int dig_Wr_Plus_head(struct gvfile * fp, struct Plus_head *ptr)
{
unsigned char buf[10];
long length = 142;
dig_rewind(fp);
dig_set_cur_port(&(ptr->port));
/* bytes 1 - 5 */
buf[0] = GV_TOPO_VER_MAJOR;
buf[1] = GV_TOPO_VER_MINOR;
buf[2] = GV_TOPO_EARLIEST_MAJOR;
buf[3] = GV_TOPO_EARLIEST_MINOR;
buf[4] = ptr->port.byte_order;
if (0 >= dig__fwrite_port_C((char *)buf, 5, fp))
return (-1);
/* determine required offset size from coor file size */
if (ptr->coor_size > (off_t)PORT_LONG_MAX) {
/* can only happen when sizeof(off_t) == 8 */
ptr->off_t_size = 8;
}
else
ptr->off_t_size = 4;
/* add a new field with off_t_size after byte_order? */
/* adjust header size for large files */
if (ptr->off_t_size == 8) {
/* 7 offset values and coor file size: add 8 * 4 */
length += 32;
}
/* bytes 6 - 9 : header size */
if (0 >= dig__fwrite_port_L(&length, 1, fp))
return (0);
/* byte 10 : dimension 2D or 3D */
buf[0] = ptr->with_z;
if (0 >= dig__fwrite_port_C((char *)buf, 1, fp))
return (0);
/* bytes 11 - 58 : bound box */
if (0 >= dig__fwrite_port_D(&(ptr->box.N), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_D(&(ptr->box.S), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_D(&(ptr->box.E), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_D(&(ptr->box.W), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_D(&(ptr->box.T), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_D(&(ptr->box.B), 1, fp))
return (-1);
/* bytes 59 - 86 : number of structures */
if (0 >= dig__fwrite_port_P(&(ptr->n_nodes), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_edges), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_lines), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_areas), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_isles), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_volumes), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_holes), 1, fp))
return (-1);
/* bytes 87 - 110 : number of line types */
if (0 >= dig__fwrite_port_P(&(ptr->n_plines), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_llines), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_blines), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_clines), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_flines), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(ptr->n_klines), 1, fp))
return (-1);
/* bytes 111 - 138 : Offset */
if (0 >= dig__fwrite_port_O(&(ptr->Node_offset), 1, fp, ptr->off_t_size))
return (-1);
if (0 >= dig__fwrite_port_O(&(ptr->Edge_offset), 1, fp, ptr->off_t_size))
return (-1);
if (0 >= dig__fwrite_port_O(&(ptr->Line_offset), 1, fp, ptr->off_t_size))
return (-1);
if (0 >= dig__fwrite_port_O(&(ptr->Area_offset), 1, fp, ptr->off_t_size))
return (-1);
if (0 >= dig__fwrite_port_O(&(ptr->Isle_offset), 1, fp, ptr->off_t_size))
return (-1);
if (0 >= dig__fwrite_port_O(&(ptr->Volume_offset), 1, fp, ptr->off_t_size))
return (-1);
if (0 >= dig__fwrite_port_O(&(ptr->Hole_offset), 1, fp, ptr->off_t_size))
return (-1);
/* bytes 139 - 142 : Coor size and time */
if (0 >= dig__fwrite_port_O(&(ptr->coor_size), 1, fp, ptr->off_t_size))
return (-1);
G_debug(2, "topo body offset %"PRI_OFF_T, dig_ftell(fp));
return (0);
}
int dig_Wr_P_line(struct Plus_head *Plus, int n, struct gvfile * fp)
{
int n_edges = 0;
char ch;
struct P_line *ptr;
G_debug(4, "dig_Wr_P_line() line = %d", n);
ptr = Plus->Line[n];
/* if NULL i.e. dead write just 0 instead of type */
if (ptr == NULL) {
G_debug(4, " line is dead -> write 0 only");
