/*
Delete the entry.
return value = 1 => found and deleted;
0 => param not found
*/
static int
nc_urlparamdelete(NClist* params, const char* clientparam)
{
int i,found = 0;
if(params == NULL || clientparam == NULL) return 0;
for(i=0;i<nclistlength(params);i+=2) {
char* name = (char*)nclistget(params,i);
if(strcmp(clientparam,name)==0) {found=1; break;}
}
if(found) {
nclistremove(params,i+1); /* remove value */
nclistremove(params,i); /* remove name */
}
return found;
}
/* Return 1 if we can reuse cached data to address
the current get_vara request; return 0 otherwise.
Target is in the constrained tree space.
Currently, if the target matches a cache that is not
a whole variable, then match is false.
*/
int
iscached(NCDAPCOMMON* nccomm, CDFnode* target, NCcachenode** cachenodep)
{
int i,j,found,index;
NCcache* cache;
NCcachenode* cachenode;
found = 0;
if(target == NULL) goto done;
/* Match the target variable against the prefetch, if any */
/* Note that prefetches are always whole variable */
cache = nccomm->cdf.cache;
cachenode = cache->prefetch;
if(cachenode!= NULL) {
for(found=0,i=0;i<nclistlength(cachenode->vars);i++) {
CDFnode* var = (CDFnode*)nclistget(cachenode->vars,i);
if(var == target) {
if(cachenodep) *cachenodep = cachenode;
found=1;
goto done;
}
}
}
/*search other cache nodes starting at latest first */
index = 0;
for(i=nclistlength(cache->nodes)-1;i>=0;i--) {
cachenode = (NCcachenode*)nclistget(cache->nodes,i);
/* We currently do not try to match constraints;
If the cachenode is constrained, then skip it
*/
if(!cachenode->wholevariable) continue;
for(found=0,j=0;j<nclistlength(cachenode->vars);j++) {
CDFnode* var = (CDFnode*)nclistget(cachenode->vars,j);
if(var == target) {found=1;index=i;break;}
}
if(found) break;
}
if(found) {
ASSERT((cachenode != NULL));
if(nclistlength(cache->nodes) > 1) {
/* Manage the cache nodes as LRU */
nclistremove(cache->nodes,index);
nclistpush(cache->nodes,(ncelem)cachenode);
}
if(cachenodep) *cachenodep = cachenode;
}
done:
#ifdef DEBUG
fprintf(stderr,"iscached: search: %s\n",makesimplepathstring3(target));
if(found)
fprintf(stderr,"iscached: found: %s\n",dumpcachenode(cachenode));
else
fprintf(stderr,"iscached: notfound\n");
#endif
return found;
}
/* Suppress variables not in usable sequences*/
NCerror
suppressunusablevars3(NCDAPCOMMON* dapcomm)
{
int i,j;
int found = 1;
NClist* path = nclistnew();
while(found) {
found = 0;
/* Walk backwards to aid removal semantics */
for(i=nclistlength(dapcomm->cdf.ddsroot->tree->varnodes)-1;i>=0;i--) {
CDFnode* var = (CDFnode*)nclistget(dapcomm->cdf.ddsroot->tree->varnodes,i);
/* See if this var is under an unusable sequence */
nclistclear(path);
collectnodepath3(var,path,WITHOUTDATASET);
for(j=0;j<nclistlength(path);j++) {
CDFnode* node = (CDFnode*)nclistget(path,j);
if(node->nctype == NC_Sequence
&& !node->usesequence) {
#ifdef DEBUG
fprintf(stderr,"suppressing var in unusable sequence: %s.%s\n",node->ncfullname,var->ncbasename);
#endif
found = 1;
break;
}
}
if(found) break;
}
if(found) nclistremove(dapcomm->cdf.ddsroot->tree->varnodes,i);
}
nclistfree(path);
return NC_NOERR;
}
/*
Given two projection lists, merge
src into dst taking
overlapping projections into acct.
Assume that name qualification has occured.
Dst will be modified.
