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/*
Copyright (c) 2002, 2013, Oracle and/or its affiliates.
Copyright (c) 2009, 2013, Monty Program Ab.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */
#ifndef _spatial_h
#define _spatial_h
#include "sql_string.h" /* String, LEX_STRING */
#include <my_compiler.h>
#ifdef HAVE_SPATIAL
class Gis_read_stream;
#include "gcalc_tools.h"
const uint SRID_SIZE= 4;
const uint SIZEOF_STORED_DOUBLE= 8;
const uint POINT_DATA_SIZE= (SIZEOF_STORED_DOUBLE * 2);
const uint WKB_HEADER_SIZE= 1+4;
const uint32 GET_SIZE_ERROR= ((uint32) -1);
struct st_point_2d
{
double x;
double y;
};
struct st_linear_ring
{
uint32 n_points;
st_point_2d points;
};
/***************************** MBR *******************************/
/*
It's ok that a lot of the functions are inline as these are only used once
in MySQL
*/
struct MBR
{
double xmin, ymin, xmax, ymax;
MBR()
{
xmin= ymin= DBL_MAX;
xmax= ymax= -DBL_MAX;
}
MBR(const double xmin_arg, const double ymin_arg,
const double xmax_arg, const double ymax_arg)
:xmin(xmin_arg), ymin(ymin_arg), xmax(xmax_arg), ymax(ymax_arg)
{}
MBR(const st_point_2d &min, const st_point_2d &max)
:xmin(min.x), ymin(min.y), xmax(max.x), ymax(max.y)
{}
inline void add_xy(double x, double y)
{
/* Not using "else" for proper one point MBR calculation */
if (x < xmin)
xmin= x;
if (x > xmax)
xmax= x;
if (y < ymin)
ymin= y;
if (y > ymax)
ymax= y;
}
void add_xy(const char *px, const char *py)
{
double x, y;
float8get(x, px);
float8get(y, py);
add_xy(x,y);
}
void add_mbr(const MBR *mbr)
{
if (mbr->xmin < xmin)
xmin= mbr->xmin;
if (mbr->xmax > xmax)
xmax= mbr->xmax;
if (mbr->ymin < ymin)
ymin= mbr->ymin;
if (mbr->ymax > ymax)
ymax= mbr->ymax;
}
void buffer(double d)
{
xmin-= d;
ymin-= d;
xmax+= d;
ymax+= d;
}
int equals(const MBR *mbr)
{
/* The following should be safe, even if we compare doubles */
return ((mbr->xmin == xmin) && (mbr->ymin == ymin) &&
(mbr->xmax == xmax) && (mbr->ymax == ymax));
}
int disjoint(const MBR *mbr)
{
/* The following should be safe, even if we compare doubles */
return ((mbr->xmin > xmax) || (mbr->ymin > ymax) ||
(mbr->xmax < xmin) || (mbr->ymax < ymin));
}
int intersects(const MBR *mbr)
{
return !disjoint(mbr);
}
int touches(const MBR *mbr)
{
/* The following should be safe, even if we compare doubles */
return ((mbr->xmin == xmax || mbr->xmax == xmin) &&
((mbr->ymin >= ymin && mbr->ymin <= ymax) ||
(mbr->ymax >= ymin && mbr->ymax <= ymax))) ||
((mbr->ymin == ymax || mbr->ymax == ymin) &&
((mbr->xmin >= xmin && mbr->xmin <= xmax) ||
(mbr->xmax >= xmin && mbr->xmax <= xmax)));
}
int within(const MBR *mbr)
{
/* The following should be safe, even if we compare doubles */
return ((mbr->xmin <= xmin) && (mbr->ymin <= ymin) &&
(mbr->xmax >= xmax) && (mbr->ymax >= ymax));
}
int contains(const MBR *mbr)
{
/* The following should be safe, even if we compare doubles */
return ((mbr->xmin >= xmin) && (mbr->ymin >= ymin) &&
(mbr->xmax <= xmax) && (mbr->ymax <= ymax));
}
bool inner_point(double x, double y) const
{
/* The following should be safe, even if we compare doubles */
return (xmin<x) && (xmax>x) && (ymin<y) && (ymax>y);
}
/**
The dimension maps to an integer as:
- Polygon -> 2
- Horizontal or vertical line -> 1
- Point -> 0
- Invalid MBR -> -1
*/
int dimension() const
{
int d= 0;
if (xmin > xmax)
return -1;
else if (xmin < xmax)
d++;
if (ymin > ymax)
return -1;
else if (ymin < ymax)
d++;
return d;
}
int overlaps(const MBR *mbr)
{
/*
overlaps() requires that some point inside *this is also inside
*mbr, and that both geometries and their intersection are of the
same dimension.
