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grid.h
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grid.h
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/*
* (c) Lambros Lambrou 2008
*
* Code for working with general grids, which can be any planar graph
* with faces, edges and vertices (dots). Includes generators for a few
* types of grid, including square, hexagonal, triangular and others.
*/
#ifndef PUZZLES_GRID_H
#define PUZZLES_GRID_H
#include "puzzles.h" /* for random_state */
/* Useful macros */
#define SQ(x) ( (x) * (x) )
/* ----------------------------------------------------------------------
* Grid structures:
* A grid is made up of faces, edges and dots. These structures hold
* the incidence relationships between these types. For example, an
* edge always joins two dots, and is adjacent to two faces.
* The "grid_xxx **" members are lists of pointers which are dynamically
* allocated during grid generation.
* A pointer to a face/edge/dot will always point somewhere inside one of the
* three lists of the main "grid" structure: faces, edges, dots.
* Could have used integer offsets into these lists, but using actual
* pointers instead gives us type-safety.
*/
/* Need forward declarations */
typedef struct grid_face grid_face;
typedef struct grid_edge grid_edge;
typedef struct grid_dot grid_dot;
struct grid_face {
int order; /* Number of edges, also the number of dots */
grid_edge **edges; /* edges around this face */
grid_dot **dots; /* corners of this face */
/*
* For each face, we optionally compute and store its 'incentre'.
* The incentre of a triangle is the centre of a circle tangent to
* all three edges; I generalise the concept to arbitrary polygons
* by defining it to be the centre of the largest circle you can fit
* anywhere in the polygon. It's a useful thing to know because if
* you want to draw any symbol or text in the face (e.g. clue
* numbers in Loopy), that's the place it will most easily fit.
*
* When a grid is first generated, no face has this information
* computed, because it's fiddly to do. You can call
* grid_find_incentre() on a face, and it will fill in ix,iy below
* and set has_incentre to indicate that it's done so.
*/
int has_incentre;
int ix, iy; /* incentre (centre of largest inscribed circle) */
};
struct grid_edge {
grid_dot *dot1, *dot2;
grid_face *face1, *face2; /* Use NULL for the infinite outside face */
};
struct grid_dot {
int order;
grid_edge **edges;
grid_face **faces; /* A NULL grid_face* means infinite outside face */
/* Position in some fairly arbitrary (Cartesian) coordinate system.
* Use large enough values such that we can get away with
* integer arithmetic, but small enough such that arithmetic
* won't overflow. */
int x, y;
};
typedef struct grid {
/* These are (dynamically allocated) arrays of all the
* faces, edges, dots that are in the grid. */
int num_faces; grid_face *faces;
int num_edges; grid_edge *edges;
int num_dots; grid_dot *dots;
/* Cache the bounding-box of the grid, so the drawing-code can quickly
* figure out the proper scaling to draw onto a given area. */
int lowest_x, lowest_y, highest_x, highest_y;
/* A measure of tile size for this grid (in grid coordinates), to help
* the renderer decide how large to draw the grid.
* Roughly the size of a single tile - for example the side-length
* of a square cell. */
int tilesize;
/* We really don't want to copy this monstrosity!
* A grid is immutable once generated.
*/
int refcount;
} grid;
/* Grids are specified by type: GRID_SQUARE, GRID_KITE, etc. */
#define GRIDGEN_LIST(A) \
A(SQUARE,square) \
A(HONEYCOMB,honeycomb) \
A(TRIANGULAR,triangular) \
A(SNUBSQUARE,snubsquare) \
A(CAIRO,cairo) \
A(GREATHEXAGONAL,greathexagonal) \
A(OCTAGONAL,octagonal) \
A(KITE,kites) \
A(FLORET,floret) \
A(DODECAGONAL,dodecagonal) \
A(GREATDODECAGONAL,greatdodecagonal) \
A(PENROSE_P2,penrose_p2_kite) \
A(PENROSE_P3,penrose_p3_thick)
#define ENUM(upper,lower) GRID_ ## upper,
typedef enum grid_type { GRIDGEN_LIST(ENUM) GRID_TYPE_MAX } grid_type;
#undef ENUM
/* Free directly after use if non-NULL. Will never contain an underscore
* (so clients can safely use that as a separator). */
char *grid_new_desc(grid_type type, int width, int height, random_state *rs);
char *grid_validate_desc(grid_type type, int width, int height,
const char *desc);
grid *grid_new(grid_type type, int width, int height, const char *desc);
void grid_free(grid *g);
grid_edge *grid_nearest_edge(grid *g, int x, int y);
void grid_compute_size(grid_type type, int width, int height,
int *tilesize, int *xextent, int *yextent);
void grid_find_incentre(grid_face *f);
#endif /* PUZZLES_GRID_H */