static int pack_double(grib_accessor* a, const double* val, size_t *len)
{
grib_accessor_data_g2shsimple_packing* self = (grib_accessor_data_g2shsimple_packing*)a;
int err = GRIB_SUCCESS;
size_t coded_n_vals = *len-1;
size_t n_vals = *len;
if (*len ==0) return GRIB_NO_VALUES;
self->dirty=1;
if((err = grib_set_double_internal(grib_handle_of_accessor(a),self->real_part,*val)) != GRIB_SUCCESS)
return err;
{
/* Make sure we can decode it again */
double ref = 1e-100;
grib_get_double_internal(grib_handle_of_accessor(a),self->real_part,&ref);
Assert(ref == *val);
}
val++;
if((err = grib_set_double_array_internal(grib_handle_of_accessor(a),self->coded_values,val,coded_n_vals)) != GRIB_SUCCESS)
return err;
*len = n_vals;
if((err = grib_set_long_internal(grib_handle_of_accessor(a),self->numberOfValues,(long)n_vals)) != GRIB_SUCCESS)
return err;
return err;
}
static int pack_double(grib_accessor* a, const double* val, size_t *len)
{
grib_accessor_data_shsimple_packing* self = (grib_accessor_data_shsimple_packing*)a;
int err = GRIB_SUCCESS;
size_t coded_n_vals = *len-1;
size_t n_vals = *len;
self->dirty=1;
if (*len ==0) return GRIB_NO_VALUES;
if((err = grib_set_double_internal(a->parent->h,self->real_part,*val)) != GRIB_SUCCESS)
return err;
val++;
if((err = grib_set_double_array_internal(a->parent->h,self->coded_values,val,coded_n_vals)) != GRIB_SUCCESS)
return err;
*len = n_vals;
return err;
}
static int pack_double(grib_accessor* a, const double* cval, size_t *len)
{
grib_accessor_data_g1simple_packing* self = (grib_accessor_data_g1simple_packing*)a;
grib_accessor_class* super = *(a->cclass->super);
size_t n_vals = *len;
long half_byte = 0;
int ret = 0;
long offsetdata = 0;
long offsetsection = 0;
double reference_value = 0;
long binary_scale_factor = 0;
long bits_per_value = 0;
long decimal_scale_factor = 0;
double decimal = 1;
size_t buflen = 0;
unsigned char* buf = NULL;
unsigned char* encoded = NULL;
double divisor = 1;
int i;
long off = 0;
grib_context* c=a->parent->h->context;
grib_handle* h=a->parent->h;
char* ieee_packing_s=NULL;
char* packingType_s=NULL;
char* precision_s=NULL;
double units_factor=1.0;
double units_bias=0.0;
double* val=(double*)cval;
double missingValue=9999.0;
long constantFieldHalfByte=0;
int err=0;
if(*len != 0) {
if(self->units_factor &&
(grib_get_double_internal(a->parent->h,self->units_factor,&units_factor)== GRIB_SUCCESS)) {
grib_set_double_internal(a->parent->h,self->units_factor,1.0);
}
if(self->units_bias &&
(grib_get_double_internal(a->parent->h,self->units_bias,&units_bias)== GRIB_SUCCESS)) {
grib_set_double_internal(a->parent->h,self->units_bias,0.0);
}
if (units_factor != 1.0) {
if (units_bias != 0.0)
for (i=0;i<n_vals;i++) val[i]=val[i]*units_factor+units_bias;
else
for (i=0;i<n_vals;i++) val[i]*=units_factor;
} else if (units_bias != 0.0)
for (i=0;i<n_vals;i++) val[i]+=units_bias;
if (c->ieee_packing && self->ieee_packing) {
long precision=c->ieee_packing==32 ? 1 : 2;
size_t lenstr=strlen(self->ieee_packing);
packingType_s=grib_context_strdup(c,self->packingType);
ieee_packing_s=grib_context_strdup(c,self->ieee_packing);
precision_s=grib_context_strdup(c,self->precision);
grib_set_string(h,packingType_s,ieee_packing_s,&lenstr);
grib_set_long(h,precision_s,precision);
grib_context_free(c,packingType_s);
grib_context_free(c,ieee_packing_s);
grib_context_free(c,precision_s);
return grib_set_double_array(h,"values",val,*len);
}
}
ret = super->pack_double(a,val,len);
switch (ret) {
case GRIB_CONSTANT_FIELD:
ret=grib_get_long(a->parent->h,"constantFieldHalfByte",&constantFieldHalfByte);
if (ret) constantFieldHalfByte=0;
if((ret = grib_set_long_internal(a->parent->h,self->half_byte, constantFieldHalfByte))
!= GRIB_SUCCESS)
return ret;
grib_buffer_replace(a, NULL, 0,1,1);
return GRIB_SUCCESS;
break;
case GRIB_NO_VALUES:
ret=grib_get_long(a->parent->h,"constantFieldHalfByte",&constantFieldHalfByte);
if (ret) constantFieldHalfByte=0;
/* TODO move to def file */
grib_get_double(a->parent->h,"missingValue", &missingValue);
if((err = grib_set_double_internal(a->parent->h,self->reference_value, missingValue)) !=
GRIB_SUCCESS)
return err;
if((ret = grib_set_long_internal(a->parent->h,self->binary_scale_factor, binary_scale_factor))
