#include <stdio.h> /* for FILE */
#include <stdlib.h> /* for size_t */
+#include <limits.h> /* for UINT_MAX */
#ifndef TRUE
#define TRUE 1
CURSOR_LEFT,
CURSOR_RIGHT,
CURSOR_SELECT,
+ CURSOR_SELECT2,
/* made smaller because of 'limited range of datatype' errors. */
MOD_CTRL = 0x1000,
(unsigned)(RIGHT_DRAG - LEFT_DRAG))
#define IS_MOUSE_RELEASE(m) ( (unsigned)((m) - LEFT_RELEASE) <= \
(unsigned)(RIGHT_RELEASE - LEFT_RELEASE))
+#define IS_CURSOR_MOVE(m) ( (m) == CURSOR_UP || (m) == CURSOR_DOWN || \
+ (m) == CURSOR_RIGHT || (m) == CURSOR_LEFT )
+#define IS_CURSOR_SELECT(m) ( (m) == CURSOR_SELECT || (m) == CURSOR_SELECT2)
+/*
+ * Flags in the back end's `flags' word.
+ */
/* Bit flags indicating mouse button priorities */
#define BUTTON_BEATS(x,y) ( 1 << (((x)-LEFT_BUTTON)*3+(y)-LEFT_BUTTON) )
-
-/* Another random flag that goes in the mouse priorities section for want
- * of a better place to put it */
+/* Flag indicating that Solve operations should be animated */
#define SOLVE_ANIMATES ( 1 << 9 )
+/* Pocket PC: Game requires right mouse button emulation */
+#define REQUIRE_RBUTTON ( 1 << 10 )
+/* Pocket PC: Game requires numeric input */
+#define REQUIRE_NUMPAD ( 1 << 11 )
+/* end of `flags' word definitions */
+
+#ifdef _WIN32_WCE
+ /* Pocket PC devices have small, portrait screen that requires more vivid colours */
+ #define SMALL_SCREEN
+ #define PORTRAIT_SCREEN
+ #define VIVID_COLOURS
+ #define STYLUS_BASED
+#endif
#define IGNOREARG(x) ( (x) = (x) )
#define FONT_VARIABLE 1
/* For printing colours */
-#define HATCH_SOLID 0
-#define HATCH_CLEAR 1
-#define HATCH_SLASH 2
-#define HATCH_BACKSLASH 3
-#define HATCH_HORIZ 4
-#define HATCH_VERT 5
-#define HATCH_PLUS 6
-#define HATCH_X 7
+#define HATCH_SLASH 1
+#define HATCH_BACKSLASH 2
+#define HATCH_HORIZ 3
+#define HATCH_VERT 4
+#define HATCH_PLUS 5
+#define HATCH_X 6
/*
* Structure used to pass configuration data between frontend and
/*
* drawing.c
*/
-drawing *drawing_init(const drawing_api *api, void *handle);
+drawing *drawing_new(const drawing_api *api, midend *me, void *handle);
void drawing_free(drawing *dr);
void draw_text(drawing *dr, int x, int y, int fonttype, int fontsize,
int align, int colour, char *text);
void start_draw(drawing *dr);
void draw_update(drawing *dr, int x, int y, int w, int h);
void end_draw(drawing *dr);
+char *text_fallback(drawing *dr, const char *const *strings, int nstrings);
void status_bar(drawing *dr, char *text);
blitter *blitter_new(drawing *dr, int w, int h);
void blitter_free(drawing *dr, blitter *bl);
void print_end_puzzle(drawing *dr);
void print_end_page(drawing *dr, int number);
void print_end_doc(drawing *dr);
-void print_get_colour(drawing *dr, int colour, int *hatch,
- float *r, float *g, float *b);
+void print_get_colour(drawing *dr, int colour, int printing_in_colour,
+ int *hatch, float *r, float *g, float *b);
int print_mono_colour(drawing *dr, int grey); /* 0==black, 1==white */
-int print_grey_colour(drawing *dr, int hatch, float grey);
-int print_rgb_colour(drawing *dr, int hatch, float r, float g, float b);
+int print_grey_colour(drawing *dr, float grey);
+int print_hatched_colour(drawing *dr, int hatch);
+int print_rgb_mono_colour(drawing *dr, float r, float g, float b, int mono);
+int print_rgb_grey_colour(drawing *dr, float r, float g, float b, float grey);
