Attributes { lat { } lat_var { } lat_wgt { } lev { String purpose "Monotonically increasing coordinate pressure"; String units "hybrid_sigma_pressure"; String positive "down"; String A_var "hyam"; String B_var "hybm"; String P0_var "P0"; String PS_var "PS"; String bounds "ilev"; } lon_T42 { } lat_T42 { } rlev { String purpose "Monotonically decreasing coordinate pressure"; } lon { } time { } lsmlev { String purpose "Homebrew level coordinate for LSM"; String long_name "Soil depth"; String units "meter"; } wvl { String long_name "Wavelength"; String units "meter"; } hyam { String long_name "hybrid A coefficient at layer midpoints"; } hybm { String long_name "hybrid B coefficient at layer midpoints"; } P0 { String long_name "reference pressure"; String units "pascal"; } PS { String long_name "surface pressure"; String units "pascal"; } fl_dmn { String long_name "Character coordinate"; String units "[chr]"; } nbdate { String long_name "base date as 6 or 8 digit integer (YYMMDD or YYYYMMDD)"; } date { String long_name "current date as 6 or 8 digit integer (YYMMDD or YYYYMMDD)"; } lon_wgt { String long_name "Gaussian weights"; String purpose "Gaussian weights which sum to two for n = 4. These weights are all have floor of 0.0 so should cause SIGFPE when applied to integer types in weighted average."; } msk_prt_mss_prt { String long_name "partial mask, partial missing value example"; Float32 missing_value 9.999999617e+35; } mss_val { String long_name "partial missing value example"; Float32 missing_value 9.999999617e+35; } mss_val_scl { String long_name "scalar missing value"; Float32 missing_value 9.999999617e+35; } mss_val_fst { String long_name "offset partial missing value example"; Float32 missing_value -999.0000000; } fll_val { String long_name "_FillValue example"; Float32 _FillValue -999.0000000; } no_mss_val { String long_name "no missing value"; } val_one_mss { String long_name "one regular value, one missing value"; Float32 missing_value 9.999999617e+35; } pck { String long_name "Packed scalar variable"; String note "Original packed value was 1s with scale_factor = 2.0d and add_offset = 1.0d. Unpacked value should be 3.0 = 2.0d*1s + 1.0d. NCO algorithms would pack this variable as scale_factor = 0.0d and add_offset = 3.0d."; Float64 scale_factor 2.0000000000000000; Float64 add_offset 1.0000000000000000; } pck_arr { String long_name "Packed array"; String note "Packed value is -32767s, 0s, 1s, 32767s, unpacked is same in double"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } upk { String long_name "Unpacked scalar variable"; String note "Unpacked value is 3.0d0, upk=unpack(pck)= 2.0d0*1s + 1.0d0 = 3.0d0. Packing this variable should create an NC_SHORT scalar = 0s with packing attribute add_offset=3.0d and either no scale_factor (ncap) or scale_factor = 0.0d (ncpdq)."; } upk_arr { String long_name "Unpacked array"; String note "Unpacked value is -32767.d, 0.d, 1.d, 32767.d, packed is same in short. Packing algorithm should yield an NC_SHORT array = [] with packing attributes scale_factor=1.0d, add_offset=0.0d"; } val_one_int { String long_name "scalar equal to 1"; Int32 missing_value -99; } val_one_one_int { String long_name "1, 1"; Int32 missing_value -99; } val_max_max_sht { String long_name "17000, 17000"; Int16 missing_value -99; } val_one_mss_int { String long_name "1, mss_val"; Int32 missing_value -99; } val_half { String long_name "Scalar with value 0.5"; Float32 missing_value 9.999999617e+35; } val_half_half { String long_name "0.5,0.5"; Float32 missing_value 9.999999617e+35; } wgt_one { String long_name "all values are one"; } mss_val_all { String long_name "all missing values example"; Float32 missing_value 9.999999617e+35; } scalar_var { String long_name "scalar variable"; String units "Fraction"; } float_var { String long_name "float"; } double_var { String long_name "double"; } double_var2 { String long_name "double"; Float64 missing_value 1.0000000000000000e+36; } int_var { String long_name "int"; } short_var { String long_name "short"; } char_var { String long_name "char"; } char_var_space { String long_name "Character variable with whitespace on ends"; } char_var_nul { String long_name "Character variable containing one NUL"; } char_var_multinul { String long_name "Character variable containing multiple NULs"; } fl_nm { String long_name "Variable contains a file name"; } fl_nm_arr { String long_name "Variable that contains a short array of file names"; String units "[sng]"; } non_nul_trm_char_one_dmn { String long_name "Variable contains a one-dimensional array of characters that is not NUL-terminated"; String units "[chr]"; } non_nul_trm_char_two_dmn { String long_name "Variable contains a two-dimensional array of characters that are not NUL-terminated"; String units "[chr]"; } byte_var { String long_name "byte"; } zero { String long_name "zero"; } one { String long_name "one"; } two { String long_name "two"; } e_dbl { String long_name "e, base of the natural logarithm"; } e_flt { String long_name "e, base of the natural logarithm"; } three { String long_name "three"; } four { String long_name "four"; } negative_one { String long_name "negative one"; } lev_var { String long_name "lev_var"; } lev_wgt { String long_name "lev_wgt"; } g { String long_name "g"; } z { String long_name "Height"; String units "meter"; String purpose "Height stored with a monotonically increasing coordinate"; } rz { String long_name "Height"; String units "meter"; String purpose "Height stored with a monotonically decreasing coordinate"; } one_dmn_var { } att_var { Byte byte_att 0; String char_att "Sentence one.