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hyperrogue/yendor.cpp
2019-09-12 22:50:15 +02:00

1368 lines
42 KiB
C++

// Hyperbolic Rogue -- minor modes
// Copyright (C) 2011-2019 Zeno Rogue, see 'hyper.cpp' for details
/** \file yendor.cpp
* \brief Yendor Quest/Challenge, Pure Tactics Mode, Peace Mode
*/
namespace hr {
namespace peace { extern bool on; }
int hiitemsMax(eItem it) {
int mx = 0;
for(auto& a: hiitems) if(a.second[it] > mx) mx = a.second[it];
return mx;
}
modecode_t modecode();
typedef vector<pair<int, string> > subscoreboard;
void displayScore(subscoreboard& s, int x) {
int vf = min((vid.yres-64) / 70, vid.xres/80);
if(get_sync_status() == 1) {
displayfr(x, 56, 1, vf, "(syncing)", 0xC0C0C0, 0);
}
else {
sort(s.begin(), s.end());
for(int i=0; i<isize(s); i++) {
int i0 = 56 + i * vf;
displayfr(x, i0, 1, vf, its(-s[i].first), 0xC0C0C0, 16);
displayfr(x+8, i0, 1, vf, s[i].second, 0xC0C0C0, 0);
}
}
}
EX namespace yendor {
EX bool on = false;
EX bool generating = false;
bool path = false;
bool everwon = false;
bool won = false;
bool easy = false;
int challenge; // id of the challenge
int lastchallenge;
#if HDR
#define YF_DEAD 1
#define YF_WALLS 2
#define YF_END 4
#define YF_DEAD5 8
#define YF_NEAR_IVY 16
#define YF_NEAR_ELEM 32
#define YF_NEAR_OVER 64
#define YF_NEAR_RED 128
#define YF_REPEAT 512
#define YF_NEAR_TENT 1024
#define YF_START_AL 2048
#define YF_START_CR 4096
#define YF_CHAOS 8192
#define YF_RECALL 16384
#define YF_NEAR_FJORD 32768
#define YF_START_ANY (YF_START_AL|YF_START_CR)
struct yendorlevel {
eLand l;
int flags;
};
#endif
#define YENDORLEVELS 33
map<modecode_t, array<int, YENDORLEVELS>> bestscore;
EX eLand nexttostart;
#define LAND_YENDOR_CHAOS 41
yendorlevel levels[YENDORLEVELS] = {
{laNone, 0},
{laHell, YF_DEAD}, // FORCE BARRIERS?
{laGraveyard, YF_DEAD5},
{laDesert, YF_NEAR_IVY}, // IVY OR TENTACLE?
{laMinefield, YF_END}, // NOT WON, SEEMS OKAY
{laEmerald, 0}, // WON FINE
{laOvergrown, 0}, // WON, TOO EASY?
{laMotion, YF_START_AL | YF_END}, // NOT WON, SEEMS OKAY
{laAlchemist, 0}, // ALMOST WON
{laIvoryTower,YF_START_CR | YF_NEAR_ELEM | YF_REPEAT}, // won cool
{laMirrorOld, YF_NEAR_OVER}, // OK
{laWhirlpool, 0}, // cool
{laIce, YF_NEAR_ELEM}, // OK
{laHive, YF_NEAR_RED}, // OK
{laCaribbean, 0}, // seems OK
{laOcean, YF_WALLS}, // well... stupid, add Caribbean/Fjord
{laPalace, 0}, // more trapdoors!
{laZebra, 0}, // TOO HARD?
{laWineyard, 0}, // hard-ish
{laStorms, 0}, // ?
{laLivefjord, 0},
{laJungle, 0},
{laPower, YF_START_CR},
{laWildWest, 0},
{laWhirlwind, YF_NEAR_TENT},
{laHell, YF_CHAOS | YF_DEAD},
{laDragon, YF_DEAD},
{laReptile, 0},
{laTortoise, YF_RECALL},
{laCocytus, YF_NEAR_FJORD},
{laRuins, YF_DEAD},
{laCaves, YF_DEAD5},
{laWestWall, YF_START_CR},
// {laVariant, YF_DEAD5}, (I do not think this works)
};
int tscorelast;
void uploadScore() {
int tscore = 0;
for(int i=1; i<YENDORLEVELS; i++)
if(bestscore[0][i]) tscore += 999 + bestscore[0][i];
// printf("Yendor score = %d\n", tscore);
if(tscore > tscorelast) {
tscorelast = tscore;
if(tscore >= 1000) achievement_gain("YENDC1", rg::global);
if(tscore >= 5000) achievement_gain("YENDC2", rg::global);
if(tscore >= 15000) achievement_gain("YENDC3", rg::global);
}
achievement_score(LB_YENDOR_CHALLENGE, tscore);
}
yendorlevel& clev() { return levels[challenge]; }
eLand changeland(int i, eLand l) {
if(l == laIvoryTower) return laNone;
if((clev().flags & YF_START_ANY) && i < 20 && l != clev().l) return clev().l;
if((clev().flags & YF_END) && i > 80 && l == clev().l) return laIce;
return laNone;
}
string name;
eLand first, second, last;
struct yendorinfo {
cell *path[YDIST];
cell *actualKey;
bool found;
bool foundOrb;
int howfar;
bignum age;
yendorinfo() { actualKey = NULL; }
cell* key() { return path[YDIST-1]; }
cell *actual_key() { return actualKey ? actualKey : key(); }
cell* orb() { return path[0]; }
};
vector<yendorinfo> yi;
#define NOYENDOR 999999
int yii = NOYENDOR;
int hardness() {
if(peace::on) return 15; // just to generate monsters
if(!yendor::generating && !yendor::path && !yendor::on) return 0;
int thf = 0;
for(int i=0; i<isize(yi); i++) {
yendorinfo& ye ( yi[i] );
if(!ye.foundOrb && ye.howfar > 25)
thf += (ye.howfar - 25);
}
thf -= 2 * (YDIST - 25);
if(thf<0) thf = 0;
return items[itOrbYendor] * 5 + (thf * 5) / (YDIST-25);
}
