server/src/kernel/building.test.c

#include <platform.h>

#include <kernel/config.h>
#include <kernel/race.h>
#include <kernel/region.h>
#include <kernel/building.h>
#include <kernel/unit.h>

#include <util/language.h>

#include <CuTest.h>
#include <tests.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>

static void test_register_building(CuTest * tc)
{
    building_type *btype;
    int cache = 0;

    test_cleanup();

    CuAssertIntEquals(tc, true, bt_changed(&cache));
    CuAssertIntEquals(tc, false, bt_changed(&cache));

    btype = bt_get_or_create("herp");
    CuAssertIntEquals(tc, true, bt_changed(&cache));
    CuAssertPtrEquals(tc, btype, (void *)bt_find("herp"));

    free_buildingtypes();
    CuAssertIntEquals(tc, true, bt_changed(&cache));
    test_cleanup();
}

static void test_building_set_owner(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u1, *u2;
    struct faction *f;

    test_setup();

    f = test_create_faction(NULL);
    r = test_create_region(0, 0, NULL);

    bld = test_create_building(r, NULL);
    u1 = test_create_unit(f, r);
    u_set_building(u1, bld);
    CuAssertPtrEquals(tc, u1, building_owner(bld));

    u2 = test_create_unit(f, r);
    u_set_building(u2, bld);
    CuAssertPtrEquals(tc, u1, building_owner(bld));
    building_set_owner(u2);
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_goes_to_next_when_empty(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u, *u2;
    struct faction *f;

    test_setup();

    f = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u = test_create_unit(f, r);
    u2 = test_create_unit(f, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    u_set_building(u2, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    u->number = 0;
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_goes_to_other_when_empty(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u, *u2;
    struct faction *f;

    test_setup();

    f = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u2 = test_create_unit(f, r);
    u = test_create_unit(f, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    u_set_building(u2, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    u->number = 0;
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_goes_to_same_faction_when_empty(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u, *u2, *u3;
    struct faction *f1, *f2;

    test_setup();

    f1 = test_create_faction(NULL);
    f2 = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u2 = test_create_unit(f2, r);
    u3 = test_create_unit(f1, r);
    u = test_create_unit(f1, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    u_set_building(u2, bld);
    u_set_building(u3, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    u->number = 0;
    CuAssertPtrEquals(tc, u3, building_owner(bld));
    u3->number = 0;
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_goes_to_next_after_leave(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u, *u2;
    struct faction *f;

    test_setup();
    f = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u = test_create_unit(f, r);
    u2 = test_create_unit(f, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    u_set_building(u2, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    leave_building(u);
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_goes_to_other_after_leave(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u, *u2;
    struct faction *f;

    test_setup();

    f = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u2 = test_create_unit(f, r);
    u = test_create_unit(f, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    u_set_building(u2, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    leave_building(u);
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_goes_to_same_faction_after_leave(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u, *u2, *u3;
    struct faction *f1, *f2;

    test_setup();

    f1 = test_create_faction(NULL);
    f2 = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u2 = test_create_unit(f2, r);
    u3 = test_create_unit(f1, r);
    u = test_create_unit(f1, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    u_set_building(u2, bld);
    u_set_building(u3, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    leave_building(u);
    CuAssertPtrEquals(tc, u3, building_owner(bld));
    leave_building(u3);
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    leave_building(u2);
    CuAssertPtrEquals(tc, 0, building_owner(bld));
    test_cleanup();
}

static void test_buildingowner_resets_when_empty(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u;
    struct faction *f;

    test_setup();

    f = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u = test_create_unit(f, r);
    CuAssertPtrNotNull(tc, u);
    u_set_building(u, bld);
    CuAssertPtrEquals(tc, u, building_owner(bld));
    u->number = 0;
    CuAssertPtrEquals(tc, 0, building_owner(bld));
    u->number = 1;
    CuAssertPtrEquals(tc, u, building_owner(bld));
    test_cleanup();
}

void test_buildingowner_goes_to_empty_unit_after_leave(CuTest * tc)
{
    struct region *r;
    struct building *bld;
    struct unit *u1, *u2, *u3;
    struct faction *f1;

    test_setup();

    f1 = test_create_faction(NULL);
    r = test_create_plain(0, 0);

    bld = test_create_building(r, NULL);
    CuAssertPtrNotNull(tc, bld);

    u1 = test_create_unit(f1, r);
    u2 = test_create_unit(f1, r);
    u3 = test_create_unit(f1, r);
    u_set_building(u1, bld);
    u_set_building(u2, bld);
    u_set_building(u3, bld);