\\012Sentence two.\\012"; Int16 short_att 37; Int32 int_att 73; Float32 float_att 73.00000000, 72.00000000, 71.00000000; Float64 double_att 73.000000000000000; } bnd_var { Byte byte_att 0; String char_att "Sentence one.\\012Sentence two.\\012"; Int16 short_att 37; Int32 int_att 73; Float32 float_att 73.00000000; Float64 double_att 73.000000000000000; } three_dmn_var { String long_name "three dimensional variable with CCM coordinate convention C=[lat,lev,lon], Fortran=(lon,lev,lat)"; String units "Fraction"; } three_dmn_var_crd { String long_name "three dimensional variable with COORDS coordinate convention C=[lev,lat,lon], Fortran=(lon,lat,lev)"; String units "Fraction"; } prs_sfc { String long_name "Surface pressure"; String units "pascal"; } two_dmn_var { String long_name "two dimensional variable"; String units "Fraction"; } mask { String long_name "mask variable like ORO"; String units "Fraction"; } ORO { String long_name "Orography"; String units "Fraction"; } weight { String long_name "Gaussian weight"; String units "Fraction"; } gw { String long_name "gw variable like gw"; String units "Fraction"; } gw_T42 { String long_name "gw variable like gw_T42"; String units "Fraction"; } rec_var_flt { String long_name "record variable, float"; } rec_var_dbl { String long_name "record variable, double"; } one_dmn_rec_var { String long_name "one dimensional record variable"; String units "second"; } tpt { String long_name "Temperature"; String units "kelvin"; String hieght "Leave misspelled for NCO User's guide example"; } rec_var_dbl_mss_val_dbl_upk { String long_name "record variable, double, with double missing values"; String purpose "This variable is used to generate the packed variable rec_var_dbl_mss_val_dbl_pck, so its missing_value should not be too far out of range, i.e., it should be representable by a short. However, the missing_value should itself be the same type as the unpacked variable, NC_DOUBLE in this case."; Float64 missing_value -999.00000000000000; } rec_var_dbl_mss_val_dbl_pck { String long_name "record variable, double, with double missing values, packed"; String purpose "Packed version of rec_var_dbl_mss_val_dbl_upk"; Float64 missing_value -999.00000000000000; Float64 scale_factor -9.1554131380178503e-05; Float64 add_offset 5.0000000000000000; } rec_var_flt_mss_val_flt { String long_name "record variable, float, with float missing values"; Float32 missing_value 9.999999617e+35; } rec_var_flt_pck { String long_name "record variable, float, packed"; String purpose "Demonstrate that rounding of means of packed data are handled correctly"; Float32 scale_factor 0.1000000015; Float32 add_offset 100.0000000; } rec_var_dbl_pck { String long_name "record variable, double, packed"; String purpose "Demonstrate that rounding of means of packed data are handled correctly"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 100.00000000000000; } rec_var_flt_mss_val_dbl { String long_name "record variable, float, with double missing values"; Float64 missing_value 1.0000000000000000e+36; } rec_var_flt_mss_val_int { String long_name "record variable, float, with integer missing values"; Int32 missing_value -999; } rec_var_int_mss_val_int { String long_name "record variable, integer, with integer missing values"; Int32 missing_value -999; } rec_var_int_mss_val_flt { String long_name "record variable, integer, with float missing values"; Float32 missing_value -999.0000000; } rec_var_int_mss_val_dbl { String long_name "record variable, integer, with double missing values"; Float64 missing_value -999.00000000000000; } rec_var_dbl_mss_val_dbl_pck_lng { String long_name "record variable, double packed as long, with double missing values"; String purpose "although not usual, packing doubles into longs (rather than shorts) is still a considerable cost savings"; Float64 missing_value -999.00000000000000; Float64 scale_factor -9.1554131380178503e-05; Float64 add_offset 5.0000000000000000; } one_dmn_rec_var_sng { String long_name "one dimensional record variable of string"; } time_lon { String long_name "Record variable of longitude coordinate"; } two_dmn_rec_var_sng { String long_name "two dimensional record variable of string"; } two_dmn_rec_var { String long_name "two dimensional record variable"; String units "watt meter-2"; } three_dmn_rec_var { String long_name "three dimensional record variable"; String units "watt meter-2"; } three_dmn_var_dbl { String long_name "three dimensional record variable of type double"; String units "watt meter-2"; Float64 missing_value -99.000000000000000; } three_dmn_var_int { String long_name "three dimensional record variable of type int"; String units "watt meter-2"; Int32 missing_value -99; } three_dmn_var_sht { String long_name "three dimensional record variable"; String units "watt meter-2"; Int16 missing_value -99; } four_dmn_rec_var { String long_name "four dimensional record variable"; String units "watt meter-2"; } three_double_dmn { } time_udunits { String units "hours since 1900-01-01 00:00:0.0"; String delta_t "0000-00-00 06:00:0.0"; } u { String long_name "Zonal wind speed"; String units "meter second-1"; } v { String long_name "Meridional wind speed"; String units "meter second-1"; } NC_GLOBAL { String Conventions "NCAR-CSM"; String history "History global attribute.\\012"; Float64 julian_day 200000.04000000001; } DODS_EXTRA { String Unlimited_Dimension "time"; } }