mirror of
https://github.com/Unidata/netcdf-c.git
synced 2024-12-03 08:01:25 +08:00
1515 lines
51 KiB
Plaintext
1515 lines
51 KiB
Plaintext
divert(-1)
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changequote(<<,>>)
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define(<<index>>, defn(index))
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define(<<CODE>>, <<\fB$1\fR>>)
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define(<<ARG>>, <<\fI$1\fP>>)
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define(<<HEADER_FILE>>,
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<<ifelse(API,C,
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$1.h,
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$1.inc)>>)
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define(<<INCLUDE>>,
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<<ifelse(API,C,
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<<#include>> "HEADER_FILE($1)",
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<<<<include>>>> HEADER_FILE($1))>>)
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define(<<COMPILER>>,
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<<ifelse(API,C,
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cc,
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f77)>>)
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define(<<LANGUAGE>>,
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<<ifelse(API,C,
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C,
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FORTRAN)>>)
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define(<<RETSTR>>,
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<<ifelse(API,C,
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const char*,
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character*80)>>)
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define(<<FNAME>>,
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<<ifelse(API,C,
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nc_$1,
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nf_$1)>>)
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define(<<VOID_ARG>>,
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<<ifelse(API,C,,void)>>)
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define(<<MACRO>>,
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<<CODE(ifelse(API,C,
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NC_$1,
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NF_$1))>>)
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dnl AQUAL(io, rank)
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define(<<AQUAL>>, <<ifelse(API,C,
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<<ifelse($1, output, , <<ifelse($2, 0, , const )>>)>>)>>)
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dnl CTYPE(type)
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define(<<CTYPE>>,
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<<ifelse($1,text,char,
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<<ifelse($1,uchar,unsigned char,
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<<ifelse($1,schar,signed char,
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<<ifelse($1,short,short,
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<<ifelse($1,int,int,
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<<ifelse($1,nc_type,nc_type,
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<<ifelse($1,size_t,size_t,
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<<ifelse($1,ptrdiff_t,ptrdiff_t,
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<<ifelse($1,long,long,
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<<ifelse($1,int64,long long,
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<<ifelse($1,float,float,
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<<ifelse($1,double,double,
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<<ifelse($1,ubyte,unsigned char,
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<<ifelse($1,ushort,unsigned short,
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<<ifelse($1,uint,unsigned int,
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<<ifelse($1,int64,long long,
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<<ifelse($1,uint64,unsigned long long,
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<<ifelse($1,string,char *,
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<<ifelse($1,voidp,void *,
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)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)
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dnl CSTAR(io, rank)
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define(<<CSTAR>>, <<ifelse($1,input,,<<ifelse($2,0,*)>>)>>)
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dnl FTYPE(type, rank)
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define(<<FTYPE>>,
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<<ifelse($1,text,<<character*ifelse($2,0,1,(*))>>,
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<<ifelse($1,schar,integer*1,
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<<ifelse($1,short,integer*2,
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<<ifelse($1,int,integer,
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<<ifelse($1,nc_type,integer,
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<<ifelse($1,size_t,integer,
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<<ifelse($1,ptrdiff_t,integer,
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<<ifelse($1,long,integer,
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<<ifelse($1,int64,integer*8,
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<<ifelse($1,float,real,
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<<ifelse($1,double,doubleprecision,
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<<ifelse($1,ubyte,integer*1,
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<<ifelse($1,ushort,integer*2,
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<<ifelse($1,uint,integer*4,
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<<ifelse($1,int64,integer*8,
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<<ifelse($1,uint64,integer*8,
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<<ifelse($1,string,character*,
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<<ifelse($1,voidp,void *,
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)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)
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dnl ATYPE(io,rank,type)
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define(<<ATYPE>>, <<ifelse(API,C,
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<<CTYPE($3)<<>>CSTAR($1,$2)>>,
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<<FTYPE($3,$2)>>)>>)
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dnl AID(name, rank, type)
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define(<<AID>>, <<ARG($1)<<>>ifelse(API,C,
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<<ifelse($2,0,,[])>>,
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<<ifelse($3,text,,<<ifelse($2,0,,(1))>>)>>)>>)
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dnl ADECL(io, rank, type, name)
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define(<<ADECL>>, <<AQUAL($1,$2)ATYPE($1,$2,$3) AID($4,$2,$3)>>)
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define(<<ITEXT>>, <<ADECL(input,0,text,$1)>>)
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define(<<ITEXTV>>, <<ADECL(input,1,text,$1)>>)
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define(<<OTEXT>>, <<ADECL(output,0,text,$1)>>)
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define(<<OTEXTV>>, <<ADECL(output,1,text,$1)>>)
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define(<<IUCHAR>>, <<ADECL(input,0,uchar,$1)>>)
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define(<<IUCHARV>>, <<ADECL(input,1,uchar,$1)>>)
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define(<<OUCHAR>>, <<ADECL(output,0,uchar,$1)>>)
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define(<<OUCHARV>>, <<ADECL(output,1,uchar,$1)>>)
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define(<<ISCHAR>>, <<ADECL(input,0,schar,$1)>>)
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define(<<ISCHARV>>, <<ADECL(input,1,schar,$1)>>)
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define(<<OSCHAR>>, <<ADECL(output,0,schar,$1)>>)
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define(<<OSCHARV>>, <<ADECL(output,1,schar,$1)>>)
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define(<<ISHORT>>, <<ADECL(input,0,short,$1)>>)
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define(<<ISHORTV>>, <<ADECL(input,1,short,$1)>>)
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define(<<OSHORT>>, <<ADECL(output,0,short,$1)>>)
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define(<<OSHORTV>>, <<ADECL(output,1,short,$1)>>)
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define(<<IINT>>, <<ADECL(input,0,int,$1)>>)
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define(<<IINTV>>, <<ADECL(input,1,int,$1)>>)
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define(<<OINT>>, <<ADECL(output,0,int,$1)>>)
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define(<<OINTV>>, <<ADECL(output,1,int,$1)>>)
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define(<<IINT64>>, <<ADECL(input,0,int64,$1)>>)
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define(<<IINT64V>>, <<ADECL(input,1,int64,$1)>>)
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define(<<OINT64>>, <<ADECL(output,0,int64,$1)>>)
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define(<<OINT64V>>, <<ADECL(output,1,int64,$1)>>)
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define(<<INCTYPE>>, <<ADECL(input,0,nc_type,$1)>>)
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define(<<INCTYPEV>>, <<ADECL(input,1,nc_type,$1)>>)
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define(<<ONCTYPE>>, <<ADECL(output,0,nc_type,$1)>>)
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define(<<ONCTYPEV>>, <<ADECL(output,1,nc_type,$1)>>)
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define(<<ISIZET>>, <<ADECL(input,0,size_t,$1)>>)
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define(<<ISIZETV>>, <<ADECL(input,1,size_t,$1)>>)
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define(<<OSIZET>>, <<ADECL(output,0,size_t,$1)>>)
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define(<<OSIZETV>>, <<ADECL(output,1,size_t,$1)>>)
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define(<<IPTRDIFFT>>, <<ADECL(input,0,ptrdiff_t,$1)>>)
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define(<<IPTRDIFFTV>>, <<ADECL(input,1,ptrdiff_t,$1)>>)
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define(<<OPTRDIFFT>>, <<ADECL(output,0,ptrdiff_t,$1)>>)
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define(<<OPTRDIFFTV>>, <<ADECL(output,1,ptrdiff_t,$1)>>)
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define(<<ILONG>>, <<ADECL(input,0,long,$1)>>)
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define(<<ILONGV>>, <<ADECL(input,1,long,$1)>>)
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define(<<OLONG>>, <<ADECL(output,0,long,$1)>>)
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define(<<OLONGV>>, <<ADECL(output,1,long,$1)>>)
