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crmeta.c
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crmeta.c
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/*********************************************************************
* Copyright 2010, UCAR/Unidata
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
* $Id$
* $Header$
*********************************************************************/
#include "config.h"
#include <curl/curl.h>
#include "curlwrap.h"
#include "netcdf.h"
#include "nc.h"
#include "nc4internal.h"
#include "nclist.h"
#include "ncaux.h"
#include "nccr.h"
#include "crdebug.h"
#include "ast.h"
#include "nccrnode.h"
#include "ncStreamx.h"
#include "crmeta.h"
/*Forward*/
static char* crtypename(char*);
static int crbbasetype(nc_type, char*, nc_type, int ndims, Dimension**, nc_type*);
static int crdeffieldvar(nc_type, void* tag, Variable*);
static int crdeffieldstruct(nc_type, void* tag, Structure*);
static int crfillgroup(NCCDMR*, Group*, nc_type);
static int validate_dimensions(size_t ndims, Dimension**, int nounlim);
static int buildvlenchain(int ncid,char*,nc_type,int ndims,Dimension**,int index,nc_type* vidp);
static int locateleftvlen(int ndims, Dimension**, int index);
static int crdefattribute(Attribute* att, nc_type parentid, nc_type scope);
/*
Fetch the metadata and define in the temporary netcdf-4 file
*/
int
nccr_buildnc(NCCDMR* cdmr, Header* hdr)
{
int ncstat = NC_NOERR;
NC* drno = cdmr->controller;
ncstat = crfillgroup(cdmr, hdr->root, drno->substrate);
if(ncstat != NC_NOERR) {THROWCHK(ncstat); goto done;}
done:
return THROW(ncstat);
}
static char*
crtypename(char* name)
{
static char tname[NC_MAX_NAME];
strncpy(tname,name,NC_MAX_NAME-2);
strncat(tname,"_t",NC_MAX_NAME-2);
tname[NC_MAX_NAME-1] = '\0';
return tname; /* Naughty Naughty */
}
/* Use for var fields or top level vars.
Returns the basetype to use for defining
field or var. Assumes v's dimensions have been
validated.
*/
static int
crbbasetype(nc_type grpid, char* name, nc_type basetype,
int ndims, Dimension** dims,
nc_type* newbasetype)
{
int ncstat = NC_NOERR;
int index;
*newbasetype = basetype;
if(ndims == 0) goto done;
/* Locate the first * dimension */
index = locateleftvlen(ndims,dims,0);
if(index >= 0) {
/* Ok, we have to build up the vlen/struct chain to handle * dimensions */
ncstat = buildvlenchain(grpid,name,basetype,ndims,dims,index,newbasetype);
if(ncstat != NC_NOERR) goto done;
}
done:
return ncstat;
}
static int
crdeffieldvar(nc_type grpid, void* tag, Variable* v)
{
int ncstat = NC_NOERR;
nc_type basetype = cvtstreamtonc(v->dataType);
int index,i;
int ndims = v->shape.count;
Dimension** dims = v->shape.values;
if(ndims == 0) {
ncstat = ncaux_add_field(tag,v->name,basetype,0,NULL);
if(ncstat != NC_NOERR) goto done;
} else {
int dimsizes[NC_MAX_VAR_DIMS];
/* Validate the set of dimensions for a field */
if(!validate_dimensions(ndims,dims,1))
{ncstat = NC_EBADDIM; goto done;}
/* Locate the first * dimension */
index = locateleftvlen(ndims,dims,0);