+int print_rgb_hatched_colour(drawing *dr, float r, float g, float b,
+ int hatch);
void print_line_width(drawing *dr, int width);
+void print_line_dotted(drawing *dr, int dotted);
/*
* midend.c
void midend_free(midend *me);
void midend_set_params(midend *me, game_params *params);
game_params *midend_get_params(midend *me);
-void midend_size(midend *me, int *x, int *y, int expand);
+void midend_size(midend *me, int *x, int *y, int user_size);
void midend_new_game(midend *me);
void midend_restart_game(midend *me);
void midend_stop_anim(midend *me);
void midend_force_redraw(midend *me);
void midend_redraw(midend *me);
float *midend_colours(midend *me, int *ncolours);
+void midend_freeze_timer(midend *me, float tprop);
void midend_timer(midend *me, float tplus);
int midend_num_presets(midend *me);
void midend_fetch_preset(midend *me, int n,
char **name, game_params **params);
+int midend_which_preset(midend *me);
int midend_wants_statusbar(midend *me);
enum { CFG_SETTINGS, CFG_SEED, CFG_DESC, CFG_FRONTEND_SPECIFIC };
config_item *midend_get_config(midend *me, int which, char **wintitle);
char *midend_set_config(midend *me, int which, config_item *cfg);
char *midend_game_id(midend *me, char *id);
char *midend_get_game_id(midend *me);
+int midend_can_format_as_text_now(midend *me);
char *midend_text_format(midend *me);
char *midend_solve(midend *me);
void midend_supersede_game_desc(midend *me, char *desc, char *privdesc);
void *rctx);
/* Printing functions supplied by the mid-end */
char *midend_print_puzzle(midend *me, document *doc, int with_soln);
+int midend_tilesize(midend *me);
/*
* malloc.c
* and auto-generates highlight and lowlight colours too. */
void game_mkhighlight(frontend *fe, float *ret,
int background, int highlight, int lowlight);
+/* As above, but starts from a provided background colour rather
+ * than the frontend default. */
+void game_mkhighlight_specific(frontend *fe, float *ret,
+ int background, int highlight, int lowlight);
/* Randomly shuffles an array of items. */
void shuffle(void *array, int nelts, int eltsize, random_state *rs);
void draw_rect_outline(drawing *dr, int x, int y, int w, int h,
int colour);
+/* Draw a set of rectangle corners (e.g. for a cursor display). */
+void draw_rect_corners(drawing *dr, int cx, int cy, int r, int col);
+
+void move_cursor(int button, int *x, int *y, int maxw, int maxh, int wrap);
+
+/* Used in netslide.c and sixteen.c for cursor movement around edge. */
+int c2pos(int w, int h, int cx, int cy);
+int c2diff(int w, int h, int cx, int cy, int button);
+void pos2c(int w, int h, int pos, int *cx, int *cy);
+
+/* Draws text with an 'outline' formed by offsetting the text
+ * by one pixel; useful for highlighting. Outline is omitted if -1. */
+void draw_text_outline(drawing *dr, int x, int y, int fonttype,
+ int fontsize, int align,
+ int text_colour, int outline_colour, char *text);
/*
* dsf.c
*/
+int *snew_dsf(int size);
+
+void print_dsf(int *dsf, int size);
+
+/* Return the canonical element of the equivalence class containing element
+ * val. If 'inverse' is non-NULL, this function will put into it a flag
+ * indicating whether the canonical element is inverse to val. */
+int edsf_canonify(int *dsf, int val, int *inverse);
int dsf_canonify(int *dsf, int val);
+int dsf_size(int *dsf, int val);
+
+/* Allow the caller to specify that two elements should be in the same