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define(<<IFLOAT>>, <<ADECL(input,0,float,$1)>>)
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define(<<IFLOATV>>, <<ADECL(input,1,float,$1)>>)
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define(<<OFLOAT>>, <<ADECL(output,0,float,$1)>>)
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define(<<OFLOATV>>, <<ADECL(output,1,float,$1)>>)
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define(<<IDOUBLE>>, <<ADECL(input,0,double,$1)>>)
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define(<<IDOUBLEV>>, <<ADECL(input,1,double,$1)>>)
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define(<<ODOUBLE>>, <<ADECL(output,0,double,$1)>>)
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define(<<ODOUBLEV>>, <<ADECL(output,1,double,$1)>>)
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define(<<IUBYTE>>, <<ADECL(input,0,ubyte,$1)>>)
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define(<<IUBYTEV>>, <<ADECL(input,1,ubyte,$1)>>)
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define(<<OUBYTE>>, <<ADECL(output,0,ubyte,$1)>>)
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define(<<OUBYTEV>>, <<ADECL(output,1,ubyte,$1)>>)
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define(<<IUSHORT>>, <<ADECL(input,0,ushort,$1)>>)
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define(<<IUSHORTV>>, <<ADECL(input,1,ushort,$1)>>)
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define(<<OUSHORT>>, <<ADECL(output,0,ushort,$1)>>)
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define(<<OUSHORTV>>, <<ADECL(output,1,ushort,$1)>>)
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define(<<IUINT>>, <<ADECL(input,0,uint,$1)>>)
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define(<<IUINTV>>, <<ADECL(input,1,uint,$1)>>)
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define(<<OUINT>>, <<ADECL(output,0,uint,$1)>>)
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define(<<OUINTV>>, <<ADECL(output,1,uint,$1)>>)
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define(<<IINT64>>, <<ADECL(input,0,int64,$1)>>)
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define(<<IINT64V>>, <<ADECL(input,1,int64,$1)>>)
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define(<<OINT64>>, <<ADECL(output,0,int64,$1)>>)
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define(<<OINT64V>>, <<ADECL(output,1,int64,$1)>>)
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define(<<IUINT64>>, <<ADECL(input,0,uint64,$1)>>)
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define(<<IUINT64V>>, <<ADECL(input,1,uint64,$1)>>)
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define(<<OUINT64>>, <<ADECL(output,0,uint64,$1)>>)
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define(<<OUINT64V>>, <<ADECL(output,1,uint64,$1)>>)
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define(<<ISTRING>>, <<ADECL(input,0,string,$1)>>)
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define(<<ISTRINGV>>, <<ADECL(input,1,string,$1)>>)
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define(<<OSTRING>>, <<ADECL(output,0,string,$1)>>)
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define(<<OSTRINGV>>, <<ADECL(output,1,string,$1)>>)
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define(<<IVOIDP>>, <<ADECL(input,0,voidp,$1)>>)
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define(<<IVOIDPV>>, <<ADECL(input,1,voidp,$1)>>)
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define(<<OVOIDP>>, <<ADECL(output,0,voidp,$1)>>)
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define(<<OVOIDPV>>, <<ADECL(output,1,voidp,$1)>>)
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dnl CCOMP(type)
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define(<<CCOMP>>,
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<<ifelse($1,text,text,
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<<ifelse($1,uchar,uchar,
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<<ifelse($1,schar,schar,
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<<ifelse($1,short,short,
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<<ifelse($1,int,int,
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<<ifelse($1,long,long,
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<<ifelse($1,float,float,
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<<ifelse($1,double,double,
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<<ifelse($1,ubyte,ubyte,
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<<ifelse($1,ushort,ushort,
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<<ifelse($1,uint,uint,
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<<ifelse($1,int64,int64,
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<<ifelse($1,uint64,uint64,
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<<ifelse($1,string,string,
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<<ifelse($1,voidp,void *,
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)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)
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dnl FCOMP(type)
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define(<<FCOMP>>,
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<<ifelse($1,text,text,
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<<ifelse($1,schar,int1,
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<<ifelse($1,short,int2,
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<<ifelse($1,int,int,
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<<ifelse($1,float,real,
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<<ifelse($1,double,double,
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<<ifelse($1,ubyte,ubyte,
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<<ifelse($1,ushort,ushort,
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<<ifelse($1,uint,uint,
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<<ifelse($1,uint64,uint64,
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<<ifelse($1,string,string,
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<<ifelse($1,voidp,any,
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)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)>>)
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dnl COMP(type)
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define(<<COMP>>, <<ifelse(API,C,<<CCOMP($1)>>,<<FCOMP($1)>>)>>)
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define(<<FDECL_TYPE>>,
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<<ifelse(API,C,
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int,
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integer function)>>)
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dnl DECL(return-type, name, argument-list)
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define(<<DECL>>, <<CODE($1 FNAME($2)$3)>>)
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dnl FDECL(name, argument-list)
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define(<<FDECL>>, <<DECL(FDECL_TYPE, $1, $2)>>)
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dnl IODECL(name, type, argument-list)
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define(<<IODECL>>, <<FDECL($1_<<>>COMP($2), $3)>>)
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dnl FREF(name)
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define(<<FREF>>, <<CODE(FNAME($1)(\|))>>)
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dnl FOLD(cname, fname)
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define(<<FOLD>>, <<CODE(ifelse(API,C, nc$1, nc$2)(\|))>>)
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dnl Function Input Arguments:
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define(<<IATTNUM>>, <<IINT(attnum)>>)
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define(<<ICMODE>>, <<IINT(cmode)>>)
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define(<<ICOUNT>>, <<ISIZETV(count)>>)
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define(<<IDIMID>>, <<IINT(dimid)>>)
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define(<<IDIMIDS>>, <<IINTV(dimids)>>)
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define(<<IFILLMODE>>, <<IINT(fillmode)>>)
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define(<<IH_MINFREE>>, <<ISIZET(h_minfree)>>)
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define(<<IINDEX>>, <<ISIZETV(index)>>)
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define(<<IINITSIZE>>, <<ISIZET(initialsize)>>)
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define(<<ILEN>>, <<ISIZET(<<len>>)>>)
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define(<<IMAP>>, <<IPTRDIFFTV(imap)>>)
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define(<<IMODE>>, <<IINT(mode)>>)
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define(<<INAME>>, <<ITEXTV(name)>>)
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define(<<INCID>>, <<IINT(ncid)>>)
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define(<<INCIDIN>>, <<IINT(ncid_in)>>)
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define(<<INCIDOUT>>, <<IINT(ncid_out)>>)
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define(<<INDIMS>>, <<IINT(ndims)>>)
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define(<<INEWNAME>>, <<ITEXTV(newname)>>)
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define(<<IPATH>>, ITEXTV(path))
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define(<<IPE>>, <<IINT(pe)>>)
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define(<<IR_ALIGN>>, <<ISIZET(r_align)>>)
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define(<<ISTART>>, <<ISIZETV(start)>>)
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define(<<ISTATUS>>, <<IINT(status)>>)
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define(<<ISTRIDE>>, <<ISIZETV(stride)>>)
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define(<<IV_ALIGN>>, <<ISIZET(v_align)>>)
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define(<<IV_MINFREE>>, <<ISIZET(v_minfree)>>)
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define(<<IVARID>>, <<IINT(varid)>>)
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define(<<IVARIDIN>>, <<IINT(varid_in)>>)
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define(<<IVARIDOUT>>, <<IINT(varid_out)>>)
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define(<<IXTYPE>>, <<INCTYPE(xtype)>>)
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define(<<IPARACCESS>>, <<IINT(par_access)>>)
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dnl Function Output Arguments:
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define(<<OATTNUM>>, <<OINT(attnum)>>)
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define(<<OCHUNKSIZE>>, <<OSIZET(chunksize)>>)
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define(<<ODIMID>>, <<OINT(dimid)>>)
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define(<<ODIMIDS>>, <<OINTV(dimids)>>)
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define(<<OLEN>>, <<OSIZET(<<len>>)>>)
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define(<<ONAME>>, <<OTEXTV(name)>>)
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define(<<ONATTS>>, <<OINT(natts)>>)
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define(<<ONCID>>, <<OINT(ncid)>>)