if(index >= 0) {
/* Get the true basetype */
ncstat = crbbasetype(grpid, v->name, basetype,ndims,dims,&basetype);
if(ncstat != NC_NOERR) goto done;
} else index = ndims;
for(i=0;i<index;i++) {
dimsizes[i] = dimsize(dims[i]);
}
ncstat = ncaux_add_field(tag,v->name,basetype,index,dimsizes);
if(ncstat != NC_NOERR) goto done;
}
done:
return ncstat;
}
static int
crdeffieldstruct(nc_type grpid, void* tag, Structure* s)
{
int ncstat = NC_NOERR;
nc_type basetype = s->node.ncid;
int index,i;
int ndims = s->shape.count;
Dimension** dims = s->shape.values;
if(ndims == 0) {
ncstat = ncaux_add_field(tag,s->name,basetype,0,NULL);
if(ncstat != NC_NOERR) goto done;
} else {
int dimsizes[NC_MAX_VAR_DIMS];
/* Validate the set of dimensions for a field */
if(!validate_dimensions(ndims,s->shape.values,1))
{ncstat = NC_EBADDIM; goto done;}
/* Locate the first * dimension */
index = locateleftvlen(ndims,dims,0);
if(index >= 0) {
/* Get the true basetype */
ncstat = crbbasetype(grpid, s->name, basetype, ndims, dims, &basetype);
if(ncstat != NC_NOERR) goto done;
} else index = ndims;
/* Now define the simple case for the non-star leading dimensions */
for(i=0;i<index;i++) {
dimsizes[i] = dimsize(dims[i]);
}
ncstat = ncaux_add_field(tag,s->name,basetype,index,dimsizes);
if(ncstat != NC_NOERR) goto done;
}
done:
return ncstat;
}
/* Actual group is created by caller */
static int
crfillgroup(NCCDMR* cdmr, Group* grp, nc_type grpid)
{
int ncstat = NC_NOERR;
int i,j;
NC* drno = cdmr->controller;
/* Create the dimensions */
for(i=0;i<grp->dims.count;i++) {
Dimension* dim = grp->dims.values[i];
if(((CRnode*)dim)->flags.visible && dim->name.defined) {
size_t length = dimsize(dim);
ncstat = nc_def_dim(grpid,dim->name.value, length, &dim->node.ncid);
if(ncstat != NC_NOERR) goto done;
}
}
/* Create the enum types */
for(i=0;i<grp->enumTypes.count;i++) {
EnumTypedef* en = grp->enumTypes.values[i];
if(en->map.count == 0) continue;
ncstat = nc_def_enum(grpid,NC_INT,crtypename(en->name),&en->node.ncid);
if(ncstat != NC_NOERR) goto done;
for(j=0;j<en->map.count;i++) {
EnumType* econst = en->map.values[i];
ncstat = nc_insert_enum(grpid,en->node.ncid,econst->value,&econst->code);
if(ncstat != NC_NOERR) goto done;
}
}
/* Create the structs (compound) types */
/* Note: structs here are also variables */
for(i=0;i<grp->structs.count;i++) {
void* tag;
Structure* struc = grp->structs.values[i];
if(!((CRnode*)struc)->flags.visible)
continue;
ncstat = ncaux_begin_compound(grpid,crtypename(struc->name),
NCAUX_ALIGN_C,&tag);
if(ncstat != NC_NOERR) goto done;
/* Define the non-structure type fields */
for(j=0;j<struc->vars.count;j++) {
Variable* v = struc->vars.values[i];
ncstat = crdeffieldvar(grpid,tag,v);
if(ncstat != NC_NOERR) goto done;
}
/* Define the structure type fields */
for(j=0;j<struc->structs.count;j++) {
Structure* s = struc->structs.values[i];
ncstat = crdeffieldstruct(grpid,tag,s);
if(ncstat != NC_NOERR) goto done;
}
ncstat = ncaux_end_compound(tag,&struc->node.ncid);
}