*/
NCerror
mergeprojections3(NClist* dst, NClist* src)
{
int i;
NClist* cat = nclistnew();
NCerror ncstat = NC_NOERR;
#ifdef DEBUG
fprintf(stderr,"mergeprojection: dst = %s\n",dumpprojections(dst));
fprintf(stderr,"mergeprojection: src = %s\n",dumpprojections(src));
#endif
ASSERT(dst != NULL);
/* get dst concat clone(src) */
nclistsetalloc(cat,nclistlength(dst)+nclistlength(src));
for(i=0;i<nclistlength(dst);i++) {
DCEprojection* p = (DCEprojection*)nclistget(dst,i);
nclistpush(cat,(ncelem)p);
}
if(src != NULL) for(i=0;i<nclistlength(src);i++) {
DCEprojection* p = (DCEprojection*)nclistget(src,i);
nclistpush(cat,(ncelem)dceclone((DCEnode*)p));
}
nclistclear(dst);
/* Repeatedly pull elements from the concat,
merge with all duplicates, and stick into
the dst
*/
while(nclistlength(cat) > 0) {
DCEprojection* target = (DCEprojection*)nclistremove(cat,0);
if(target == NULL) continue;
if(target->discrim != CES_VAR) continue;
for(i=0;i<nclistlength(cat);i++) {
DCEprojection* p2 = (DCEprojection*)nclistget(cat,i);
if(p2 == NULL) continue;
if(p2->discrim != CES_VAR) continue;
if(target->var->cdfleaf != p2->var->cdfleaf) continue;
/* This entry matches our current target; merge */
ncstat = mergeprojection31(target,p2);
/* null out this merged entry and release it */
nclistset(cat,i,(ncelem)NULL);
dcefree((DCEnode*)p2);
}
/* Capture the clone */
nclistpush(dst,(ncelem)target);
}
nclistfree(cat);
return ncstat;
}
int
dcemergeprojectionlists(NClist* dst, NClist* src)
{
int i;
NClist* cat = nclistnew();
int ncstat = NC_NOERR;
#ifdef DEBUG
fprintf(stderr,"dapmergeprojection: dst = %s\n",dcetostring((DCEnode*)dst));
fprintf(stderr,"dapmergeprojection: src = %s\n",dcetostring((DCEnode*)src));
#endif
/* get dst concat clone(src) */
nclistsetalloc(cat,nclistlength(dst)+nclistlength(src));
for(i=0;i<nclistlength(dst);i++) {
DCEprojection* p = (DCEprojection*)nclistget(dst,i);
nclistpush(cat,(void*)p);
}
for(i=0;i<nclistlength(src);i++) {
DCEprojection* p = (DCEprojection*)nclistget(src,i);
nclistpush(cat,(void*)dceclone((DCEnode*)p));
}
nclistclear(dst);
/* Repeatedly pull elements from the concat,
merge with all duplicates, and stick into
the dst
*/
while(nclistlength(cat) > 0) {
DCEprojection* target = (DCEprojection*)nclistremove(cat,0);
if(target == NULL) continue;
if(target->discrim != CES_VAR) continue;
for(i=0;i<nclistlength(cat);i++) {
DCEprojection* p2 = (DCEprojection*)nclistget(cat,i);
if(p2 == NULL) continue;
if(p2->discrim != CES_VAR) continue;
if(dcesamepath(target->var->segments,
p2->var->segments)!=0) continue;
/* This entry matches our current target; merge */
ncstat = dcemergeprojections(target,p2);
/* null out this merged entry and release it */
nclistset(cat,i,(void*)NULL);
dcefree((DCEnode*)p2);
}
/* Capture the clone */
nclistpush(dst,(void*)target);
}
nclistfree(cat);
return ncstat;
}
/* return TRUE if found, false otherwise*/
int
nchashremove(NChashmap* hm, nchashid hash)
{
int i,offset,len;
NClist* seq;
void** list;
offset = (hash % hm->alloc);
seq = hm->table[offset];
if(seq == NULL) return TRUE;
len = nclistlength(seq);
list = nclistcontents(seq);
for(i=0;i<len;i+=2,list+=2) {
if(hash==(nchashid)(*list)) {
nclistremove(seq,i+1);
nclistremove(seq,i);
hm->size--;
if(nclistlength(seq) == 0) {nclistfree(seq); hm->table[offset] = NULL;}
return TRUE;
}
}
return FALSE;
}
int
nclistdeleteall(NClist* l, void* elem)
{
int i; /* do not make unsigned */
unsigned int len,found;
found = 0;
len = nclistlength(l);
for(i=len-1;i>=0;i--) {
void* test = nclistget(l,i);
if(test==elem) {
nclistremove(l,i);
found=1;
}
}
return found;
}
/**
* @internal
*
* Construct the provenance information for a newly opened file
* Using the specified _NCProperties value. If NULL, then
* initialize using dfalt.
