server/src/common/kernel/building.c

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/* vi: set ts=2:
*
*
* Eressea PB(E)M host Copyright (C) 1998-2003
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* Christian Schlittchen (corwin@amber.kn-bremen.de)
* Katja Zedel (katze@felidae.kn-bremen.de)
* Henning Peters (faroul@beyond.kn-bremen.de)
* Enno Rehling (enno@eressea-pbem.de)
* Ingo Wilken (Ingo.Wilken@informatik.uni-oldenburg.de)
*
* This program may not be used, modified or distributed without
* prior permission by the authors of Eressea.
*/
#include <config.h>
#include "eressea.h"
#include "building.h"
#include "attrib.h"
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/* kernel includes */
#include "item.h"
#include "curse.h" /* f<>r C_NOCOST */
#include "unit.h"
#include "region.h"
#include "skill.h"
#include "magic.h"
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#include "save.h"
/* util includes */
#include <base36.h>
#include <functions.h>
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#include <resolve.h>
#include <event.h>
#include <language.h>
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/* libc includes */
#include <assert.h>
#include <stdlib.h>
#include <string.h>
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#include <limits.h>
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/* attributes includes */
#include <attributes/matmod.h>
static const char * NULLSTRING = "(null)";
static void
lc_init(struct attrib *a)
{
a->data.v = calloc(1, sizeof(building_action));
}
static void
lc_done(struct attrib *a)
{
building_action * data = (building_action*)a->data.v;
if (data->fname) free(data->fname);
if (data->param) free(data->param);
free(data);
}
static void
lc_write(const struct attrib * a, FILE* F)
{
building_action * data = (building_action*)a->data.v;
const char * fname = data->fname;
const char * fparam = data->param;
building * b = data->b;
write_building_reference(b, F);
fwritestr(F, fname);
#if RELEASE_VERSION>=BACTION_VERSION
fputc(' ', F);
fwritestr(F, fparam?fparam:NULLSTRING);
#endif
fputc(' ', F);
}
static int
lc_read(struct attrib * a, FILE* F)
{
char lbuf[256];
building_action * data = (building_action*)a->data.v;
read_building_reference(&data->b, F);
freadstr(F, lbuf, sizeof(lbuf));
data->fname = strdup(lbuf);
if (global.data_version>=BACTION_VERSION) {
freadstr(F, lbuf, sizeof(lbuf));
if (strcmp(lbuf, NULLSTRING)==0) data->param = NULL;
else data->param = strdup(lbuf);
} else {
data->param = strdup(NULLSTRING);
}
return AT_READ_OK;
}
attrib_type at_building_action = {
"lcbuilding",
lc_init, lc_done,
NULL,
lc_write, lc_read
};
attrib_type at_nodestroy = {
"nodestroy",
NULL, NULL, NULL,
a_writedefault,
a_readdefault,
ATF_UNIQUE
};
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building_typelist *buildingtypes;
const building_type *
bt_find(const char* name)
{
const struct building_typelist * btl = buildingtypes;
if (global.data_version < RELEASE_VERSION) {
const char * translation[3][2] = {
{ "illusion", "illusioncastle" },
{ "generic", "genericbuilding" },
{ NULL, NULL }
};
int i;
for (i=0;translation[i][0];++i) {
/* calling a building "illusion" was a bad idea" */
if (strcmp(translation[i][0], name)==0) {
name = translation[i][1];
break;
}
}
}
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while (btl && strcasecmp(btl->type->_name, name)) btl = btl->next;
if (!btl) {
btl = buildingtypes;
while (btl && strncasecmp(btl->type->_name, name, strlen(name))) btl = btl->next;
}
return btl?btl->type:NULL;
}
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void
bt_register(building_type * type)
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{
struct building_typelist * btl = malloc(sizeof(building_type));
if (type->init) type->init(type);
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btl->type = type;
btl->next = buildingtypes;
buildingtypes = btl;
}
int
buildingcapacity(const building * b)
{
if (b->type->capacity>=0) {
if (b->type->maxcapacity>=0) {
return min(b->type->maxcapacity, b->size * b->type->capacity);
}
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return b->size * b->type->capacity;
}
if (b->size>=b->type->maxsize) {
if (b->type->maxcapacity>=0) {
return b->type->maxcapacity;
}
}
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return 0;
}