/* Create the group global attributes */
for(i=0;i<grp->atts.count;i++) {
Attribute* att = grp->atts.values[i];
ncstat = crdefattribute(att,grpid,NC_GLOBAL);
if(ncstat != NC_NOERR) goto done;
}
/* Create the group non-struct variables */
for(i=0;i<grp->vars.count;i++) {
Variable* v = grp->vars.values[i];
int ndims = v->shape.count;
Dimension** dims = v->shape.values;
nc_type basetype = cvtstreamtonc(v->dataType);
if(!((CRnode*)v)->flags.visible)
continue;
/* Validate as non-field */
if(!validate_dimensions(ndims,dims,0))
{ncstat = NC_EBADDIM; goto done;}
if(ndims == 0) {
ncstat = nc_def_var(grpid,v->name,basetype,0,NULL,&v->node.ncid);
} else {
nc_type dimids[NC_MAX_VAR_DIMS];
int index;
/* Get the proper basetype */
index = locateleftvlen(ndims,dims,0);
if(index >= 0) {
ncstat = crbbasetype(grpid, v->name, basetype, ndims,
dims,&basetype);
if(ncstat != NC_NOERR) goto done;
index++; /* to get ndims count right */
} else index = ndims;
for(j=0;j<index;j++)
dimids[j] = dims[j]->node.ncid;
ncstat = nc_def_var(grpid,v->name,basetype,
index,
dimids,
&v->node.ncid);
/* Define any var attributes */
for(j=0;j<v->atts.count;j++) {
Attribute* att = v->atts.values[j];
ncstat = crdefattribute(att,grpid,v->node.ncid);
if(ncstat != NC_NOERR) goto done;
}
}
}
/* Create the group struct variables */
for(i=0;i<grp->structs.count;i++) {
Structure* s = grp->structs.values[i];
int ndims = s->shape.count;
Dimension** dims = s->shape.values;
nc_type basetype = s->node.ncid;
if(!((CRnode*)s)->flags.visible)
continue;
/* Validate as non-field */
if(!validate_dimensions(ndims,dims,0))
{ncstat = NC_EBADDIM; goto done;}
if(ndims == 0) {
ncstat = nc_def_var(grpid,s->name,basetype,0,NULL,&s->node.ncid);
} else {
nc_type dimids[NC_MAX_VAR_DIMS];
int index;
/* Get the proper basetype */
index = locateleftvlen(ndims,dims,0);
if(index >= 0) {
ncstat = crbbasetype(grpid, s->name, basetype, s->shape.count,
s->shape.values,&basetype);
if(ncstat != NC_NOERR) goto done;
index++;
} else index = ndims;
for(j=0;j<index;j++)
dimids[j] = dims[j]->node.ncid;
ncstat = nc_def_var(grpid,s->name,basetype,index,dimids,&s->node.ncid);
}
/* Define any var attributes */
for(j=0;j<s->atts.count;j++) {
Attribute* att = s->atts.values[j];
ncstat = crdefattribute(att,grpid,s->node.ncid);
if(ncstat != NC_NOERR) goto done;
}
}
done:
return ncstat;
}
static int
crdefattribute(Attribute* att, nc_type parentid, nc_type scope)
{
int ncstat = NC_NOERR;
if(att->data.defined) {
ncstat = nc_put_att(parentid,scope,att->name,
cvtstreamtonc(att->type),
att->len,
att->data.value.bytes);
} else if(att->sdata.count > 0) {
switch (att->type) {
case OPAQUE: case CHAR: {
/* Concat all the elements; note this really does not work right*/
size_t i;
size_t slen;
char* attval;
for(slen=0,i=0;i<att->sdata.count;i++)
slen += strlen(att->sdata.values[i]);
attval = (char*)malloc(slen+1);
if(attval == NULL) return NC_ENOMEM;
attval[0] = '\0';
for(i=0;i<att->sdata.count;i++)
strcpy(attval,att->sdata.values[i]);
ncstat = nc_put_att(parentid,scope,att->name,