!= GRIB_SUCCESS)
return ret;
if((ret = grib_set_long_internal(a->parent->h,self->half_byte, constantFieldHalfByte))
!= GRIB_SUCCESS)
return ret;
grib_buffer_replace(a, NULL, 0,1,1);
return GRIB_SUCCESS;
break;
case GRIB_INVALID_BPV:
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,"unable to compute packing parameters\n");
return ret;
case GRIB_SUCCESS:
break;
default:
grib_context_log(a->parent->h->context,GRIB_LOG_FATAL,"unable to compute packing parameters\n");
return ret;
}
if((ret = grib_get_double_internal(a->parent->h,self->reference_value, &reference_value))
!= GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->binary_scale_factor, &binary_scale_factor))
!= GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->bits_per_value,&bits_per_value)) !=
GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->decimal_scale_factor, &decimal_scale_factor))
!= GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->offsetdata,&offsetdata)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->offsetsection,&offsetsection)) != GRIB_SUCCESS)
return ret;
decimal = grib_power(decimal_scale_factor,10) ;
divisor = grib_power(-binary_scale_factor,2);
buflen = (((bits_per_value*n_vals)+7)/8)*sizeof(unsigned char);
if((buflen + (offsetdata-offsetsection)) %2) {
buflen++;
/*
a->length++;
a->parent->h->buffer->ulength++;
*/
}
half_byte = (buflen*8)-((*len)*bits_per_value);
grib_context_log(a->parent->h->context,GRIB_LOG_DEBUG,
"HALF byte: buflen=%d bits_per_value=%ld len=%d half_byte=%ld\n",
buflen,bits_per_value,*len,half_byte);
Assert(half_byte <= 0x0f);
if((ret = grib_set_long_internal(a->parent->h,self->half_byte, half_byte))
!= GRIB_SUCCESS)
return ret;
buf = (unsigned char*)grib_context_buffer_malloc_clear(a->parent->h->context,buflen);
encoded = buf;
grib_encode_double_array(n_vals,val,bits_per_value,reference_value,decimal,divisor,encoded,&off);
grib_context_log(a->parent->h->context, GRIB_LOG_DEBUG,
"grib_accessor_data_g1simple_packing : pack_double : packing %s, %d values", a->name, n_vals);
grib_buffer_replace(a, buf, buflen,1,1);
grib_context_buffer_free(a->parent->h->context,buf);
return GRIB_SUCCESS;
}
static int pack_double(grib_accessor* a, const double* val, size_t *len) {
grib_accessor_data_complex_packing* self = (grib_accessor_data_complex_packing*)a;
size_t i = 0;
int ret = GRIB_SUCCESS;
long hcount = 0;
long lcount = 0;
long hpos = 0;
long lup = 0;
long mmax = 0;
long n_vals = 0;
double *scals = NULL;
double s = 0;
double d = 0;
unsigned char* buf = NULL;
size_t buflen = 0;
size_t hsize = 0;
size_t lsize = 0;
unsigned char* hres = NULL;
unsigned char* lres = NULL;
long lpos = 0;
long maxv = 0;
long offsetdata = 0;
long bits_per_value = 0;
double reference_value = 0;
long binary_scale_factor = 0;
long decimal_scale_factor = 0;
long laplacianOperatorIsSet = 0;
double laplacianOperator = 0;
long sub_j= 0;
long sub_k= 0;
long sub_m= 0;
long pen_j= 0;
long pen_k= 0;
long pen_m= 0;
long GRIBEX_sh_bug_present =0;
long ieee_floats =0;
double min = 0;
double max = 0;
double current_val = 0;
short mixmax_unset = 0;
int bytes;
encode_float_proc encode_float = NULL;
if (*len ==0) return GRIB_NO_VALUES;
if((ret = grib_get_long_internal(a->parent->h,self->offsetdata,&offsetdata)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->bits_per_value,&bits_per_value)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->decimal_scale_factor,&decimal_scale_factor)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->GRIBEX_sh_bug_present,&GRIBEX_sh_bug_present)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->ieee_floats,&ieee_floats)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->laplacianOperatorIsSet,&laplacianOperatorIsSet)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_double_internal(a->parent->h,self->laplacianOperator,&laplacianOperator)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->sub_j,&sub_j)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->sub_k,&sub_k)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->sub_m,&sub_m)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->pen_j,&pen_j)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->pen_k,&pen_k)) != GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->pen_m,&pen_m)) != GRIB_SUCCESS)