ch = 0;
if (0 >= dig__fwrite_port_C(&ch, 1, fp))
return (-1);
return 0;
}
/* type */
ch = (char)dig_type_to_store(ptr->type);
G_debug(5, " line type %d -> %d", ptr->type, ch);
if (0 >= dig__fwrite_port_C(&ch, 1, fp))
return (-1);
/* offset */
if (0 >= dig__fwrite_port_O(&(ptr->offset), 1, fp, Plus->off_t_size))
return (-1);
if (!ptr->topo)
return (0);
/* nothing else for points */
/* centroids */
if (ptr->type & GV_CENTROID) {
struct P_topo_c *topo = (struct P_topo_c *)ptr->topo;
if (0 >= dig__fwrite_port_P(&(topo->area), 1, fp))
return (-1);
}
/* lines */
else if (ptr->type & GV_LINE) {
struct P_topo_l *topo = (struct P_topo_l *)ptr->topo;
if (0 >= dig__fwrite_port_P(&(topo->N1), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(topo->N2), 1, fp))
return (-1);
}
/* boundaries */
else if (ptr->type & GV_BOUNDARY) {
struct P_topo_b *topo = (struct P_topo_b *)ptr->topo;
if (0 >= dig__fwrite_port_P(&(topo->N1), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(topo->N2), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(topo->left), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(topo->right), 1, fp))
return (-1);
}
/* faces */
else if ((ptr->type & GV_FACE) && Plus->with_z) { /* reserved for face */
struct P_topo_f *topo = (struct P_topo_f *)ptr->topo;
if (0 >= dig__fwrite_port_I(&n_edges, 1, fp))
return (-1);
/* here will be list of edges */
/* left / right volume / hole */
if (0 >= dig__fwrite_port_P(&(topo->left), 1, fp))
return (-1);
if (0 >= dig__fwrite_port_P(&(topo->right), 1, fp))
return (-1);
}
/* kernels */
else if ((ptr->type & GV_KERNEL) && Plus->with_z) { /* reserved for kernel (volume number) */
struct P_topo_k *topo = (struct P_topo_k *)ptr->topo;
/* volume */
if (0 >= dig__fwrite_port_P(&(topo->volume), 1, fp))
return (-1);
}
return (0);
}
int dig_write_cidx_head(GVFILE * fp, struct Plus_head *plus)
{
int i;
unsigned char buf[5];
long length = 9;
G_debug(3, "dig_write_cidx_head()");
dig_rewind(fp);
dig_set_cur_port(&(plus->cidx_port));
/* Head of header */
/* bytes 1 - 5 */
buf[0] = GV_CIDX_VER_MAJOR;
buf[1] = GV_CIDX_VER_MINOR;
buf[2] = GV_CIDX_EARLIEST_MAJOR;
buf[3] = GV_CIDX_EARLIEST_MINOR;
buf[4] = plus->cidx_port.byte_order;
if (0 >= dig__fwrite_port_C(buf, 5, fp))
return (-1);
/* bytes 6 - 9 : header size */
if (0 >= dig__fwrite_port_L(&length, 1, fp))
return (0);
/* Body of header - info about all fields */
/* Number of fields */
if (0 >= dig__fwrite_port_I(&(plus->n_cidx), 1, fp))
return (-1);
for (i = 0; i < plus->n_cidx; i++) {
int t;
struct Cat_index *ci;
ci = &(plus->cidx[i]);
G_debug(3, "cidx %d head offset: %ld", i, dig_ftell(fp));
/* Field number */
if (0 >= dig__fwrite_port_I(&(ci->field), 1, fp))
return (-1);
/* Number of categories */
if (0 >= dig__fwrite_port_I(&(ci->n_cats), 1, fp))
return (-1);
/* Number of unique categories */
if (0 >= dig__fwrite_port_I(&(ci->n_ucats), 1, fp))
return (-1);
/* Number of types */
if (0 >= dig__fwrite_port_I(&(ci->n_types), 1, fp))
return (-1);
/* Types */
for (t = 0; t < ci->n_types; t++) {
int wtype;
/* type */
wtype = dig_type_to_store(ci->type[t][0]);
if (0 >= dig__fwrite_port_I(&wtype, 1, fp))
return (-1);
/* number of items */
if (0 >= dig__fwrite_port_I(&(ci->type[t][1]), 1, fp))
return (-1);
}
/* Offset */
if (0 >= dig__fwrite_port_L(&(ci->offset), 1, fp))
return (0);
G_debug(3, "cidx %d offset: %ld", i, ci->offset);
}
G_debug(3, "cidx body offset %ld", dig_ftell(fp));
return (0);
}
/*!