attrib_type at_building_generic_type = {
"building_generic_type", NULL, NULL, NULL, a_writestring, a_readstring, ATF_UNIQUE
};
const char *
buildingtype(const building_type * btype, const building * b, int bsize)
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{
const char * s = NULL;
static const struct building_type * bt_generic;
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if (!bt_generic) {
bt_generic = bt_find("generic");
assert(bt_generic);
}
if (btype == bt_generic) {
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const attrib *a = a_find(b->attribs, &at_building_generic_type);
if (a) s = (const char*)a->data.v;
}
if (btype->name) s = btype->name(bsize);
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if (s==NULL) s = btype->_name;
return s;
}
#define BMAXHASH 7919
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static building *buildhash[BMAXHASH];
void
bhash(building * b)
{
building *old = buildhash[b->no % BMAXHASH];
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buildhash[b->no % BMAXHASH] = b;
b->nexthash = old;
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}
void
bunhash(building * b)
{
building **show;
for (show = &buildhash[b->no % BMAXHASH]; *show; show = &(*show)->nexthash) {
if ((*show)->no == b->no)
break;
}
if (*show) {
assert(*show == b);
*show = (*show)->nexthash;
b->nexthash = 0;
}
}
static building *
bfindhash(int i)
{
building *old;
for (old = buildhash[i % BMAXHASH]; old; old = old->nexthash)
if (old->no == i)
return old;
return 0;
}
building *
findbuilding(int i)
{
return bfindhash(i);
}
/* ** old building types ** */
/** Building: Fortification */
enum {
B_SITE,
B_TRADEPOST,
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B_FORTIFICATION,
B_TOWER,
B_CASTLE,
B_FORTRESS,
B_CITADEL,
MAXBUILDINGS
};
static int
sm_smithy(const unit * u, const region * r, skill_t sk, int value) /* skillmod */
{
if (sk==SK_WEAPONSMITH || sk==SK_ARMORER) {
if (u->region == r) return value + 1;
}
return value;
}
static int
mm_smithy(const unit * u, const resource_type * rtype, int value) /* material-mod */
{
if (rtype == oldresourcetype[R_IRON]) return value * 2;
return value;
}
static void
init_smithy(struct building_type * bt)
{
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a_add(&bt->attribs, make_skillmod(NOSKILL, SMF_PRODUCTION, sm_smithy, 1.0, 0));
a_add(&bt->attribs, make_matmod(mm_smithy));
}
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static const char *
castle_name(int bsize)
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{
const char * fname[MAXBUILDINGS] = {
"site",
"tradepost",
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"fortification",
"tower",
"castle",
"fortress",
"citadel" };
const construction * ctype;
static const struct building_type * bt_castle;
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int i = 0;
if (!bt_castle) bt_castle = bt_find("castle");
assert(bt_castle);
ctype = bt_castle->construction;
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while (ctype &&
ctype->maxsize != -1
&& ctype->maxsize<=bsize) {
bsize-=ctype->maxsize;
ctype=ctype->improvement;
++i;
}
return fname[i];
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}
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#ifdef WDW_PYRAMID
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static const char *
pyramid_name(int bsize)
{
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static const struct building_type * bt_pyramid;
static char p_name_buf[32];
int level=0;
const construction * ctype;
if(!bt_pyramid) bt_pyramid = bt_find("pyramid");
assert(bt_pyramid);
ctype = bt_pyramid->construction;
while (ctype && ctype->maxsize != -1 && ctype->maxsize<=bsize) {
bsize-=ctype->maxsize;
ctype=ctype->improvement;
++level;
}
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sprintf(p_name_buf, "pyramid%d", level);
return p_name_buf;
}
int
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wdw_pyramid_level(const struct building *b)
{
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const construction *ctype = b->type->construction;
int completed = b->size;
int level = 0;
while(ctype->improvement != NULL &&
ctype->improvement != ctype &&
ctype->maxsize > 0 &&
ctype->maxsize <= completed)
{
++level;
completed-=ctype->maxsize;
ctype = ctype->improvement;
}
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return level;