return ret;
self->dirty=1;
switch (ieee_floats) {
case 0:
encode_float =grib_ibm_to_long;
bytes=4;
break;
case 1:
encode_float =grib_ieee_to_long;
bytes=4;
break;
case 2:
encode_float =grib_ieee64_to_long;
bytes=8;
break;
default:
return GRIB_NOT_IMPLEMENTED;
}
Assert (sub_j == sub_k); Assert( sub_j == sub_m);
Assert (pen_j == pen_k); Assert( pen_j == pen_m);
n_vals = (pen_j+1)*(pen_j+2);
d = grib_power(decimal_scale_factor,10) ;
if(*len != n_vals){
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,"COMPLEX_PACKING : wrong number of values, expected %d - got %d",n_vals,*len);
return GRIB_INTERNAL_ERROR;
}
if (pen_j == sub_j) {
double* values;
if (d) {
values=(double*)grib_context_malloc_clear(a->parent->h->context,sizeof(double)*n_vals);
for (i=0;i<n_vals;i++) values[i]=val[i]*d;
} else {
values=(double*)val;
}
buflen=n_vals*bytes;
buf = (unsigned char*)grib_context_malloc_clear(a->parent->h->context,buflen);
grib_ieee_encode_array(a->parent->h->context,values,n_vals,bytes,buf);
if (d) grib_context_free(a->parent->h->context,values);
grib_buffer_replace(a, buf, buflen,1,1);
grib_context_free(a->parent->h->context,buf);
return 0;
}
if(!laplacianOperatorIsSet) {
laplacianOperator = calculate_pfactor(a->parent->h->context,val,pen_j,sub_j);
if((ret = grib_set_double_internal(a->parent->h,self->laplacianOperator,laplacianOperator))
!= GRIB_SUCCESS) return ret;
grib_get_double_internal(a->parent->h,self->laplacianOperator,&laplacianOperator);
}
/*
printf("PACKING LAPLACE set=%ld value=%.20f\n",laplacianOperatorIsSet,laplacianOperator);
*/
hsize = 4*(sub_k+1)*(sub_k+2);
lsize = ((n_vals - ((sub_k+1)*(sub_k+2)))*bits_per_value)/8;
buflen = hsize+lsize;
buf = (unsigned char*)grib_context_malloc(a->parent->h->context,buflen);
hres = buf;
lres = buf+hsize;
maxv = pen_j+1;
lpos = 0;
hpos = 0;
scals = (double*) grib_context_malloc(a->parent->h->context,maxv*sizeof(double));
Assert(scals);
scals[0] =0;
for(i=1;i<maxv;i++)
scals[i] = ((double)pow(i*(i+1),laplacianOperator));
i=0;
mmax = 0;
maxv = pen_j+1;
i=0;
lcount=0;
hcount=0;
sub_k = sub_j;
while(maxv>0)
{
lup=mmax;
if(sub_k>=0)
{
i += 2*(sub_k+1);
lup += sub_k+1 ;
hcount += sub_k+1 ;
sub_k--;
}
for(lcount=hcount; lcount < maxv ; lcount++)
{
current_val = ((val[i++]*d) * scals[lup]);
if(mixmax_unset == 0){
max = current_val;
min = current_val;
mixmax_unset = 1;
}
if(current_val > max) max = current_val;
if(current_val < min) min = current_val;
current_val = ((val[i++]*d) * scals[lup]);
if(current_val > max) max = current_val;
if(current_val < min) min = current_val;
lup++;
}
maxv--;
hcount=0;
mmax++;
}
if (grib_get_nearest_smaller_value(a->parent->h,self->reference_value,min,&reference_value)
!=GRIB_SUCCESS) {
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,
"unable to find nearest_smaller_value of %g for %s",min,self->reference_value);
exit(GRIB_INTERNAL_ERROR);
}
binary_scale_factor = grib_get_binary_scale_fact(max,reference_value,bits_per_value,&ret);
if (ret==GRIB_UNDERFLOW) {
d=0;
binary_scale_factor = 0;
reference_value=0;
}
s = grib_power(-binary_scale_factor,2);
/* printf("D : %.30f\n",d); */
i=0;
mmax = 0;
maxv = pen_j+1;
i=0;
lcount=0;
hcount=0;
sub_k = sub_j;
while(maxv>0)
{
lup=mmax;
if(sub_k>=0)
{
for(hcount=0;hcount<sub_k+1;hcount++)
{
if ( GRIBEX_sh_bug_present && hcount==sub_k ) {
/* _test(val[i]*d*scals[lup],1); */
grib_encode_unsigned_long(hres, encode_float((val[i++]*d)*scals[lup]) , &hpos, 32);
/* _test(val[i]*d*scals[lup],1); */
grib_encode_unsigned_long(hres, encode_float((val[i++]*d)*scals[lup]) , &hpos, 32);
}else{
/* _test(val[i]*d,0); */
grib_encode_unsigned_long(hres, encode_float(val[i++]*d) , &hpos, 32);
/* _test(val[i]*d,0); */
grib_encode_unsigned_long(hres, encode_float(val[i++]*d) , &hpos, 32);
}
lup++;
}
sub_k--;
}
#if FAST_BIG_ENDIAN
grib_encode_double_array_complex((maxv-hcount)*2,&(val[i]),bits_per_value,reference_value,&(scals[lup]),d,s,lres,&lpos);
i+=(maxv-hcount)*2;
#else
if (bits_per_value % 8) {
for(lcount=hcount; lcount < maxv ; lcount++)
{
current_val = (((((val[i++]*d) * scals[lup])-reference_value)*s)+0.5);
if(current_val < 0)
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,