*
* @param file Pointer to file object.
* @param propstring The contents of _NCProperties
* @param dfalt
*
* @return ::NC_NOERR No error.
* @return ::NC_ENOMEM
* @return ::NC_EINVAL
* @author Dennis Heimbigner
*/
int
NC4_get_provenance(NC_FILE_INFO_T* file, const char* propstring, const struct NCPROPINFO* dfalt)
{
int ncstat = NC_NOERR;
struct NCPROVENANCE* provenance;
char *name = NULL;
char *value = NULL;
int v = 0;
int superblock = -1;
LOG((3, "%s: ncid 0x%x propstring %s", __func__, file->root_grp->hdr.id, propstring));
assert(file->provenance == NULL);
if((file->provenance = calloc(1,sizeof(struct NCPROVENANCE))) == NULL)
{ncstat = NC_ENOMEM; goto done;}
provenance = file->provenance;
if((provenance->propattr.properties = nclistnew()) == NULL)
{ncstat = NC_ENOMEM; goto done;}
/* Set the superblock */
if((ncstat = NC4_hdf5get_superblock(file,&superblock)))
goto done;
provenance->superblockversion = superblock;
if(propstring == NULL) {
/* Use dfalt */
if((ncstat=propinfo_default(&provenance->propattr,dfalt)))
goto done;
} else {
NClist* list = provenance->propattr.properties;
if((ncstat=properties_parse(propstring,list)))
goto done;
/* Check the version and remove from properties list*/
if(nclistlength(list) < 2)
{ncstat = NC_EINVAL; goto done;} /* bad _NCProperties attribute */
/* Extract the purported version=... */
name = nclistremove(list,0);
value = nclistremove(list,0);
if(strcmp(name,NCPVERSION) == 0) {
if(sscanf(value,"%d",&v) != 1)
{ncstat = NC_EINVAL; goto done;} /* illegal version */
if(v <= 0 || v > NCPROPS_VERSION)
{ncstat = NC_EINVAL; goto done;} /* unknown version */
provenance->propattr.version = v;
} else
{ncstat = NC_EINVAL; goto done;} /* bad _NCProperties attribute */
/* Now, rebuild from version 1 to version 2 if necessary */
if(provenance->propattr.version == 1) {
int i;
for(i=0;i<nclistlength(list);i+=2) {
char* newname = NULL;
name = nclistget(list,i);
if(name == NULL) continue; /* ignore */
if(strcmp(name,NCPNCLIB1) == 0)
newname = NCPNCLIB2; /* change name */
else if(strcmp(name,NCPHDF5LIB1) == 0)
newname = NCPHDF5LIB2;
else continue; /* ignore */
/* Do any rename */
nclistset(list,i,strdup(newname));
if(name) {free(name); name = NULL;}
}
}
}
done:
if(name != NULL) free(name);
if(value != NULL) free(value);
return ncstat;
}
NCerror
fixprojections(NClist* list)
{
int i,j,k;
NCerror ncstat = NC_NOERR;
NClist* tmp = nclistnew(); /* misc. uses */
#ifdef DEBUG
fprintf(stderr,"fixprojection: list = %s\n",dumpprojections(list));
#endif
if(nclistlength(list) == 0) goto done;
/* Step 1: remove duplicates and complain about slice mismatches */
for(i=0;i<nclistlength(list);i++) {
DCEprojection* p1 = (DCEprojection*)nclistget(list,i);
if(p1 == NULL) continue;
if(p1->discrim != CES_VAR) continue; /* dont try to unify functions */
for(j=i;j<nclistlength(list);j++) {
DCEprojection* p2 = (DCEprojection*)nclistget(list,j);
if(p2 == NULL) continue;
if(p1 == p2) continue;
if(p2->discrim != CES_VAR) continue;
if(p1->var->annotation != p2->var->annotation) continue;
/* check for slice mismatches */
if(!slicematch(p1->var->segments,p2->var->segments)) {
/* complain */
nclog(NCLOGWARN,"Malformed projection: same variable with different slicing");
}
/* remove p32 */
nclistset(list,j,(ncelem)NULL);
dcefree((DCEnode*)p2);
}
}
/* Step 2: remove containers when a field is also present */
for(i=0;i<nclistlength(list);i++) {
