X-Git-Url: https://plomlompom.com/repos/index.html?a=blobdiff_plain;f=src%2Fserver%2Ffield_of_view.c;h=d6b3a8d1278124c6de9694823a416cb1c24b2663;hb=eda9c448812827e36b71fa1c3eb76d0fb906b57d;hp=ae8aa9cbaa0887dbde1478f07ac808f6bc525a1f;hpb=3cb6ed6453b22eba62f7c9186790813b0abebeb9;p=plomrogue
diff --git a/src/server/field_of_view.c b/src/server/field_of_view.c
index ae8aa9c..d6b3a8d 100644
--- a/src/server/field_of_view.c
+++ b/src/server/field_of_view.c
@@ -1,13 +1,20 @@
-/* src/server/field_of_view.c */
+/* src/server/field_of_view.c
+ *
+ * This file is part of PlomRogue. PlomRogue is licensed under the GPL version 3
+ * or any later version. For details on its copyright, license, and warranties,
+ * see the file NOTICE in the root directory of the PlomRogue source package.
+ */
#include "field_of_view.h"
-#include /* uint8_t, uint16_t, uint32_t, int32_t */
+#include /* NULL */
+#include /* uint8_t, uint16_t, uint32_t, int32_t, UINT8_MAX */
#include /* free() */
#include /* memset() */
#include "../common/rexit.h" /* exit_trouble() */
#include "../common/try_malloc.h" /* try_malloc() */
-#include "things.h" /* Thing */
-#include "yx_uint8.h" /* yx_uint8 */
+#include "../common/yx_uint8.h" /* yx_uint8 */
+#include "map.h" /* mv_yx_in_dir_legal(), init_empty_map() */
+#include "things.h" /* Thing, ThingInMemory, add_thing_to_memory_map() */
#include "world.h" /* world */
@@ -30,22 +37,6 @@ struct shadow_angle
-/* Move "yx" into hex direction "d". */
-static void mv_yx_in_hex_dir(char d, struct yx_uint8 * yx);
-
-/* Move "yx" into hex direction "d". If this moves "yx" beyond the minimal (0)
- * or maximal (UINT8_MAX) column or row, it wraps to the opposite side. Such
- * wrapping is returned as a wraps enum value and stored, so that further calls
- * to move "yx" back into the opposite direction may unwrap it again. Pass an
- * "unwrap" of !0 to re-set the internal wrap memory to 0.
- */
-static uint8_t mv_yx_in_dir_wrap(char d, struct yx_uint8 * yx, uint8_t unwrap);
-
-/* Wrapper to mv_yx_in_dir_wrap(), returns 1 if the wrapped function moved "yx"
- * within the wrap borders and the map size, else 0.
- */
-static uint8_t mv_yx_in_dir_legal(char dir, struct yx_uint8 * yx);
-
/* Recalculate angle < 0 or > CIRCLE to a value between these two limits. */
static uint32_t correct_angle(int32_t angle);
@@ -84,89 +75,6 @@ static void eval_position(uint16_t dist, uint16_t hex_i, char * fov_map,
struct yx_uint8 * test_pos,
struct shadow_angle ** shadows);
-/* Update "t"'s .mem_map memory with what's in its current field of view. */
-static void update_map_memory(struct Thing * t, uint32_t map_size);
-
-
-
-static void mv_yx_in_hex_dir(char d, struct yx_uint8 * yx)
-{
- if (d == 'e')
- {
- yx->x = yx->x + (yx->y % 2);
- yx->y--;
- }
- else if (d == 'd')
- {
- yx->x++;
- }
- else if (d == 'c')
- {
- yx->x = yx->x + (yx->y % 2);
- yx->y++;
- }
- else if (d == 'x')
- {
- yx->x = yx->x - !(yx->y % 2);
- yx->y++;
- }
- else if (d == 's')
- {
- yx->x--;
- }
- else if (d == 'w')
- {
- yx->x = yx->x - !(yx->y % 2);
- yx->y--;
- }
-}
-
-
-
-static uint8_t mv_yx_in_dir_wrap(char d, struct yx_uint8 * yx, uint8_t unwrap)
-{
- static int8_t wrap_west_east = 0;
- static int8_t wrap_north_south = 0;
- if (unwrap)
- {
- wrap_west_east = wrap_north_south = 0;
- return 0;
- }
- struct yx_uint8 original;
- original.y = yx->y;
- original.x = yx->x;
- mv_yx_in_hex_dir(d, yx);
- if (strchr("edc", d) && yx->x < original.x)
- {
- wrap_west_east++;
- }
- else if (strchr("xsw", d) && yx->x > original.x)
- {
- wrap_west_east--;
- }
- if (strchr("we", d) && yx->y > original.y)
- {
- wrap_north_south--;
- }
- else if (strchr("xc", d) && yx->y < original.y)