"COMPLEX_PACKING : negative coput before packing (%g)", current_val);
grib_encode_unsigned_longb(lres, current_val, &lpos, bits_per_value);
current_val = (((((val[i++]*d) * scals[lup])-reference_value)*s)+0.5);
if(current_val < 0)
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,
"COMPLEX_PACKING : negative coput before packing (%g)", current_val);
grib_encode_unsigned_longb(lres, current_val, &lpos, bits_per_value);
lup++;
}
} else {
for(lcount=hcount; lcount < maxv ; lcount++)
{
current_val = (((((val[i++]*d) * scals[lup])-reference_value)*s)+0.5);
if(current_val < 0)
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,
"COMPLEX_PACKING : negative coput before packing (%g)", current_val);
grib_encode_unsigned_long(lres, current_val, &lpos, bits_per_value);
current_val = (((((val[i++]*d) * scals[lup])-reference_value)*s)+0.5);
if(current_val < 0)
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,
"COMPLEX_PACKING : negative coput before packing (%g)", current_val);
grib_encode_unsigned_long(lres, current_val, &lpos, bits_per_value);
lup++;
}
}
#endif
maxv--;
hcount=0;
mmax++;
}
if(((hpos/8) != hsize) &&((lpos/8) != lsize))
{
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,
"COMPLEX_PACKING : Mismatch in packing between high resolution and low resolution part");
grib_context_free(a->parent->h->context,buf);
grib_context_free(a->parent->h->context,scals);
return GRIB_INTERNAL_ERROR;
}
buflen = ((hpos + lpos)/8);
if((ret = grib_set_double_internal(a->parent->h,self->reference_value, reference_value)) != GRIB_SUCCESS)
return ret;
{
/* Make sure we can decode it again */
double ref = 1e-100;
grib_get_double_internal(a->parent->h,self->reference_value,&ref);
Assert(ref == reference_value);
}
if((ret = grib_set_long_internal(a->parent->h,self->binary_scale_factor, binary_scale_factor)) != GRIB_SUCCESS)
return ret;
grib_buffer_replace(a, buf, buflen,1,1);
grib_context_free(a->parent->h->context,buf);
grib_context_free(a->parent->h->context,scals);
return ret;
}
int grib_init_accessor_from_array(grib_loader* loader,grib_accessor* ga,grib_arguments* default_value)
{
grib_handle* h = ga->parent->h;
int retval =GRIB_SUCCESS;
char* strvalue;
size_t len=0;
int type=0;
double* dvalue=0;
long* lvalue=0;
long lval=0;
double dval=0;
int i=0;
grib_associative_array* ar=NULL;
grib_runtime_type* value=NULL;
ar=(grib_associative_array*)loader->data;
grib_context_log(h->context,GRIB_LOG_DEBUG, "Initialize %s", ga->name);
retval= grib_associative_array_get(ar,ga->name,&value);
if((retval != GRIB_ARRAY_SUCCESS) && default_value) {
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to default value", ga->name);
grib_pack_expression(ga,grib_arguments_get_expression(h,default_value,0));
return GRIB_SUCCESS;
}
if(ga->flags & GRIB_ACCESSOR_FLAG_READ_ONLY)
{
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s ignored (read only)", ga->name);
return GRIB_SUCCESS;
}
if (retval != GRIB_ARRAY_SUCCESS) {
grib_context_log(h->context,GRIB_LOG_DEBUG,
"Grib array error %d",retval);
if ((ga->flags & GRIB_ACCESSOR_FLAG_CAN_BE_MISSING)) {
grib_context_log(h->context,GRIB_LOG_DEBUG,
"Setting %s ignored (optional or can be missing)", ga->name);
return GRIB_SUCCESS;
} else {
grib_context_log(h->context,GRIB_LOG_ERROR, "%s required", ga->name);
return retval;
}
}
if (value && grib_runtimetype_get_type(value,&type) == GRIB_RUNTIMETYPE_SUCCESS) {
if (type == GRIB_RUNTIMETYPE_CHAR ) {
grib_runtimetype_get_char(value,&strvalue,&len);
switch(grib_accessor_get_native_type(ga)) {
case GRIB_TYPE_STRING:
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to string %s",
ga->name, strvalue);
grib_set_string_internal(h,ga->name,strvalue,&len);
break;
case GRIB_TYPE_LONG:
if (!strcmp(strvalue,"MISSING")) lval=GRIB_MISSING_LONG;
else lval=atol(strvalue);
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to long %d", ga->name, lval);
grib_set_long_internal(h,ga->name,lval);
break;
case GRIB_TYPE_DOUBLE:
if (!strcmp(strvalue,"MISSING")) dval=GRIB_MISSING_DOUBLE;
else if (sscanf(strvalue,"%lg",&dval)!=1) {
grib_context_log(h->context,GRIB_LOG_ERROR, "Unable to set %s wrong value format", ga->name);
}
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to double %lg (%s)", ga->name, dval,strvalue);
