netcdf-c/libdap2/dceparse.c

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2011-04-18 02:56:10 +08:00
/* Copyright 2009, UCAR/Unidata and OPeNDAP, Inc.
See the COPYRIGHT file for more information. */
/* Parser actions for constraint expressions */
/* Since oc does not use the constraint parser,
they functions all just abort if called.
*/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "netcdf.h"
#include "nclist.h"
#include "ncbytes.h"
#include "dceconstraints.h"
#include "dceparselex.h"
static Object collectlist(Object list0, Object decl);
void
projections(DCEparsestate* state, Object list0)
{
NClist* list = (NClist*)list0;
if(list != NULL) {
nclistfree(state->constraint->projections);
state->constraint->projections = list;
}
#ifdef DEBUG
fprintf(stderr," ce.projections: %s\n",
dcetostring((DCEnode*)state->constraint->projections));
#endif
}
void
selections(DCEparsestate* state, Object list0)
{
NClist* list = (NClist*)list0;
if(list != NULL) {
nclistfree(state->constraint->selections);
state->constraint->selections = list;
}
#ifdef DEBUG
fprintf(stderr," ce.selections: %s\n",
dcetostring((DCEnode*)state->constraint->selections));
#endif
}
Object
projectionlist(DCEparsestate* state, Object list0, Object decl)
{
return collectlist(list0,decl);
}
Object
projection(DCEparsestate* state, Object varorfcn)
{
DCEprojection* p = (DCEprojection*)dcecreate(CES_PROJECT);
CEsort tag = *(CEsort*)varorfcn;
if(tag == CES_FCN)
p->fcn = varorfcn;
else
p->var = varorfcn;
p->discrim = tag;
#ifdef DEBUG
fprintf(stderr," ce.projection: %s\n",
dcetostring((DCEnode*)p));
#endif
return p;
}
Object
segmentlist(DCEparsestate* state, Object var0, Object decl)
{
/* watch out: this is non-standard */
NClist* list;
DCEvar* v = (DCEvar*)var0;
if(v==NULL) v = (DCEvar*)dcecreate(CES_VAR);
list = v->segments;
if(list == NULL) list = nclistnew();
nclistpush(list,(ncelem)decl);
v->segments = list;
return v;
}
Object
segment(DCEparsestate* state, Object name, Object slices0)
{
int i;
DCEsegment* segment = (DCEsegment*)dcecreate(CES_SEGMENT);
NClist* slices = (NClist*)slices0;
segment->name = strdup((char*)name);
if(slices != NULL && nclistlength(slices) > 0) {
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segment->rank = nclistlength(slices);
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segment->slicesdefined = 1; /* but not declsizes */
for(i=0;i<nclistlength(slices);i++) {
DCEslice* slice = (DCEslice*)nclistget(slices,i);
segment->slices[i] = *slice;
free(slice);
}
nclistfree(slices);
} else
segment->slicesdefined = 0;
#ifdef DEBUG
fprintf(stderr," ce.segment: %s\n",
dumpsegment(segment));
#endif
return segment;
}
Object
rangelist(DCEparsestate* state, Object list0, Object decl)
{
return collectlist(list0,decl);
}
Object
range(DCEparsestate* state, Object sfirst, Object sstride, Object slast)
{
DCEslice* slice = (DCEslice*)dcecreate(CES_SLICE);
unsigned long first,stride,last;
/* Note: that incoming arguments are strings; we must convert to size_t;
but we do know they are legal integers or NULL */
sscanf((char*)sfirst,"%lu",&first); /* always defined */
if(slast != NULL)
sscanf((char*)slast,"%lu",&last);
else
last = first;
if(sstride != NULL)
sscanf((char*)sstride,"%lu",&stride);
else
stride = 1; /* default */
if(stride == 0)
dceerror(state,"Illegal index for range stride");
if(last < first)
dceerror(state,"Illegal index for range last index");
slice->first = first;
slice->stride = stride;
slice->stop = last + 1;
slice->length = slice->stop - slice->first;
slice->count = slice->length / slice->stride;
#ifdef DEBUG
fprintf(stderr," ce.slice: %s\n",
dumpslice(slice));
#endif
return slice;
}
Object
range1(DCEparsestate* state, Object rangenumber)
{
int range = -1;
sscanf((char*)rangenumber,"%u",&range);
if(range < 0) {
dceerror(state,"Illegal range index");
}
return rangenumber;
}
Object
clauselist(DCEparsestate* state, Object list0, Object decl)
{
return collectlist(list0,decl);
}
Object
sel_clause(DCEparsestate* state, int selcase,
Object lhs, Object relop0, Object values)
{
DCEselection* sel = (DCEselection*)dcecreate(CES_SELECT);
sel->operator = (CEsort)relop0;
sel->lhs = (DCEvalue*)lhs;
if(selcase == 2) {/*singleton value*/
sel->rhs = nclistnew();