enum eState { ysUntouched, ysLocked, ysUnlocked };
eState state(cell *yendor) {
for(int i=0; i<isize(yi); i++) if(yi[i].path[0] == yendor)
return yi[i].found ? ysUnlocked : ysLocked;
return ysUntouched;
}
bool check(cell *yendor) {
int byi = isize(yi);
for(int i=0; i<isize(yi); i++) if(yi[i].path[0] == yendor) byi = i;
if(byi < isize(yi) && yi[byi].found) return false;
if(byi == isize(yi)) {
yendorinfo nyi;
nyi.path[0] = yendor;
nyi.howfar = 0;
generating = true;
int turns = 0;
bignum full_id_0;
int odir = 0;
if(euclid && (penrose || archimedean)) {
permanent_long_distances(yendor);
auto at = random_in_distance(yendor, YDIST-1);
permanent_long_distances(at);
for(int a=YDIST-2; a>=0; a--) {
nyi.path[a+1] = at;
vector<cell*> prev;
forCellCM(c2, at) if(celldistance(yendor, c2) == a) prev.push_back(c2);
if(isize(prev)) at = prev[hrand(isize(prev))];
}
nyi.path[0] = yendor;
}
else if(prod) {
/* I am lazy */
for(int i=1; i<=YDIST-1; i++) nyi.path[i] = nyi.path[i-1]->cmove(nyi.path[i-1]->type-1);
}
else {
int t = -1;
bignum full_id;
bool onlychild = true;
cellwalker ycw(yendor, odir = hrand(yendor->type));
ycw--; if(S3 == 3) ycw--;
setdist(nyi.path[0], 7, NULL);
for(int i=0; i<YDIST-1; i++) {
if(i > BARLEV-6) {
setdist(nyi.path[i+7-BARLEV], 7, nyi.path[i+6-BARLEV]);
if(challenge && !euclid && ycw.at->land != laIvoryTower) {
eLand ycl = changeland(i, ycw.at->land);
if(ycl) {
if(weirdhyperbolic) {
buildBarrierNowall(ycw.at, ycl);
}
else if(hyperbolic && ishept(ycw.at)) {
int bd = 2 + hrand(2) * 3;
buildBarrier(ycw.at, bd, ycl);
if(ycw.at->bardir != NODIR && ycw.at->bardir != NOBARRIERS)
extendBarrier(ycw.at);
}
}
}
}
if(ycw.at->land == laEndorian) {
// follow the branch in Yendorian
int bestval = -2000;
int best = 0, qbest = 0;
for(int d=0; d<ycw.at->type; d++) {
setdist(ycw.at, 7, ycw.peek());
cell *c1 = (ycw+d).cpeek();
int val = d * (ycw.at->type - d);
if(c1->wall == waTrunk) val += (i < YDIST-20 ? 1000 : -1000);
if(val > bestval) qbest = 0, bestval = val;
if(val == bestval) if(hrand(++qbest) == 0) best = d;
}
ycw += best;
}
else if(binarytiling) {
// make it challenging
vector<int> ds;
for(int d=0; d<ycw.at->type; d++) {
bool increase;
if(sol)
increase = i < YDIST / 4 || i > 3 * YDIST / 4;
else
increase = i < YDIST/2;
if(increase) {
if(celldistAlt((ycw+d).cpeek()) < celldistAlt(ycw.at))
ds.push_back(d);
}
else {
if(celldistAlt((ycw+d).cpeek()) > celldistAlt(ycw.at) && (ycw+d).cpeek() != nyi.path[i-1])
ds.push_back(d);
}
}
if(isize(ds)) ycw += ds[hrand(isize(ds))];
}
else if(trees_known()) {
if(i == 0) {
t = type_in(expansion, yendor, [yendor] (cell *c) { return celldistance(yendor, c); });
bignum b = expansion.get_descendants(YDIST-1, t);
full_id_0 = full_id = hrand(b);
}
#if DEBUG_YENDORGEN
printf("#%3d t%d %s / %s\n", i, t, full_id.get_str(100).c_str(), expansion.get_descendants(YDIST-1-i, t).get_str(100).c_str());
for(int tch: expansion.children[t]) {
printf(" t%d %s\n", tch, expansion.get_descendants(YDIST-2-i, t).get_str(100).c_str());
}
#endif
if(i == 1)
onlychild = true;
if(!onlychild) ycw++;
if(VALENCE == 3) ycw++;
onlychild = false;
for(int tch: expansion.children[t]) {
ycw++;
if(i == 1)
tch = type_in(expansion, ycw.cpeek(), [yendor] (cell *c) { return celldistance(yendor, c); });
auto& sub_id = expansion.get_descendants(YDIST-i-2, tch);
if(full_id < sub_id) { t = tch; break; }
full_id.addmul(sub_id, -1);
onlychild = true;
}
}
else if(WDIM == 3) {
int d = celldistance(nyi.path[0], ycw.at);
vector<cell*> next;
forCellCM(c, ycw.at) if(celldistance(nyi.path[0], c) > d) next.push_back(c);
if(!isize(next)) {
printf("error: no more cells");
ycw.at = ycw.at->move(hrand(ycw.at->type));
}
else {
ycw.at = next[hrand(isize(next))];
}
nyi.path[i+1] = ycw.at;
}
else {
// stupid
ycw += rev;
// well, make it a bit more clever on bitruncated a4 grids
if(a4 && BITRUNCATED && S7 <= 5) {
if(ycw.at->type == 8 && ycw.cpeek()->type != 8)
ycw++;
if(hrand(100) < 10) {
if(euclid ? (turns&1) : (hrand(100) < 50))
ycw+=2;
else
ycw-=2;
turns++;
}
}
}
if(inmirror(ycw)) ycw = mirror::reflect(ycw);
ycw += wstep;
nyi.path[i+1] = ycw.at;
}
}
nyi.found = false;
nyi.foundOrb = false;
for(int i=1; i<YDIST; i++) {
setdist(nyi.path[i], 7, nyi.path[i-1]);
if(isEquidLand(nyi.path[i]->land)) {
// println(hlog, i, ": ", coastvalEdge(nyi.path[i]));
buildEquidistant(nyi.path[i]);