grib_set_double_internal(h,ga->name,dval);
break;
case GRIB_TYPE_BYTES:
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to string %s",
ga->name, strvalue);
grib_set_bytes_internal(h,ga->name,(unsigned char*)strvalue,&len);
break;
case GRIB_TYPE_LABEL:
break;
default:
grib_context_log(h->context,GRIB_LOG_ERROR, "Setting %s, cannot establish type %d [%s]"
, ga->name,grib_accessor_get_native_type(ga),ga->creator->cclass->name);
break;
}
} else {
if (grib_runtimetype_get_double(value,&dvalue,&len) == GRIB_RUNTIMETYPE_SUCCESS) {
switch(grib_accessor_get_native_type(ga)) {
case GRIB_TYPE_LONG:
lvalue=(long*)malloc(sizeof(long)*len);
for (i=0;i<len;i++) lvalue[i]=(long)dvalue[i];
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting long array %s",ga->name);
grib_set_long_array(h,ga->name,lvalue,len);
free(lvalue);
break;
case GRIB_TYPE_DOUBLE:
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting double array %s",ga->name);
grib_set_double_array(h,ga->name,dvalue,len);
break;
default:
grib_context_log(h->context,GRIB_LOG_ERROR, "Setting array %s, wrong type [%d]"
, ga->name,grib_accessor_get_native_type(ga));
break;
}
} else
grib_context_log(h->context,GRIB_LOG_ERROR, "Unable to set %s to double, wrong type (%d)",
ga->name,type);
}
#if 0
switch(grib_accessor_get_native_type(ga))
{
case GRIB_TYPE_STRING:
if (grib_runtimetype_get_char(value,&strvalue,&strvalue_size) == GRIB_RUNTIMETYPE_SUCCESS) {
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to string %s",
ga->name, strvalue);
len=strlen(strvalue);
grib_set_string_internal(h,ga->name,strvalue,&len);
} else
grib_context_log(h->context,GRIB_LOG_ERROR, "Unable to set %s to string, wrong type",
ga->name);
break;
case GRIB_TYPE_LONG:
if (grib_runtimetype_get_long(value,&lval,&len) == GRIB_RUNTIMETYPE_SUCCESS) {
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to long %d", ga->name, lval);
grib_set_long_internal(h,ga->name,*lval);
} else
grib_context_log(h->context,GRIB_LOG_ERROR, "Unable to set %s to long, wrong type",
ga->name);
break;
case GRIB_TYPE_DOUBLE:
if (grib_runtimetype_get_double(value,&dval,&len) == GRIB_RUNTIMETYPE_SUCCESS) {
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to long %d", ga->name, dval);
grib_set_double_internal(h,ga->name,*dval);
} else
grib_context_log(h->context,GRIB_LOG_ERROR, "Unable to set %s to double, wrong type",
ga->name);
break;
case GRIB_TYPE_BYTES:
if (grib_runtimetype_get_char(value,&strvalue,&len) == GRIB_RUNTIMETYPE_SUCCESS) {
grib_context_log(h->context,GRIB_LOG_DEBUG, "Setting %s to string %s",
ga->name, strvalue);
grib_set_bytes_internal(h,ga->name,(unsigned char*)strvalue,&len);
} else
grib_context_log(h->context,GRIB_LOG_ERROR, "Unable to set %s to string, wrong type",
ga->name);
break;
case GRIB_TYPE_LABEL:
break;
default:
grib_context_log(h->context,GRIB_LOG_ERROR, "Setting %s, cannot establish type %d [%s]"
, ga->name,grib_accessor_get_native_type(ga),ga->creator->cclass->name);
break;
}
#endif
}
return retval;
}
static int pack_double(grib_accessor* a, const double* cval, size_t *len)
{
grib_accessor_data_jpeg2000_packing *self =(grib_accessor_data_jpeg2000_packing*)a;
grib_accessor_class* super = *(a->cclass->super);
size_t n_vals = *len;
int err = 0;
int i;
double reference_value = 0;
long binary_scale_factor = 0;
long bits_per_value = 0;
long decimal_scale_factor = 0;
double decimal = 1;
size_t simple_packing_size = 0;
unsigned char* buf = NULL;
double divisor = 1;
long width;
long height;
long ni;
long nj;
long target_compression_ratio;
long type_of_compression_used;
long scanning_mode;
long list_defining_points;
long number_of_data_points;
int ret =0;
j2k_encode_helper helper;
double units_factor=1.0;
double units_bias=0.0;
double* val=(double*)cval;
self->dirty=1;
if(*len == 0){
grib_buffer_replace(a, NULL, 0, 1, 1);
return GRIB_SUCCESS;
}
if(self->units_factor &&
(grib_get_double_internal(a->parent->h,self->units_factor,&units_factor)== GRIB_SUCCESS)) {
grib_set_double_internal(a->parent->h,self->units_factor,1.0);
}
if(self->units_bias &&
(grib_get_double_internal(a->parent->h,self->units_bias,&units_bias)== GRIB_SUCCESS)) {
grib_set_double_internal(a->parent->h,self->units_bias,0.0);
}
if (units_factor != 1.0) {
