static void
test_patch_compress_from_ght_to_lazperf()
{
PCPOINT *point;
PCPOINTLIST *pointlist;
PCPATCH_GHT *patch_ght;
PCPATCH_LAZPERF *patch_lazperf;
pointlist = pc_pointlist_make(1);
point = pc_point_make(simplelazschema);
pc_point_set_double_by_name(point, "x", 2.0);
pc_point_set_double_by_name(point, "y", 1.9);
pc_point_set_double_by_name(point, "Z", 0.34);
pc_point_set_double_by_name(point, "intensity", 10);
pc_pointlist_add_point(pointlist, point);
patch_ght = pc_patch_ght_from_pointlist(pointlist);
CU_ASSERT(patch_ght->type == PC_GHT);
patch_lazperf = (PCPATCH_LAZPERF *)pc_patch_compress((PCPATCH *)patch_ght, NULL);
CU_ASSERT(patch_lazperf != NULL);
CU_ASSERT(patch_lazperf->type == PC_LAZPERF);
pc_pointlist_free(pointlist);
pc_patch_free((PCPATCH *)patch_ght);
pc_patch_free((PCPATCH *)patch_lazperf);
}
static void
test_patch_wkb()
{
int i;
int npts = 20;
PCPOINTLIST *pl1;
PCPATCH_UNCOMPRESSED *pu1, *pu2;
PCPATCH *pa1, *pa2, *pa3, *pa4;
PCDIMSTATS *pds = NULL;
size_t z1, z2;
uint8_t *wkb1, *wkb2;
char *str;
pl1 = pc_pointlist_make(npts);
for ( i = 0; i < npts; i++ )
{
PCPOINT *pt = pc_point_make(simpleschema);
pc_point_set_double_by_name(pt, "x", i*2.123);
pc_point_set_double_by_name(pt, "y", i*2.9);
pc_point_set_double_by_name(pt, "Z", i*0.3099);
pc_point_set_double_by_name(pt, "intensity", 13);
pc_pointlist_add_point(pl1, pt);
}
pa1 = (PCPATCH*)pc_patch_dimensional_from_pointlist(pl1);
wkb1 = pc_patch_to_wkb(pa1, &z1);
str = hexbytes_from_bytes(wkb1, z1);
// printf("str\n%s\n",str);
pa2 = pc_patch_from_wkb(simpleschema, wkb1, z1);
// printf("pa2\n%s\n",pc_patch_to_string(pa2));
pa3 = pc_patch_compress(pa2, NULL);
// printf("pa3\n%s\n",pc_patch_to_string(pa3));
wkb2 = pc_patch_to_wkb(pa3, &z2);
pa4 = pc_patch_from_wkb(simpleschema, wkb2, z2);
// printf("pa4\n%s\n",pc_patch_to_string(pa4));
pu1 = (PCPATCH_UNCOMPRESSED*)pc_patch_uncompressed_from_dimensional((PCPATCH_DIMENSIONAL*)pa1);
pu2 = (PCPATCH_UNCOMPRESSED*)pc_patch_uncompressed_from_dimensional((PCPATCH_DIMENSIONAL*)pa4);
// printf("pu1\n%s\n", pc_patch_to_string((PCPATCH*)pu1));
// printf("pu2\n%s\n", pc_patch_to_string((PCPATCH*)pu2));
CU_ASSERT_EQUAL(pu1->datasize, pu2->datasize);
CU_ASSERT_EQUAL(pu1->npoints, pu2->npoints);
CU_ASSERT(memcmp(pu1->data, pu2->data, pu1->datasize) == 0);
pc_pointlist_free(pl1);
pc_patch_free(pa1);
pc_patch_free(pa2);
pcfree(wkb1);
}
/**
* Convert struct to byte array.
* Userdata is currently only PCDIMSTATS, hopefully updated across
* a number of iterations and saved.
*/
SERIALIZED_PATCH *
pc_patch_serialize(const PCPATCH *patch_in, void *userdata)
{
PCPATCH *patch = (PCPATCH*)patch_in;
SERIALIZED_PATCH *serpatch = NULL;
/*
* Ensure the patch has stats calculated before going on
*/
if ( ! patch->stats )
{
pcerror("%s: patch is missing stats", __func__);
return NULL;
}
/*
* Convert the patch to the final target compression,
* which is the one in the schema.
*/
if ( patch->type != patch->schema->compression )
{
patch = pc_patch_compress(patch_in, userdata);
}
switch( patch->type )
{
case PC_NONE:
{
serpatch = pc_patch_uncompressed_serialize(patch);
break;
}
case PC_DIMENSIONAL:
{
serpatch = pc_patch_dimensional_serialize(patch);
break;
}
case PC_GHT:
{
serpatch = pc_patch_ght_serialize(patch);
break;
}
default:
{
pcerror("%s: unsupported compression type %d", __func__, patch->type);
}
}
if ( patch != patch_in )
pc_patch_free(patch);
return serpatch;
}
/**
* Convert struct to byte array.
* Userdata is currently only PCDIMSTATS, hopefully updated across
* a number of iterations and saved.
*/
SERIALIZED_PATCH *
pc_patch_serialize(const PCPATCH *patch_in, void *userdata)
{
PCPATCH *patch = (PCPATCH*)patch_in;
SERIALIZED_PATCH *serpatch;
/*
* Convert the patch to the final target compression,
* which is the one in the schema.
*/
if ( patch->type != patch->schema->compression )
{
patch = pc_patch_compress(patch_in, userdata);
}
switch( patch->type )
{
case PC_NONE:
serpatch = pc_patch_uncompressed_serialize(patch);
break;
case PC_DIMENSIONAL:
{
serpatch = pc_patch_dimensional_serialize(patch);
break;
}
case PC_GHT:
{
pcerror("pc_patch_serialize: GHT compression currently unsupported");
break;
}
default:
{
pcerror("pc_patch_serialize: unsupported compression type %d", patch->type);
}
}
if ( patch != patch_in )
pc_patch_free(patch);
return serpatch;
}