}
}
setdist(nyi.path[YDIST-1], 7, nyi.path[YDIST-2]);
cell *key = nyi.path[YDIST-1];
generating = false;
for(int b=10; b>=5; b--) setdist(key, b, nyi.path[YDIST-2]);
for(int i=-1; i<key->type; i++) {
cell *c2 = i >= 0 ? key->move(i) : key;
checkTide(c2);
c2->monst = moNone; c2->item = itNone;
if(!passable(c2, NULL, P_MIRROR | P_MONSTER)) {
if(c2->wall == waCavewall) c2->wall = waCavefloor;
else if(c2->wall == waDeadwall) c2->wall = waDeadfloor2;
else if(c2->wall == waLake) c2->wall = waFrozenLake;
else if(c2->land == laCaribbean) c2->wall = waCIsland;
else if(c2->land == laOcean) c2->wall = waCIsland;
else if(c2->land == laRedRock) c2->wall = waRed3;
else if(c2->land == laWhirlpool)
c2->wall = waBoat, c2->monst = moPirate, c2->item = itOrbWater;
else c2->wall = waNone;
}
if(c2->wall == waReptile) c2->wall = waNone;
if(c2->wall == waMineMine || c2->wall == waMineUnknown)
c2->wall = waMineOpen;
if(c2->wall == waTrapdoor && i == -1)
c2->wall = waGargoyleFloor;
if(c2->land == laLivefjord) {
c2->wall = waSea;
for(int i=0; i<c2->type; i++)
c2->move(i)->wall = waSea;
}
if(isGravityLand(c2->land) && key->land == c2->land && c2->land != laWestWall &&
c2->landparam < key->landparam && c2->wall != waTrunk)
c2->wall = waPlatform;
if(c2->land == laReptile && i >= 0)
c2->wall = waChasm;
if(c2->land == laMirrorWall && i == -1)
c2->wall = waNone;
}
key->item = itKey;
bool split_found = false;
if(key->land == laWestWall && trees_known()) {
int t = type_in(expansion, yendor, [yendor] (cell *c) { return celldistance(yendor, c); });
int maxage = 10;
for(int i=0; i<min(items[itOrbYendor], 8); i++)
maxage *= 10;
nyi.age = maxage - hrand(maxage/2);
bignum full_id = full_id_0 - nyi.age;
bool onlychild = true;
cellwalker ycw(yendor, odir);
ycw--; if(S3 == 3) ycw--;
for(int i=0; i<YDIST-1; i++) {
if(i == 1) onlychild = true;
if(!onlychild) ycw++;
if(VALENCE == 3) ycw++;
onlychild = false;
for(int tch: expansion.children[t]) {
ycw++;
if(i == 1)
tch = type_in(expansion, ycw.cpeek(), [yendor] (cell *c) { return celldistance(yendor, c); });
auto& sub_id = expansion.get_descendants(YDIST-i-2, tch);
if(full_id < sub_id) {
if(!split_found && !(full_id_0 < sub_id)) {
ycw.at->item = itRuby;
split_found = true;
setdist(ycw.at, 6, NULL);
auto tt = type_in(expansion, ycw.at, coastvalEdge);
// println(hlog, "at split, ydist-type: ", t, " coast-type: ", tt);
if(t != tt) {
// try again!
key->item = itNone;
return check(yendor);
}
}
t = tch;
break;
}
full_id.addmul(sub_id, -1);
if(!split_found) full_id_0.addmul(sub_id, -1);
onlychild = true;
}
if(inmirror(ycw)) ycw = mirror::reflect(ycw);
ycw += wstep;
setdist(ycw.at, 8, ycw.peek());
buildEquidistant(ycw.at);
// println(hlog, "actual key #", i, ": ", ycw.at->landparam);
}
nyi.actualKey = ycw.at;
ycw.at->item = itKey;
key->item = itNone;
}
yi.push_back(nyi);
}
addMessage(XLAT("You need to find the right Key to unlock this Orb of Yendor!"));
if(yi[byi].actualKey)
addMessage(XLAT("You feel that these directions are %1 turns old.", yi[byi].age.get_str(100)));
if(yii != byi) {
yii = byi;
achievement_gain("YENDOR1");
playSound(yendor, "pickup-yendor");
return true;
}
return false;
}
void onpath() {
path = false;
if(yii < isize(yi)) {
for(int i=0; i<YDIST; i++) if(yi[yii].path[i]->cpdist <= 7) {
if(i > yi[yii].howfar) yi[yii].howfar = i;
path = true;
}
}
}
void init(int phase) {
if(!on) return;
if(phase == 1) {
won = false;
if(!easy) items[itOrbYendor] = bestscore[modecode()][challenge];
chaosmode = (clev().flags & YF_CHAOS) ? 1 : 0;
specialland = clev().l;
if(clev().flags & YF_START_AL) {
specialland = laAlchemist;
items[itElixir] = 50;
items[itFeather] = 50;
}
if(specialland == laPower)
items[itOrbSpeed] = 60, items[itOrbWinter] = 60;
if(clev().flags & YF_START_CR) {
specialland = laCrossroads;
}
if(specialland == laGraveyard) items[itBone] = 10;
if(specialland == laEmerald) items[itEmerald] = 10;
if(specialland == laCocytus) items[itFjord] = 10;
if(!euclid) {
if(clev().flags & YF_DEAD) items[itGreenStone] = 100;
if(clev().flags & YF_DEAD5) items[itGreenStone] = 5;
}
if(clev().flags & YF_RECALL) {
int yq = items[itOrbYendor];
items[itOrbRecall] = 60 - yq;
items[itOrbTime] = 60 - yq;
items[itOrbEnergy] = 60 - yq;
items[itOrbTeleport] = 60 - yq;
items[itOrbSpace] = 60 - yq;
items[itOrbDash] = 60 - yq;