    CuAssertPtrEquals(tc, u1, building_owner(bld));
    u2->number = 0;
    leave_building(u1);
    CuAssertPtrEquals(tc, u3, building_owner(bld));
    leave_building(u3);
    CuAssertPtrEquals(tc, 0, building_owner(bld));
    u2->number = 1;
    CuAssertPtrEquals(tc, u2, building_owner(bld));
    test_cleanup();
}

static void test_btype_defaults(CuTest *tc) {
    building_type * btype;
    test_cleanup();

    btype = bt_get_or_create("hodor");
    CuAssertPtrNotNull(tc, btype);
    CuAssertStrEquals(tc, "hodor", btype->_name);
    CuAssertPtrEquals(tc, 0, btype->maintenance);
    CuAssertPtrEquals(tc, 0, btype->construction);
    CuAssertDblEquals(tc, 1.0, btype->auraregen, 0.0);
    CuAssertIntEquals(tc, 0, btype->taxes);
    CuAssertIntEquals(tc, -1, btype->maxsize);
    CuAssertIntEquals(tc, 1, btype->capacity);
    CuAssertIntEquals(tc, -1, btype->maxcapacity);
    CuAssertIntEquals(tc, 0, btype->magres.sa[0]);
    CuAssertIntEquals(tc, 0, btype->magresbonus);
    CuAssertIntEquals(tc, 0, btype->fumblebonus);
    CuAssertIntEquals(tc, 0, btype->flags);
    test_cleanup();
}

static void test_buildingtype_exists(CuTest * tc)
{
    region *r;
    building *b;
    building_type *btype, *btype2;

    test_setup();

    btype2 = test_create_buildingtype("castle");
    assert(btype2);
    btype = test_create_buildingtype("lighhouse");
    btype->maxsize = 10;

    r = test_create_plain(0, 0);
    b = test_create_building(r, btype);
    CuAssertPtrNotNull(tc, b);
    b->size = 10;

    CuAssertTrue(tc, !buildingtype_exists(r, NULL, false));
    CuAssertTrue(tc, !buildingtype_exists(r, btype2, false));

    CuAssertTrue(tc, buildingtype_exists(r, btype, false));
    b->size = 9;
    fset(b, BLD_MAINTAINED);
    CuAssertTrue(tc, !buildingtype_exists(r, btype, false));
    btype->maxsize = 0;
    freset(b, BLD_MAINTAINED);
    CuAssertTrue(tc, buildingtype_exists(r, btype, false));
    btype->maxsize = 10;
    b->size = 10;

    fset(b, BLD_MAINTAINED);
    CuAssertTrue(tc, buildingtype_exists(r, btype, true));
    freset(b, BLD_MAINTAINED);
    CuAssertTrue(tc, !buildingtype_exists(r, btype, true));
}

static void test_active_building(CuTest *tc) {
    building *b;
    region *r;
    unit *u;
    building_type *btype;

    test_cleanup();

    btype = test_create_buildingtype("castle");
    assert(btype && btype->maxsize == -1);
    b = test_create_building(r = test_create_region(0, 0, 0), btype);
    u = test_create_unit(test_create_faction(0), r);
    CuAssertIntEquals(tc, false, building_is_active(b));
    CuAssertPtrEquals(tc, NULL, active_building(u, btype));

    b->flags |= BLD_MAINTAINED;
    CuAssertIntEquals(tc, true, building_is_active(b));
    CuAssertPtrEquals(tc, NULL, active_building(u, btype));
    u_set_building(u, b);
    CuAssertIntEquals(tc, true, building_is_active(b));
    CuAssertPtrNotNull(tc, active_building(u, btype) );
    btype->maxsize = 10;
    b->size = btype->maxsize;
    CuAssertIntEquals(tc, true, building_is_active(b));
    CuAssertPtrNotNull(tc, active_building(u, btype) );
    b->size = 9;
    CuAssertIntEquals(tc, false, building_is_active(b));
    CuAssertPtrEquals(tc, NULL, active_building(u, btype));
    btype->maxsize = -1;
    b->flags &= ~BLD_MAINTAINED;
    CuAssertIntEquals(tc, false, building_is_active(b));
    CuAssertPtrEquals(tc, NULL, active_building(u, btype));
    test_cleanup();
}

static void test_safe_building(CuTest *tc) {
    building_type *btype;
    unit *u1, *u2;

    test_cleanup();
    btype = test_create_buildingtype("castle");
    u1 = test_create_unit(test_create_faction(0), test_create_region(0, 0, 0));
    u2 = test_create_unit(test_create_faction(0), test_create_region(0, 0, 0));
    CuAssertIntEquals(tc, false, in_safe_building(u1, u2));
    u1->building = test_create_building(u1->region, btype);
    CuAssertIntEquals(tc, false, in_safe_building(u1, u2));
    btype->flags |= BTF_FORTIFICATION;
    CuAssertIntEquals(tc, true, in_safe_building(u1, u2));
    u2->building = u1->building;
    CuAssertIntEquals(tc, true, in_safe_building(u1, u2));
    u1->number = 2;
    CuAssertIntEquals(tc, false, in_safe_building(u1, u2));
    u1->building->size = 3;
    CuAssertIntEquals(tc, false, in_safe_building(u1, u2));
    test_cleanup();
}