*/
int d = dimension();
if (d != mbr->dimension() || d <= 0 || contains(mbr) || within(mbr))
return 0;
MBR intersection(MY_MAX(xmin, mbr->xmin), MY_MAX(ymin, mbr->ymin),
MY_MIN(xmax, mbr->xmax), MY_MIN(ymax, mbr->ymax));
return (d == intersection.dimension());
}
int valid() const
{ return xmin <= xmax && ymin <= ymax; }
};
/***************************** Geometry *******************************/
struct Geometry_buffer;
class Geometry
{
public:
Geometry() {} /* Remove gcc warning */
virtual ~Geometry() {} /* Remove gcc warning */
static void *operator new(size_t size, void *buffer)
{
return buffer;
}
static void operator delete(void *ptr, void *buffer)
{}
static void operator delete(void *buffer)
{}
static String bad_geometry_data;
enum wkbType
{
wkb_point= 1,
wkb_linestring= 2,
wkb_polygon= 3,
wkb_multipoint= 4,
wkb_multilinestring= 5,
wkb_multipolygon= 6,
wkb_geometrycollection= 7,
wkb_last=7
};
enum wkbByteOrder
{
wkb_xdr= 0, /* Big Endian */
wkb_ndr= 1 /* Little Endian */
};
/** Callback which creates Geometry objects on top of a given placement. */
typedef Geometry *(*create_geom_t)(char *);
class Class_info
{
public:
LEX_STRING m_name;
int m_type_id;
create_geom_t m_create_func;
Class_info(const char *name, int type_id, create_geom_t create_func);
};
virtual const Class_info *get_class_info() const=0;
virtual uint32 get_data_size() const=0;
virtual bool init_from_wkt(Gis_read_stream *trs, String *wkb)=0;
/* returns the length of the wkb that was read */
virtual uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo,
String *res)=0;
virtual uint init_from_opresult(String *bin,
const char *opres, uint res_len)
{ return init_from_wkb(opres + 4, UINT_MAX32, wkb_ndr, bin) + 4; }
virtual bool get_data_as_wkt(String *txt, const char **end) const=0;
virtual bool get_mbr(MBR *mbr, const char **end) const=0;
virtual bool dimension(uint32 *dim, const char **end) const=0;
virtual int get_x(double *x) const { return -1; }
virtual int get_y(double *y) const { return -1; }
virtual int geom_length(double *len, const char **end) const { return -1; }
virtual int area(double *ar, const char **end) const { return -1;}
virtual int is_closed(int *closed) const { return -1; }
virtual int num_interior_ring(uint32 *n_int_rings) const { return -1; }
virtual int num_points(uint32 *n_points) const { return -1; }
virtual int num_geometries(uint32 *num) const { return -1; }
virtual int start_point(String *point) const { return -1; }
virtual int end_point(String *point) const { return -1; }
virtual int exterior_ring(String *ring) const { return -1; }
virtual int centroid(String *point) const { return -1; }
virtual int point_n(uint32 num, String *result) const { return -1; }
virtual int interior_ring_n(uint32 num, String *result) const { return -1; }
virtual int geometry_n(uint32 num, String *result) const { return -1; }
virtual int store_shapes(Gcalc_shape_transporter *trn) const=0;
public:
static Geometry *create_by_typeid(Geometry_buffer *buffer, int type_id);
static Geometry *construct(Geometry_buffer *buffer,
const char *data, uint32 data_len);
static Geometry *create_from_wkt(Geometry_buffer *buffer,
Gis_read_stream *trs, String *wkt,
bool init_stream=1);
static Geometry *create_from_wkb(Geometry_buffer *buffer,
const char *wkb, uint32 len, String *res);
static int create_from_opresult(Geometry_buffer *g_buf,
String *res, Gcalc_result_receiver &rr);
int as_wkt(String *wkt, const char **end);
inline void set_data_ptr(const char *data, uint32 data_len)
{
m_data= data;
m_data_end= data + data_len;
}
inline void shift_wkb_header()
{
m_data+= WKB_HEADER_SIZE;
}
bool envelope(String *result) const;
static Class_info *ci_collection[wkb_last+1];
protected:
static Class_info *find_class(int type_id)
{
return ((type_id < wkb_point) || (type_id > wkb_last)) ?
NULL : ci_collection[type_id];
}
static Class_info *find_class(const char *name, uint32 len);
const char *append_points(String *txt, uint32 n_points,
const char *data, uint32 offset) const;
bool create_point(String *result, const char *data) const;
bool create_point(String *result, double x, double y) const;
const char *get_mbr_for_points(MBR *mbr, const char *data, uint offset)
const;
/**
Check if there're enough data remaining as requested
@arg cur_data pointer to the position in the binary form
@arg data_amount number of points expected
@return true if not enough data
*/
inline bool no_data(const char *cur_data, size_t data_amount) const
{
return (cur_data + data_amount > m_data_end);
}
/**
Check if there're enough points remaining as requested
Need to perform the calculation in logical units, since multiplication
can overflow the size data type.