}
#endif
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/* for finding out what was meant by a particular building string */
static local_names * bnames;
const building_type *
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findbuildingtype(const char * name, const struct locale * lang)
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{
variant type;
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local_names * bn = bnames;
while (bn) {
if (bn->lang==lang) break;
bn=bn->next;
}
if (!bn) {
struct building_typelist * btl = buildingtypes;
bn = calloc(sizeof(local_names), 1);
bn->next = bnames;
bn->lang = lang;
while (btl) {
const char * n = locale_string(lang, btl->type->_name);
type.v = (void*)btl->type;
addtoken(&bn->names, n, type);
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btl=btl->next;
}
bnames = bn;
}
if (findtoken(&bn->names, name, &type)==E_TOK_NOMATCH) return NULL;
return (const building_type*)type.v;
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}
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void
register_buildings(void)
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{
register_function((pf_generic)init_smithy, "init_smithy");
register_function((pf_generic)castle_name, "castle_name");
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#ifdef WDW_PYRAMID
register_function((pf_generic)pyramid_name, "pyramid_name");
#endif
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}
building_type *
bt_make(const char * name, int flags, int capacity, int maxcapacity, int maxsize)
{
building_type * btype = calloc(sizeof(building_type), 1);
btype->_name = name;
btype->flags = flags | BTF_DYNAMIC;
btype->capacity = capacity;
btype->maxcapacity = maxcapacity;
btype->maxsize = maxsize;
bt_register(btype);
return btype;
}
void *
resolve_building(variant id) {
return findbuilding(id.i);
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}
void
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write_building_reference(const struct building * b, FILE * F)
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{
fprintf(F, "%s ", b?itoa36(b->no):"0");
}
int
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read_building_reference(struct building ** b, FILE * F)
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{
variant var;
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char zText[10];
fscanf(F, "%s ", zText);
var.i = atoi36(zText);
if (var.i==0) {
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*b = NULL;
return AT_READ_FAIL;
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}
else {
*b = findbuilding(var.i);
if (*b==NULL) ur_add(var, (void**)b, resolve_building);
return AT_READ_OK;
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}
}
void
free_buildinglist(building_list *blist)
{
while (blist) {
building_list * rl2 = blist->next;
free(blist);
blist = rl2;
}
}
void
add_buildinglist(building_list **blist, building *b)
{
building_list *rl2 = (building_list*)malloc(sizeof(building_list));
rl2->data = b;
rl2->next = *blist;
*blist = rl2;
}
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building *
new_building(const struct building_type * btype, region * r, const struct locale * lang)
{
building *b = (building *) calloc(1, sizeof(building));
b->no = newcontainerid();
bhash(b);
b->type = btype;
set_string(&b->display, "");
b->region = r;
addlist(&r->buildings, b);
{
static char buffer[IDSIZE + 1 + NAMESIZE + 1];
if (b->type->name)
sprintf(buffer, "%s", locale_string(lang, btype->_name));
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else
sprintf(buffer, "%s", LOC(lang, buildingtype(btype, b, 0)));
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set_string(&b->name, buffer);
}
return b;
}
void
destroy_building(building * b)
{
unit *u;
direction_t d;
static const struct building_type * bt_caravan, * bt_dam, * bt_tunnel;
boolean init = false;
if (!init) {
init = true;
bt_caravan = bt_find("caravan");
bt_dam = bt_find("dam");
bt_tunnel = bt_find("tunnel");
}
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if (!bfindhash(b->no)) return;
for (u=b->region->units; u; u=u->next) {
if (u->building == b) leave(b->region, u);
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}
b->size = 0;
update_lighthouse(b);
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bunhash(b);