static void test_building_type(CuTest *tc) {
    building_type *btype;
    test_setup();
    btype = test_create_buildingtype("house");
    CuAssertIntEquals(tc, true, is_building_type(btype, "house"));
    CuAssertIntEquals(tc, false, is_building_type(btype, "castle"));
    test_cleanup();
}

static void test_cmp_castle_size(CuTest *tc) {
    region *r;
    building *b1, *b2;
    unit *u1, *u2;

    test_setup();
    r = test_create_region(0, 0, 0);
    b1 = test_create_building(r, NULL);
    b2 = test_create_building(r, NULL);
    u1 = test_create_unit(test_create_faction(0), r);
    u_set_building(u1, b1);
    u2 = test_create_unit(test_create_faction(0), r);
    u_set_building(u2, b2);
    b1->size = 5;
    b2->size = 10;
    CuAssertTrue(tc, cmp_castle_size(b1, b2) < 0);
    CuAssertTrue(tc, cmp_castle_size(b2, b1) > 0);
    CuAssertTrue(tc, cmp_castle_size(b1, b1) == 0);
    test_cleanup();
}

static void test_cmp_wage(CuTest *tc) {
    region *r;
    building *b1, *b2;
    building_type *btype;

    test_setup();
    btype = test_create_buildingtype("castle");
    btype->taxes = 100;
    r = test_create_region(0, 0, 0);
    b1 = test_create_building(r, btype);
    b2 = test_create_building(r, btype);
    b1->size = 5;
    b2->size = 10;
    CuAssertPtrEquals(tc, b2, largestbuilding(r, cmp_wage, false));
    CuAssertTrue(tc, cmp_wage(b1, b2) < 0);
    CuAssertTrue(tc, cmp_wage(b2, b1) > 0);
    CuAssertTrue(tc, cmp_wage(b1, b1) == 0);
    test_cleanup();
}

static void test_cmp_taxes(CuTest *tc) {
    region *r;
    building *b1, *b2;
    building_type *btype;
    unit *u1, *u2;

    test_setup();
    btype = test_create_buildingtype("castle");
    btype->taxes = 100;
    r = test_create_region(0, 0, 0);
    b1 = test_create_building(r, btype);
    b2 = test_create_building(r, btype);
    b1->size = 5;
    b2->size = 10;
    u1 = test_create_unit(test_create_faction(0), r);
    u_set_building(u1, b1);
    u2 = test_create_unit(test_create_faction(0), r);
    u_set_building(u2, b2);
    CuAssertPtrEquals(tc, b2, largestbuilding(r, cmp_taxes, false));
    CuAssertTrue(tc, cmp_taxes(b1, b2) < 0);
    CuAssertTrue(tc, cmp_taxes(b2, b1) > 0);
    CuAssertTrue(tc, cmp_taxes(b1, b1) == 0);
    test_cleanup();
}

static void test_cmp_current_owner(CuTest *tc) {
    region *r;
    building *b1, *b2;
    building_type *btype;
    unit *u1, *u2;

    test_setup();
    config_set("rules.region_owners", "1");
    r = test_create_region(0, 0, 0);
    btype = test_create_buildingtype("watch");
    btype->construction->maxsize = 1;
    btype->taxes = 200;
    b1 = test_create_building(r, btype);
    btype = test_create_buildingtype("castle");
    btype->construction->maxsize = 1;
    btype->taxes = 100;
    b2 = test_create_building(r, btype);
    b1->size = 1;
    CuAssertIntEquals(tc, 1, buildingeffsize(b1, false));
    b2->size = 1;
    CuAssertIntEquals(tc, 1, buildingeffsize(b2, false));
    u1 = test_create_unit(test_create_faction(0), r);
    u_set_building(u1, b1);
    u2 = test_create_unit(test_create_faction(0), r);
    u_set_building(u2, b2);
    region_set_owner(r, u1->faction, turn);
    CuAssertPtrEquals(tc, b1, largestbuilding(r, cmp_current_owner, false));
    CuAssertTrue(tc, cmp_current_owner(b2, b1) < 0);
    CuAssertTrue(tc, cmp_current_owner(b1, b2) > 0);
    CuAssertTrue(tc, cmp_current_owner(b1, b1) == 0);
    test_cleanup();
}

