mirror of
https://github.com/Unidata/netcdf-c.git
synced 2024-12-27 08:49:16 +08:00
59e04ae071
cloud using a variant of the Zarr protocol and storage format. This enhancement is generically referred to as "NCZarr". The data model supported by NCZarr is netcdf-4 minus the user-defined types and the String type. In this sense it is similar to the CDF-5 data model. More detailed information about enabling and using NCZarr is described in the document NUG/nczarr.md and in a [Unidata Developer's blog entry](https://www.unidata.ucar.edu/blogs/developer/en/entry/overview-of-zarr-support-in). WARNING: this code has had limited testing, so do use this version for production work. Also, performance improvements are ongoing. Note especially the following platform matrix of successful tests: Platform | Build System | S3 support ------------------------------------ Linux+gcc | Automake | yes Linux+gcc | CMake | yes Visual Studio | CMake | no Additionally, and as a consequence of the addition of NCZarr, major changes have been made to the Filter API. NOTE: NCZarr does not yet support filters, but these changes are enablers for that support in the future. Note that it is possible (probable?) that there will be some accidental reversions if the changes here did not correctly mimic the existing filter testing. In any case, previously filter ids and parameters were of type unsigned int. In order to support the more general zarr filter model, this was all converted to char*. The old HDF5-specific, unsigned int operations are still supported but they are wrappers around the new, char* based nc_filterx_XXX functions. This entailed at least the following changes: 1. Added the files libdispatch/dfilterx.c and include/ncfilter.h 2. Some filterx utilities have been moved to libdispatch/daux.c 3. A new entry, "filter_actions" was added to the NCDispatch table and the version bumped. 4. An overly complex set of structs was created to support funnelling all of the filterx operations thru a single dispatch "filter_actions" entry. 5. Move common code to from libhdf5 to libsrc4 so that it is accessible to nczarr. Changes directly related to Zarr: 1. Modified CMakeList.txt and configure.ac to support both C and C++ -- this is in support of S3 support via the awd-sdk libraries. 2. Define a size64_t type to support nczarr. 3. More reworking of libdispatch/dinfermodel.c to support zarr and to regularize the structure of the fragments section of a URL. Changes not directly related to Zarr: 1. Make client-side filter registration be conditional, with default off. 2. Hack include/nc4internal.h to make some flags added by Ed be unique: e.g. NC_CREAT, NC_INDEF, etc. 3. cleanup include/nchttp.h and libdispatch/dhttp.c. 4. Misc. changes to support compiling under Visual Studio including: * Better testing under windows for dirent.h and opendir and closedir. 5. Misc. changes to the oc2 code to support various libcurl CURLOPT flags and to centralize error reporting. 6. By default, suppress the vlen tests that have unfixed memory leaks; add option to enable them. 7. Make part of the nc_test/test_byterange.sh test be contingent on remotetest.unidata.ucar.edu being accessible. Changes Left TO-DO: 1. fix provenance code, it is too HDF5 specific.
413 lines
15 KiB
C
413 lines
15 KiB
C
/*********************************************************************
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* Copyright 2018, UCAR/Unidata
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* See netcdf/COPYRIGHT file for copying and redistribution conditions.
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*********************************************************************/
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#include "config.h"
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#include "dapincludes.h"
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#ifdef _WIN32
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#include <crtdbg.h>
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#include <math.h>
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#endif
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struct Value {
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long long llval;
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double dval;
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};
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/*Forward*/
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static int cvtnumconst(const char* s, struct Value* val);
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static int cvtdbl2int(struct Value* val);
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static int cvtint2dbl(struct Value* val);
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static int cvtint2int(nc_type dsttype, struct Value*);
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NCerror
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dapconvert(nc_type srctype, nc_type dsttype, char* memory0, char* value0, size_t count)
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{
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NCerror ncstat = NC_NOERR;
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size_t i;
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char* memory = memory0;
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char* value = value0;
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/* In order to deal with the DAP upgrade problem,
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try to preserve the bit patterns
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*/
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/* Provide space and pointer casts for intermediate results */
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signed char ncbyte;
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signed char* ncbytep;
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char ncchar;
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char* nccharp;
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short ncshort;
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short* ncshortp;
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int ncint;
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int* ncintp;
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float ncfloat;
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float* ncfloatp;
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double ncdouble;
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double* ncdoublep;