+ * equivalence class. If 'inverse' is TRUE, the elements are actually opposite
+ * to one another in some sense. This function will fail an assertion if the
+ * caller gives it self-contradictory data, ie if two elements are claimed to
+ * be both opposite and non-opposite. */
+void edsf_merge(int *dsf, int v1, int v2, int inverse);
void dsf_merge(int *dsf, int v1, int v2);
+void dsf_init(int *dsf, int len);
/*
+ * laydomino.c
+ */
+int *domino_layout(int w, int h, random_state *rs);
+void domino_layout_prealloc(int w, int h, random_state *rs,
+ int *grid, int *grid2, int *list);
+/*
* version.c
*/
extern char ver[];
/*
* random.c
*/
-random_state *random_init(char *seed, int len);
+random_state *random_new(char *seed, int len);
random_state *random_copy(random_state *tocopy);
unsigned long random_bits(random_state *state, int bits);
unsigned long random_upto(random_state *state, unsigned long limit);
char *random_state_encode(random_state *state);
random_state *random_state_decode(char *input);
/* random.c also exports SHA, which occasionally comes in useful. */
+#if __STDC_VERSION__ >= 199901L
+#include <stdint.h>
+typedef uint32_t uint32;
+#elif UINT_MAX >= 4294967295L
+typedef unsigned int uint32;
+#else
typedef unsigned long uint32;
+#endif
typedef struct {
uint32 h[5];
unsigned char block[64];
void free_combi(combi_ctx *combi);
/*
+ * divvy.c
+ */
+/* divides w*h rectangle into pieces of size k. Returns w*h dsf. */
+int *divvy_rectangle(int w, int h, int k, random_state *rs);
+
+/*
* Data structure containing the function calls and data specific
* to a particular game. This is enclosed in a data structure so
* that a particular platform can choose, if it wishes, to compile
*/
struct game {
const char *name;
- const char *winhelp_topic;
+ const char *winhelp_topic, *htmlhelp_topic;
game_params *(*default_params)(void);
int (*fetch_preset)(int i, char **name, game_params **params);
void (*decode_params)(game_params *, char const *string);
int can_solve;
char *(*solve)(game_state *orig, game_state *curr,
char *aux, char **error);
- int can_format_as_text;
+ int can_format_as_text_ever;
+ int (*can_format_as_text_now)(game_params *params);
char *(*text_format)(game_state *state);
game_ui *(*new_ui)(game_state *state);
void (*free_ui)(game_ui *ui);
void (*compute_size)(game_params *params, int tilesize, int *x, int *y);
void (*set_size)(drawing *dr, game_drawstate *ds,
game_params *params, int tilesize);
- float *(*colours)(frontend *fe, game_state *state, int *ncolours);
+ float *(*colours)(frontend *fe, int *ncolours);
game_drawstate *(*new_drawstate)(drawing *dr, game_state *state);
void (*free_drawstate)(drawing *dr, game_drawstate *ds);
void (*redraw)(drawing *dr, game_drawstate *ds, game_state *oldstate,
int can_print, can_print_in_colour;
void (*print_size)(game_params *params, float *x, float *y);
void (*print)(drawing *dr, game_state *state, int tilesize);
- int (*wants_statusbar)(void);
+ int wants_statusbar;
int is_timed;
int (*timing_state)(game_state *state, game_ui *ui);
- int mouse_priorities;
+ int flags;
};
/*
void (*end_page)(void *handle, int number);
void (*end_doc)(void *handle);
void (*line_width)(void *handle, float width);
+ void (*line_dotted)(void *handle, int dotted);
+ char *(*text_fallback)(void *handle, const char *const *strings,
+ int nstrings);
};
/*