\brief Write spatial index header to file
\param[in,out] fp pointer to struct gvfile
\param ptr pointer to Plus_head structure
\return 0 on success
\return -1 on error
*/
int dig_Wr_spidx_head(struct gvfile * fp, struct Plus_head *ptr)
{
unsigned char buf[6];
long length = 81; /* header length in bytes */
struct RTree *t;
size_t size;
dig_rewind(fp);
dig_set_cur_port(&(ptr->spidx_port));
/* use ptr->off_t_size = 4 if possible */
if (sizeof(off_t) > 4) {
size = ptr->Node_spidx->n_nodes * ptr->Node_spidx->nodesize;
size += ptr->Line_spidx->n_nodes * ptr->Line_spidx->nodesize;
size += ptr->Area_spidx->n_nodes * ptr->Area_spidx->nodesize;
size += ptr->Isle_spidx->n_nodes * ptr->Isle_spidx->nodesize;
if (size < PORT_INT_MAX)
ptr->spidx_port.off_t_size = 4;
else
ptr->spidx_port.off_t_size = 8;
}
else
ptr->spidx_port.off_t_size = 4;
/* bytes 1 - 6 */
buf[0] = GV_SIDX_VER_MAJOR;
buf[1] = GV_SIDX_VER_MINOR;
buf[2] = GV_SIDX_EARLIEST_MAJOR;
buf[3] = GV_SIDX_EARLIEST_MINOR;
buf[4] = ptr->spidx_port.byte_order;
buf[5] = (unsigned char)ptr->spidx_port.off_t_size;
if (0 >= dig__fwrite_port_C((const char *)buf, 6, fp))
return (-1);
/* adjust header size for large files */
if (ptr->spidx_port.off_t_size == 4) {
if (ptr->off_t_size == 4)
length = 113;
else if (ptr->off_t_size == 8)
length = 117;
else
G_fatal_error(_("Topology file must be written before spatial index file"));
}
else if (ptr->spidx_port.off_t_size == 8) {
if (ptr->off_t_size == 4)
length = 141;
else if (ptr->off_t_size == 8)
length = 145;
else
G_fatal_error(_("Topology file must be written before spatial index file"));
}
/* bytes 7 - 10 : header size */
if (0 >= dig__fwrite_port_L(&length, 1, fp))
return (0);
ptr->spidx_head_size = length;
/* byte 11 : dimension 2D or 3D */
buf[0] = ptr->spidx_with_z;
if (0 >= dig__fwrite_port_C((const char *)buf, 1, fp))
return (-1);
/* identical for all spatial indices: */
t = ptr->Node_spidx;
/* byte 12 : n dimensions */
if (0 >= dig__fwrite_port_C((const char *)&(t->ndims), 1, fp))
return (-1);
/* byte 13 : n sides */
if (0 >= dig__fwrite_port_C((const char *)&(t->nsides), 1, fp))
return (-1);
/* bytes 14 - 17 : nodesize */
if (0 >= dig__fwrite_port_I(&(t->nodesize), 1, fp))
return (-1);
/* bytes 18 - 21 : nodecard */
if (0 >= dig__fwrite_port_I(&(t->nodecard), 1, fp))
return (-1);
/* bytes 22 - 25 : leafcard */
if (0 >= dig__fwrite_port_I(&(t->leafcard), 1, fp))
return (-1);
/* bytes 26 - 29 : min node fill */
if (0 >= dig__fwrite_port_I(&(t->min_node_fill), 1, fp))
return (-1);
/* bytes 30 - 33 : min leaf fill */
if (0 >= dig__fwrite_port_I(&(t->min_leaf_fill), 1, fp))
return (-1);
/* for each spatial index : */
/* Node spatial index */
/* bytes 34 - 37 : n nodes */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_nodes), 1, fp))
return (-1);
/* bytes 38 - 41 : n leafs */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_leafs), 1, fp))
return (-1);
/* bytes 42 - 45 : n levels */
if (0 >= dig__fwrite_port_I(&(t->rootlevel), 1, fp))
return (-1);
/* bytes 46 - 49 (LFS 53) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Node_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* Line spatial index */
t = ptr->Line_spidx;