if (units_bias != 0.0)
for (i=0;i<n_vals;i++) val[i]=val[i]*units_factor+units_bias;
else
for (i=0;i<n_vals;i++) val[i]*=units_factor;
} else if (units_bias != 0.0)
for (i=0;i<n_vals;i++) val[i]+=units_bias;
ret = super->pack_double(a,val,len);
switch (ret) {
case GRIB_CONSTANT_FIELD:
grib_buffer_replace(a, NULL, 0,1,1);
return GRIB_SUCCESS;
break;
case GRIB_SUCCESS:
break;
default:
grib_context_log(a->parent->h->context,GRIB_LOG_ERROR,"unable to compute packing parameters\n");
return ret;
}
if((ret = grib_get_double_internal(a->parent->h,self->reference_value, &reference_value))
!= GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->binary_scale_factor, &binary_scale_factor))
!= GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->bits_per_value,&bits_per_value)) !=
GRIB_SUCCESS)
return ret;
if((ret = grib_get_long_internal(a->parent->h,self->decimal_scale_factor, &decimal_scale_factor))
!= GRIB_SUCCESS)
return ret;
decimal = grib_power(decimal_scale_factor,10) ;
divisor = grib_power(-binary_scale_factor,2);
simple_packing_size = (((bits_per_value*n_vals)+7)/8)*sizeof(unsigned char);
buf = (unsigned char*)grib_context_malloc_clear(a->parent->h->context,simple_packing_size+EXTRA_BUFFER_SIZE);
if(!buf) {
err = GRIB_OUT_OF_MEMORY;
goto cleanup;
}
if((err = grib_get_long_internal(a->parent->h,self->ni,&ni)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(a->parent->h,self->nj,&nj)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(a->parent->h,self->type_of_compression_used,&type_of_compression_used)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(a->parent->h,self->target_compression_ratio,&target_compression_ratio)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(a->parent->h,self->scanning_mode,&scanning_mode)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(a->parent->h,self->list_defining_points,&list_defining_points)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(a->parent->h,self->number_of_data_points,&number_of_data_points)) != GRIB_SUCCESS)
return err;
width = ni;
height = nj;
if((scanning_mode & (1<<5)) != 0)
{
long tmp = width;
width = height;
height = tmp;
}
/* The grid is not regular */
if(list_defining_points != 0)
{
width = *len;
height = 1;
}
/* There is a bitmap */
if(*len != number_of_data_points)
{
width = *len;
height = 1;
}
if(width*height != *len)
{
/* fprintf(stderr,"width=%ld height=%ld len=%d\n",(long)width,(long)height,(long)*len); */
Assert(width*height == *len);
}
switch( type_of_compression_used)
{
case 0:
Assert(target_compression_ratio == 255);
helper.compression = 0;
break;
case 1:
Assert(target_compression_ratio != 255);
Assert(target_compression_ratio != 0);
helper.compression = target_compression_ratio;
break;
default:
err = GRIB_NOT_IMPLEMENTED;
goto cleanup;
}
helper.jpeg_buffer = buf;
helper.width = width;
helper.height = height;
/* See GRIB-438 */
if (bits_per_value == 0) {
const long bits_per_value_adjusted = 1;
grib_context_log(a->parent->h->context, GRIB_LOG_DEBUG,
"grib_accessor_class_data_jpeg2000_packing(%s) : bits per value was zero, changed to %d",
self->jpeg_lib==OPENJPEG_LIB ? "openjpeg" : "jasper", bits_per_value_adjusted);
bits_per_value = bits_per_value_adjusted;
}
helper.bits_per_value = bits_per_value;
helper.buffer_size = simple_packing_size + EXTRA_BUFFER_SIZE;
helper.values = val;
helper.no_values = n_vals;
helper.reference_value = reference_value;
helper.divisor = divisor;
helper.decimal = decimal;
helper.jpeg_length = 0;
switch (self->jpeg_lib) {
case OPENJPEG_LIB:
if ( (err = grib_openjpeg_encode(a->parent->h->context,&helper)) != GRIB_SUCCESS ) goto cleanup;
break;
case JASPER_LIB:
if ( (err = grib_jasper_encode(a->parent->h->context,&helper)) != GRIB_SUCCESS ) goto cleanup;
break;
}
if(helper.jpeg_length > simple_packing_size)
grib_context_log(a->parent->h->context, GRIB_LOG_WARNING,
"grib_accessor_data_jpeg2000_packing(%s) : jpeg data (%ld) larger than input data (%ld)",
self->jpeg_lib==OPENJPEG_LIB ? "openjpeg" : "jasper",
helper.jpeg_length, simple_packing_size);
Assert( helper.jpeg_length <= helper.buffer_size);
if(self->dump_jpg) {
FILE *f = fopen(self->dump_jpg,"w");
if(f) {
if(fwrite(helper.jpeg_buffer,helper.jpeg_length,1,f) != 1)