- {
- wrap_north_south++;
- }
- return (wrap_west_east != 0) + (wrap_north_south != 0);
-}
-
-
-
-static uint8_t mv_yx_in_dir_legal(char dir, struct yx_uint8 * yx)
-{
- uint8_t wraptest = mv_yx_in_dir_wrap(dir, yx, 0);
- if (!wraptest && yx->x < world.map.length && yx->y < world.map.length)
- {
- return 1;
- }
- return 0;
-}
-
static uint32_t correct_angle(int32_t angle)
@@ -354,19 +262,48 @@ static void eval_position(uint16_t dist, uint16_t hex_i, char * fov_map,
-static void update_map_memory(struct Thing * t, uint32_t map_size)
+extern void update_map_memory(struct Thing * t_eye)
{
- if (!t->mem_map)
+ if (!t_eye->mem_map)
{
- t->mem_map = try_malloc(map_size, __func__);
- memset(t->mem_map, ' ', map_size);
+ init_empty_map(&(t_eye->mem_map));
}
uint32_t i;
- for (i = 0; i < map_size; i++)
+ for (i = 0; i < (uint32_t) (world.map.length * world.map.length); i++)
{
- if (' ' == t->mem_map[i] && t->fov_map[i] == 'v')
+ if (' ' == t_eye->mem_map[i] && t_eye->fov_map[i] == 'v')
{
- t->mem_map[i] = world.map.cells[i];
+ t_eye->mem_map[i] = world.map.cells[i];
+ }
+ }
+ struct ThingInMemory * tm = t_eye->t_mem;
+ struct ThingInMemory * tm_prev = NULL;
+ struct ThingInMemory * tm_next = NULL;
+ for (; tm; tm = tm_next)
+ {
+ tm_next = tm->next;
+ if ('v' == t_eye->fov_map[tm->pos.y * world.map.length + tm->pos.x])
+ {
+ if (tm_prev)
+ {
+ tm_prev->next = tm->next;
+ }
+ else
+ {
+ t_eye->t_mem = tm->next;
+ }
+ free(tm);
+ continue;
+ }
+ tm_prev = tm;
+ }
+ struct Thing * t = world.things;
+ for (; t; t = t->next)
+ {
+ if ( !t->lifepoints
+ && 'v' == t_eye->fov_map[t->pos.y * world.map.length + t->pos.x])
+ {
+ add_thing_to_memory_map(t_eye, t->type, t->pos.y, t->pos.x);
}
}
}
@@ -378,36 +315,35 @@ extern void build_fov_map(struct Thing * t)
uint32_t map_size = world.map.length * world.map.length;
t->fov_map = t->fov_map ? t->fov_map : try_malloc(map_size, __func__);
memset(t->fov_map, 'v', map_size);
- struct yx_uint8 test_pos = t->pos;
struct shadow_angle * shadows = NULL;
- char * circle_dirs = "xswedc";
- uint16_t dist;
- uint8_t first_round, circle_on_map;
- for (first_round = 1, dist = 1, circle_on_map = 1; circle_on_map; dist++)
+ struct yx_uint8 test_pos = t->pos;
+ char * circledirs_string = "xswedc";
+ uint16_t circle_i;
+ uint8_t circle_is_on_map;
+ for (circle_i = 1, circle_is_on_map = 1; circle_is_on_map; circle_i++)
{
- if (!first_round)
- {
- mv_yx_in_dir_legal('c', &test_pos);
- }
- char dir = 'd';
- uint8_t i_dir = first_round = circle_on_map = 0;
- uint16_t i_dist, hex_i;
- for (hex_i = 0, i_dist = 1; hex_i < 6 * dist; i_dist++, hex_i++)
+ circle_is_on_map = 0;
+ if (1 < circle_i) /* All circles but the 1st are */
+ { /* moved into starting from a */
+ mv_yx_in_dir_legal('c', &test_pos);/* previous circle's last hex, */
+ } /* i.e. from the upper left. */
+ char dir_char = 'd'; /* Circle's 1st hex is entered by rightward move.*/
+ uint8_t dir_char_pos_in_circledirs_string = UINT8_MAX;
+ uint16_t dist_i, hex_i;
+ for (hex_i=0, dist_i=circle_i; hex_i < 6 * circle_i; dist_i++, hex_i++)
{
- if (mv_yx_in_dir_legal(dir, &test_pos))
+ if (circle_i < dist_i)
{
- eval_position(dist, hex_i, t->fov_map, &test_pos, &shadows);
- circle_on_map = 1;
+ dist_i = 1;
+ dir_char=circledirs_string[++dir_char_pos_in_circledirs_string];
}
- dir = circle_dirs[i_dir];
- if (dist == i_dist)
+ if (mv_yx_in_dir_legal(dir_char, &test_pos))
{
- i_dist = 0;
- i_dir++;
+ eval_position(circle_i, hex_i, t->fov_map, &test_pos, &shadows);
+ circle_is_on_map = 1;
}
}
}
- mv_yx_in_dir_wrap(0, NULL, 1);
+ mv_yx_in_dir_legal(0, NULL);
free_angles(shadows);
- update_map_memory(t, map_size);
}