/* bytes 50 - 53 (LFS 54 - 57) : n nodes */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_nodes), 1, fp))
return (-1);
/* bytes 54 - 57 (LFS 58 - 61) : n leafs */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_leafs), 1, fp))
return (-1);
/* bytes 58 - 61 (LFS 62 - 65) : n levels */
if (0 >= dig__fwrite_port_I(&(t->rootlevel), 1, fp))
return (-1);
/* bytes 62 - 65 (LFS 66 - 73) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Line_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* Area spatial index */
t = ptr->Area_spidx;
/* bytes 66 - 69 (LFS 74 - 77) : n nodes */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_nodes), 1, fp))
return (-1);
/* bytes 70 - 73 (LFS 78 - 81) : n leafs */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_leafs), 1, fp))
return (-1);
/* bytes 74 - 77 (LFS 82 - 85) : n levels */
if (0 >= dig__fwrite_port_I(&(t->rootlevel), 1, fp))
return (-1);
/* bytes 78 - 81 (LFS 86 - 93) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Area_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* Isle spatial index */
t = ptr->Isle_spidx;
/* bytes 82 - 85 (LFS 94 - 97) : n nodes */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_nodes), 1, fp))
return (-1);
/* bytes 86 - 89 (LFS 98 - 101) : n leafs */
if (0 >= dig__fwrite_port_I((const int *)&(t->n_leafs), 1, fp))
return (-1);
/* bytes 90 - 93 (LFS 102 - 105) : n levels */
if (0 >= dig__fwrite_port_I(&(t->rootlevel), 1, fp))
return (-1);
/* bytes 94 - 97 (LFS 106 - 113) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Isle_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* 3D future : */
/* Face spatial index */
/* bytes 98 - 101 (LFS 114 - 121) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Face_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* ptr->Face_spidx->rootpos = ptr->Face_spidx_offset; */
/* Volume spatial index */
/* bytes 102 - 105 (LFS 122 - 129) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Volume_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* ptr->Volume_spidx->rootpos = ptr->Volume_spidx_offset; */
/* Hole spatial index */
/* bytes 106 - 109 (LFS 130 - 137) : root node offset */
if (0 >=
dig__fwrite_port_O(&(ptr->Hole_spidx_offset), 1, fp,
ptr->spidx_port.off_t_size))
return (-1);
/* ptr->Hole_spidx->rootpos = ptr->Hole_spidx_offset; */
G_debug(3, "spidx offset node = %lu line = %lu, area = %lu isle = %lu",
(long unsigned)ptr->Node_spidx_offset,
(long unsigned)ptr->Line_spidx_offset,
(long unsigned)ptr->Area_spidx_offset,
(long unsigned)ptr->Isle_spidx_offset);
/* coor file size : bytes 110 - 113 (117) (LFS: 138 - 141 (145)) */
if (0 >= dig__fwrite_port_O(&(ptr->coor_size), 1, fp, ptr->off_t_size))
return (-1);
length = (long unsigned)dig_ftell(fp);
G_debug(1, "spidx body offset %lu", length);
if (ptr->spidx_head_size != length)
G_fatal_error("wrong sidx head length %ld", ptr->spidx_head_size);
return (0);
}
int dig_write_cidx_head(struct gvfile * fp, struct Plus_head *plus)
{
int i;
unsigned char buf[5];
long length = 9;
G_debug(3, "dig_write_cidx_head()");
dig_rewind(fp);
dig_set_cur_port(&(plus->cidx_port));
/* Head of header */
/* bytes 1 - 5 */
buf[0] = GV_CIDX_VER_MAJOR;
buf[1] = GV_CIDX_VER_MINOR;