perror(self->dump_jpg);
if (fclose(f) != 0)
perror(self->dump_jpg);
}
else perror(self->dump_jpg);
}
grib_buffer_replace(a, helper.jpeg_buffer, helper.jpeg_length, 1, 1);
cleanup:
grib_context_free(a->parent->h->context,buf);
if(err == GRIB_SUCCESS)
err = grib_set_long_internal(a->parent->h,self->number_of_values, *len);
return err;
}
static int pack_double(grib_accessor* a, const double* val, size_t *len)
{
grib_accessor_data_2order_packing* self = (grib_accessor_data_2order_packing*)a;
grib_handle* gh = grib_handle_of_accessor(a);
size_t i = 0;
size_t j = 0;
size_t n_vals = *len;
size_t buff_len = 0;
double divisor = 1;
long vcount = 0;
int err = 0;
long bias = 0;
double reference_value;
long binary_scale_factor;
long bits_per_value;
/*long bit_per_val_rectified_for_gribex;*/
long decimal_scale_factor;
long n1 = 0;
long n2 = 0;
long p1 = 0;
long n_unused_bits = 0;
long used_bits = 0;
long offsetsection = 0;
long snd_bitmap = 0;
long snd_ordr_wdiff = 0;
long matrix_values = 0;
long general_ext = 0;
long boustrophedonic = 0;
long two_ordr_spd = 0;
long plus1_spd = 0;
long octet_start_group = 0;
long width_spd_sp_desc = 0;
unsigned char* buf = NULL;
unsigned char* buf_size_of_groups = NULL;
unsigned char* buf_width_of_group = NULL;
unsigned char* buf_refs = NULL;
unsigned char* buf_vals = NULL;
double d = 0;
unsigned long* sec_val = NULL;
unsigned long* group_val = NULL;
short n_sp_diff = 0;
unsigned char* bitmap=NULL;
grib_accessor* abitmap=NULL;
size_t bitmap_len=0;
#if KEEP_OLD == 1
#else
second_order_packed* sd = NULL;
#endif
long bitp = 0;
long pointer_of_group_size = 0;
long pointer_of_group_width = 0;
long refsp = 0;
long nap = 0;
long offsetdata = 0;
double max;
double min;
int extraValues=0;
size_t nv =0;
if (*len ==0) return GRIB_NO_VALUES;
if((err = grib_get_long_internal(gh,self->offsetsection,&offsetsection)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->offsetdata,&offsetdata)) != GRIB_SUCCESS)
return err;
if((err = grib_get_long_internal(gh,self->bits_per_value,&bits_per_value)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->decimal_scale_factor, &decimal_scale_factor)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->matrix_values, &matrix_values)) != GRIB_SUCCESS)return err;
if((err = grib_get_long_internal(gh,self->snd_bitmap, &snd_bitmap)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->snd_ordr_wdiff, &snd_ordr_wdiff)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->general_ext, &general_ext)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->boustrophedonic, &boustrophedonic)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->width_spd_sp_desc, &width_spd_sp_desc)) != GRIB_SUCCESS) return err;
if((err = grib_get_long_internal(gh,self->nap, &nap)) != GRIB_SUCCESS) return err;
if ((abitmap=grib_find_accessor(gh,self->bitmap))!=NULL) {
bitmap_len=grib_byte_count(abitmap);
bitmap=(unsigned char*)grib_context_malloc_clear(a->context,sizeof(char)*bitmap_len);
err=grib_unpack_bytes(abitmap,bitmap,&bitmap_len);
if (err) {grib_context_free(a->context,bitmap); return err;}
}
two_ordr_spd = 1;
plus1_spd = 0;
if(bits_per_value == 0)
return GRIB_NOT_IMPLEMENTED;
n_sp_diff = two_ordr_spd*2+plus1_spd;
/* calculation of integer array */
sec_val = (unsigned long*)grib_context_malloc(a->context,(n_vals)*sizeof(long));
d = grib_power(decimal_scale_factor,10) ;
max = val[0];
min = max;
for(i=0;i< n_vals;i++)
{
if ( val[i] > max ) max = val[i];
else if ( val[i] < min ) min = val[i];
}
min *= d;
max *= d;
/*bit_per_val_rectified_for_gribex = bits_per_value+8-bits_per_value%8;*/
if (grib_get_nearest_smaller_value(gh,self->reference_value,min,&reference_value)
!=GRIB_SUCCESS) {
grib_context_log(a->context,GRIB_LOG_ERROR,
"unable to find nearest_smaller_value of %g for %s",min,self->reference_value);
return GRIB_INTERNAL_ERROR;
}
/* the scale factor in Grib 1 is adjusted in gribex, for "normalization purpose" ... ?*/
binary_scale_factor = grib_get_binary_scale_fact(max,reference_value,bits_per_value,&err);
divisor = grib_power(-binary_scale_factor,2);
for(i=0;i< n_vals;i++)
sec_val[i] = (unsigned long)((((val[i]*d)-reference_value)*divisor)+0.5);
/* reverse the rows*/
if(boustrophedonic)
reverse_rows(sec_val,n_vals,nap,bitmap,bitmap_len);
