 ,89.01 ,12.88 -20150101,05:37:15,51.46017 ,2.0132 ,2552.0,742.48 ,19.18 ,89.28 ,12.95 -20150101,05:37:16,51.45947 ,2.0139 ,2552.0,742.70 ,19.05 ,88.65 ,13.01 -20150101,05:37:17,51.45878 ,2.0146 ,2552.0,742.40 ,19.49 ,88.38 ,13.04 -20150101,05:37:18,51.45808 ,2.0154 ,2552.0,742.50 ,19.64 ,88.37 ,13.06 -20150101,05:37:19,51.45739 ,2.0161 ,2552.0,742.30 ,19.56 ,87.36 ,13.11 -20150101,05:37:20,51.45670 ,2.0168 ,2551.0,742.48 ,19.67 ,88.22 ,13.12 -20150101,05:37:21,51.45600 ,2.0175 ,2551.0,742.42 ,19.66 ,87.64 ,13.14 -20150101,05:37:22,51.45531 ,2.0183 ,2551.0,742.42 ,19.82 ,86.73 ,13.19 -20150101,05:37:23,51.45462 ,2.0190 ,2551.0,742.66 ,19.97 ,86.84 ,13.24 -20150101,05:37:24,51.45393 ,2.0197 ,2550.0,742.72 ,19.14 ,88.26 ,13.24 -20150101,05:37:25,51.45324 ,2.0204 ,2550.0,742.68 ,19.32 ,87.69 ,13.28 -20150101,05:37:26,51.45255 ,2.0212 ,2549.0,742.70 ,19.29 ,87.74 ,13.27 -20150101,05:37:27,51.45186 ,2.0219 ,2549.0,742.58 ,19.31 ,87.45 ,13.34 -20150101,05:37:28,51.45117 ,2.0226 ,2549.0,742.48 ,19.05 ,87.32 ,13.34 -20150101,05:37:29,51.45048 ,2.0233 ,2548.0,742.54 ,19.06 ,86.75 ,13.36 -20150101,05:37:30,51.44980 ,2.0241 ,2548.0,742.72 ,18.84 ,86.56 ,13.36 -20150101,05:37:31,51.44911 ,2.0248 ,2548.0,742.56 ,19.01 ,86.95 ,13.35 -20150101,05:37:32,51.44856 ,2.0254 ,2548.0,742.58 ,19.09 ,86.76 ,13.42 -20150101,05:37:33,51.44774 ,2.0262 ,2549.0,742.48 ,19.02 ,86.02 ,13.46 -20150101,05:37:34,51.44719 ,2.0268 ,2549.0,742.40 ,18.97 ,86.71 ,13.46 -20150101,05:37:35,51.44637 ,2.0277 ,2549.0,742.52 ,19.03 ,86.81 ,13.50 -20150101,05:37:36,51.44582 ,2.0282 ,2549.0,742.46 ,19.08 ,87.69 ,13.52 -20150101,05:37:37,51.44500 ,2.0291 ,2549.0,742.60 ,18.94 ,87.25 ,13.57 -20150101,05:37:38,51.44446 ,2.0297 ,2549.0,742.60 ,18.89 ,87.57 ,13.60 -20150101,05:37:39,51.44377 ,2.0304 ,2549.0,742.66 ,18.89 ,88.48 ,13.57 -20150101,05:37:40,51.44295 ,2.0312 ,2549.0,742.50 ,18.79 ,88.90 ,13.65 -20150101,05:37:41,51.44241 ,2.0318 ,2549.0,742.40 ,19.04 ,88.92 ,13.67 -20150101,05:37:42,51.44173 ,2.0325 ,2550.0,742.44 ,18.96 ,89.12 ,13.71 -20150101,05:37:43,51.44105 ,2.0332 ,2550.0,742.34 ,19.05 ,88.92 ,13.75 -20150101,05:37:44,51.44037 ,2.0340 ,2550.0,742.44 ,19.15 ,90.00 ,13.70 -20150101,05:37:45,51.43969 ,2.0347 ,2550.0,742.44 ,18.94 ,89.15 ,13.78 -20150101,05:37:46,51.43901 ,2.0354 ,2551.0,742.40 ,19.10 ,90.27 ,13.74 -20150101,05:37:47,51.43833 ,2.0361 ,2552.0,742.34 ,19.45 ,90.77 ,13.74 -20150101,05:37:48,51.43752 ,2.0369 ,2552.0,742.32 ,19.65 ,90.73 ,13.77 -20150101,05:37:49,51.43698 ,2.0375 ,2553.0,742.22 ,19.68 ,90.82 ,13.79 -20150101,05:37:50,51.43617 ,2.0383 ,2553.0,742.20 ,19.57 ,91.64 ,13.81 -20150101,05:37:51,51.43563 ,2.0389 ,2554.0,742.14 ,19.45 ,91.21 ,13.87 -20150101,05:37:52,51.43482 ,2.0398 ,2554.0,742.12 ,19.60 ,90.35 ,13.88 -20150101,05:37:53,51.43428 ,2.0403 ,2554.0,742.10 ,18.98 ,90.66 ,13.90 -20150101,05:37:54,51.43347 ,2.0412 ,2554.0,742.18 ,18.95 ,89.06 ,13.93 -20150101,05:37:55,51.43293 ,2.0417 ,2554.0,742.16 ,18.98 ,87.92 ,13.93 -20150101,05:37:56,51.43227 ,2.0424 ,2554.0,742.24 ,19.15 ,88.50 ,13.89 -20150101,05:37:57,51.43159 ,2.0431 ,2554.0,742.20 ,18.86 ,88.21 ,13.91 -20150101,05:37:58,51.43092 ,2.0438 ,2554.0,742.06 ,18.80 ,88.54 ,13.89 -20150101,05:37:59,51.43025 ,2.0445 ,2554.0,742.10 ,18.98 ,89.64 ,13.89 -20150101,05:38:00,51.42945 ,2.0454 ,2554.0,742.16 ,18.91 ,89.70 ,13.92 -20150101,05:38:01,51.42891 ,2.0459 ,2555.0,742.14 ,18.91 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,19.04 ,88.92 ,13.67 +20150101,05:37:42,51.44173 ,2.0325 ,2550.0,742.44 ,18.96 ,89.12 ,13.71 +20150101,05:37:43,51.44105 ,2.0332 ,2550.0,742.34 ,19.05 ,88.92 ,13.75 +20150101,05:37:44,51.44037 ,2.0340 ,2550.0,742.44 ,19.15 ,90.00 ,13.70 +20150101,05:37:45,51.43969 ,2.0347 ,2550.0,742.44 ,18.94 ,89.15 ,13.78 +20150101,05:37:46,51.43901 ,2.0354 ,2551.0,742.40 ,19.10 ,90.27 ,13.74 +20150101,05:37:47,51.43833 ,2.0361 ,2552.0,742.34 ,19.45 ,90.77 ,13.74 +20150101,05:37:48,51.43752 ,2.0369 ,2552.0,742.32 ,19.65 ,90.73 ,13.77 +20150101,05:37:49,51.43698 ,2.0375 ,2553.0,742.22 ,19.68 ,90.82 ,13.79 +20150101,05:37:50,51.43617 ,2.0383 ,2553.0,742.20 ,19.57 ,91.64 ,13.81 +20150101,05:37:51,51.43563 ,2.0389 ,2554.0,742.14 ,19.45 ,91.21 ,13.87 +20150101,05:37:52,51.43482 ,2.0398 ,2554.0,742.12 ,19.60 ,90.35 ,13.88 +20150101,05:37:53,51.43428 ,2.0403 ,2554.0,742.10 ,18.98 ,90.66 ,13.90 +20150101,05:37:54,51.43347 ,2.0412 ,2554.0,742.18 ,18.95 ,89.06 ,13.93 +20150101,05:37:55,51.43293 ,2.0417 ,2554.0,742.16 ,18.98 ,87.92 ,13.93 +20150101,05:37:56,51.43227 ,2.0424 ,2554.0,742.24 ,19.15 ,88.50 ,13.89 +20150101,05:37:57,51.43159 ,2.0431 ,2554.0,742.20 ,18.86 ,88.21 ,13.91 +20150101,05:37:58,51.43092 ,2.0438 ,2554.0,742.06 ,18.80 ,88.54 ,13.89 +20150101,05:37:59,51.43025 ,2.0445 ,2554.0,742.10 ,18.98 ,89.64 ,13.89 +20150101,05:38:00,51.42945 ,2.0454 ,2554.0,742.16 ,18.91 ,89.70 ,13.92 +20150101,05:38:01,51.42891 ,2.0459 ,2555.0,742.14 ,18.91 ,89.12 ,13.91 +20150101,05:38:02,51.42824 ,2.0466 ,2555.0,742.12 ,18.82 ,89.36 ,13.94 +20150101,05:38:03,51.42758 ,2.0473 ,2555.0,742.02 ,18.56 ,89.75 ,13.93 +20150101,05:38:04,51.42691 ,2.0480 ,2555.0,741.92 ,18.64 ,89.48 ,13.93 +20150101,05:38:05,51.42624 ,2.0487 ,2556.0,742.12 ,18.72 ,89.02 ,13.94 +20150101,05:38:06,51.42557 ,2.0494 ,2556.0,741.94 ,18.61 ,89.20 ,13.93 +20150101,05:38:07,51.42490 ,2.0501 ,2556.0,741.98 ,18.80 ,89.66 ,13.95 +20150101,05:38:08,51.42424 ,2.0508 ,2556.0,742.00 ,18.98 ,89.61 ,13.88 +20150101,05:38:09,51.42344 ,2.0516 ,2556.0,741.86 ,18.71 ,89.60 ,13.87 +20150101,05:38:10,51.42291 ,2.0522 ,2557.0,741.88 ,18.74 ,89.72 ,13.90 +20150101,05:38:11,51.42224 ,2.0529 ,2557.0,741.86 ,18.61 ,90.03 ,13.94 +20150101,05:45:15,51.15340 ,2.3331 ,3086.0,695.96 ,18.43 ,99.02 ,11.88 +20150101,05:45:16,51.15277 ,2.3338 ,3085.0,695.94 ,18.38 ,99.05 ,11.92 +20150101,05:45:17,51.15214 ,2.3344 ,3085.0,695.94 ,18.31 ,98.23 ,11.99 +20150101,05:45:18,51.15151 ,2.3351 ,3085.0,695.98 ,18.77 ,98.64 ,11.94 +20150101,05:45:19,51.15089 ,2.3357 ,3084.0,695.98 ,18.85 ,98.20 ,11.86 +20150101,05:45:20,51.15025 ,2.3364 ,3084.0,696.04 ,18.69 ,98.27 ,11.86 +20150101,05:45:21,51.14963 ,2.3371 ,3084.0,696.02 ,18.50 ,98.86 ,11.85 +20150101,05:45:22,51.14899 ,2.3377 ,3084.0,696.16 ,18.60 ,97.66 ,11.89 +20150101,05:45:23,51.14836 ,2.3384 ,3084.0,696.04 ,18.65 ,98.39 ,11.94 +20150101,05:45:24,51.14773 ,2.3390 ,3083.0,696.14 ,18.33 ,99.42 ,12.00 +20150101,05:45:25,51.14710 ,2.3397 ,3083.0,696.18 ,18.32 ,98.28 ,12.05 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