buf[2] = GV_CIDX_EARLIEST_MAJOR;
buf[3] = GV_CIDX_EARLIEST_MINOR;
buf[4] = plus->cidx_port.byte_order;
if (0 >= dig__fwrite_port_C((const char *)buf, 5, fp))
return (-1);
/* get required offset size */
if (plus->off_t_size == 0) {
/* should not happen, topo is written first */
if (plus->coor_size > (off_t)PORT_LONG_MAX)
plus->off_t_size = 8;
else
plus->off_t_size = 4;
}
/* bytes 6 - 9 : header size */
if (0 >= dig__fwrite_port_L(&length, 1, fp))
return (0);
/* Body of header - info about all fields */
/* Number of fields */
if (0 >= dig__fwrite_port_I(&(plus->n_cidx), 1, fp))
return (-1);
for (i = 0; i < plus->n_cidx; i++) {
int t;
struct Cat_index *ci;
ci = &(plus->cidx[i]);
G_debug(3, "cidx %d head offset: %"PRI_OFF_T, i, dig_ftell(fp));
/* Field number */
if (0 >= dig__fwrite_port_I(&(ci->field), 1, fp))
return (-1);
/* Number of categories */
if (0 >= dig__fwrite_port_I(&(ci->n_cats), 1, fp))
return (-1);
/* Number of unique categories */
if (0 >= dig__fwrite_port_I(&(ci->n_ucats), 1, fp))
return (-1);
/* Number of types */
if (0 >= dig__fwrite_port_I(&(ci->n_types), 1, fp))
return (-1);
/* Types */
for (t = 0; t < ci->n_types; t++) {
int wtype;
/* type */
wtype = dig_type_to_store(ci->type[t][0]);
if (0 >= dig__fwrite_port_I(&wtype, 1, fp))
return (-1);
/* number of items */
if (0 >= dig__fwrite_port_I(&(ci->type[t][1]), 1, fp))
return (-1);
}
/* Offset */
if (0 >= dig__fwrite_port_O(&(ci->offset), 1, fp, plus->off_t_size))
return (0);
G_debug(3, "cidx %d offset: %"PRI_OFF_T, i, ci->offset);
}
G_debug(3, "cidx body offset %"PRI_OFF_T, dig_ftell(fp));
return (0);
}
/*!
\brief Save feature index file for vector map
\param Map pointer to Map_info structure
\param offset pointer to Format_info_offset struct
(see Format_info_ogr and Format_info_pg struct for implementation issues)
\return 1 on success
\return 0 on error
*/
int Vect_save_fidx(struct Map_info *Map,
struct Format_info_offset *offset)
{
#ifdef HAVE_OGR
char fname[GPATH_MAX], elem[GPATH_MAX];
char buf[5];
long length;
struct gvfile fp;
struct Port_info port;
if (strcmp(Map->mapset, G_mapset()) != 0 ||
Map->support_updated == FALSE ||
Map->plus.built != GV_BUILD_ALL)
return 1;
length = 9;
sprintf(elem, "%s/%s", GV_DIRECTORY, Map->name);
G_file_name(fname, elem, GV_FIDX_ELEMENT, Map->mapset);
G_debug(4, "Open fidx: %s", fname);
dig_file_init(&fp);
fp.file = fopen(fname, "w");
if (fp.file == NULL) {
G_warning(_("Unable to open fidx file for write <%s>"), fname);
return 0;
}
dig_init_portable(&port, dig__byte_order_out());
dig_set_cur_port(&port);
/* Header */
/* bytes 1 - 5 */
buf[0] = 5;
buf[1] = 0;
buf[2] = 5;
buf[3] = 0;
buf[4] = (char)dig__byte_order_out();
if (0 >= dig__fwrite_port_C(buf, 5, &fp))
return 0;
/* bytes 6 - 9 : header size */
if (0 >= dig__fwrite_port_L(&length, 1, &fp))
return 0;
/* Body */
/* number of records */
if (0 >= dig__fwrite_port_I(&(offset->array_num), 1, &fp))
return 0;
/* offsets */
if (0 >= dig__fwrite_port_I(offset->array,
offset->array_num, &fp))
return 0;
G_debug(3, "Vect_save_fidx(): offset_num = %d", offset->array_num);
fclose(fp.file);
return 1;
#else
G_fatal_error(_("GRASS is not compiled with OGR support"));
return 0;
#endif
}