items[itOrbFrog] = 60 - yq;
}
nexttostart = laNone;
}
if(phase == 2) {
cell *c2 = cwt.at->move(0);
c2->land = firstland;
if(firstland == laRlyeh) c2->wall = waNone;
yendor::check(c2);
if(clev().flags & YF_NEAR_IVY)
nexttostart = laJungle;
if(clev().flags & YF_NEAR_FJORD)
nexttostart = laLivefjord;
if(clev().flags & YF_NEAR_TENT)
nexttostart = laRlyeh;
if(clev().flags & YF_NEAR_ELEM) {
if(firstland == laIce) {
nexttostart = laEWater;
items[itWaterShard] = 10;
}
else nexttostart = laEAir;
}
if(clev().flags & YF_NEAR_OVER)
nexttostart = laOvergrown;
if(clev().flags & YF_NEAR_RED) {
nexttostart = laRedRock;
items[itRedGem] = 25;
}
if(clev().flags & YF_WALLS) {
items[itPirate] += 25;
items[itFjord] += 25;
}
if(clev().l == laWhirlpool) {
items[itWhirlpool] += 10;
items[itOrbWater] += 150;
}
}
if(phase == 3) {
cell *c2 = cwt.at->move(0);
makeEmpty(c2);
c2->item = itOrbYendor;
nexttostart = laNone;
if(clev().flags & YF_RECALL) recallCell = cwt.at;
}
}
bool levelUnlocked(int i) {
yendorlevel& ylev(levels[i]);
eItem t = treasureType(ylev.l);
if(ylev.l != laWildWest && hiitemsMax(t) < 10) return false;
if((ylev.flags & YF_NEAR_ELEM) && hiitemsMax(itElemental) < 10) return false;
if((ylev.flags & YF_NEAR_RED) && hiitemsMax(itRedGem) < 10) return false;
if((ylev.flags & YF_NEAR_OVER) && hiitemsMax(itMutant) < 10) return false;
if((ylev.flags & YF_NEAR_TENT) && hiitemsMax(itStatue) < 10) return false;
if((ylev.flags & YF_NEAR_FJORD) && hiitemsMax(itFjord) < 10) return false;
if((ylev.flags & YF_CHAOS) && !chaosUnlocked) return false;
if((ylev.flags & (YF_DEAD|YF_DEAD5)) && hiitemsMax(itBone) < 10) return false;
if((ylev.flags & YF_RECALL) && hiitemsMax(itSlime) < 10) return false;
return true;
}
struct scoredata {
string username;
int scores[landtypes];
};
vector<scoredata> scoreboard;
const char *chelp =
"There are many possible solutions to the Yendor Quest. In the Yendor "
"Challenge, you will try many of them!\n\n"
"Each challenge takes part in a specific land, and you have to use what "
"you have available.\n\n"
"You need to obtain an Orb of Yendor in the normal game to activate "
"this challenge, and (ever) collect 10 treasures in one or two lands "
"to activate a specific level.\n\n"
"After you complete each challenge, you can try it again, on a harder "
"difficulty level.\n\n"
"All the solutions showcased in the Yendor Challenge work in the normal "
"play too. However, passages to other lands, and (sometimes) some land features "
"are disabled in the Yendor "
"Challenge, so that you have to use the expected method. Also, "
"the generation rules are changed slightly for the Palace "
"and Minefield while you are looking for the Orb of Yendor, "
"to make the challenge more balanced "
"(but these changes are also active during the normal Yendor Quest).\n\n"
"You get 1000 points for each challenge won, and 1 extra point for "
"each extra difficulty level.";
int char_to_yendor(char c) {
if(c >= 'a' && c <= 'z')
return c - 'a' + 1;
if(c >= 'A' && c <= 'Z')
return c - 'A' + 1 + 26;
return 0;
}
void showMenu() {
set_priority_board(LB_YENDOR_CHALLENGE);
int s = vid.fsize;
vid.fsize = vid.fsize * 4/5;
dialog::init(XLAT("Yendor Challenge"), iinf[itOrbYendor].color, 150, 100);
for(int i=1; i<YENDORLEVELS; i++) {
string s;
yendorlevel& ylev(levels[i]);
if(autocheat || levelUnlocked(i)) {
s = XLATT1(ylev.l);
if(!euclid) {
if(ylev.flags & YF_CHAOS) { s = "Chaos mode"; }
if(ylev.flags & YF_NEAR_IVY) { s += "+"; s += XLATT1(laJungle); }
if(ylev.flags & YF_NEAR_FJORD) { s += "+"; s += XLATT1(laLivefjord); }
if(ylev.flags & YF_NEAR_TENT) { s += "+"; s += XLATT1(laRlyeh); }
if(ylev.flags & YF_NEAR_ELEM) { s += "+"; s += XLATT1(laElementalWall); }
if(ylev.flags & YF_NEAR_OVER) { s += "+"; s += XLATT1(laOvergrown); }
if(ylev.flags & YF_NEAR_RED) { s += "+"; s += XLATT1(laRedRock); }
if(ylev.flags & YF_START_AL) { s += "+"; s += XLATT1(laAlchemist); }
if(ylev.flags & YF_DEAD) { s += "+"; s += XLATT1(itGreenStone); }
if(ylev.flags & YF_RECALL) { s += "+"; s += XLATT1(itOrbRecall); }
}
}
else {
s = "(locked)";
}
string v;
if(bestscore[modecode()][i] == 1)
v = XLAT(" (won!)");
else if(bestscore[modecode()][i])
v = XLAT(" (won at level %1!)", its(bestscore[modecode()][i]));
dialog::addSelItem(s, v, i > 26 ? 'A' + i - 27 : 'a' + i-1);
}
dialog::addBreak(60);
if (yendor::on)