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unsigned char ncubyte;
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unsigned char* ncubytep;
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unsigned short ncushort;
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unsigned short* ncushortp;
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unsigned int ncuint;
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unsigned int* ncuintp;
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long long ncint64;
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long long* ncint64p;
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unsigned long long ncuint64;
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unsigned long long* ncuint64p;
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#define CASE(nc1,nc2) (nc1*256+nc2)
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#define CUT8(e) ((unsigned char)((e) & 0xff))
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#define CUT16(e) ((unsigned short)((e) & 0xffff))
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#define CUT32(e) ((unsigned int)((e) & 0xffffffff))
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#define ARM(vs,ncs,ts,vd,ncd,td) \
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case CASE(ncs,ncd):\
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vs##p = (ts *)value;\
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vs = *vs##p;\
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vd##p = (td *)memory;\
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*vd##p = (td)vs;\
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break;
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for(i=0;i<count;i++) {
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switch (CASE(srctype,dsttype)) {
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ARM(ncchar,NC_CHAR,char,ncchar,NC_CHAR,char)
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ARM(ncchar,NC_CHAR,char,ncbyte,NC_BYTE,signed char)
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ARM(ncchar,NC_CHAR,char,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncchar,NC_CHAR,char,ncshort,NC_SHORT,short)
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ARM(ncchar,NC_CHAR,char,ncushort,NC_USHORT,unsigned short)
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ARM(ncchar,NC_CHAR,char,ncint,NC_INT,int)
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ARM(ncchar,NC_CHAR,char,ncuint,NC_UINT,unsigned int)
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ARM(ncchar,NC_CHAR,char,ncint64,NC_INT64,long long)
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ARM(ncchar,NC_CHAR,char,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncchar,NC_CHAR,char,ncfloat,NC_FLOAT,float)
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ARM(ncchar,NC_CHAR,char,ncdouble,NC_DOUBLE,double)
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ARM(ncbyte,NC_BYTE,signed char,ncchar,NC_CHAR,char)
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ARM(ncbyte,NC_BYTE,signed char,ncbyte,NC_BYTE,signed char)
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ARM(ncbyte,NC_BYTE,signed char,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncbyte,NC_BYTE,signed char,ncshort,NC_SHORT,short)
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ARM(ncbyte,NC_BYTE,signed char,ncushort,NC_USHORT,unsigned short)
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ARM(ncbyte,NC_BYTE,signed char,ncint,NC_INT,int)
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ARM(ncbyte,NC_BYTE,signed char,ncuint,NC_UINT,unsigned int)
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ARM(ncbyte,NC_BYTE,signed char,ncint64,NC_INT64,long long)
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ARM(ncbyte,NC_BYTE,signed char,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncbyte,NC_BYTE,signed char,ncfloat,NC_FLOAT,float)
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ARM(ncbyte,NC_BYTE,signed char,ncdouble,NC_DOUBLE,double)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncchar,NC_CHAR,char)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncbyte,NC_BYTE,signed char)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncshort,NC_SHORT,short)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncushort,NC_USHORT,unsigned short)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncint,NC_INT,int)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncuint,NC_UINT,unsigned int)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncint64,NC_INT64,long long)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncfloat,NC_FLOAT,float)
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ARM(ncubyte,NC_UBYTE,unsigned char,ncdouble,NC_DOUBLE,double)
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ARM(ncshort,NC_SHORT,short,ncchar,NC_CHAR,char)
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ARM(ncshort,NC_SHORT,short,ncbyte,NC_BYTE,signed char)
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ARM(ncshort,NC_SHORT,short,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncshort,NC_SHORT,short,ncshort,NC_SHORT,short)
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ARM(ncshort,NC_SHORT,short,ncushort,NC_USHORT,unsigned short)
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ARM(ncshort,NC_SHORT,short,ncint,NC_INT,int)
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ARM(ncshort,NC_SHORT,short,ncuint,NC_UINT,unsigned int)
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ARM(ncshort,NC_SHORT,short,ncint64,NC_INT64,long long)
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ARM(ncshort,NC_SHORT,short,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncshort,NC_SHORT,short,ncfloat,NC_FLOAT,float)
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ARM(ncshort,NC_SHORT,short,ncdouble,NC_DOUBLE,double)
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ARM(ncushort,NC_USHORT,unsigned short,ncchar,NC_CHAR,char)
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ARM(ncushort,NC_USHORT,unsigned short,ncbyte,NC_BYTE,signed char)
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ARM(ncushort,NC_USHORT,unsigned short,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncushort,NC_USHORT,unsigned short,ncshort,NC_SHORT,short)
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ARM(ncushort,NC_USHORT,unsigned short,ncushort,NC_USHORT,unsigned short)
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ARM(ncushort,NC_USHORT,unsigned short,ncint,NC_INT,int)