@arg data pointer to the begining of the points array
@arg expected_points number of points expected
@arg extra_point_space extra space for each point element in the array
@return true if there are not enough points
*/
inline bool not_enough_points(const char *data, uint32 expected_points,
uint32 extra_point_space = 0) const
{
return (m_data_end < data ||
(expected_points > ((m_data_end - data) /
(POINT_DATA_SIZE + extra_point_space))));
}
const char *m_data;
const char *m_data_end;
};
/***************************** Point *******************************/
class Gis_point: public Geometry
{
public:
Gis_point() {} /* Remove gcc warning */
virtual ~Gis_point() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int get_xy(double *x, double *y) const
{
const char *data= m_data;
if (no_data(data, SIZEOF_STORED_DOUBLE * 2))
return 1;
float8get(*x, data);
float8get(*y, data + SIZEOF_STORED_DOUBLE);
return 0;
}
int get_x(double *x) const
{
if (no_data(m_data, SIZEOF_STORED_DOUBLE))
return 1;
float8get(*x, m_data);
return 0;
}
int get_y(double *y) const
{
const char *data= m_data;
if (no_data(data, SIZEOF_STORED_DOUBLE * 2)) return 1;
float8get(*y, data + SIZEOF_STORED_DOUBLE);
return 0;
}
int geom_length(double *len, const char **end) const;
int area(double *ar, const char **end) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 0;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
/***************************** LineString *******************************/
class Gis_line_string: public Geometry
{
public:
Gis_line_string() {} /* Remove gcc warning */
virtual ~Gis_line_string() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int geom_length(double *len, const char **end) const;
int area(double *ar, const char **end) const;
int is_closed(int *closed) const;
int num_points(uint32 *n_points) const;
int start_point(String *point) const;
int end_point(String *point) const;
int point_n(uint32 n, String *result) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 1;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
/***************************** Polygon *******************************/
class Gis_polygon: public Geometry
{
public:
Gis_polygon() {} /* Remove gcc warning */
virtual ~Gis_polygon() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int area(double *ar, const char **end) const;
int exterior_ring(String *result) const;
int num_interior_ring(uint32 *n_int_rings) const;
int interior_ring_n(uint32 num, String *result) const;
int centroid_xy(double *x, double *y) const;
int centroid(String *result) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 2;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
/***************************** MultiPoint *******************************/
class Gis_multi_point: public Geometry
{
// Maximum number of points in MultiPoint that can fit into String
static const uint32 max_n_points=
(uint32) (UINT_MAX32 - WKB_HEADER_SIZE - 4 /* n_points */) /
(WKB_HEADER_SIZE + POINT_DATA_SIZE);
public:
Gis_multi_point() {} /* Remove gcc warning */
virtual ~Gis_multi_point() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int num_geometries(uint32 *num) const;
int geometry_n(uint32 num, String *result) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 0;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
/***************************** MultiLineString *******************************/
class Gis_multi_line_string: public Geometry
{
public:
Gis_multi_line_string() {} /* Remove gcc warning */
virtual ~Gis_multi_line_string() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int num_geometries(uint32 *num) const;
int geometry_n(uint32 num, String *result) const;
int geom_length(double *len, const char **end) const;
int is_closed(int *closed) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 1;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
/***************************** MultiPolygon *******************************/
class Gis_multi_polygon: public Geometry
{
public:
Gis_multi_polygon() {} /* Remove gcc warning */
virtual ~Gis_multi_polygon() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int num_geometries(uint32 *num) const;
int geometry_n(uint32 num, String *result) const;
int area(double *ar, const char **end) const;
int centroid(String *result) const;
bool dimension(uint32 *dim, const char **end) const
{
*dim= 2;
*end= 0; /* No default end */
return 0;
}
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
uint init_from_opresult(String *bin, const char *opres, uint res_len);
};
/*********************** GeometryCollection *******************************/
class Gis_geometry_collection: public Geometry
{
public:
Gis_geometry_collection() {} /* Remove gcc warning */
virtual ~Gis_geometry_collection() {} /* Remove gcc warning */
uint32 get_data_size() const;
bool init_from_wkt(Gis_read_stream *trs, String *wkb);
uint init_from_wkb(const char *wkb, uint len, wkbByteOrder bo, String *res);
uint init_from_opresult(String *bin, const char *opres, uint res_len);
bool get_data_as_wkt(String *txt, const char **end) const;
bool get_mbr(MBR *mbr, const char **end) const;
int area(double *ar, const char **end) const;
int geom_length(double *len, const char **end) const;
int num_geometries(uint32 *num) const;
int geometry_n(uint32 num, String *result) const;
bool dimension(uint32 *dim, const char **end) const;
int store_shapes(Gcalc_shape_transporter *trn) const;
const Class_info *get_class_info() const;
};
struct Geometry_buffer : public
my_aligned_storage<sizeof(Gis_point), MY_ALIGNOF(Gis_point)> {};
#endif /*HAVE_SPATIAL*/
#endif
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