if(snd_ordr_wdiff)
if((err = spatial_difference(a->context,sec_val, n_vals, n_sp_diff, &bias))){
grib_context_free(a->context,sec_val);
return err;
}
/* for(i=0;i < 10;i++)
printf("packing value [%d] %g %ld %ld bias %ld <<\n", i, val[i],sec_val[i],binary_scale_factor,bias );
*/
nv = n_vals-n_sp_diff;
group_val = sec_val+n_sp_diff;
#if KEEP_OLD == 1
#else
sd = grib_get_second_order_groups(a->context, group_val, nv);
#endif
bitp = 0;
p1 = sd->size_of_group_array;
bitp = (width_spd_sp_desc*(n_sp_diff+1)) ;
octet_start_group = (bitp+7)/8;
bitp = (p1*sd->nbits_per_widths);
octet_start_group += (bitp+7)/8;
bitp = (octet_start_group*8) + (sd->nbits_per_group_size*p1);
n1 = (bitp+7)/8;
bitp = n1*8 + bits_per_value*p1;
n2 = (bitp+7)/8;
used_bits = n2*8;
buff_len = (n2+sd->packed_byte_count);
if((a->offset+buff_len)%2) buff_len++;
buf = NULL;
buf = (unsigned char*)grib_context_malloc_clear(a->context,buff_len);
buf_width_of_group = buf;
buf_size_of_groups = buf+octet_start_group;
buf_refs = buf+n1;
buf_vals = buf+n2;
pointer_of_group_size = 0;
pointer_of_group_width = 0;
refsp = 0;
bitp = 0;
for(i=0;i < n_sp_diff;i++)
grib_encode_unsigned_longb(buf_width_of_group,sec_val[i], &pointer_of_group_width, width_spd_sp_desc);
grib_encode_signed_longb(buf_width_of_group, bias, &pointer_of_group_width, width_spd_sp_desc);
if(pointer_of_group_width%8)
pointer_of_group_width = 8+(pointer_of_group_width-(pointer_of_group_width%8));
vcount = n_sp_diff;
for(i = 0;i<p1;i++){
grib_encode_unsigned_longb(buf_width_of_group,sd->array_of_group_width[i],&pointer_of_group_width,sd->nbits_per_widths);
grib_encode_unsigned_longb(buf_size_of_groups,sd->array_of_group_size[i], &pointer_of_group_size ,sd->nbits_per_group_size);
grib_encode_unsigned_longb(buf_refs, sd->array_of_group_refs[i], &refsp , bits_per_value);
used_bits += sd->array_of_group_size[i]*sd->array_of_group_width[i];
for(j=0; j < sd->array_of_group_size[i];j++){
grib_encode_unsigned_longb(buf_vals, sec_val[vcount+j]-sd->array_of_group_refs[i] ,&bitp , sd->array_of_group_width[i]);
/* if(vcount+j < 10)
printf(">>packing value [%ld] %g %ld %ld nb %ld <<\n", vcount+j, val[vcount+j],sec_val[vcount+j],binary_scale_factor,sd->array_of_group_refs[i] );*/
}
vcount+= sd->array_of_group_size[i];
}
n_unused_bits = (buff_len*8)-used_bits;
grib_buffer_replace(a, buf,buff_len,1,1);
if((buff_len + (offsetdata-offsetsection)) %2) {
buff_len ++;
grib_update_size(a,buff_len);
}
octet_start_group += 1+ a->offset-offsetsection;
if((err = grib_set_long_internal(gh,self->octet_start_group, octet_start_group)) != GRIB_SUCCESS) return err;
n1 += 1+a->offset-offsetsection;
if((err = grib_set_long_internal(gh,self->n1,n1)) != GRIB_SUCCESS) return err;
n2 += 1+a->offset-offsetsection;
if((err = grib_set_long_internal(gh,self->n2,n2)) != GRIB_SUCCESS) return err;
extraValues=0;
while (p1 > 65535) {
p1-=65536;
extraValues++;
}
if((err = grib_set_long_internal(gh,self->p1,p1)) != GRIB_SUCCESS) return err;
if((err = grib_set_long_internal(gh,self->extraValues,extraValues)) != GRIB_SUCCESS) return err;
if((err = grib_set_long_internal(gh,self->p2,n_vals - n_sp_diff)) != GRIB_SUCCESS) return err;
if((err = grib_set_double_internal(gh,self->reference_value, reference_value)) != GRIB_SUCCESS)return err;
{
/* Make sure we can decode it again */
double ref = 1e-100;
grib_get_double_internal(gh,self->reference_value,&ref);
Assert(ref == reference_value);
}
if((err = grib_set_long_internal(gh,self->binary_scale_factor, binary_scale_factor)) != GRIB_SUCCESS) return err;
if((err = grib_set_long_internal(gh,self->decimal_scale_factor, decimal_scale_factor)) != GRIB_SUCCESS) return err;
if((err = grib_set_long_internal(gh,self->width_widths, sd->nbits_per_widths)) != GRIB_SUCCESS) return err;
if((err = grib_set_long_internal(gh,self->width_lengths, sd->nbits_per_group_size)) != GRIB_SUCCESS) return err;
err = grib_set_long_internal(gh,self->half_byte, n_unused_bits);
if(err != GRIB_SUCCESS) return err;
#if KEEP_OLD == 1
#else
grib_free_second_order_groups(a->context,sd);
#endif
;
grib_context_free(a->context,buf);
grib_context_free(a->context,sec_val);
if (bitmap!=NULL) grib_context_free(a->context,bitmap);
return GRIB_SUCCESS;
}