DCEprojection* p1 = (DCEprojection*)nclistget(list,i);
if(p1 == NULL) continue;
if(p1->discrim != CES_VAR) continue; /* dont try to unify functions */
if(!iscontainer((CDFnode*)p1->var->annotation))
continue;
for(j=i;j<nclistlength(list);j++) {
DCEprojection* p2 = (DCEprojection*)nclistget(list,j);
if(p2 == NULL) continue;
if(p2->discrim != CES_VAR) continue;
nclistclear(tmp);
collectnodepath3((CDFnode*)p2->var->annotation,tmp,WITHDATASET);
for(k=0;k<nclistlength(tmp);k++) {
void* candidate = (void*)nclistget(tmp,k);
if(candidate == p1->var->annotation) {
nclistset(list,i,(ncelem)NULL);
dcefree((DCEnode*)p1);
goto next;
}
}
}
next: continue;
}
/* Step 3: expand all containers recursively down to the leaf nodes */
for(;;) {
nclistclear(tmp);
for(i=0;i<nclistlength(list);i++) {
DCEprojection* target = (DCEprojection*)nclistget(list,i);
CDFnode* leaf;
if(target == NULL) continue;
if(target->discrim != CES_VAR)
continue; /* dont try to unify functions */
leaf = (CDFnode*)target->var->annotation;
ASSERT(leaf != NULL);
if(iscontainer(leaf)) {/* capture container */
if(!nclistcontains(tmp,(ncelem)target))
nclistpush(tmp,(ncelem)target);
nclistset(list,i,(ncelem)NULL);
}
}
if(nclistlength(tmp) == 0) break; /*done*/
/* Now explode the containers */
for(i=0;i<nclistlength(tmp);i++) {
DCEprojection* container = (DCEprojection*)nclistget(tmp,i);
CDFnode* leaf = (CDFnode*)container->var->annotation;
for(j=0;i<nclistlength(leaf->subnodes);j++) {
CDFnode* field = (CDFnode*)nclistget(leaf->subnodes,j);
/* Convert field node to a proper constraint */
DCEprojection* proj = projectify(field,container);
nclistpush(list,(ncelem)proj);
}
/* reclaim the container */
dcefree((DCEnode*)container);
}
} /*for(;;)*/
/* remove all NULL elements */
for(i=nclistlength(list)-1;i>=0;i--) {
DCEprojection* target = (DCEprojection*)nclistget(list,i);
if(target == NULL)
nclistremove(list,i);
}
done:
#ifdef DEBUG
fprintf(stderr,"fixprojection: exploded = %s\n",dumpprojections(list));
#endif
nclistfree(tmp);
return ncstat;
}
NCerror
buildcachenode34(NCDAPCOMMON* nccomm,
DCEconstraint* constraint,
NClist* varlist,
NCcachenode** cachep,
NCFLAGS flags)
{
NCerror ncstat = NC_NOERR;
OCerror ocstat = OC_NOERR;
OClink conn = nccomm->oc.conn;
OCddsnode ocroot = NULL;
CDFnode* dxdroot = NULL;
NCcachenode* cachenode = NULL;
char* ce = NULL;
int isprefetch = 0;
if((flags & NCF_PREFETCH) != 0)
isprefetch = 1;
if((flags & NCF_PREFETCH_ALL) == 0)
ce = buildconstraintstring3(constraint);
ocstat = dap_fetch(nccomm,conn,ce,OCDATADDS,&ocroot);
nullfree(ce);
if(ocstat) {THROWCHK(ocerrtoncerr(ocstat)); goto done;}
ncstat = buildcdftree34(nccomm,ocroot,OCDATA,&dxdroot);
if(ncstat) {THROWCHK(ncstat); goto done;}
/* re-struct*/
if(!FLAGSET(nccomm->controls,NCF_UNCONSTRAINABLE)) {
ncstat = restruct3(dxdroot,nccomm->cdf.ddsroot,constraint->projections);
if(ncstat) {THROWCHK(ncstat); goto done;}
}
/* create the cache node */
cachenode = createnccachenode();
cachenode->isprefetch = isprefetch;
cachenode->vars = nclistclone(varlist);
cachenode->datadds = dxdroot;
/* Give the constraint over to the cachenode */
cachenode->constraint = constraint;
constraint = NULL;
cachenode->wholevariable = iscacheableconstraint(cachenode->constraint);
/* save the root content*/
cachenode->ocroot = ocroot;
ocstat = oc_data_getroot(conn,ocroot,&cachenode->content);