(att->type == OPAQUE?NC_UBYTE:NC_CHAR),
slen,
attval);
} break;
case STRING: {
ncstat = nc_put_att(parentid,scope,att->name,
NC_STRING,
att->sdata.count,
att->sdata.values);
} break;
default:
assert(0);
}
}
return ncstat;
}
/***************************************************/
/* Map ncstream primitive datatypes to netcdf primitive datatypes */
nc_type
cvtstreamtonc(DataType datatype)
{
switch (datatype) {
case CHAR: return NC_CHAR;
case BYTE: return NC_BYTE;
case SHORT: return NC_SHORT;
case INT: return NC_INT;
case INT64: return NC_INT64;
case FLOAT: return NC_FLOAT;
case DOUBLE: return NC_DOUBLE;
case STRING: return NC_STRING;
case UBYTE: return NC_UBYTE;
case USHORT: return NC_USHORT;
case UINT: return NC_UINT;
case UINT64: return NC_UINT64;
default: break;
}
return NC_NAT;
}
/* Classify a dimension */
enum Dimcase
classifydim(Dimension* dim)
{
int len=0, unlim=0, vlen=0, priv=0;
if(dim->length.defined) len=(dim->length.value?1:0);
if(dim->isUnlimited.defined) unlim=(dim->isUnlimited.value?1:0);
if(dim->isVlen.defined) vlen=(dim->isVlen.value?1:0);
if(dim->isPrivate.defined) priv=(dim->isPrivate.value?1:0);
if(len+unlim+vlen+priv > 1) goto fail;
if(len) return DC_FIXED;
if(unlim) return DC_UNLIMITED;
if(vlen) return DC_VLEN;
if(priv) return DC_PRIVATE;
fail:
return DC_UNKNOWN;
}
int
dimsize(Dimension* dim)
{
if(dim->isUnlimited.defined && dim->isUnlimited.value) {
if(dim->length.defined) {
return dim->length.value;
} else
return NC_UNLIMITED;
} else if(dim->isVlen.defined && dim->isVlen.value) {
if(dim->length.defined) {
return dim->length.value;
} else
return -1;
} else if(dim->length.defined)
return dim->length.value;
return -1;
}
#ifdef IGNORe
static int
dimsizes(int ndims, Dimension** dims, int sizes[NC_MAX_VAR_DIMS])
{
int i;
if(ndims > NC_MAX_VAR_DIMS) return NC_EINVAL;
for(i=0;i<ndims;i++) {
sizes[i] = dimsize(dims[i]);
}
return NC_NOERR;
}
#endif /*IGNORE*/
/* Validate that the set of dimensions can be translated */
static int
validate_dimensions(size_t ndims, Dimension** dims, int nounlim)
{
int i,j;
if(ndims == 0) return NC_NOERR;
/* Validate the dimensions to check for
non-translatable situations
- UNLIMITED following a star
- Any occurrence of Private
- no occurrences of unlimited (if nounlim is set)
*/
/* Look for untranslatable dimensions */
for(i=0;i<ndims;i++) {
Dimension* dim = dims[i];
enum Dimcase dc = classifydim(dim);
switch (dc) {
case DC_FIXED: break;
case DC_VLEN: break;
case DC_UNLIMITED: if(nounlim) goto untranslatable; else break;
default: goto untranslatable;
}
}
/* Look for unlimited after vlen */
for(i=0;i<ndims;i++) {
Dimension* dim0 = dims[i];
enum Dimcase dc = classifydim(dim0);
if(dc != DC_VLEN) continue;
for(j=i+1;j<ndims;j++) {
Dimension* dim1 = dims[j];
dc = classifydim(dim1);
if(dc == DC_UNLIMITED) goto untranslatable;
}
}
return NC_NOERR;
untranslatable:
return NC_ETRANSLATION;
}
/**
Given a variable of the form
T v(d1,d2,d3,*,d4,*,d5)
We need to create the following compound and vlen types.