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define(<<ONDIMS>>, <<OINT(ndims)>>)
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define(<<ONVARS>>, <<OINT(nvars)>>)
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define(<<OOLDFILLMODE>>, <<OINT(old_fillemode)>>)
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define(<<OPE>>, <<OINT(pe)>>)
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define(<<OVARID>>, <<OINT(varid)>>)
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define(<<OUNLIMDIMID>>, <<OINT(unlimdimid)>>)
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define(<<OFORMATN>>, <<OINT(formatn)>>)
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define(<<OXTYPE>>, <<ONCTYPE(xtype)>>)
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dnl Argument References:
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define(<<ATTNUM>>, <<ARG(attnum)>>)
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define(<<COUNT>>, <<ARG(count)>>)
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define(<<DIMID>>, <<ARG(dimid)>>)
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define(<<DIMIDS>>, <<ARG(dimids)>>)
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define(<<FILLMODE>>, <<ARG(fillmode)>>)
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define(<<IN>>, <<ARG(in)>>)
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define(<<INDEX>>, <<ARG(index)>>)
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define(<<LEN>>, <<ARG(<<len>>)>>)
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define(<<IMAP>>, <<ARG(imap)>>)
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define(<<NAME>>, <<ARG(name)>>)
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define(<<NATTS>>, <<ARG(natts)>>)
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define(<<NCID>>, <<ARG(ncid)>>)
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define(<<NCIDIN>>, <<ARG(ncid_in)>>)
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define(<<NCIDOUT>>, <<ARG(ncid_out)>>)
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define(<<NDIMS>>, <<ARG(ndims)>>)
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define(<<NEWNAME>>, <<ARG(newname)>>)
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define(<<NULL>>, <<CODE(<<<<NULL>>>>)>>)
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define(<<NVARS>>, <<ARG(nvars)>>)
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define(<<NVATTS>>, <<ARG(nvatts)>>)
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define(<<OLDFILLMODE>>, <<ARG(old_fillmode)>>)
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define(<<OUT>>, <<ARG(out)>>)
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define(<<START>>, <<ARG(start)>>)
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define(<<STRIDE>>, <<ARG(stride)>>)
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define(<<UNLIMDIMID>>, <<ARG(unlimdimid)>>)
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define(<<FORMATN>>, <<ARG(formatn)>>)
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define(<<VARID>>, <<ARG(varid)>>)
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define(<<VARIDIN>>, <<ARG(varid_in)>>)
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define(<<VARIDOUT>>, <<ARG(varid_out)>>)
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define(<<XTYPE>>, <<ARG(xtype)>>)
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define(<<UPCASE>>,
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<<translit($1,abcdefghijklmnopqrstuvwxyz,ABCDEFGHIJKLMNOPQRSTUVWXYZ)>>)
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dnl Variable "Put" Functions:
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define(<<VOUT>>, <<I<<>>UPCASE($1)<<>>ifelse($2,1,,V)(ifelse($2,1,*)out)>>)
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define(<<VPUT>>, <<IODECL(put_var$1, $2, (INCID(), IVARID()$3, VOUT($2,$1)))>>)
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define(<<PUT_VAR>>, <<VPUT(,$1)>>)
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define(<<PUT_VAR1>>,<<VPUT(1,$1,<<, IINDEX()>>)>>)
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define(<<PUT_VARA>>,<<VPUT(a,$1,<<, ISTART(), ICOUNT()>>)>>)
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define(<<PUT_VARS>>,<<VPUT(s,$1,<<, ISTART(), ICOUNT(), ISTRIDE()>>)>>)
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define(<<PUT_VARM>>,<<VPUT(m,$1,<<, ISTART(), ICOUNT(), ISTRIDE(), IMAP()>>)>>)
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dnl Variable "Get" Functions:
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define(<<VIN>>, <<O<<>>UPCASE($1)<<>>ifelse($2,1,,V)(in)>>)
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define(<<VGET>>, <<IODECL(get_var$1, $2, (INCID(), IVARID()$3, VIN($2,$1)))>>)
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define(<<GET_VAR>>, <<VGET(,$1)>>)
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define(<<GET_VAR1>>,<<VGET(1,$1,<<, IINDEX()>>)>>)
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define(<<GET_VARA>>,<<VGET(a,$1,<<, ISTART(), ICOUNT()>>)>>)
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define(<<GET_VARS>>,<<VGET(s,$1,<<, ISTART(), ICOUNT(), ISTRIDE()>>)>>)
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define(<<GET_VARM>>,<<VGET(m,$1,<<, ISTART(), ICOUNT(), ISTRIDE(), IMAP()>>)>>)
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dnl Attribute "Put" Functions:
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define(<<AOUT>>, <<I<<>>UPCASE($1)<<>>V(out)>>)
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define(<<APUT>>,<<IODECL(put_att,$1,(INCID(), IVARID(), INAME(), IXTYPE(), ILEN(), AOUT($1)))>>)
|
|
|
|
dnl Attribute "Get" Functions:
|
|
define(<<AIN>>, <<O<<>>UPCASE($1)<<>>V(in)>>)
|
|
define(<<AGET>>,<<IODECL(get_att,$1,(INCID(), IVARID(), INAME(), AIN($1)))>>)
|
|
|
|
dnl Function Family Listing:
|
|
define(<<FUNC_FAMILY>>,
|
|
<<.HP
|
|
$1(text)
|
|
ifelse(API,C,
|
|
<<.HP
|
|
$1(uchar)>>)
|
|
.HP
|
|
$1(schar)
|
|
.HP
|
|
$1(short)
|
|
.HP
|
|
$1(int)
|
|
ifelse(API,C,
|
|
<<.HP
|
|
$1(long)>>)
|
|
.HP
|
|
$1(float)
|
|
.HP
|
|
$1(double)
|
|
ifelse(NETCDF4,TRUE,
|
|
<<.HP
|
|
$1(ubyte)
|
|
.HP
|
|
$1(ushort)
|
|
.HP
|
|
$1(uint)
|
|
.HP
|
|
$1(int64)
|
|
.HP
|
|
$1(uint64)
|
|
.HP
|
|
$1(string)>>
|
|
)
|
|
>>)
|
|
|
|
divert(0)dnl
|
|
.nr yr \n(yr+1900
|
|
.af mo 01
|
|
.af dy 01
|
|
.TH NETCDF 3 "1997-04-18" "Printed: \n(yr-\n(mo-\n(dy" "UNIDATA LIBRARY FUNCTIONS"
|
|
.SH N<<>>AME
|
|
netcdf \- Unidata's Network Common Data Form (netCDF) library interface
|
|
.SH SYNOPSIS
|
|
.ft B
|
|
.na
|
|
.nh
|
|
INCLUDE(netcdf)
|
|
.sp
|
|
ifelse(API,C,,
|
|
.SS Most Systems:)
|
|
ifelse(NETCDF4,TRUE,
|
|
COMPILER() ... -lnetcdf -lhdf5_hl -lhdf5 -lz -lm,
|
|
COMPILER() ... -lnetcdf)
|
|
ifelse(API,C,,
|
|
.sp
|
|
.SS CRAY PVP Systems:
|
|
f90 -dp -i64 ... -lnetcdf
|
|
)
|
|
.ad
|
|
.hy
|
|
Complete documentation for the netCDF libraries can be found at the netCDF website: http://www.unidata.ucar.edu/software/netcdf/.
|
|
.sp
|
|
.SH "LIBRARY VERSION"
|
|
.LP
|
|
ifelse(NETCDF4,TRUE,
|
|
This document describes versions 3 and 4,
|
|
This document describes version 3
|
|
)
|
|
of Unidata netCDF data-access interface
|
|
for the LANGUAGE() programming language.
|
|
.HP
|
|
DECL(RETSTR(), inq_libvers, (VOID_ARG))
|
|
.sp
|
|
Returns a string identifying the version of the netCDF library, and
|
|
when it was built, like: "3.1a of Aug 22 1996 12:57:47 $".
|
|
.LP
|
|
The RCS \fBident(1)\fP command will find a string like
|
|
"$\|Id: @\|(#) netcdf library version 3.1a of Sep 6 1996 15:56:26 $"
|
|
in the library. The SCCS \fBwhat(1)\fP command will find a string like
|
|
"netcdf library version 3.1a of Aug 23 1996 16:07:40 $".
|
|
.SH "RETURN VALUES"
|
|
.LP
|
|
All netCDF functions (except
|
|
FREF(inq_libvers) and FREF(strerror)) return an integer status.
|
|
|
|
If this returned status value is not equal to
|
|
MACRO(NOERR) (zero), it
|
|
indicates that an error occurred. The possible status values are defined in
|
|
ifelse(API,C, system <<<<include>>>> file <errno.h> and in )<<>>dnl
|
|
ifelse(API,C,")HEADER_FILE(netcdf)<<>>ifelse(API,C,").
|
|
.HP
|
|
DECL(RETSTR(), strerror, (ISTATUS()))
|
|
.sp
|
|
Returns a string textual translation of the \fIstatus\fP
|
|
value, like "Attribute or variable name contains illegal characters"
|
|
or "No such file or directory".
|
|
.sp
|
|
.SH "FILE OPERATIONS"
|
|
.LP
|
|
.HP
|
|
FDECL(create, (IPATH(), ICMODE(), ONCID()))
|
|
.sp
|
|
Creates a new netCDF dataset at ARG(path),
|
|
returning a netCDF ID in ARG(ncid).
|
|
The argument ARG(cmode) may <<include>> the bitwise-or
|
|
of the following flags:
|
|
MACRO(NOCLOBBER)
|
|
to protect existing datasets (default
|
|
silently blows them away),
|
|
MACRO(SHARE)
|
|
for synchronous dataset updates for classic format files
|
|
(default is to buffer accesses),
|
|
.sp
|
|
When a netCDF dataset is created, is is opened
|
|
MACRO(WRITE).
|
|
The new netCDF dataset is in <<define>> mode.
|
|
MACRO(64BIT_OFFSET).
|
|
to create a file in the 64-bit offset format
|
|
(as opposed to classic format, the default).
|
|
ifelse(NETCDF4,TRUE,
|
|
<<MACRO(NETCDF4) to create a netCDF-4/HDF5 file,
|
|
and MACRO(CLASSIC_MODEL) to guarantee that netCDF-4/HDF5 files maintain compatibility
|
|
with the netCDF classic data model.>>,
|
|
.
|
|
)
|
|
.HP
|
|
FDECL(_create, (IPATH(), ICMODE(), IINITSIZE(), OCHUNKSIZE(), ONCID()))
|
|
.sp
|
|
Like FREF(create) but has additional performance tuning parameters.
|
|
.sp
|
|
The argument ARG(initialsize) sets the initial size of the file at
|
|
creation time.
|
|
.sp
|
|
See FREF(_open) below for an explanation of the ARG(chunksize)
|
|
parameter.
|
|
.HP
|
|
FDECL(open, (IPATH(), IMODE(), ONCID()))
|
|
.sp
|
|
(Corresponds to FOLD(open, opn) in version 2)
|
|
.sp
|
|
Opens a existing netCDF dataset at ARG(path)
|
|
returning a netCDF ID
|
|
in ARG(ncid).
|
|
The type of access is described by the ARG(mode) parameter,
|
|
which may <<include>> the bitwise-or
|
|
of the following flags:
|
|
MACRO(WRITE)
|
|
for read-write access (default
|
|
read-only),
|
|
MACRO(SHARE)
|
|
for synchronous dataset updates (default is
|
|
to buffer accesses), and
|
|
MACRO(LOCK)
|
|
(not yet implemented).
|
|
.sp
|
|
ifelse(DAP,TRUE,
|
|
<<As of NetCDF version 4.1, and if DAP support was enabled
|
|
when the NetCDF library was built, the path parameter
|
|
may specify a DAP URL. In this case, the access mode is
|
|
forced to be read-only.>>)
|
|
.HP
|
|
FDECL(_open, (IPATH(), IMODE(), OCHUNKSIZE(), ONCID()))
|
|
.sp
|
|
Like FREF(open) but has an additional performance tuning parameter.
|
|
.sp
|
|
The argument referenced by ARG(chunksize) controls a space versus time
|
|
tradeoff, memory allocated in the netcdf library versus number of system
|
|
calls.
|
|
Because of internal requirements, the value may not be set to exactly
|
|
the value requested.
|
|
The actual value chosen is returned by reference.
|
|
Using the value MACRO(SIZEHINT_DEFAULT) causes the library to choose a
|
|
default.
|
|
How the system choses the default depends on the system.
|
|
On many systems, the "preferred I/O block size" is available from the
|
|
CODE(stat()) system call, CODE(struct stat) member CODE(st_blksize).
|
|
If this is available it is used. Lacking that, twice the system pagesize
|
|
is used.
|
|
Lacking a call to discover the system pagesize, we just set default
|
|
chunksize to 8192.