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ARM(ncushort,NC_USHORT,unsigned short,ncuint,NC_UINT,unsigned int)
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ARM(ncushort,NC_USHORT,unsigned short,ncint64,NC_INT64,long long)
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ARM(ncushort,NC_USHORT,unsigned short,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncushort,NC_USHORT,unsigned short,ncfloat,NC_FLOAT,float)
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ARM(ncushort,NC_USHORT,unsigned short,ncdouble,NC_DOUBLE,double)
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ARM(ncint,NC_INT,int,ncchar,NC_CHAR,char)
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ARM(ncint,NC_INT,int,ncbyte,NC_BYTE,signed char)
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ARM(ncint,NC_INT,int,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncint,NC_INT,int,ncshort,NC_SHORT,short)
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ARM(ncint,NC_INT,int,ncushort,NC_USHORT,unsigned short)
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ARM(ncint,NC_INT,int,ncint,NC_INT,int)
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ARM(ncint,NC_INT,int,ncuint,NC_UINT,unsigned int)
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ARM(ncint,NC_INT,int,ncint64,NC_INT64,long long)
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ARM(ncint,NC_INT,int,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncint,NC_INT,int,ncfloat,NC_FLOAT,float)
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ARM(ncint,NC_INT,int,ncdouble,NC_DOUBLE,double)
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ARM(ncuint,NC_UINT,unsigned int,ncchar,NC_CHAR,char)
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ARM(ncuint,NC_UINT,unsigned int,ncbyte,NC_BYTE,signed char)
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ARM(ncuint,NC_UINT,unsigned int,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncuint,NC_UINT,unsigned int,ncshort,NC_SHORT,short)
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ARM(ncuint,NC_UINT,unsigned int,ncushort,NC_USHORT,unsigned short)
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ARM(ncuint,NC_UINT,unsigned int,ncint,NC_INT,int)
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ARM(ncuint,NC_UINT,unsigned int,ncuint,NC_UINT,unsigned int)
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ARM(ncuint,NC_UINT,unsigned int,ncint64,NC_INT64,long long)
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ARM(ncuint,NC_UINT,unsigned int,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncuint,NC_UINT,unsigned int,ncfloat,NC_FLOAT,float)
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ARM(ncuint,NC_UINT,unsigned int,ncdouble,NC_DOUBLE,double)
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ARM(ncint64,NC_INT64,long long,ncchar,NC_CHAR,char)
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ARM(ncint64,NC_INT64,long long,ncbyte,NC_BYTE,signed char)
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ARM(ncint64,NC_INT64,long long,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncint64,NC_INT64,long long,ncshort,NC_SHORT,short)
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ARM(ncint64,NC_INT64,long long,ncushort,NC_USHORT,unsigned short)
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ARM(ncint64,NC_INT64,long long,ncint,NC_INT,int)
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ARM(ncint64,NC_INT64,long long,ncuint,NC_UINT,unsigned int)
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ARM(ncint64,NC_INT64,long long,ncint64,NC_INT64,long long)
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ARM(ncint64,NC_INT64,long long,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncint64,NC_INT64,long long,ncfloat,NC_FLOAT,float)
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ARM(ncint64,NC_INT64,long long,ncdouble,NC_DOUBLE,double)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncchar,NC_CHAR,char)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncbyte,NC_BYTE,signed char)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncshort,NC_SHORT,short)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncushort,NC_USHORT,unsigned short)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncint,NC_INT,int)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncuint,NC_UINT,unsigned int)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncint64,NC_INT64,long long)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncfloat,NC_FLOAT,float)
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ARM(ncuint64,NC_UINT64,unsigned long long,ncdouble,NC_DOUBLE,double)
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ARM(ncfloat,NC_FLOAT,float,ncchar,NC_CHAR,char)
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ARM(ncfloat,NC_FLOAT,float,ncbyte,NC_BYTE,signed char)
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ARM(ncfloat,NC_FLOAT,float,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncfloat,NC_FLOAT,float,ncshort,NC_SHORT,short)
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ARM(ncfloat,NC_FLOAT,float,ncushort,NC_USHORT,unsigned short)
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ARM(ncfloat,NC_FLOAT,float,ncint,NC_INT,int)
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ARM(ncfloat,NC_FLOAT,float,ncuint,NC_UINT,unsigned int)
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ARM(ncfloat,NC_FLOAT,float,ncint64,NC_INT64,long long)
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ARM(ncfloat,NC_FLOAT,float,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncfloat,NC_FLOAT,float,ncfloat,NC_FLOAT,float)
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ARM(ncfloat,NC_FLOAT,float,ncdouble,NC_DOUBLE,double)
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ARM(ncdouble,NC_DOUBLE,double,ncchar,NC_CHAR,char)
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ARM(ncdouble,NC_DOUBLE,double,ncbyte,NC_BYTE,signed char)
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ARM(ncdouble,NC_DOUBLE,double,ncubyte,NC_UBYTE,unsigned char)
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ARM(ncdouble,NC_DOUBLE,double,ncshort,NC_SHORT,short)
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ARM(ncdouble,NC_DOUBLE,double,ncushort,NC_USHORT,unsigned short)
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ARM(ncdouble,NC_DOUBLE,double,ncint,NC_INT,int)
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ARM(ncdouble,NC_DOUBLE,double,ncuint,NC_UINT,unsigned int)
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ARM(ncdouble,NC_DOUBLE,double,ncint64,NC_INT64,long long)