dialog::addItem(XLAT("Return to the normal game"), '0');
dialog::addSelItem(XLAT(
easy ? "Challenges do not get harder" : "Each challenge gets harder after each victory"),
" " + XLAT(easy ? "easy" : "challenge"), '1');
dialog::addBack();
dialog::addHelp();
dialog::display();
int yc = char_to_yendor(getcstat);
if(yc > 0 && yc < YENDORLEVELS) {
subscoreboard scorehere;
for(int i=0; i<isize(scoreboard); i++) {
int sc = scoreboard[i].scores[yc];
if(sc > 0)
scorehere.push_back(
make_pair(-sc, scoreboard[i].username));
}
displayScore(scorehere, vid.xres / 4);
}
yendor::uploadScore();
vid.fsize = s;
keyhandler = [] (int sym, int uni) {
dialog::handleNavigation(sym, uni);
int new_challenge = char_to_yendor(uni);
if(new_challenge && new_challenge < YENDORLEVELS) {
if(levelUnlocked(new_challenge) || autocheat) dialog::do_if_confirmed([new_challenge] {
challenge = new_challenge;
restart_game(yendor::on ? rg::nothing : rg::yendor);
});
else
addMessage("Collect 10 treasures in various lands to unlock the challenges there");
}
else if(uni == '0') {
if(yendor::on) restart_game(rg::yendor);
}
else if(uni == '1') easy = !easy;
else if(uni == '2' || sym == SDLK_F1) gotoHelp(chelp);
else if(doexiton(sym, uni)) popScreen();
};
}
void collected(cell* c2) {
int pg = gold();
playSound(c2, "tada");
items[itOrbShield] += 31;
for(int i=0; i<isize(yendor::yi); i++)
if(yendor::yi[i].path[0] == c2)
yendor::yi[i].foundOrb = true;
// Shielding always, so that we know that it protects!
for(int i=0; i<4; i++) switch(hrand(13)) {
case 0: items[itOrbSpeed] += 31; break;
case 1: items[itOrbLightning] += 78; break;
case 2: items[itOrbFlash] += 78; break;
case 3: items[itOrbTime] += 78; break;
case 4: items[itOrbWinter] += 151; break;
case 5: items[itOrbDigging] += 151; break;
case 6: items[itOrbTeleport] += 151; break;
case 7: items[itOrbThorns] += 151; break;
case 8: items[itOrbInvis] += 151; break;
case 9: items[itOrbPsi] += 151; break;
case 10: items[itOrbAether] += 151; break;
case 11: items[itOrbFire] += 151; break;
case 12: items[itOrbSpace] += 78; break;
}
items[itOrbYendor]++;
items[itKey]--;
yendor::everwon = true;
if(yendor::on) {
yendor::won = true;
if(!cheater) {
dynamicval<int> c(chaosmode, 0);
yendor::bestscore[modecode()][yendor::challenge] =
max(yendor::bestscore[modecode()][yendor::challenge], items[itOrbYendor]);
yendor::uploadScore();
}
}
addMessage(XLAT("CONGRATULATIONS!"));
achievement_collection(itOrbYendor, pg, gold());
achievement_victory(false);
}
auto hooks = addHook(clearmemory, 0, [] () {
yendor::yii = NOYENDOR; yendor::yi.clear();
}) + addHook(hooks_removecells, 0, [] () {
eliminate_if(yendor::yi, [] (yendorinfo& i) {
for(int j=0; j<YDIST; j++) if(is_cell_removed(i.path[j])) {
DEBB(DF_MEMORY, ("removing a Yendor"));
if(&yi[yii] == &i) yii = NOYENDOR;
return true;
}
return false;
});
});
EX }
#define MAXTAC 20
EX namespace tactic {
EX bool trailer = false;
EX bool on = false;
int id;
map<modecode_t, array<int, landtypes>> recordsum;
map<modecode_t, array<array<int, MAXTAC>, landtypes> > lsc;
eLand lasttactic;
struct scoredata {
string username;
int scores[landtypes];
};
map<modecode_t, vector<scoredata>> scoreboard;
int chances(eLand l) {
if(modecode() != 0 && l != laCamelot) return 3;
for(auto& ti: land_tac)
if(ti.l == l)
return ti.tries;
return 0;
}
int tacmultiplier(eLand l) {
if(modecode() != 0 && l != laCamelot) return 1;
if(modecode() != 0 && l == laCamelot) return 3;
for(auto& ti: land_tac)
if(ti.l == l)
return ti.multiplier;
return 0;
}
bool tacticUnlocked(eLand l) {
if(autocheat) return true;
if(l == laWildWest || l == laDual) return true;
return hiitemsMax(treasureType(l)) * landMultiplier(l) >= 20;
}
void record(eLand land, int score, int xc = modecode()) {
if(land >=0 && land < landtypes) {
for(int i=MAXTAC-1; i; i--) lsc[xc][land][i] = lsc[xc][land][i-1];
tactic::lsc[xc][land][0] = score;
}
int t = chances(land);
int csum = 0;
for(int i=0; i<t; i++) if(lsc[xc][land][i] > 0) csum += lsc[xc][land][i];
if(csum > recordsum[xc][land]) recordsum[xc][land] = csum;
}
void record() {
record(lasttactic, items[treasureType(lasttactic)]);
}
void unrecord(eLand land, int xc = modecode()) {
if(land >=0 && land < landtypes) {
for(int i=0; i<MAXTAC-1; i++) lsc[xc][land][i] = lsc[xc][land][i+1];
lsc[xc][land][MAXTAC-1] = -1;
}
}