|
|
.sp
|
|
The chunksize is a property of a given open netcdf descriptor
|
|
ARG(ncid), it is not a persistent property of the netcdf dataset.
|
|
.sp
|
|
ifelse(DAP,TRUE,
|
|
<<As with FREF(_open), the path parameter
|
|
may specify a DAP URL, but the tuning parameters are ignored.>>)
|
|
.HP
|
|
FDECL(redef, (INCID()))
|
|
.sp
|
|
(Corresponds to FOLD(redef, redf) in version 2)
|
|
.sp
|
|
Puts an open netCDF dataset into <<define>> mode,
|
|
so dimensions, variables, and attributes can be added or renamed and
|
|
attributes can be deleted.
|
|
.HP
|
|
FDECL(enddef, (INCID()))
|
|
.sp
|
|
(Corresponds to FOLD(endef, endf) in version 2)
|
|
.sp
|
|
Takes an open netCDF dataset out of <<define>> mode.
|
|
The changes made to the netCDF dataset
|
|
while it was in <<define>> mode are checked and committed to disk if no
|
|
problems occurred. Some data values may be written as well,
|
|
see "VARIABLE PREFILLING" below.
|
|
After a successful call, variable data can be read or written to the dataset.
|
|
.HP
|
|
FDECL(_enddef, (INCID(), IH_MINFREE(), IV_ALIGN(), IV_MINFREE(), IR_ALIGN()))
|
|
.sp
|
|
Like FREF(enddef) but has additional performance tuning parameters.
|
|
.sp
|
|
Caution: this function exposes internals of the netcdf version 1 file
|
|
<<format>>.
|
|
It may not be available on future netcdf implementations.
|
|
.sp
|
|
The current netcdf file <<format>> has three sections,
|
|
the "header" section, the data section for fixed size variables, and
|
|
the data section for variables which have an unlimited dimension (record
|
|
variables).
|
|
The header begins at the beginning of the file. The <<index>>
|
|
(offset) of the beginning of the other two sections is contained in the
|
|
header. Typically, there is no space between the sections. This causes
|
|
copying overhead to accrue if one wishes to change the size of the
|
|
sections,
|
|
as may happen when changing names of things, text attribute values,
|
|
adding
|
|
attributes or adding variables. Also, for buffered i/o, there may be
|
|
advantages
|
|
to aligning sections in certain ways.
|
|
.sp
|
|
The minfree parameters allow one to control costs of future calls
|
|
to FREF(redef), FREF(enddef) by requesting that ARG(minfree) bytes be
|
|
available at the end of the section.
|
|
The ARG(h_minfree) parameter sets the pad
|
|
at the end of the "header" section. The ARG(v_minfree) parameter sets
|
|
the pad at the end of the data section for fixed size variables.
|
|
.sp
|
|
The align parameters allow one to set the alignment of the beginning of
|
|
the corresponding sections. The beginning of the section is rounded up
|
|
to an <<index>> which is a multiple of the align parameter. The flag value
|
|
MACRO(ALIGN_CHUNK) tells the library to use the chunksize (see above)
|
|
as the align parameter.
|
|
The ARG(v_align) parameter controls the alignment of the beginning of
|
|
the data section for fixed size variables.
|
|
The ARG(r_align) parameter controls the alignment of the beginning of
|
|
the data section for variables which have an unlimited dimension (record
|
|
variables).
|
|
.sp
|
|
The file <<format>> requires mod 4 alignment, so the align parameters
|
|
are silently rounded up to multiples of 4. The usual call,
|
|
CODE(FNAME(enddef)(NCID()))
|
|
is equivalent to
|
|
CODE(FNAME(_enddef)(NCID(), 0, 4, 0, 4)).
|
|
.sp
|
|
The file <<format>> does not contain a "record size" value, this is
|
|
calculated from the sizes of the record variables. This unfortunate fact
|
|
prevents us from providing minfree and alignment control of the
|
|
"records"
|
|
in a netcdf file. If you add a variable which has an unlimited
|
|
dimension,
|
|
the third section will always be copied with the new variable added.
|
|
.HP
|
|
FDECL(sync, (INCID()))
|
|
.sp
|
|
(Corresponds to FOLD(sync, snc) in version 2)
|
|
.sp
|
|
Unless the
|
|
MACRO(SHARE)
|
|
bit is set in
|
|
FREF(open) or FREF(create),
|
|
accesses to the underlying netCDF dataset are
|
|
buffered by the library. This function synchronizes the state of
|
|
the underlying dataset and the library.
|
|
This is done automatically by
|
|
FREF(close) and FREF(enddef).
|
|
.HP
|
|
FDECL(abort, (INCID()))
|
|
.sp
|
|
(Corresponds to FOLD(abort, abor) in version 2)
|
|
.sp
|
|
You don't need to call this function.
|
|
This function is called automatically by
|
|
FREF(close)
|
|
if the netCDF was in <<define>> mode and something goes wrong with the commit.
|
|
If the netCDF dataset isn't in <<define>> mode, then this function is equivalent to
|
|
FREF(close).
|
|
If it is called after
|
|
FREF(redef),
|
|
but before
|
|
FREF(enddef),
|
|
the new definitions are not committed and the dataset is closed.
|
|
If it is called after
|
|
FREF(create)
|
|
but before
|
|
FREF(enddef),
|
|
the dataset disappears.
|
|
.HP
|
|
FDECL(close, (INCID()))
|
|
.sp
|
|
(Corresponds to
|
|
FOLD(close, clos) in version 2)
|
|
.sp
|
|
Closes an open netCDF dataset.
|
|
If the dataset is in <<define>> mode,
|
|
FREF(enddef)
|
|
will be called before closing.
|
|
After a dataset is closed, its ID may be reassigned to another dataset.
|
|
.HP
|
|
FDECL(inq, (INCID(), ONDIMS(), ONVARS(),
|
|
ONATTS(), OUNLIMDIMID()))
|
|
.HP
|
|
FDECL(inq_ndims, (INCID(), ONDIMS()))
|
|
.HP
|
|
FDECL(inq_nvars, (INCID(), ONVARS()))
|
|
.HP
|
|
FDECL(inq_natts, (INCID(), ONATTS()))
|
|
.HP
|
|
FDECL(inq_unlimdim, (INCID(), OUNLIMDIMID()))
|
|
.HP
|
|
FDECL(inq_format, (INCID(), OFORMATN()))
|
|
.sp
|
|
Use these functions to find out what is in a netCDF dataset.
|
|
Upon successful return,
|
|
NDIMS() will contain the
|
|
number of dimensions defined for this netCDF dataset,
|
|
NVARS() will contain the number of variables,
|
|
NATTS() will contain the number of attributes, and
|
|
UNLIMDIMID() will contain the
|
|
dimension ID of the unlimited dimension if one exists, or
|
|
ifelse(API,C, <<-1>>, <<0>>) otherwise.
|
|
FORMATN() will contain the version number of the dataset <format>, one of
|
|
MACRO(FORMAT_CLASSIC), MACRO(FORMAT_64BIT), MACRO(FORMAT_NETCDF4), or
|
|
MACRO(FORMAT_NETCDF4_CLASSIC).
|
|
ifelse(API,C,
|
|
<<If any of the
|
|
return parameters is a NULL() pointer, then the corresponding information
|
|
will not be returned; hence, no space need be allocated for it.>>)
|
|
.HP
|
|
FDECL(def_dim, (INCID(), INAME(), ILEN(), ODIMID()))
|
|
.sp
|
|
(Corresponds to FOLD(dimdef, ddef) in version 2)
|
|
.sp
|
|
Adds a new dimension to an open netCDF dataset, which must be
|
|
in <<define>> mode.
|
|
NAME() is the dimension name.
|
|
ifelse(API,C,dnl
|
|
<<If DIMID() is not a NULL() pointer then upon successful completion >>)<<>>dnl
|
|
DIMID() will contain the dimension ID of the newly created dimension.
|
|
ifelse(NETCDF4,TRUE,
|
|
<<
|
|
.SH "USER DEFINED TYPES"
|
|
.LP
|
|
Users many define types for a netCDF-4/HDF5 file (unless the
|
|
MACRO(CLASSIC_MODEL) was used when the file was creates). Users may
|
|
define compound types, variable length arrays, enumeration types, and
|
|
opaque types.
|
|
.sp
|
|
|
|
.HP
|
|
FDECL(def_compound, (INCID(), ISIZET(size), INAME(), OINT(typeidp)))
|
|
.sp
|
|
Define a compound type.
|
|
.HP
|
|
FDECL(insert_compound, (INCID(), INCTYPE(), INAME(), ISIZET(offset), INCTYPE(field_typeid)))
|
|
.sp
|
|
Insert an element into a compound type. May not be done after type has been used, or after the type has been written by an enddef.
|
|
.HP
|
|
FDECL(insert_array_compound, (INCID(), INCTYPE(), INAME(), ISIZET(offset), INCTYPE(field_typeid), INDIMS(), IINTV(dim_sizes)))
|
|
.sp
|
|
Insert an array into a compound type.
|
|
.HP
|
|
FDECL(inq_type, (INCID(), INCTYPE(), ONAME(), OSIZET(sizep)))
|
|
.sp
|
|
Learn about a type.