if(ocstat) {THROWCHK(ocerrtoncerr(ocstat)); goto done;}
/* capture the packet size */
ocstat = oc_raw_xdrsize(conn,ocroot,&cachenode->xdrsize);
if(ocstat) {THROWCHK(ocerrtoncerr(ocstat)); goto done;}
#ifdef DEBUG
fprintf(stderr,"buildcachenode: new cache node: %s\n",
dumpcachenode(cachenode));
#endif
/* Insert into the cache. If not caching, then
remove any previous cache node
*/
if(!isprefetch) {
NCcache* cache = nccomm->cdf.cache;
if(cache->nodes == NULL) cache->nodes = nclistnew();
/* remove cache nodes to get below the max cache size */
while(cache->cachesize + cachenode->xdrsize > cache->cachelimit
&& nclistlength(cache->nodes) > 0) {
NCcachenode* node = (NCcachenode*)nclistremove(cache->nodes,0);
#ifdef DEBUG
fprintf(stderr,"buildcachenode: purge cache node: %s\n",
dumpcachenode(cachenode));
#endif
cache->cachesize -= node->xdrsize;
freenccachenode(nccomm,node);
}
/* Remove cache nodes to get below the max cache count */
/* If not caching, then cachecount should be 0 */
while(nclistlength(cache->nodes) > cache->cachecount) {
NCcachenode* node = (NCcachenode*)nclistremove(cache->nodes,0);
#ifdef DEBUG
fprintf(stderr,"buildcachenode: count purge cache node: %s\n",
dumpcachenode(node));
#endif
cache->cachesize -= node->xdrsize;
freenccachenode(nccomm,node);
}
nclistpush(nccomm->cdf.cache->nodes,(void*)cachenode);
cache->cachesize += cachenode->xdrsize;
}
#ifdef DEBUG
fprintf(stderr,"buildcachenode: %s\n",dumpcachenode(cachenode));
#endif
done:
if(constraint != NULL) dcefree((DCEnode*)constraint);
if(cachep) *cachep = cachenode;
if(ocstat != OC_NOERR) ncstat = ocerrtoncerr(ocstat);
if(ncstat) {
freecdfroot34(dxdroot);
freenccachenode(nccomm,cachenode);
}
return THROW(ncstat);
}
/* See if we can unify sets of nodes to be projected
into larger units.
*/
static NClist*
unifyprojectionnodes3(NClist* varlist)
{
int i;
NClist* nodeset = nclistnew();
NClist* containerset = nclistnew();
NClist* containernodes = nclistnew();
nclistsetalloc(nodeset,nclistlength(varlist));
nclistsetalloc(containerset,nclistlength(varlist));
/* Duplicate the varlist so we can modify it;
simultaneously collect unique container set.
*/
for(i=0;i<nclistlength(varlist);i++) {
CDFnode* var = (CDFnode*)nclistget(varlist,i);
CDFnode* container = var->container;
nclistpush(nodeset,(ncelem)var);
switch (container->nctype) {
case NC_Sequence: case NC_Structure: case NC_Grid: case NC_Dataset:
/* add (uniquely) to container set */
if(!nclistcontains(containerset,(ncelem)container))
nclistpush(containerset,(ncelem)container);
break;
default: break;
}
}
/* Now, try to find containers whose subnodes are all in the
varlist; repeat until no more changes */
for(;;) {
int changed = 0;
for(i=0;i<nclistlength(containerset);i++) {
int j, allfound;
CDFnode* container = (CDFnode*)nclistget(containerset,i);
if(container == NULL) continue;
nclistclear(containernodes);
for(allfound=1,j=0;j<nclistlength(container->subnodes);j++) {
CDFnode* subnode = (CDFnode*)nclistget(container->subnodes,j);
if(!nclistcontains(varlist,(ncelem)subnode)) {allfound=0;break;}
nclistpush(containernodes,(ncelem)subnode);
}
if(allfound) {
nclistpush(nodeset,(ncelem)container);
nclistset(containerset,i,(ncelem)NULL); /* remove */
for(j=nclistlength(nodeset)-1;j>=0;j--) { /* walk backwards */
CDFnode* testnode = (CDFnode*)nclistget(nodeset,j);
if(nclistcontains(containernodes,(ncelem)testnode))
nclistremove(nodeset,j);/* remove */