void unrecord() {
unrecord(lasttactic);
}
int tscorelast;
void uploadScoreCode(int code, int lb) {
int tscore = 0;
for(int i=0; i<landtypes; i++)
tscore += recordsum[code][i] * tacmultiplier(eLand(i));
// printf("PTM score = %d\n", tscore);
if(code == 0 && tscore > tscorelast) {
tscorelast = tscore;
if(tscore >= 1000) achievement_gain("PTM1", 'x');
if(tscore >= 5000) achievement_gain("PTM2", 'x');
if(tscore >= 15000) achievement_gain("PTM3", 'x');
}
achievement_score(lb, tscore);
}
void uploadScore() {
uploadScoreCode(0, LB_PURE_TACTICS);
uploadScoreCode(2, LB_PURE_TACTICS_SHMUP);
uploadScoreCode(4, LB_PURE_TACTICS_COOP);
}
void showMenu() {
int xc = modecode();
if(xc == 0) set_priority_board(LB_PURE_TACTICS);
if(xc == 2) set_priority_board(LB_PURE_TACTICS_SHMUP);
if(xc == 4) set_priority_board(LB_PURE_TACTICS_COOP);
cmode = sm::ZOOMABLE;
mouseovers = XLAT("pure tactics mode") + " - " + mouseovers;
{
dynamicval<bool> t(tactic::on, true);
generateLandList([] (eLand l) { return land_validity(l).flags & lv::appears_in_ptm; });
}
int nl = isize(landlist);
int nlm;
int ofs = dialog::handlePage(nl, nlm, (nl+1)/2);
int vf = min((vid.yres-64-vid.fsize) / nlm, vid.xres/40);
int xr = vid.xres / 64;
if(on) record(specialland, items[treasureType(specialland)]);
getcstat = SDLK_ESCAPE;
for(int i=0; i<nl; i++) {
int i1 = i + ofs;
eLand l = landlist[i1];
int i0 = 56 + i * vf;
color_t col;
int ch = chances(l);
if(!ch) continue;
bool unlocked = tacticUnlocked(l);
if(unlocked) col = linf[l].color; else col = 0x202020;
if(displayfrZH(xr*1, i0, 1, vf-4, XLAT1(linf[l].name), col, 0) && unlocked) {
getcstat = 1000 + i1;
}
if(unlocked || autocheat) {
for(int ii=0; ii<ch; ii++)
if(displayfrZH(xr*(24+2*ii), i0, 1, (vf-4)*4/5, lsc[xc][l][ii] > 0 ? its(lsc[xc][l][ii]) : "-", col, 16))
getcstat = 1000 + i1;
if(displayfrZH(xr*(24+2*10), i0, 1, (vf-4)*4/5,
its(recordsum[xc][l]) + " x" + its(tacmultiplier(l)), col, 0))
getcstat = 1000 + i1;
}
else {
int m = landMultiplier(l);
displayfrZ(xr*26, i0, 1, (vf-4)*4/5,
XLAT("Collect %1x %2 to unlock", its((20+m-1)/m), treasureType(l)),
col, 0);
}
}
dialog::displayPageButtons(3, true);
uploadScore();
if(on) unrecord(specialland);
if(getcstat >= 1000 && getcstat < 1000 + isize(landlist)) {
int ld = landlist[getcstat-1000];
subscoreboard scorehere;
for(int i=0; i<isize(scoreboard[xc]); i++) {
int sc = scoreboard[xc][i].scores[ld];
if(sc > 0)
scorehere.push_back(
make_pair(-sc, scoreboard[xc][i].username));
}
displayScore(scorehere, xr * 50);
}
keyhandler = [] (int sym, int uni) {
if(uni >= 1000 && uni < 1000 + isize(landlist)) dialog::do_if_confirmed([uni] {
stop_game();
specialland = landlist[uni - 1000];
restart_game(tactic::on ? rg::nothing : rg::tactic);
});
else if(uni == '0') {
if(tactic::on) {
stop_game();
firstland = laIce;
restart_game(rg::tactic);
}
else popScreen();
}
else if(sym == SDLK_F1) gotoHelp(
"In the pure tactics mode, you concentrate on a specific land. "
"Your goal to obtain as high score as possible, without using "
"features of the other lands. You can then compare your score "
"with your friends!\n\n"
"You need to be somewhat proficient in the normal game to "
"unlock the given land in this challenge "
"(collect 20 treasure in the given land, or 2 in case of Camelot).\n\n"
"Since getting high scores in some lands is somewhat luck dependent, "
"you play each land N times, and your score is based on N consecutive "
"plays. The value of N depends on how 'fast' the land is to play, and "
"how random it is.\n\n"
"In the Caribbean, you can access Orbs of Thorns, Aether, and "
"Space if you have ever collected 25 treasure in their native lands.\n\n"
"The rate of treasure spawn is static in this mode. It is not "
"increased by killing monsters.\n\n"
"Good luck, and have fun!"
);
else if(dialog::handlePageButtons(uni)) ;
else if(doexiton(sym, uni)) popScreen();
};
}
EX }
// Identifiers for the current combinations of game modes
// These are recorded in the save file, so it is somewhat
// important that they do not change for already existing
// modes, as otherwise the scores would be lost.
// Unfortunately, the codes assigned when HyperRogue had
// just a few special modes did not really follow a specific
// rule, so this system has grown rather ugly as the
// number of special modes kept growing...