|
|
.HP
|
|
FDECL(inq_compound, (INCID(), INCTYPE(), ONAME(), OSIZET(sizep), OSIZET(nfieldsp)))
|
|
.HP
|
|
FDECL(inq_compound_name, (INCID(), INCTYPE(), ONAME()))
|
|
.HP
|
|
FDECL(inq_compound_size, (INCID(), INCTYPE(), OSIZET(sizep)))
|
|
.HP
|
|
FDECL(inq_compound_nfields, (INCID(), INCTYPE(), OSIZET(nfieldsp)))
|
|
.HP
|
|
FDECL(inq_compound_fieldname, (INCID(), INCTYPE(), IINT(fieldid), ONAME()))
|
|
.HP
|
|
FDECL(inq_compound_fieldindex, (INCID(), INCTYPE(), INAME(), OINT(fieldidp)))
|
|
.HP
|
|
FDECL(inq_compound_fieldoffset, (INCID(), INCTYPE(), IINT(fieldid), OSIZET(offsetp)))
|
|
.HP
|
|
FDECL(inq_compound_fieldtype, (INCID(), INCTYPE(), IINT(fieldid), ONCTYPE(field_typeid)))
|
|
.HP
|
|
FDECL(inq_compound_fieldndims, (INCID(), INCTYPE(), IINT(fieldid), ONDIMS()))
|
|
.HP
|
|
FDECL(inq_compound_fielddim_sizes, (INCID(), INCTYPE(), IINT(fieldid), OINTV(dim_sizes)))
|
|
.sp
|
|
Learn about a compound type.
|
|
.HP
|
|
FDECL(def_vlen, (INCID(), INAME(), INCTYPE(base_typeid), ONCTYPE(xtypep)))
|
|
.sp
|
|
Create a varaible length array type.
|
|
.HP
|
|
FDECL(inq_vlen, (INCID(), INCTYPE(), ONAME(), OSIZET(datum_sizep), ONCTYPE(base_nc_typep)))
|
|
.sp
|
|
Learn about a varaible length array type.
|
|
.HP
|
|
FDECL(free_vlen, (nc_vlen_t *vl))
|
|
.sp
|
|
Free memory comsumed by reading data of a varaible length array type.
|
|
.HP
|
|
FDECL(put_vlen_element, (INCID(), INCTYPE(), IVOIDP(vlen_element), ISIZET(len), IVOIDP(data)))
|
|
.sp
|
|
Write one VLEN.
|
|
.HP
|
|
FDECL(get_vlen_element, (INCID(), INCTYPE(), OVOIDP(vlen_element), ISIZET(len), OVOIDP(data)))
|
|
.sp
|
|
Read one VLEN.
|
|
.HP
|
|
FDECL(free_string, (ISIZET(len), char **data))
|
|
.sp
|
|
Free memory comsumed by reading data of a string type.
|
|
.HP
|
|
FDECL(inq_user_type, (INCID(), INCTYPE(), ONAME(), OSIZET(), ONCTYPE(), OSIZET(), OINT()))
|
|
.sp
|
|
Learn about a user define type.
|
|
.HP
|
|
FDECL(def_enum, (INCID(), INCTYPE(base_typeid), INAME(), ONCTYPE(typeidp)))
|
|
.sp
|
|
Define an enumeration type.
|
|
.HP
|
|
FDECL(insert_enum, (INCID(), INCTYPE(base_typeid), INAME(), const void *value))
|
|
.sp
|
|
Insert a name-value pair into enumeration type.
|
|
.HP
|
|
FDECL(inq_enum_member, (INCID(), INCTYPE(xtype), IINT(idx), ONAME(), void *value))
|
|
.HP
|
|
FDECL(inq_enum_ident, (INCID(), INCTYPE(xtype), IINT(idx), IINT64(value), OTEXTV(identifier)))
|
|
.sp
|
|
Learn about a name-value pair into enumeration type.
|
|
.HP
|
|
FDECL(def_opaque, (INCID(), ISIZET(size), INAME(), ONCTYPE(xtypep)))
|
|
.sp
|
|
Create an opaque type.
|
|
.HP
|
|
FDECL(inq_opaque, (INCID(), INCTYPE(xtype), ONAME(), OSIZET(sizep)))
|
|
.sp
|
|
Learn about opaque type.
|
|
.HP
|
|
.SH "GROUPS"
|
|
.sp
|
|
Users may organize data into hierarchical groups in netCDF-4/HDF5 files (unless MACRO(CLASSIC_MODEL) was used when creating the file).
|
|
.HP
|
|
FDECL(inq_grps, (INCID(), OINT(numgrps), OINTV(ncids)))
|
|
.sp
|
|
Learn how many groups (and their ncids) are available from the group represented by ncid.
|
|
.HP
|
|
FDECL(inq_grpname, (INCID(), ONAME()))
|
|
.HP
|
|
FDECL(inq_grpname_full, (INCID(), OLEN(), ONAME()))
|
|
.HP
|
|
FDECL(inq_grpname_len, (INCID(), OLEN()))
|
|
.HP
|
|
FDECL(inq_grp_parent, (INCID(), ONCID()))
|
|
.HP
|
|
FDECL(inq_grp_ncid, (INCID(), ONAME(), ONCID()))
|
|
.HP
|
|
FDECL(inq_full_ncid, (INCID(), ONAME(), ONCID()))
|
|
.sp
|
|
Learn about a group.
|
|
.HP
|
|
FDECL(inq_varids, (INCID(), ONVARS(), OINT()))
|
|
.sp
|
|
Get the varids in a group.
|
|
.HP
|
|
FDECL(inq_dimids, (INCID(), ONDIMS(), OINT(dimids), IINT(include_parents)))
|
|
.sp
|
|
Get the dimids in a group and (potentially) its parents.
|
|
.HP
|
|
FDECL(inq_typeids, (INCID(), OINT(ntypes), OINTV(typeids)))
|
|
.sp
|
|
Get the typeids of user-defined types in a group.
|
|
.HP
|
|
FDECL(def_grp, (INCID(), ONAME(), ONCID()))
|
|
.sp
|
|
Create a group.
|
|
.LP
|
|
>>)
|
|
.SH "DIMENSIONS"
|
|
.LP
|
|
.HP
|
|
FDECL(inq_dimid, (INCID(), INAME(), ODIMID()))
|
|
.sp
|
|
(Corresponds to FOLD(dimid, did) in version 2)
|
|
.sp
|
|
Given a dimension name, returns the ID of a netCDF dimension in DIMID().
|
|
.HP
|
|
FDECL(inq_dim, (INCID(), IDIMID(), ONAME(), OLEN()))
|
|
.HP
|
|
FDECL(inq_dimname, (INCID(), IDIMID(), ONAME()))
|
|
.HP
|
|
FDECL(inq_dimlen, (INCID(), IDIMID(), OLEN()))
|
|
.sp
|
|
Use these functions to find out about a dimension.
|
|
ifelse(API,C,
|
|
<<If either the NAME()
|
|
argument or LEN() argument is a NULL() pointer, then
|
|
the associated information will not be returned. Otherwise,>>)
|
|
NAME() should be big enough (MACRO(MAX_NAME))
|
|
to hold the dimension name as the name will be copied into your storage.
|
|
The length return parameter, LEN()
|
|
will contain the size of the dimension.
|
|
For the unlimited dimension, the returned length is the current
|
|
maximum value used for writing into any of the variables which use
|
|
the dimension.
|
|
.HP
|
|
FDECL(rename_dim, (INCID(), IDIMID(), INAME()))
|
|
.sp
|
|
(Corresponds to FOLD(dimrename, dren) in version 2)
|
|
.sp
|
|
Renames an existing dimension in an open netCDF dataset.
|
|
If the new name is longer than the old name, the netCDF dataset must be in
|
|
<<define>> mode.
|
|
You cannot rename a dimension to have the same name as another dimension.
|
|
.SH "VARIABLES"
|
|
.LP
|
|
.HP
|
|
FDECL(def_var, (INCID(), INAME(), IXTYPE(), INDIMS(), IDIMIDS(), OVARID()))
|
|
.sp
|
|
(Corresponds to FOLD(vardef, vdef) in version 2)
|
|
.sp
|
|
Adds a new variable to a netCDF dataset. The netCDF must be in <<define>> mode.
|
|
ifelse(API,C, <<If not NULL(), then >>)dnl
|
|
VARID() will be set to the netCDF variable ID.
|
|
.HP
|
|
FDECL(inq_varid, (INCID(), INAME(), OVARID()))
|
|
.sp
|
|
(Corresponds to FOLD(varid, vid) in version 2)
|
|
.sp
|
|
Returns the ID of a netCDF variable in VARID() given its name.
|
|
.HP
|
|
FDECL(inq_var, (INCID(), IVARID(), ONAME(), OXTYPE(), ONDIMS(), ODIMIDS(),
|
|
ONATTS()))
|
|
.HP
|
|
FDECL(inq_varname, (INCID(), IVARID(), ONAME()))
|
|
.HP
|
|
FDECL(inq_vartype, (INCID(), IVARID(), OXTYPE()))
|
|
.HP
|
|
FDECL(inq_varndims, (INCID(), IVARID(), ONDIMS()))
|
|
.HP
|
|
FDECL(inq_vardimid, (INCID(), IVARID(), ODIMIDS()))
|
|
.HP
|
|
FDECL(inq_varnatts, (INCID(), IVARID(), ONATTS()))
|
|
.sp
|
|
Returns information about a netCDF variable, given its ID.
|
|
ifelse(API,C,
|
|
<<If any of the
|
|
return parameters (NAME(), XTYPE(), NDIMS(), DIMIDS(), or
|
|
NATTS()) is a NULL() pointer, then the corresponding information
|
|
will not be returned; hence, no space need be allocated for it.>>)
|
|
.HP
|
|
FDECL(rename_var, (INCID(), IVARID(), INAME()))
|
|
.sp
|
|
(Corresponds to FOLD(varrename, vren) in version 2)
|
|
.sp
|
|
Changes the name of a netCDF variable.