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ARM(ncdouble,NC_DOUBLE,double,ncuint64,NC_UINT64,unsigned long long)
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ARM(ncdouble,NC_DOUBLE,double,ncfloat,NC_FLOAT,float)
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ARM(ncdouble,NC_DOUBLE,double,ncdouble,NC_DOUBLE,double)
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default: ncstat = NC_EINVAL; THROWCHK(ncstat); goto fail;
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}
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value += nctypesizeof(srctype);
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memory += nctypesizeof(dsttype);
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}
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fail:
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return THROW(ncstat);
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}
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/**
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Convert an attribute value string to a specific type.
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If the conversion fails, then return NC_EBADTYPE.
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If we need an int and the string value is out of range, return NC_ERANGE.
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@param etype the target type
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@param dst the memory into which to put the converted constants
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@param src list of constants as strings
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*/
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NCerror
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dapcvtattrval(nc_type etype, void* dst, NClist* src, NCattribute* att)
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{
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int i;
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NCerror ncstat = NC_NOERR;
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unsigned int memsize = nctypesizeof(etype);
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unsigned int nvalues = nclistlength(src);
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char* dstmem = (char*)dst;
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for(i=0;i<nvalues;i++) {
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/* Convert numeric looking constants to either double
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or signed long long and conforming to etype*/
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char* s;
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size_t slen;
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s = (char*)nclistget(src,i);
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slen = strlen(s);
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if(etype <= NC_DOUBLE && etype != NC_CHAR) {
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struct Value val;
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int stype;
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/* Target types */
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unsigned char* u8p;
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short* i16p;
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unsigned short* u16p;
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int* i32p;
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unsigned int* u32p;
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float* fp;
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double* dp;
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/* Convert string to a number */
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stype = cvtnumconst(s,&val);
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if(stype == NC_NAT) {
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nclog(NCLOGERR,"Unexpected attribute value: %s = %s",att->name,s);
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ncstat = NC_EBADTYPE;
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goto next;
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}
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/* Force conformance with etype */
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/* Do Specific conversions */
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if(stype == NC_DOUBLE && etype < NC_FLOAT) {/* double->integer-type */
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if((ncstat = cvtdbl2int(&val))) goto next;
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stype = NC_INT; /* pretend */
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}else if(stype == NC_INT && etype >= NC_FLOAT) {/*integer-type -> float type*/
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if((ncstat = cvtint2dbl(&val))) goto next;
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stype = NC_DOUBLE; /* pretend */
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}
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if(stype == NC_INT && etype < NC_FLOAT) {/* integer-type -> integer-type */
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if((ncstat = cvtint2int(etype,&val))) goto next;
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}
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switch (etype) {
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case NC_BYTE:
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/* Note that in DAP2, this is unsigned 8-bit integer */
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u8p = (unsigned char*)dstmem;
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*u8p = (unsigned char)(val.llval);
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break;
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case NC_SHORT:
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i16p = (short*)dstmem;
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*i16p = (short)(val.llval);
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break;
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case NC_USHORT:
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u16p = (unsigned short*)dstmem;
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*u16p = (unsigned short)(val.llval);
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break;
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case NC_INT:
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i32p = (int*)dstmem;
