#include "readwrite.h" /* for get_linemax(), try_fopen(), try_fclose()
* [read/write]_uint[8/16/23][_bigendian]()
*/
-#include "misc.h" /* for try_malloc(), try_calloc(), find_passable_pos() */
-#include "main.h" /* for World struct */
+#include "misc.h" /* for try_malloc(), find_passable_pos() */
+#include "main.h" /* for world global */
#include "rexit.h" /* for err_exit() */
#include "yx_uint16.h" /* for yx_uint16 struct, yx_uint16_cmp() */
/* Write representation of "mo" and all of the map objects it owns to "file". */
-static void write_map_object(struct World * w, FILE * file, struct MapObj * mo);
+static void write_map_object(FILE * file, struct MapObj * mo);
-static void write_map_object(struct World * w, FILE * file, struct MapObj * mo)
+static void write_map_object(FILE * file, struct MapObj * mo)
{
char * f_name = "write_map_object()";
struct MapObj * mo_ptr = mo->owns;
}
line[strlen(line) + 1] = '\0';
line[strlen(line)] = '\n';
- try_fwrite(line, strlen(line), 1, file, w, f_name);
+ try_fwrite(line, strlen(line), 1, file, f_name);
for (mo_ptr = mo->owns; NULL != mo_ptr; mo_ptr = mo_ptr->next)
{
- write_map_object(w, file, mo_ptr);
+ write_map_object(file, mo_ptr);
}
}
-extern void init_map_object_defs(struct World * world, char * filename)
+extern void init_map_object_defs(char * filename)
{
char * f_name = "init_map_object_defs()";
- FILE * file = try_fopen(filename, "r", world, f_name);
- uint16_t linemax = get_linemax(file, world, f_name);
- struct MapObjDef ** last_mod_ptr_ptr = &world->map_obj_defs;
+ FILE * file = try_fopen(filename, "r", f_name);
+ uint16_t linemax = get_linemax(file, f_name);
+ struct MapObjDef ** last_mod_ptr_ptr = &world.map_obj_defs;
char * delim = " ";
char line[linemax + 1];
- while (try_fgets(line, linemax + 1, file, world, f_name))
+ while (try_fgets(line, linemax + 1, file, f_name))
{
struct MapObjDef * mod;
- mod = try_malloc(sizeof(struct MapObjDef), world, f_name);
+ mod = try_malloc(sizeof(struct MapObjDef), f_name);
mod->next = NULL;
mod->id = atoi(strtok(line, delim));
mod->corpse_id = atoi(strtok(NULL, delim));
mod->char_on_map = * strtok(NULL, delim);
mod->lifepoints = atoi(strtok(NULL, delim));
char * name = strtok(NULL, "\n");
- mod->name = try_malloc(strlen(name) + 1, world, f_name);
+ mod->name = try_malloc(strlen(name) + 1, f_name);
memcpy(mod->name, name, strlen(name) + 1);
* last_mod_ptr_ptr = mod;
last_mod_ptr_ptr = &mod->next;
}
- try_fclose(file, world, f_name);
+ try_fclose(file, f_name);
}
-extern void write_map_objects(struct World * world, FILE * file)
+extern void write_map_objects(FILE * file)
{
- struct MapObj * mo = world->map_objs;
+ struct MapObj * mo = world.map_objs;
while (NULL != mo)
{
- write_map_object(world, file, mo);
+ write_map_object(file, mo);
mo = mo->next;
}
}
-extern void read_map_objects(struct World * world, FILE * file, char * line,
- int linemax)
+extern void read_map_objects(FILE * file, char * line, int linemax)
{
char * f_name = "read_map_objects()";
- struct MapObj ** mo_ptr_ptr = &world->map_objs;
+ struct MapObj ** mo_ptr_ptr = &world.map_objs;