|
|
If the new name is longer than the old name, the netCDF must be in <<define>> mode.
|
|
You cannot rename a variable to have the name of any existing variable.
|
|
ifelse(NETCDF4,TRUE,
|
|
<<
|
|
.SH "VARIABLES IN NETCDF-4 FILES"
|
|
.LP
|
|
The following functions may only be used on variables in a
|
|
netCDF-4/HDF5 data file. These functions must be called after the
|
|
variable is defined, but before an enddef call.
|
|
.sp
|
|
FDECL(def_var_deflate, (INCID(), IVARID(), IINT(shuffle), IINT(deflate), IINT(deflate_level)))
|
|
.sp
|
|
Turn on compression and/or shuffle filter. (Shuffle filter is only useful for integer data.)
|
|
.HP
|
|
FDECL(inq_var_deflate, (INCID(), IVARID(), OINT(shufflep), OINT(deflatep), OINT(deflate_levelp)))
|
|
.sp
|
|
Learn about a variable's deflate settings.
|
|
.HP
|
|
FDECL(def_var_fletcher32, (INCID(), IVARID(), IINT(fletcher32)))
|
|
.sp
|
|
Turn on checksumming for a variable.
|
|
.HP
|
|
FDECL(inq_var_fletcher32, (INCID(), IVARID(), OINT(fletcher32)))
|
|
.sp
|
|
Learn about checksumming for a variable.
|
|
.HP
|
|
FDECL(def_var_chunking, (INCID(), IVARID(), IINT(storage), ISIZETV(chunksizesp)))
|
|
.sp
|
|
Set chunksizes for a variable.
|
|
.HP
|
|
FDECL(inq_var_chunking, (INCID(), IVARID(), OINT(storagep), OSIZETV(chunksizesp)))
|
|
.sp
|
|
Learn about chunksizes for a variable.
|
|
.HP
|
|
FDECL(def_var_fill, (INCID(), IVARID(), IINT(no_fill), ISIZETV(chunksizesp)))
|
|
.sp
|
|
Set a fill value for a variable.
|
|
.HP
|
|
FDECL(inq_var_fill, (INCID(), IVARID(), OINT(storagep), OSIZETV(chunksizesp)))
|
|
.sp
|
|
Learn the fill value for a variable.
|
|
.HP
|
|
FDECL(def_var_endian, (INCID(), IVARID(), IINT(endian)))
|
|
.sp
|
|
Set endianness of variable.
|
|
.HP
|
|
FDECL(inq_var_endian, (INCID(), IVARID(), OINT(endianp)))
|
|
.sp
|
|
Learn the endianness of a variable.
|
|
.HP
|
|
>>)
|
|
.SH "WRITING AND READING WHOLE VARIABLES"
|
|
.LP
|
|
FUNC_FAMILY(<<PUT_VAR>>)
|
|
.sp
|
|
Writes an entire netCDF variable (i.e. all the values). The netCDF
|
|
dataset must be open and in data mode. The type of the data is
|
|
specified in the function name, and it is converted to the external
|
|
type of the specified variable, if possible, otherwise an
|
|
MACRO(ERANGE) error is returned. Note that rounding is not performed
|
|
during the conversion. Floating point numbers are truncated when
|
|
converted to integers.
|
|
FUNC_FAMILY(<<GET_VAR>>)
|
|
.sp
|
|
Reads an entire netCDF variable (i.e. all the values).
|
|
The netCDF dataset must be open and in data mode.
|
|
The data is converted from the external type of the specified variable,
|
|
if necessary, to the type specified in the function name. If conversion is
|
|
not possible, an MACRO(ERANGE) error is returned.
|
|
.SH "WRITING AND READING ONE DATUM"
|
|
.LP
|
|
FUNC_FAMILY(<<PUT_VAR1>>)
|
|
.sp
|
|
Puts a single data value into a variable at the position INDEX() of an
|
|
open netCDF dataset that is in data mode. The type of the data is
|
|
specified in the function name, and it is converted to the external type
|
|
of the specified variable, if possible, otherwise an MACRO(ERANGE)
|
|
error is returned.
|
|
FUNC_FAMILY(<<GET_VAR1>>)
|
|
.sp
|
|
Gets a single data value from a variable at the position INDEX()
|
|
of an open netCDF dataset that is in data mode.
|
|
The data is converted from the external type of the specified variable,
|
|
if necessary, to the type specified in the function name. If conversion is
|
|
not possible, an MACRO(ERANGE) error is returned.
|
|
.SH "WRITING AND READING AN ARRAY"
|
|
.LP
|
|
FUNC_FAMILY(<<PUT_VARA>>)
|
|
.sp
|
|
Writes an array section of values into a netCDF variable of an open
|
|
netCDF dataset, which must be in data mode. The array section is specified
|
|
by the START() and COUNT() vectors, which give the starting <<index>>
|
|
and count of values along each dimension of the specified variable.
|
|
The type of the data is
|
|
specified in the function name and is converted to the external type
|
|
of the specified variable, if possible, otherwise an MACRO(ERANGE)
|
|
error is returned.
|
|
FUNC_FAMILY(<<GET_VARA>>)
|
|
.sp
|
|
Reads an array section of values from a netCDF variable of an open
|
|
netCDF dataset, which must be in data mode. The array section is specified
|
|
by the START() and COUNT() vectors, which give the starting <<index>>
|
|
and count of values along each dimension of the specified variable.
|
|
The data is converted from the external type of the specified variable,
|
|
if necessary, to the type specified in the function name. If conversion is
|
|
not possible, an MACRO(ERANGE) error is returned.
|
|
.SH "WRITING AND READING A SLICED ARRAY"
|
|
.LP
|
|
FUNC_FAMILY(<<PUT_VARS>>)
|
|
.sp
|
|
These functions are used for \fIstrided output\fP, which is like the
|
|
array section output described above, except that
|
|
the sampling stride (the interval between accessed values) is
|
|
specified for each dimension.
|
|
For an explanation of the sampling stride
|
|
vector, see COMMON ARGUMENTS DESCRIPTIONS below.
|
|
FUNC_FAMILY(<<GET_VARS>>)
|
|
.sp
|
|
These functions are used for \fIstrided input\fP, which is like the
|
|
array section input described above, except that
|
|
the sampling stride (the interval between accessed values) is
|
|
specified for each dimension.
|
|
For an explanation of the sampling stride
|
|
vector, see COMMON ARGUMENTS DESCRIPTIONS below.
|
|
.SH "WRITING AND READING A MAPPED ARRAY"
|
|
.LP
|
|
FUNC_FAMILY(<<PUT_VARM>>)
|
|
.sp
|
|
These functions are used for \fImapped output\fP, which is like
|
|
strided output described above, except that an additional <<index>> mapping
|
|
vector is provided to specify the in-memory arrangement of the data
|
|
values.
|
|
For an explanation of the <<index>>
|
|
mapping vector, see COMMON ARGUMENTS DESCRIPTIONS below.
|
|
FUNC_FAMILY(<<GET_VARM>>)
|
|
.sp
|
|
These functions are used for \fImapped input\fP, which is like
|
|
strided input described above, except that an additional <<index>> mapping
|
|
vector is provided to specify the in-memory arrangement of the data
|
|
values.
|
|
For an explanation of the <<index>>
|
|
mapping vector, see COMMON ARGUMENTS DESCRIPTIONS below.
|
|
.SH "ATTRIBUTES"
|
|
.LP
|
|
FUNC_FAMILY(<<APUT>>)
|
|
.HP
|
|
FDECL(put_att, (INCID(), IVARID(), INAME(), INCTYPE(xtype), ISIZET(len), IVOIDP(ip)))
|
|
.HP
|
|
FDECL(get_att, (INCID(), IVARID(), INAME(), OVOIDP(ip)))
|
|
.sp
|
|
Unlike variables, attributes do not have
|
|
separate functions for defining and writing values.
|
|
This family of functions defines a new attribute with a value or changes
|
|
the value of an existing attribute.
|
|
If the attribute is new, or if the space required to
|
|
store the attribute value is greater than before,
|
|
the netCDF dataset must be in <<define>> mode.
|
|
The parameter LEN() is the number of values from OUT() to transfer.
|
|
It is often one, except that for
|
|
FREF(put_att_text) it will usually be
|
|
ifelse(API,C, <<CODE(strlen(OUT())).>>, <<CODE(len_trim(OUT())).>>)
|
|
.sp
|
|
For these functions, the type component of the function name refers to
|
|
the in-memory type of the value, whereas the XTYPE() argument refers to the
|
|
external type for storing the value. An MACRO(ERANGE)
|
|
error results if
|
|
a conversion between these types is not possible. In this case the value
|
|
is represented with the appropriate fill-value for the associated
|
|
external type.
|
|
.HP
|
|
FDECL(inq_attname, (INCID(), IVARID(), IATTNUM(), ONAME()))
|
|
.sp
|
|
Gets the
|
|
name of an attribute, given its variable ID and attribute number.
|
|
This function is useful in generic applications that
|
|
need to get the names of all the attributes associated with a variable,
|
|
since attributes are accessed by name rather than number in all other
|
|
attribute functions. The number of an attribute is more volatile than
|
|
the name, since it can change when other attributes of the same variable
|
|
are deleted. The attributes for each variable are numbered
|
|
from ifelse(API,C,0,1) (the first attribute) to
|
|
NVATTS()<<>>ifelse(API,C,-1),
|
|
where NVATTS() is
|
|
the number of attributes for the variable, as returned from a call to
|
|
FREF(inq_varnatts).