// mode codes for 'old' modes, from 0 to 255
int modecodetable[42][6] = {
{ 0, 38, 39, 40, 41, 42}, // softcore hyperbolic
{ 7, 43, 44, 45, 46, 47}, // hardcore hyperbolic
{ 2, 4, 9, 11, 48, 49}, // shmup hyperbolic
{ 13, 50, 51, 52, 53, 54}, // softcore heptagonal hyperbolic
{ 16, 55, 56, 57, 58, 59}, // hardcore heptagonal hyperbolic
{ 14, 15, 17, 18, 60, 61}, // shmup heptagonal hyperbolic
{ 1, 62, 63, 64, 65, 66}, // softcore euclidean
{ 8, 67, 68, 69, 70, 71}, // hardcore euclidean
{ 3, 5, 10, 12, 72, 73}, // shmup euclidean
{110,111,112,113,114,115}, // softcore spherical
{116,117,118,119,120,121}, // hardcore spherical
{122,123,124,125,126,127}, // shmup spherical
{128,129,130,131,132,133}, // softcore heptagonal spherical
{134,135,136,137,138,139}, // hardcore heptagonal spherical
{140,141,142,143,144,145}, // shmup heptagonal spherical
{146,147,148,149,150,151}, // softcore elliptic
{152,153,154,155,156,157}, // hardcore elliptic
{158,159,160,161,162,163}, // shmup elliptic
{164,165,166,167,168,169}, // softcore heptagonal elliptic
{170,171,172,173,174,175}, // hardcore heptagonal elliptic
{176,177,178,179,180,181}, // shmup heptagonal elliptic
{ 19, 74, 75, 76, 77, 78}, // softcore hyperbolic chaosmode
{ 26, 79, 80, 81, 82, 83}, // hardcore hyperbolic chaosmode
{ 21, 23, 28, 30, 84, 85}, // shmup hyperbolic chaosmode
{ 32, 86, 87, 88, 89, 90}, // softcore heptagonal hyperbolic chaosmode
{ 35, 91, 92, 93, 94, 95}, // hardcore heptagonal hyperbolic chaosmode
{ 33, 34, 36, 37, 96, 97}, // shmup heptagonal hyperbolic chaosmode
{ 20, 98, 99,100,101,102}, // softcore euclidean chaosmode
{ 27,103,104,105,106,107}, // hardcore euclidean chaosmode
{ 22, 24, 29, 31,108,109}, // shmup euclidean chaosmode
{182,183,184,185,186,187}, // softcore spherical chaosmode
{188,189,190,191,192,193}, // hardcore spherical chaosmode
{194,195,196,197,198,199}, // shmup spherical chaosmode
{200,201,202,203,204,205}, // softcore heptagonal spherical chaosmode
{206,207,208,209,210,211}, // hardcore heptagonal spherical chaosmode
{212,213,214,215,216,217}, // shmup heptagonal spherical chaosmode
{218,219,220,221,222,223}, // softcore elliptic chaosmode
{224,225,226,227,228,229}, // hardcore elliptic chaosmode
{230,231,232,233,234,235}, // shmup elliptic chaosmode
{236,237,238,239,240,241}, // softcore heptagonal elliptic chaosmode
{242,243,244,245,246,247}, // hardcore heptagonal elliptic chaosmode
{248,249,250,251,252,253}, // shmup heptagonal elliptic chaosmode
};
// unused codes: 6 (cheat/tampered), 25, 254, 255
modecode_t modecode() {
// bit 61: product
if(prod) return PIU(modecode()) | (1ll << 61);
#if CAP_SAVE
if(anticheat::tampered || cheater || geometry >= gGUARD) return 6;
#endif
// compute the old code
int xcode = 0;
if(shmup::on) xcode += 2;
else if(pureHardcore()) xcode ++;
if(euclid) xcode += 6;
else if(!BITRUNCATED) xcode += 3;
if(sphere) {
xcode += 9;
if(elliptic) xcode += 6;
}
if(chaosmode) xcode += 21;
int np = numplayers()-1; if(np<0 || np>5) np=5;
// bits: 0 to 7
modecode_t mct = modecodetable[xcode][np];
// bits: 9, 10, 15, 16, 17, 18
mct += ginf[geometry].xcode;
#if CAP_INV
if(inv::on) mct += (1<<11);
#endif
if(peace::on) mct += (1<<12);
#if CAP_TOUR
if(tour::on) mct += (1<<13);
#endif
if(numplayers() == 7) mct += (1<<14);
// daily/Yendor/Tactics/standard are saved separately, but are using the same codes (Daily uses no code)
// randompattern never records its scores
// no specifics of the advanced configuration of torus/fieldquotient currently recorded
#if CAP_GP
if(GOLDBERG) {
mct += (1 << 19);
auto loc = gp::human_representation(gp::param);
mct += loc.first << 21; // 4 bits
mct += loc.second << 25; // 4 bits
}
#endif
#if CAP_IRR
if(IRREGULAR) {
mct += (1 << 20);
mct += irr::density_code() << 21; // 8 bits
}
#endif
if(DUAL) {
mct += (1 << 19);
mct += (1 << 20);
}
typedef long long ll;
// 32 bits [29..61) for geometry specifics
if(euwrap) {
mct += ll(torusconfig::torus_mode) << 29;
auto& mode = torusconfig::tmodes[torusconfig::torus_mode];
bool single = (mode.flags & torusconfig::TF_SINGLE);
if(single) {
mct += ll(torusconfig::qty) << 37;
mct += ll(torusconfig::dy) << 45;
}
else {
mct += ll(torusconfig::sdx) << 37;
mct += ll(torusconfig::sdy) << 45;
}
}
#if CAP_FIELD
if(geometry == gFieldQuotient) {
using namespace fieldpattern;
mct += ll(current_extra) << 29;
mct += ll(fgeomextras[current_extra].current_prime_id) << 37;
}
#endif
#if CAP_CRYSTAL
if(cryst) {
mct += ll(ginf[geometry].sides) << 29;
mct += ll(ginf[geometry].vertex) << 37;
}
#endif
#if CAP_ARCM
if(geometry == gArchimedean) {
unsigned res = 7;
for(char c: arcm::current.symbol) res = res * 157 + c;
mct += ll(res) << 29;
if(PURE) mct ^= (1<<29);
}
#endif
return mct;
}
EX namespace peace {
EX bool on = false;
bool hint = false;
bool otherpuzzles;
eLand simonlevels[] = {