char * delim = " ";
struct MapObj * mo;
fpos_t pos;
- exit_err(-1 == fgetpos(file, &pos), world, f_name);
- while (try_fgets(line, linemax + 1, file, world, f_name))
+ exit_err(-1 == fgetpos(file, &pos), f_name);
+ while (try_fgets(line, linemax + 1, file, f_name))
{
mo = malloc(sizeof(struct MapObj));
mo->next = NULL;
mo->pos.y = atoi(strtok(NULL, delim));
mo->pos.x = atoi(strtok(NULL, delim));
mo->owns = NULL;
- if (mo->id > world->map_obj_count)
+ if (mo->id > world.map_obj_count)
{
- world->map_obj_count = mo->id;
+ world.map_obj_count = mo->id;
}
* mo_ptr_ptr = mo;
mo_ptr_ptr = &mo->next;
}
- exit_err(-1 == fsetpos(file, &pos), world, f_name);
- while (try_fgets(line, linemax + 1, file, world, f_name))
+ exit_err(-1 == fsetpos(file, &pos), f_name);
+ while (try_fgets(line, linemax + 1, file, f_name))
{
uint8_t id = atoi(strtok(line, delim));
strtok(NULL, delim);
char * owned = strtok(NULL, "\n");
if (NULL != owned)
{
- mo = get_map_object(world->map_objs, id);
+ mo = get_map_object(world.map_objs, id);
char * owned_id = "";
owned_id = strtok(owned, delim);
while (NULL != owned_id)
{
- own_map_object(&mo->owns, &world->map_objs,
+ own_map_object(&mo->owns, &world.map_objs,
(uint8_t) atoi(owned_id));
owned_id = strtok(NULL, delim);
}
-extern void add_map_object(struct World * world, uint8_t type)
+extern void add_map_object(uint8_t type)
{
char * f_name = "add_map_object()";
- struct MapObjDef * mod = get_map_object_def(world, type);
- struct MapObj * mo = try_malloc(sizeof(struct MapObj), world, f_name);
- mo->id = world->map_obj_count;
- world->map_obj_count++;
+ struct MapObjDef * mod = get_map_object_def(type);
+ struct MapObj * mo = try_malloc(sizeof(struct MapObj), f_name);
+ mo->id = world.map_obj_count;
+ world.map_obj_count++;
mo->type = mod->id;
mo->lifepoints = mod->lifepoints;
while (1)
{
- struct yx_uint16 pos = find_passable_pos(world->map);
+ struct yx_uint16 pos = find_passable_pos(world.map);
struct MapObj * mo_ptr;
uint8_t clear = 1;
- for (mo_ptr = world->map_objs;
- mo_ptr != NULL;
- mo_ptr = mo_ptr->next)
+ for (mo_ptr = world.map_objs; mo_ptr != NULL; mo_ptr = mo_ptr->next)
{
if (yx_uint16_cmp(&pos, &mo_ptr->pos) && 0 != mo_ptr->lifepoints)
{
}
mo->owns = NULL;
mo->next = NULL;
- struct MapObj ** last_ptr_ptr = &world->map_objs;
+ struct MapObj ** last_ptr_ptr = &world.map_objs;
struct MapObj * mo_ptr;
while (NULL != * last_ptr_ptr)
{
-extern void add_map_objects(struct World * world, uint8_t type, uint8_t n)
+extern void add_map_objects(uint8_t type, uint8_t n)
{
uint8_t i;
for (i = 0; i < n; i++)
{
- add_map_object(world, type);
+ add_map_object(type);
}
}
-extern struct MapObj * get_player(struct World * world)
+extern struct MapObj * get_player()
{
- return get_map_object(world->map_objs, 0);
+ return get_map_object(world.map_objs, 0);
}
-extern struct MapObjDef * get_map_object_def(struct World * w, uint8_t id)
+extern struct MapObjDef * get_map_object_def(uint8_t id)
{
- struct MapObjDef * mod = w->map_obj_defs;
+ struct MapObjDef * mod = world.map_obj_defs;
while (id != mod->id)
{
mod = mod->next;