|
|
ifelse(API,C,
|
|
<<If the NAME() parameter is a NULL() pointer, no name will be
|
|
returned and no space need be allocated.>>)
|
|
.HP
|
|
FDECL(inq_att, (INCID(), IVARID(), INAME(), OXTYPE(), OLEN()))
|
|
.HP
|
|
FDECL(inq_attid, (INCID(), IVARID(), INAME(), OATTNUM()))
|
|
.HP
|
|
FDECL(inq_atttype, (INCID(), IVARID(), INAME(), OXTYPE()))
|
|
.HP
|
|
FDECL(inq_attlen, (INCID(), IVARID(), INAME(), OLEN()))
|
|
.sp
|
|
These functions return information about a netCDF attribute,
|
|
given its variable ID and name. The information returned is the
|
|
external type in XTYPE()
|
|
and the number of elements in the attribute as LEN().
|
|
ifelse(API,C,
|
|
<<If any of the return arguments is a NULL() pointer,
|
|
the specified information will not be returned.>>)
|
|
.HP
|
|
FDECL(copy_att, (INCID(), IVARIDIN(), INAME(), INCIDOUT(), IVARIDOUT()))
|
|
.sp
|
|
Copies an
|
|
attribute from one netCDF dataset to another. It can also be used to
|
|
copy an attribute from one variable to another within the same netCDF.
|
|
NCIDIN() is the netCDF ID of an input netCDF dataset from which the
|
|
attribute will be copied.
|
|
VARIDIN()
|
|
is the ID of the variable in the input netCDF dataset from which the
|
|
attribute will be copied, or MACRO(GLOBAL)
|
|
for a global attribute.
|
|
NAME()
|
|
is the name of the attribute in the input netCDF dataset to be copied.
|
|
NCIDOUT()
|
|
is the netCDF ID of the output netCDF dataset to which the attribute will be
|
|
copied.
|
|
It is permissible for the input and output netCDF ID's to be the same. The
|
|
output netCDF dataset should be in <<define>> mode if the attribute to be
|
|
copied does not already exist for the target variable, or if it would
|
|
cause an existing target attribute to grow.
|
|
VARIDOUT()
|
|
is the ID of the variable in the output netCDF dataset to which the attribute will
|
|
be copied, or MACRO(GLOBAL) to copy to a global attribute.
|
|
.HP
|
|
FDECL(rename_att, (INCID(), IVARID(), INAME(), INEWNAME()))
|
|
.sp
|
|
Changes the
|
|
name of an attribute. If the new name is longer than the original name,
|
|
the netCDF must be in <<define>> mode. You cannot rename an attribute to
|
|
have the same name as another attribute of the same variable.
|
|
NAME() is the original attribute name.
|
|
NEWNAME()
|
|
is the new name to be assigned to the specified attribute. If the new name
|
|
is longer than the old name, the netCDF dataset must be in <<define>> mode.
|
|
.HP
|
|
FDECL(del_att, (INCID(), IVARID(), INAME()))
|
|
.sp
|
|
Deletes an attribute from a netCDF dataset. The dataset must be in
|
|
<<define>> mode.
|
|
FUNC_FAMILY(<<AGET>>)
|
|
.sp
|
|
Gets the value(s) of a netCDF attribute, given its
|
|
variable ID and name. Converts from the external type to the type
|
|
specified in
|
|
the function name, if possible, otherwise returns an MACRO(ERANGE)
|
|
error.
|
|
All elements of the vector of attribute
|
|
values are returned, so you must allocate enough space to hold
|
|
them. If you don't know how much space to reserve, call
|
|
FREF(inq_attlen)
|
|
first to find out the length of the attribute.
|
|
.SH "COMMON ARGUMENT DESCRIPTIONS"
|
|
.LP
|
|
In this section we <<define>> some common arguments which are used in the
|
|
"FUNCTION DESCRIPTIONS" section.
|
|
.TP
|
|
INCID()
|
|
is the netCDF ID returned from a previous, successful call to
|
|
FREF(open) or FREF(create)
|
|
.TP
|
|
ONAME()
|
|
is the name of a dimension, variable, or attribute. The names of
|
|
dimensions, variables and attributes consist of arbitrary
|
|
sequences of alphanumeric characters (as well as underscore '_',
|
|
period '.' and hyphen '-'), beginning with a letter or
|
|
underscore. (However names commencing with underscore are reserved for
|
|
system use.) Case is significant in netCDF names. A zero-length name
|
|
is not allowed.
|
|
ifelse(API,C,<<As an input argument,
|
|
it shall be a pointer to a 0-terminated string; as an output argument, it
|
|
shall be the address of a buffer in which to hold such a string.>>)
|
|
The maximum allowable number of characters
|
|
ifelse(API,C,(excluding the terminating 0)) is MACRO(MAX_NAME).
|
|
.TP
|
|
IXTYPE()
|
|
specifies the external data type of a netCDF variable or attribute and
|
|
is one of the following:
|
|
MACRO(BYTE), MACRO(CHAR), MACRO(SHORT), MACRO(INT),
|
|
MACRO(FLOAT), or MACRO(DOUBLE).
|
|
These are used to specify 8-bit integers,
|
|
characters, 16-bit integers, 32-bit integers, 32-bit IEEE floating point
|
|
numbers, and 64-bit IEEE floating-point numbers, respectively.
|
|
ifelse(API,C,
|
|
<<(MACRO(INT) corresponds to MACRO(LONG) in version 2, to specify a
|
|
32-bit integer).>>)
|
|
.TP
|
|
ODIMIDS()
|
|
is a vector of dimension ID's and defines the shape of a netCDF variable.
|
|
The size of the vector shall be greater than or equal to the
|
|
rank (i.e. the number of dimensions) of the variable (NDIMS()).
|
|
The vector shall be ordered by the speed with which a dimension varies:
|
|
DIMIDS()<<>>ifelse(API,C,<<[NDIMS()-1]>>,<<(1)>>)
|
|
shall be the dimension ID of the most rapidly
|
|
varying dimension and
|
|
DIMIDS()<<>>ifelse(API,C,<<[0]>>,<<(NDIMS())>>)
|
|
shall be the dimension ID of the most slowly
|
|
varying dimension.
|
|
The maximum possible number of
|
|
dimensions for a variable is given by the symbolic constant
|
|
MACRO(MAX_VAR_DIMS).
|
|
.TP
|
|
IDIMID()
|
|
is the ID of a netCDF dimension.
|
|
netCDF dimension ID's are allocated sequentially from the
|
|
ifelse(API,C,non-negative, positive)
|
|
integers beginning with ifelse(API,C,0,1).
|
|
.TP
|
|
INDIMS()
|
|
is either the total number of dimensions in a netCDF dataset or the rank
|
|
(i.e. the number of dimensions) of a netCDF variable.
|
|
The value shall not be negative or greater than the symbolic constant
|
|
MACRO(MAX_VAR_DIMS).
|
|
.TP
|
|
IVARID()
|
|
is the ID of a netCDF variable or (for the attribute-access functions)
|
|
the symbolic constant
|
|
MACRO(GLOBAL),
|
|
which is used to reference global attributes.
|
|
netCDF variable ID's are allocated sequentially from the
|
|
ifelse(API,C,non-negative,positive)
|
|
integers beginning with ifelse(API,C,0,1).
|
|
.TP
|
|
ONATTS()
|
|
is the number of global attributes in a netCDF dataset for the
|
|
FREF(inquire)
|
|
function or the number
|
|
of attributes associated with a netCDF variable for the
|
|
FREF(varinq)
|
|
function.
|
|
.TP
|
|
IINDEX()
|
|
specifies the indicial coordinates of the netCDF data value to be accessed.
|
|
The indices start at ifelse(API,C,0,1);
|
|
thus, for example, the first data value of a
|
|
two-dimensional variable is ifelse(API,C,(0,0),(1,1)).
|
|
The size of the vector shall be at least the rank of the associated
|
|
netCDF variable and its elements shall correspond, in order, to the
|
|
variable's dimensions.
|
|
.TP
|
|
ISTART()
|
|
specifies the starting point
|
|
for accessing a netCDF variable's data values
|
|
in terms of the indicial coordinates of
|
|
the corner of the array section.
|
|
The indices start at ifelse(API,C,0,1);
|
|
thus, the first data
|
|
value of a variable is ifelse(API,C,(0, 0, ..., 0),(1, 1, ..., 1)).
|
|
The size of the vector shall be at least the rank of the associated
|
|
netCDF variable and its elements shall correspond, in order, to the
|
|
variable's dimensions.
|
|
.TP
|
|
ICOUNT()
|
|
specifies the number of indices selected along each dimension of the
|
|
array section.
|
|
Thus, to access a single value, for example, specify COUNT() as
|
|
(1, 1, ..., 1).
|
|
Note that, for strided I/O, this argument must be adjusted
|
|
to be compatible with the STRIDE() and START() arguments so that
|
|
the interaction of the
|
|
three does not attempt to access an invalid data co-ordinate.
|
|
The elements of the
|
|
COUNT() vector correspond, in order, to the variable's dimensions.
|
|
.TP
|
|
ISTRIDE()
|
|
specifies the sampling interval along each dimension of the netCDF
|
|
variable. The elements of the stride vector correspond, in order,
|
|
to the netCDF variable's dimensions (ARG(stride)<<>>ifelse(API,C,[0],<<(1)>>))
|
|
gives the sampling interval along the most ifelse(API,C,slowly,rapidly)
|
|
varying dimension of the netCDF variable). Sampling intervals are
|
|
specified in type-independent units of elements (a value of 1 selects
|
|
consecutive elements of the netCDF variable along the corresponding
|
|
dimension, a value of 2 selects every other element, etc.).