compound v_1 {T v(d5);
v_1(*) v_2;
compound v_2 {v_1 v(d4);}
v_2(*) v_3;
and then finally
v3 v(d1,d2,d3)
Handle special cases:
1. when last dim is a vlen
*/
#ifdef IGNORE
static int
buildfield(int ncid,
void* cmpd,
char* name,
nc_type basetype,
int ndims,
Dimension** dims)
{
int status = NC_NOERR;
/* Do some special cases */
if(ndims == 0) {
status = ncaux_add_field(cmpd,name,basetype,0,NULL);
} else {
/* Need to create the needed subsidiary vlen types */
int vlenid,pos;
pos = locateleftvlen(ndims,dims,0);
status = buildvlenchain(ncid,name,basetype,ndims,dims,pos+1,&vlenid);
if(status != NC_NOERR) goto done;
if(pos < 0) {
status = ncaux_add_field(cmpd,name,vlenid,0,NULL);
} else { /* pos >= 0 */
int i;
int dimsizes[NC_MAX_VAR_DIMS];
for(i=0;i<pos;i++)
dimsizes[i] = dimsize(dims[i]);
status = ncaux_add_field(cmpd,name,vlenid,pos,dimsizes);
}
if(status != NC_NOERR) goto done;
}
done:
return status;
}
#endif
static int
buildvlenchain(int ncid,
char* name,
nc_type basetype,
int ndims,
Dimension** dims,
int index,
nc_type* vidp)
{
int i, pos;
int status = NC_NOERR;
char suid[4];
char typename[NC_MAX_NAME+3+1];
void* tag;
int nidims;
int idims[NC_MAX_VAR_DIMS];
nc_type newid;
/* Locate the leftmost * dimension starting at index*/
pos = locateleftvlen(ndims,dims,index);
if(pos < 0) {
/* We have hit the terminal set of dimensions; create a compound type */
strcpy(typename,name);
snprintf(suid,sizeof(suid),"%3d",index);
strcat(typename,suid);
status = ncaux_begin_compound(ncid,typename,NCAUX_ALIGN_C,&tag);
if(status != NC_NOERR) goto done;
/* Create a single field */
nidims = (ndims - index);
for(i=index;i<ndims;i++)
idims[i] = dimsize(dims[i]);
status = ncaux_add_field(tag,name,basetype,nidims,idims);
if(status != NC_NOERR) goto done;
status = ncaux_end_compound(tag,vidp);
if(status != NC_NOERR) goto done;
} else if(pos == (ndims - 1)) {
/* Create a terminal vlen */
strcpy(typename,name);
snprintf(suid,sizeof(suid),"%3d",index);
strcat(typename,suid);
status = nc_def_vlen(ncid,typename,basetype,vidp);
if(status != NC_NOERR) goto done;
} else { /* recurse */
status = buildvlenchain(ncid,name,basetype,ndims,dims,pos+1,&newid);
if(status != NC_NOERR) goto done;
/* Create the compound if needed */
if(pos > (index + 1)) {
/* intermediate dimensions, so create compound */
strcpy(typename,name);
snprintf(suid,sizeof(suid),"%3d",index+1);
strcat(typename,suid);
status = ncaux_begin_compound(ncid,typename,NCAUX_ALIGN_C,&tag);
if(status != NC_NOERR) goto done;
/* Create a single field */
nidims = (ndims - index);
for(i=index;i<ndims;i++)
idims[i] = dimsize(dims[i]);
status = ncaux_add_field(tag,name,basetype,nidims,idims);
if(status != NC_NOERR) goto done;
status = ncaux_end_compound(tag,&newid);
if(status != NC_NOERR) goto done;
} else
newid = basetype;
/* create the vlen */
strcpy(typename,name);
snprintf(suid,sizeof(suid),"%3d",index);
strcat(typename,suid);
status = nc_def_vlen(ncid,typename,newid,vidp);
if(status != NC_NOERR) goto done;
}
done:
return status;
}
static int
locateleftvlen(int ndims, Dimension** dims, int index)
{
int i;
/* Locate the leftmost * dimension starting at index*/
for(i=0;i<ndims;i++) {
Dimension* dim = dims[i];
enum Dimcase dc = classifydim(dim);
if(dc == DC_VLEN) return i;
}
return -1; /* no vlen located */
}
int
crextractshape(CRnode* src, CRshape* dst)
{
if(src->sort == _Variable)
memcpy((void*)dst,(void*)&((Variable*)src)->shape,sizeof(CRshape));
else if(src->sort == _Structure)
memcpy((void*)dst,(void*)&((Structure*)src)->shape,sizeof(CRshape));
else
return 0;
return 1;
}