}
changed = 1;
}
}
if(!changed) break; /* apparently we have reached a stable situation */
}
/* If there is only the dataset left as a projection, then remove it */
if(nclistlength(nodeset) == 1) {
CDFnode* thenode = (CDFnode*)nclistget(nodeset,0);
if(thenode->nctype == NC_Dataset) nclistclear(nodeset);
}
nclistfree(containerset);
nclistfree(containernodes);
return nodeset;
}
void
restrictprojection34(NClist* varlist, NClist* projections)
{
int i,j,len;
#ifdef DEBUG
fprintf(stderr,"restriction.before=|%s|\n",
dumpprojections(projections));
#endif
if(nclistlength(varlist) == 0) goto done; /* nothing to add or remove */
/* If the projection list is empty, then add
a projection for every variable in varlist
*/
if(nclistlength(projections) == 0) {
NClist* path = nclistnew();
NClist* nodeset = NULL;
/* Attempt to unify the vars into larger units
(like a complete grid) */
nodeset = unifyprojectionnodes3(varlist);
for(i=0;i<nclistlength(nodeset);i++) {
CDFnode* var = (CDFnode*)nclistget(nodeset,i);
#ifdef DEBUG
fprintf(stderr,"restriction.candidate=|%s|\n",var->ncfullname);
#endif
DCEprojection* newp = (DCEprojection*)dcecreate(CES_PROJECT);
newp->discrim = CES_VAR;
newp->var = (DCEvar*)dcecreate(CES_VAR);
newp->var->cdfleaf = var;
nclistclear(path);
collectnodepath3(var,path,!WITHDATASET);
newp->var->segments = nclistnew();
for(j=0;j<nclistlength(path);j++) {
CDFnode* node = (CDFnode*)nclistget(path,j);
DCEsegment* newseg = (DCEsegment*)dcecreate(CES_SEGMENT);
newseg->name = nulldup(node->name);
makewholesegment3(newseg,node);/*treat as simple projections*/
newseg->cdfnode = node;
nclistpush(newp->var->segments,(ncelem)newseg);
}
nclistpush(projections,(ncelem)newp);
}
nclistfree(path);
nclistfree(nodeset);
} else {
/* Otherwise, walk all the projections and see if they
intersect any of the variables. If not,
then remove from the projection list.
*/
len = nclistlength(projections);
for(i=len-1;i>=0;i--) {/* Walk backward to facilitate removal*/
int intersect = 0;
DCEprojection* proj = (DCEprojection*)nclistget(projections,i);
if(proj->discrim != CES_VAR) continue;
for(j=0;j<nclistlength(varlist);j++) {
CDFnode* var = (CDFnode*)nclistget(varlist,j);
/* Note that intersection could go either way */
if(treecontains3(var,proj->var->cdfleaf)
|| treecontains3(proj->var->cdfleaf,var)) {intersect = 1; break;}
}
if(!intersect) {
/* suppress this projection */
DCEprojection* p = (DCEprojection*)nclistremove(projections,i);
dcefree((DCEnode*)p);
}
}
/* Now looks for containment between projections and only keep
the more restrictive. Is this algorithm stable against reordering?.
*/
for(;;) {
int removed = 0;
for(i=0;i<nclistlength(projections);i++) {
DCEprojection* pi = (DCEprojection*)nclistget(projections,i);
if(pi->discrim != CES_VAR) continue;
for(j=0;j<i;j++) {
DCEprojection* pj = (DCEprojection*)nclistget(projections,j);
if(pj->discrim != CES_VAR) continue;
if(treecontains3(pi->var->cdfleaf,pj->var->cdfleaf)) {
DCEprojection* p = (DCEprojection*)nclistremove(projections,j);
dcefree((DCEnode*)p);
removed = 1;
break;
} else if(treecontains3(pj->var->cdfleaf,pi->var->cdfleaf)) {
DCEprojection* p = (DCEprojection*)nclistremove(projections,i);
dcefree((DCEnode*)p);
removed = 1;
break;
}
}
}
if(!removed) break;
}
}
done:
#ifdef DEBUG
fprintf(stderr,"restriction.after=|%s|\n",
dumpprojections(projections));
#endif
return;
}