|
|
ifelse(API,C,<<A NULL() stride argument is treated as (1, 1, ... , 1).>>)
|
|
.TP
|
|
IMAP()
|
|
specifies the mapping between the dimensions of a netCDF variable and
|
|
the in-memory structure of the internal data array. The elements of
|
|
the <<index>> mapping vector correspond, in order, to the netCDF variable's
|
|
dimensions (ARG(imap)<<>>ifelse(API,C,[0],<<(1)>>) gives the distance
|
|
between elements of the internal array corresponding to the most
|
|
ifelse(API,C,slowly,rapidly) varying dimension of the netCDF variable).
|
|
Distances between elements are specified in type-independent units of
|
|
elements (the distance between internal elements that occupy adjacent
|
|
memory locations is 1 and not the element's byte-length as in netCDF 2).
|
|
ifelse(API,C,<<A NULL() pointer means the memory-resident values have
|
|
the same structure as the associated netCDF variable.>>)
|
|
.SH "VARIABLE PREFILLING"
|
|
.LP
|
|
By default, the netCDF interface sets the values of
|
|
all newly-defined variables of finite length (i.e. those that do not have
|
|
an unlimited, dimension) to the type-dependent fill-value associated with each
|
|
variable. This is done when FREF(enddef)
|
|
is called. The
|
|
fill-value for a variable may be changed from the default value by
|
|
defining the attribute `CODE(_FillValue)' for the variable. This
|
|
attribute must have the same type as the variable and be of length one.
|
|
.LP
|
|
Variables with an unlimited dimension are also prefilled, but on
|
|
an `as needed' basis. For example, if the first write of such a
|
|
variable is to position 5, then
|
|
positions
|
|
ifelse(API,C,0 through 4, 1 through 4)
|
|
(and no others)
|
|
would be set to the fill-value at the same time.
|
|
.LP
|
|
This default prefilling of data values may be disabled by
|
|
or'ing the
|
|
MACRO(NOFILL)
|
|
flag into the mode parameter of FREF(open) or FREF(create),
|
|
or, by calling the function FREF(set_fill)
|
|
with the argument MACRO(NOFILL).
|
|
For variables that do not use the unlimited dimension,
|
|
this call must
|
|
be made before
|
|
FREF(enddef).
|
|
For variables that
|
|
use the unlimited dimension, this call
|
|
may be made at any time.
|
|
.LP
|
|
One can obtain increased performance of the netCDF interface by using
|
|
this feature, but only at the expense of requiring the application to set
|
|
every single data value. The performance
|
|
enhancing behavior of this function is dependent on the particulars of
|
|
the implementation and dataset <<format>>.
|
|
The flag value controlled by FREF(set_fill)
|
|
is per netCDF ID,
|
|
not per variable or per write.
|
|
Allowing this to change affects the degree to which
|
|
a program can be effectively parallelized.
|
|
Given all of this, we state that the use
|
|
of this feature may not be available (or even needed) in future
|
|
releases. Programmers are cautioned against heavy reliance upon this
|
|
feature.
|
|
.HP
|
|
FDECL(setfill, (INCID(), IFILLMODE(), OOLDFILLMODE()))
|
|
ifelse(API,C,
|
|
<<.sp
|
|
(Corresponds to FOLD(setfill) in version 2)>>)
|
|
.sp
|
|
Determines whether or not variable prefilling will be done (see
|
|
above).
|
|
The netCDF dataset shall be writable.
|
|
FILLMODE() is either MACRO(FILL)
|
|
to enable prefilling (the
|
|
default) or MACRO(NOFILL)
|
|
to disable prefilling.
|
|
This function returns the previous setting in OLDFILLMODE().
|
|
ifelse(PARALLEL_IO,TRUE,
|
|
<<.SH "PARALLEL I/O"
|
|
.LP
|
|
.HP
|
|
FDECL(create_par, (IPATH(), ICMODE(), MPI_Comm comm, MPI_Info info, ONCID()))
|
|
.sp
|
|
Like FREF(create) but creates for parallel I/O access. The mode must specify a
|
|
netCDF-4/HDF5 dataset.
|
|
.sp
|
|
.HP
|
|
FDECL(open_par, (IPATH(), IMODE(), MPI_Comm comm, MPI_Info info, ONCID()))
|
|
.sp
|
|
Opens for parallel I/O access. Must be a netCDF-4/HDF5 dataset.
|
|
.HP
|
|
FDECL(var_par_access, (INCID(), VARID(), IPARACCESS()))
|
|
.sp
|
|
May be used to change access to a variable from independent to collective data access.>>)
|
|
.HP
|
|
.SH "MPP FUNCTION DESCRIPTIONS"
|
|
.LP
|
|
Additional functions for use on SGI/Cray MPP machines (_CRAYMPP).
|
|
These are used to set and inquire which PE is the base for MPP
|
|
for a particular netCDF. These are only relevant when
|
|
using the SGI/Cray ``global''
|
|
Flexible File I/O layer and desire to have
|
|
only a subset of PEs to open the specific netCDF file.
|
|
For technical reasons, these functions are available on all platforms.
|
|
On a platform other than SGI/Cray MPP, it is as if
|
|
only processor available were processor 0.
|
|
.LP
|
|
To use this feature, you need to specify a communicator group and call
|
|
CODE(glio_group_mpi(\|)) or CODE(glio_group_shmem(\|)) prior to the netCDF
|
|
FREF(open) and FREF(create) calls.
|
|
.HP
|
|
FDECL(_create_mp, (IPATH(), ICMODE(), IINITSIZE(), IPE(), OCHUNKSIZE(), ONCID()))
|
|
.sp
|
|
Like FREF(_create) but allows the base PE to be set.
|
|
.sp
|
|
The argument ARG(pe) sets the base PE at creation time. In the MPP
|
|
environment, FREF(_create) and FREF(create) set the base PE to processor
|
|
zero by default.
|
|
.HP
|
|
FDECL(_open_mp, (IPATH(), IMODE(), IPE(), OCHUNKSIZE(), ONCID()))
|
|
.sp
|
|
Like FREF(_open) but allows the base PE to be set.
|
|
The argument ARG(pe) sets the base PE at creation time. In the MPP
|
|
environment, FREF(_open) and FREF(open) set the base PE to processor
|
|
zero by default.
|
|
.HP
|
|
FDECL(inq_base_pe, (INCID(), OPE()))
|
|
.sp
|
|
Inquires of the netCDF dataset which PE is being used as the base for MPP use.
|
|
This is safe to use at any time.
|
|
.HP
|
|
FDECL(set_base_pe, (INCID(), IPE()))
|
|
.sp
|
|
Resets the base PE for the netCDF dataset.
|
|
Only perform this operation when the affected communicator group
|
|
synchronizes before and after the call.
|
|
This operation is very risky and should only be contemplated
|
|
under only the most extreme cases.
|
|
.SH "ENVIRONMENT VARIABLES"
|
|
.TP 4
|
|
.B NETCDF_FFIOSPEC
|
|
Specifies the Flexible File I/O buffers for netCDF I/O when executing
|
|
under the UNICOS operating system (the variable is ignored on other
|
|
operating systems).
|
|
An appropriate specification can greatly increase the efficiency of
|
|
netCDF I/O -- to the extent that it can actually surpass FORTRAN binary
|
|
I/O.
|
|
This environment variable has been made a little more generalized,
|
|
such that other FFIO option specifications can now be added.
|
|
The default specification is \fBbufa:336:2\fP,
|
|
unless a current FFIO specification is in operation,
|
|
which will be honored.
|
|
See UNICOS Flexible File I/O for more information.
|
|
.SH "MAILING-LISTS"
|
|
.LP
|
|
Both a mailing list and a digest are available for
|
|
discussion of the netCDF interface and announcements about netCDF bugs,
|
|
fixes, and enhancements.
|
|
To begin or change your subscription to either the mailing-list or the
|
|
digest, send one of the following in the body (not
|
|
the subject line) of an email message to "majordomo@unidata.ucar.edu".
|
|
Use your email address in place of \fIjdoe@host.inst.domain\fP.
|
|
.sp
|
|
To subscribe to the netCDF mailing list:
|
|
.RS
|
|
\fBsubscribe netcdfgroup \fIjdoe@host.inst.domain\fR
|
|
.RE
|
|
To unsubscribe from the netCDF mailing list:
|
|
.RS
|
|
\fBunsubscribe netcdfgroup \fIjdoe@host.inst.domain\fR
|
|
.RE
|
|
To subscribe to the netCDF digest:
|
|
.RS
|
|
\fBsubscribe netcdfdigest \fIjdoe@host.inst.domain\fR
|
|
.RE
|
|
To unsubscribe from the netCDF digest:
|
|
.RS
|
|
\fBunsubscribe netcdfdigest \fIjdoe@host.inst.domain\fR
|
|
.RE
|
|
To retrieve the general introductory information for the mailing list:
|
|
.RS
|
|
\fBinfo netcdfgroup\fR
|
|
.RE
|
|
To get a synopsis of other majordomo commands:
|
|
.RS
|
|
\fBhelp\fR
|
|
.RE
|
|
.SH "SEE ALSO"
|
|
.LP
|
|
.BR ncdump (1),
|
|
.BR ncgen (1),
|
|
.BR netcdf (3<<>>ifelse(API,C,,f)).
|
|
.LP
|
|
\fInetCDF User's Guide\fP, published
|
|
by the Unidata Program Center, University Corporation for Atmospheric
|
|
Research, located in Boulder, Colorado.
|
|
|
|
NetCDF home page at http:/www.unidata.ucar.edu/netcdf.
|