nclistpush(sel->rhs,(ncelem)values);
} else
sel->rhs = (NClist*)values;
return sel;
}
Object
indexpath(DCEparsestate* state, Object list0, Object index)
{
return collectlist(list0,index);
}
Object
array_indices(DCEparsestate* state, Object list0, Object indexno)
{
DCEslice* slice;
long long start = -1;
NClist* list = (NClist*)list0;
if(list == NULL) list = nclistnew();
sscanf((char*)indexno,"%lld",&start);
if(start < 0) {
dceerror(state,"Illegal array index");
start = 1;
}
slice = (DCEslice*)dcecreate(CES_SLICE);
slice->first = start;
slice->stride = 1;
slice->count = 1;
slice->length = 1;
slice->stop = start+1;
nclistpush(list,(ncelem)slice);
return list;
}
Object
indexer(DCEparsestate* state, Object name, Object indices)
{
int i;
NClist* list = (NClist*)indices;
DCEsegment* seg = (DCEsegment*)dcecreate(CES_SEGMENT);
seg->name = strdup((char*)name);
for(i=0;i<nclistlength(list);i++) {
DCEslice* slice = (DCEslice*)nclistget(list,i);
seg->slices[i] = *slice;
free(slice);
}
nclistfree(indices);
return seg;
}
Object
function(DCEparsestate* state, Object fcnname, Object args)
{
DCEfcn* fcn = (DCEfcn*)dcecreate(CES_FCN);
fcn->name = nulldup((char*)fcnname);
fcn->args = args;
return fcn;
}
Object
arg_list(DCEparsestate* state, Object list0, Object decl)
{
return collectlist(list0,decl);
}
Object
value_list(DCEparsestate* state, Object list0, Object decl)
{
return collectlist(list0,decl);
}
Object
value(DCEparsestate* state, Object val)
{
DCEvalue* ncvalue = (DCEvalue*)dcecreate(CES_VALUE);
CEsort tag = *(CEsort*)val;
switch (tag) {
case CES_VAR: ncvalue->var = (DCEvar*)val; break;
case CES_FCN: ncvalue->fcn = (DCEfcn*)val; break;
case CES_CONST: ncvalue->constant = (DCEconstant*)val; break;
default: abort(); break;
}
ncvalue->discrim = tag;
return ncvalue;
}
Object
var(DCEparsestate* state, Object indexpath)
{
DCEvar* v = (DCEvar*)dcecreate(CES_VAR);
v->segments = (NClist*)indexpath;
return v;
}
Object
constant(DCEparsestate* state, Object val, int tag)
{
DCEconstant* con = (DCEconstant*)dcecreate(CES_CONST);
char* text = (char*)val;
char* endpoint = NULL;
switch (tag) {
case SCAN_STRINGCONST:
con->discrim = CES_STR;
con->text = nulldup(text);
break;
case SCAN_NUMBERCONST:
con->intvalue = strtoll(text,&endpoint,10);
if(*text != '\0' && *endpoint == '\0') {
con->discrim = CES_INT;
} else {
con->floatvalue = strtod(text,&endpoint);
if(*text != '\0' && *endpoint == '\0')
con->discrim = CES_FLOAT;
else abort();
}
break;
default: abort(); break;
}
return con;
}
static Object
collectlist(Object list0, Object decl)
{
NClist* list = (NClist*)list0;
if(list == NULL) list = nclistnew();
nclistpush(list,(ncelem)decl);
return list;
}
Object
makeselectiontag(CEsort tag)
{
return (Object) tag;
}
int
dceerror(DCEparsestate* state, char* msg)
{
strcpy(state->errorbuf,msg);
state->errorcode=1;
return 0;
}
static void
dce_parse_cleanup(DCEparsestate* state)
{
dcelexcleanup(&state->lexstate); /* will free */
}
static DCEparsestate*
ce_parse_init(char* input, DCEconstraint* constraint)
{
DCEparsestate* state = NULL;
if(input==NULL) {
dceerror(state,"ce_parse_init: no input buffer");
} else {
state = (DCEparsestate*)calloc(1,sizeof(DCEparsestate));
if(state==NULL) return (DCEparsestate*)NULL;
state->errorbuf[0] = '\0';
state->errorcode = 0;
dcelexinit(input,&state->lexstate);
state->constraint = constraint;
}
return state;
}
#ifdef PARSEDEBUG
extern int dcedebug;
#endif
/* Wrapper for ceparse */
int
dapceparse(char* input, DCEconstraint* constraint, char** errmsgp)
{
DCEparsestate* state;
int errcode = 0;
#ifdef PARSEDEBUG
dcedebug = 1;
#endif
if(input != NULL) {
#ifdef DEBUG
fprintf(stderr,"dceeparse: input=%s\n",input);
#endif
state = ce_parse_init(input,constraint);
if(dceparse(state) == 0) {
#ifdef DEBUG
if(nclistlength(constraint->projections) > 0)
fprintf(stderr,"dceeparse: projections=%s\n",
dcetostring((DCEnode*)constraint->projections));
#endif
#ifdef DEBUG
if(nclistlength(constraint->selections) > 0)
fprintf(stderr,"dceeparse: selections=%s\n",
dumpselections(constraint->selections));
#endif
} else {
if(errmsgp) *errmsgp = nulldup(state->errorbuf);
}
errcode = state->errorcode;
dce_parse_cleanup(state);
}
return errcode;
}
#ifdef PARSEDEBUG
Object
debugobject(Object o)
{
return o;
}
#endif