/* Falls Karawanserei, Damm oder Tunnel einst<73>rzen, wird die schon
* gebaute Stra<EFBFBD>e zur H<EFBFBD>lfte vernichtet */
if (b->type == bt_caravan || b->type == bt_dam || b->type == bt_tunnel) {
region * r = b->region;
for (d=0;d!=MAXDIRECTIONS;++d) if (rroad(r, d) > 0) {
rsetroad(r, d, rroad(r, d) / 2);
}
}
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#if 0 /* Memoryleak. Aber ohne klappt das Rendern nicht! */
removelist(&b->region->buildings, b);
#endif
/* Stattdessen nur aus Liste entfernen, aber im Speicher halten. */
choplist(&b->region->buildings, b);
handle_event(&b->attribs, "destroy", b);
}
extern attrib_type at_icastle;
int
buildingeffsize(const building * b, boolean img)
{
int i = b->size, n = 0;
const construction * cons;
static const struct building_type * bt_castle;
if (!bt_castle) bt_castle = bt_find("castle");
assert(bt_castle);
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if (b==NULL) return 0;
if (b->type!=bt_castle) {
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if (img) {
const attrib * a = a_find(b->attribs, &at_icastle);
if (!a || a->data.v != bt_castle) return 0;
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} else return 0;
}
cons = bt_castle->construction;
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assert(cons);
while (cons && cons->maxsize != -1 && i>=cons->maxsize) {
i-=cons->maxsize;
cons = cons->improvement;
++n;
}
return n;
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}
unit *
buildingowner(const region * r, const building * b)
{
unit *u = NULL;
unit *first = NULL;
#ifndef BROKEN_OWNERS
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assert(r == b->region);
#endif
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/* Pr<50>fen ob Eigent<6E>mer am leben. */
for (u = r->units; u; u = u->next) {
if (u->building == b) {
if (!first && u->number > 0)
first = u;
if (fval(u, UFL_OWNER) && u->number > 0)
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return u;
if (u->number == 0)
freset(u, UFL_OWNER);
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}
}
/* Eigent<6E>mer tot oder kein Eigent<6E>mer vorhanden. Erste lebende Einheit
* nehmen. */
if (first)
fset(first, UFL_OWNER);
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return first;
}
#ifdef BETA_CODE
void
xml_writebuildings(void)
{
FILE * F = fopen("buildings.xml", "w");
building_typelist *btl= buildingtypes;
while (btl) {
int i;
const building_type * bt = btl->type;
fprintf(F, "<building name=\"%s\"", bt->_name);
if (bt->capacity>=0) fprintf(F, " capacity=\"%d\"", bt->capacity);
if (bt->maxcapacity>=0) fprintf(F, " maxcapacity=\"%d\"", bt->maxcapacity);
if (bt->maxsize>=0) fprintf(F, " maxsize=\"%d\"", bt->maxsize);
if (bt->flags & BTF_INDESTRUCTIBLE) fputs(" nodestroy", F);
if (bt->flags & BTF_NOBUILD) fputs(" nobuild", F);
if (bt->flags & BTF_UNIQUE) fputs(" unique", F);
if (bt->flags & BTF_DECAY) fputs(" decay", F);
if (bt->flags & BTF_PROTECTION) fputs(" protection", F);
if (bt->flags & BTF_MAGIC) fputs(" magic", F);
fputs(">\n", F);
if (bt->name) {
const char * name = get_functionname((pf_generic)bt->name);
assert(name);
fprintf(F, "\t<function name=\"name\" value=\"%s\"></function>\n",
name);
}
if (bt->init) {
const char * name = get_functionname((pf_generic)bt->init);
assert(name);
fprintf(F, "\t<function name=\"init\" value=\"%s\"></function>\n",
name);
}
for (i=0;bt->maintenance && bt->maintenance[i].number;++i) {
const maintenance * m = bt->maintenance + i;
fprintf(F, "\t<maintenance type=\"%s\" amount=\"%u\"",
oldresourcetype[m->type]->_name[0], m->number);
if (m->flags & MTF_VARIABLE) fputs(" variable", F);
if (m->flags & MTF_VITAL) fputs(" vital", F);
fputs(">\n", F);
}
if (bt->construction) {
fprintf(F, "\t<construction skill=\"%s\" minskill=\"%u\" reqsize=\"%u\"",
skillname(bt->construction->skill, NULL), bt->construction->minskill,
bt->construction->reqsize);
if (bt->construction->maxsize>=0) fprintf(F, " maxsize=\"%d\"", bt->construction->maxsize);
fputs(">\n", F);
for (i=0;bt->construction->materials[i].number!=0;++i) {
fprintf(F, "\t\t<requirement type=\"%s\" quantity=\"%d\"></requirement>\n",
oldresourcetype[bt->construction->materials[i].type]->_name[0],
bt->construction->materials[i].number);
}
fputs("\t</construction>\n", F);
}
fputs("</building>\n\n", F);
btl=btl->next;
}
fclose(F);
}
#endif