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*i32p = (int)(val.llval);
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break;
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case NC_UINT:
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u32p = (unsigned int*)dstmem;
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*u32p = (unsigned int)(val.llval);
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break;
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case NC_FLOAT:
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fp = (float*)dstmem;
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*fp = (float)(val.dval);
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break;
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case NC_DOUBLE:
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dp = (double*)dstmem;
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*dp = (double)(val.dval);
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break;
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default: return NC_EINTERNAL;
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}
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} else if(etype == NC_CHAR) {
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char* p = (char*)dstmem;
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size_t count;
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int nread;
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count = sscanf(s,"%c%n",p,&nread);
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if(count != 1 || nread != slen)
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{ncstat = NC_EBADTYPE; goto next;}
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} else if(etype == NC_STRING || etype == NC_URL) {
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char** p = (char**)dstmem;
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*p = nulldup(s);
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} else {
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PANIC1("unexpected nc_type: %d",(int)etype);
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}
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next: /* inside loop */
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if(ncstat == NC_ERANGE)
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nclog(NCLOGERR,"Attribute value out of range: %s = %s",att->name,s);
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else if(ncstat == NC_EBADTYPE)
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nclog(NCLOGERR,"Unexpected attribute type or untranslatable value: %s",att->name);
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ncstat = NC_NOERR;
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dstmem += memsize;
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}
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return THROW(ncstat);
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}
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/**
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@param val resulting converted numeric value
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@return NC_INT || NC_DOUBLE || NC_NAT (failure)
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*/
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static int
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cvtnumconst(const char* s, struct Value* val)
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{
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size_t slen = strlen(s);
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int nread; /* # of chars read */
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size_t count; /* # of conversions */
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/* Try to convert to integer first */
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count = sscanf(s,"%lld%n",&val->llval,&nread);
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if(count == 1 && nread == slen)
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return NC_INT;
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/* Try to convert to float second */
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#ifdef _WIN32
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if (!_strnicmp(s, "NaN", 3)) {count = 1; nread = 3; val->dval = NAN;} else
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#endif
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count = sscanf(s,"%lg%n",&val->dval,&nread);
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if(count == 1 && nread == slen)
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return NC_DOUBLE;
|
|
return NC_INT;
|
|
}
|
|
|
|
/**
|
|
Convert a struct Value.dval field to a long in struct Value.llval field.
|
|
Report if the result is out of range wrt NC_MAX/MIN_INT.
|
|
@param val store original and converted value
|
|
@return NC_NOERR | NC_ERANGE
|
|
*/
|
|
static int
|
|
cvtdbl2int(struct Value* val)
|
|
{
|
|
/* Inter-convert */
|
|
#ifdef _WIN32
|
|
if(isnan(val->dval)) return NC_ERANGE;
|
|
#endif
|
|
val->llval = (long long)val->dval;
|
|
if(val->llval < NC_MIN_INT || val->llval > NC_MAX_INT)
|
|
return NC_ERANGE;
|
|
return NC_NOERR;
|
|
}
|
|
|
|
/**
|
|
Convert a struct Value.llval field to double in struct Value.dval field.
|
|
@return NC_NOERR
|
|
*/
|
|
static int
|
|
cvtint2dbl(struct Value* val)
|
|
{
|
|
/* Inter-convert */
|
|
val->dval = (double)val->llval;
|
|
return NC_NOERR;
|
|
}
|
|
|
|
/**
|
|
Convert long long bit pattern to conform to a given
|
|
integer type.
|
|
@param dsttype target integer type
|
|
@param valp pointer to long long value to convert
|
|
@return NC_NOERR | NC_EBADTYPE
|
|
*/
|
|
static int
|
|
cvtint2int(nc_type dsttype, struct Value* val)
|
|
{
|
|
/* assert dsttype < NC_FLOAT && dsttype != NC_CHAR */
|
|
|
|
/* We do not actually do much in the way of range checking,
|
|
we just truncate the bit pattern to the proper size, taking
|
|
signedness into account */
|
|
|
|
switch (dsttype) {
|
|
case NC_BYTE:
|
|
val->llval = (long long)((signed char)(val->llval));
|
|
break;
|
|
case NC_UBYTE:
|
|
val->llval = (long long)(val->llval & 0xFF);
|
|
break;
|
|
case NC_SHORT:
|
|
val->llval = (long long)((short)(val->llval));
|
|
break;
|
|
case NC_USHORT:
|
|
val->llval = (long long)(val->llval & 0xFFFF);
|
|
break;
|
|
case NC_INT:
|
|
val->llval = (long long)((int)(val->llval));
|
|
break;
|
|
case NC_UINT:
|
|
val->llval = (long long)(val->llval & 0xFFFFFFFF);
|
|
break;
|
|
default: return NC_EBADTYPE;
|
|
}
|
|
return NC_NOERR;
|
|
}
|