laCrossroads, laCrossroads2, laDesert, laCaves, laAlchemist, laRlyeh, laEmerald,
laWineyard, laDeadCaves, laRedRock, laPalace,
laLivefjord, laDragon,
laNone
};
eLand explorelevels[] = {
laBurial, laTortoise, laCamelot, laPalace,
laIce, laJungle, laMirror, laDryForest, laCaribbean, laOcean, laZebra,
laOvergrown, laWhirlwind, laWarpCoast, laReptile,
laElementalWall, laAlchemist,
laNone
};
eLand *levellist;
int qty;
void listLevels() {
levellist = otherpuzzles ? explorelevels : simonlevels;
for(qty = 0; levellist[qty]; qty++);
}
eLand getNext(eLand last) {
if(!peace::on) return laNone;
if(!qty) listLevels();
if(isElemental(last) && hrand(100) < 90)
return laNone;
else if(createOnSea(last))
return getNewSealand(last);
else if(isCrossroads(last)) {
while(isCrossroads(last) || last == laCaribbean || last == laCamelot)
last = levellist[hrand(qty)];
if(last == laElementalWall) last = laEFire;
return last;
}
else return pick(laCrossroads, laCrossroads2);
}
bool isAvailable(eLand l) {
for(int i=0; explorelevels[i]; i++) if(explorelevels[i] == l) return true;
return false;
}
const char *chelp =
"In the peaceful mode, you just explore the world, "
"without any battles; there are also several "
"navigational puzzles available. In the memory game, "
"you have to collect as many Dodecahedra as you can, "
"and return to the starting point -- hyperbolic geometry "
"makes this extremely difficult! Other hyperbolic puzzles "
"include the Burial Grounds (excavate the treasures "
"using your magical sword), Galápagos (try to find an adult "
"tortoise matching the baby), Camelot (find the center of "
"a large hyperbolic circle), and Palace (follow the mouse). "
"Other places listed are for exploration.";
namespace simon {
vector<cell*> path;
int tobuild;
void build() {
if(otherpuzzles || !on) return;
while(isize(path) < tobuild) {
cell *cp = path[isize(path)-1];
cell *cp2 = path[isize(path)-2];
vector<pair<cell*, cell*>> clister;
clister.emplace_back(cp, cp);
int id = 0;
manual_celllister cl;
while(id < isize(clister)) {
cell *c = clister[id].first;
cell *fr = clister[id].second;
setdist(c, 5, NULL);
forCellEx(c2,c)
if(!cl.listed(c2) && passable(c2, c, 0) && (c2->land == specialland || c2->land == laTemple) && !c2->item) {
if(!id) fr = c2;
bool next;
if(specialland == laRlyeh)
next = c2->land == laTemple && (cp2->land == laRlyeh || celldistAlt(c2) < celldistAlt(cp2) - 8);
else
next = celldistance(c2, cp2) == 8;
if(next) {
path.push_back(fr);
fr->item = itDodeca;
goto again;
}
clister.emplace_back(c2, fr);
cl.add(c2);
}
id++;
}
printf("Path broken, searched = %d\n", id);
for(auto t: clister) t.first->item = itPirate;
return;
again: ;
}
}
void extend() {
int i = 0;
while(i<isize(path) && path[i]->item != itDodeca) i++;
if(tobuild == i+9)
addMessage("You must collect all the dodecahedra on the path!");
tobuild = i + 9;
build();
}
void init() {
tobuild = 0;
if(!on) return;
if(otherpuzzles) { items[itGreenStone] = 500; return; }
cell *c2 = cwt.at->move(0);
makeEmpty(c2);
c2->item = itOrbYendor;
path.clear();
path.push_back(cwt.at);
path.push_back(c2);
extend();
}
void restore() {
for(int i=1; i<isize(path); i++)
if(path[i]->item == itNone && items[itDodeca])
path[i]->item = itDodeca, items[itDodeca]--;
}
}
void showMenu() {
listLevels();
dialog::init(XLAT(otherpuzzles ? "puzzles and exploration" : "memory game"), 0x40A040, 150, 100);
for(int i = 0; i<qty; i++)
dialog::addItem(XLAT1(linf[levellist[i]].name), 'a'+i);
dialog::addBreak(100);
dialog::addItem(XLAT(otherpuzzles ? "memory game" : "puzzles and exploration"), '1');
dialog::addBoolItem(XLAT("display hints"), hint, '2');
dialog::addItem(XLAT("Return to the normal game"), '0');
dialog::addBreak(50);
dialog::addHelp();
dialog::addBack();
dialog::display();
keyhandler = [] (int sym, int uni) {
dialog::handleNavigation(sym, uni);
if(uni == '1') otherpuzzles = !otherpuzzles;
else if(uni >= 'a' && uni < 'a' + qty) dialog::do_if_confirmed([uni] {
stop_game();
specialland = levellist[uni - 'a'];
restart_game(peace::on ? 0 : rg::peace);
});
else if(uni == '2') { hint = !hint; popScreen(); }
else if(uni == '0') {
firstland = laIce;
if(peace::on) restart_game(rg::peace);
}
else if(uni == 'h' || sym == SDLK_F1) gotoHelp(chelp);
else if(doexiton(sym, uni)) popScreen();
};
}
auto aNext = addHook(hooks_nextland, 100, getNext);
};
#if CAP_COMMANDLINE
int read_mode_args() {
using namespace arg;
if(argis("-Y")) {
yendor::on = true;
shift(); yendor::challenge = argi();
}
else if(argis("-peace")) {
peace::otherpuzzles = true;
stop_game_and_switch_mode(peace::on ? 0 : rg::peace);
}
else if(argis("-pmem")) {
peace::otherpuzzles = false;
stop_game_and_switch_mode(peace::on ? 0 : rg::peace);
}
TOGGLE('T', tactic::on, stop_game_and_switch_mode(rg::tactic))
else return 1;
return 0;
}
auto ah = addHook(hooks_args, 0, read_mode_args);
#endif
}