static void test_building_effsize(CuTest *tc) {
    building *b;
    building_type *btype;
    construction *cons;

    test_setup();
    btype = bt_get_or_create("castle");
    cons = btype->construction = calloc(1, sizeof(construction));
    cons->maxsize = 5;
    cons = cons->improvement = calloc(1, sizeof(construction));
    cons->maxsize = 5;
    cons = cons->improvement = calloc(1, sizeof(construction));
    cons->maxsize = -1;
    b = test_create_building(test_create_region(0,0,0), btype);
    b->size = 1;
    CuAssertIntEquals(tc, 0, buildingeffsize(b, false));
    b->size = 5;
    CuAssertIntEquals(tc, 1, buildingeffsize(b, false));
    b->size = 10;
    CuAssertIntEquals(tc, 2, buildingeffsize(b, false));
    b->size = 20;
    CuAssertIntEquals(tc, 2, buildingeffsize(b, false));
    test_cleanup();
}

static int cmp_size(const building *lhs, const building *rhs) {
    assert(lhs);
    return rhs ? lhs->size - rhs->size : 1;
}

static void test_largestbuilding(CuTest *tc) {
    region *r;
    building *b1, *b2;
    test_setup();
    r = test_create_region(0, 0, NULL);
    CuAssertPtrEquals(tc, NULL, largestbuilding(r, cmp_size, false));
    b1 = test_create_building(r, NULL);
    b2 = test_create_building(r, NULL);
    b1->size = 1;
    b2->size = 1;
    CuAssertPtrEquals(tc, b1, largestbuilding(r, cmp_size, false));
    b1->size = 2;
    CuAssertPtrEquals(tc, b1, largestbuilding(r, cmp_size, false));
    b2->size = 3;
    CuAssertPtrEquals(tc, b2, largestbuilding(r, cmp_size, false));
    test_cleanup();
}

static void test_buildingtype(CuTest *tc) {
    building_type *btype;
    test_setup();
    btype = test_create_buildingtype("hodor");
    CuAssertPtrNotNull(tc, btype->construction);
    CuAssertStrEquals(tc, "hodor", buildingtype(btype, NULL, 1));
    btype->construction->name = strdup("castle");
    CuAssertStrEquals(tc, "castle", buildingtype(btype, NULL, 1));
    btype = bt_get_or_create("portal");
    CuAssertPtrEquals(tc, NULL, btype->construction);
    CuAssertStrEquals(tc, "portal", buildingtype(btype, NULL, 1));
    test_cleanup();
}

static void test_buildingcapacity(CuTest *tc) {
    building *b;
    building_type *btype;
    test_setup();
    btype = test_create_buildingtype("lighthouse");
    btype->capacity = 1;
    btype->maxcapacity = 4;
    b = test_create_building(test_create_region(0, 0, NULL), btype);

    b->size = 1;
    CuAssertIntEquals(tc, b->size*btype->capacity, buildingcapacity(b));
    b->size = 5;
    CuAssertIntEquals(tc, btype->maxcapacity, buildingcapacity(b));

    btype->capacity = -1;
    CuAssertTrue(tc, building_finished(b));
    CuAssertIntEquals(tc, btype->maxcapacity, buildingcapacity(b));
    test_cleanup();
}

CuSuite *get_building_suite(void)
{
    CuSuite *suite = CuSuiteNew();
    SUITE_ADD_TEST(suite, test_buildingtype);
    SUITE_ADD_TEST(suite, test_largestbuilding);
    SUITE_ADD_TEST(suite, test_buildingcapacity);
    SUITE_ADD_TEST(suite, test_cmp_castle_size);
    SUITE_ADD_TEST(suite, test_cmp_taxes);
    SUITE_ADD_TEST(suite, test_cmp_wage);
    SUITE_ADD_TEST(suite, test_cmp_current_owner);
    SUITE_ADD_TEST(suite, test_register_building);
    SUITE_ADD_TEST(suite, test_btype_defaults);
    SUITE_ADD_TEST(suite, test_building_set_owner);
    SUITE_ADD_TEST(suite, test_building_effsize);
    SUITE_ADD_TEST(suite, test_buildingowner_resets_when_empty);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_next_when_empty);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_other_when_empty);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_same_faction_when_empty);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_next_after_leave);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_other_after_leave);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_same_faction_after_leave);
    SUITE_ADD_TEST(suite, test_buildingowner_goes_to_empty_unit_after_leave);
    SUITE_ADD_TEST(suite, test_building_type);
    SUITE_ADD_TEST(suite, test_active_building);
    SUITE_ADD_TEST(suite, test_buildingtype_exists);
    SUITE_ADD_TEST(suite, test_safe_building);
    return suite;
}