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mirror of https://github.com/zenorogue/hyperrogue.git synced 2024-11-27 14:37:16 +00:00
hyperrogue/complex.cpp
2017-07-23 01:33:27 +02:00

2943 lines
85 KiB
C++

// Hyperbolic Rogue
// namespaces for complex features (whirlwind, whirlpool, elec, princess, clearing,
// mirror, hive, heat + livecaves)
// Copyright (C) 2011-2016 Zeno Rogue, see 'hyper.cpp' for details
#include <map>
namespace whirlwind {
int fzebra3(cell *c) {
if(euclid) {
if(torus) return 0;
eucoord x, y;
decodeMaster(c->master, x, y);
return 1+((((signed short)(y)+int(50000))/3)%3);
}
if(sphere) return getHemisphere(c, 0) > 0 ? 1 : 2;
return zebra3(c);
}
void switchTreasure(cell *c) {
c->item = itNone;
if(safety) return;
if(hrand(5000) < PT(100 + 2 * (kills[moAirElemental] + kills[moWindCrow]), 200) && notDippingFor(itWindstone)
&& getGhostcount() < 2)
c->item = itWindstone;
else if(hrand(5000) < 20*PRIZEMUL)
placeLocalOrbs(c);
}
int cat(cell *c) {
if(c->land != laWhirlwind) return 0;
if(c->wall != waNone && c->wall != waChasm &&
c->wall != waSea && !isAlchAny(c) &&
c->wall != waMineMine && c->wall != waFire) return 0;
if(c->item == itKey || c->item == itOrbYendor) return 0;
if(airdist(c) < 3) return 0;
if(c->monst == moHexSnake || c->monst == moHexSnakeTail) return 0;
return fzebra3(c);
}
cell *where;
int dfrom[2], dto[2], qdirs;
int gdist(int d, int e) { return dirdiff(d-e, where->type); }
void calcdirs(cell *c) {
where = c;
int d = cat(c);
qdirs = 0;
if(d == 0) return;
int qdf = 0, qdt = 0;
int cats[7];
for(int i=0; i<c->type; i++)
cats[i] = cat(createMov(c,i));
for(int i=0; i<c->type; i++)
if(cats[i] == d) {
bool c1 = (cats[(i+1)%c->type] != d);
bool c2 = (cats[(i+c->type-1)%c->type] != d);
if(c1 && !c2) dto[qdt++] = i;
if(c2 && !c1) dfrom[qdf++] = i;
}
qdirs = qdf;
if(qdirs == 2) {
int cur = gdist(dfrom[0], dto[0]) + gdist(dfrom[1], dto[1]);
int alt = gdist(dfrom[0], dto[1]) + gdist(dfrom[1], dto[0]);
if(alt < cur) swap(dto[0], dto[1]);
}
}
int mindist(int d, int *tab) {
if(qdirs == 0) return NODIR;
if(qdirs == 1) return gdist(d, tab[0]);
return min(gdist(d, tab[0]), gdist(d, tab[1]));
}
int winddir(int d) {
if(d == -1) return 0;
int mdf = mindist(d, dfrom);
int mdt = mindist(d, dto);
// printf("dir = %d mdf = %d mdt = %d\n", d, mdf, mdt);
if(mdf < mdt) return -1;
if(mdf > mdt) return 1;
return 0;
}
void build(vector<cell*>& whirlline, int d) {
again:
cell *at = whirlline[size(whirlline)-1];
cell *prev = whirlline[size(whirlline)-2];
for(int i=0; i<at->type; i++)
if(at->mov[i] && (euclid || at->mov[i]->master->alt) && celldistAlt(at->mov[i]) == d && at->mov[i] != prev) {
whirlline.push_back(at->mov[i]);
goto again;
}
}
void moveAt(cell *c) {
if(eq(c->aitmp, sval)) return;
calcdirs(c);
if(qdirs != 1) return;
vector<cell*> whirlline;
whirlline.push_back(c);
cell *prev = c;
cell *c2 = c->mov[dfrom[0]];
while(true) {
// printf("c = %p dist = %d\n", c2, c2->mpdist);
if(c == c2) break;
calcdirs(c2);
if(qdirs == 0) break;
cell *cc2 = c2;
if(qdirs == 1) whirlline.push_back(c2), c2 = c2->mov[dfrom[0]];
else if(c2->mov[dto[0]] == prev)
c2 = c2->mov[dfrom[1]];
else
c2 = c2->mov[dfrom[0]];
prev = cc2;
}
int z = size(whirlline);
// printf("Cycle built from %p, length = %d\n", c, z);
for(int i=0; i<z; i++) {
// printf("%d%c", whirlline[i]->mpdist, whirlline[i]->item ? '*' : ' ');
whirlline[i]->aitmp = sval;
if(whirlline[i]->mpdist == BARLEV)
switchTreasure(whirlline[i]);
}
for(int i=0; i<z-1; i++) {
moveItem(whirlline[i], whirlline[i+1], true);
if(whirlline[i]->item)
animateMovement(whirlline[i+1], whirlline[i], LAYER_BOAT);
}
for(int i=0; i<z; i++)
if(isPlayerOn(whirlline[i]) && whirlline[i]->item)
collectItem(whirlline[i], true);
}
void move() {
sval++;
for(int i=0; i<size(dcal); i++) {
cell *c = dcal[i];
moveAt(c);
}
// Keys and Orbs of Yendor always move
using namespace yendor;
for(int i=0; i<size(yi); i++) {
moveAt(yi[i].path[0]);
moveAt(yi[i].path[YDIST-1]);
}
}
cell *jumpFromWhereTo(cell *c, bool player) {
for(int i=0; i<2; i++) {
calcdirs(c);
if(qdirs != 1) return NULL;
cell *c2 = c->mov[dfrom[0]];
if(!passable(c, c2, P_JUMP1)) return NULL;
if(player && i == 0 && !passable(c, c2, P_ISPLAYER)) return NULL;
c = c2;
}
calcdirs(c);
if(qdirs != 1) return NULL;
return c;
}
cell *jumpDestination(cell *c) {
for(int i=0; i<2; i++) {
calcdirs(c);
if(qdirs != 1) return NULL;
c = c->mov[dto[0]];
}
calcdirs(c);
if(qdirs != 1) return NULL;
return c;
}
}
namespace elec {
bool havecharge, haveelec, havethunder;
bool afterOrb; // extra charge from the Orb of Lightning
enum eCharge {
ecCharged, ecGrounded, ecIsolator, ecConductor
};
bool conduct(eCharge cf, eCharge ct) {
if(ct == ecIsolator) return false;
if(ct == ecConductor) return true;
return ct != cf;
}
eCharge getCharge(cell *c) {
bool ao = afterOrb && c->ligon;
if(c->wall == waCharged) return ecCharged;
if(c->wall == waSea || c->wall == waGrounded) return ecGrounded;
if(c->wall == waSandstone || c->wall == waDeadTroll ||
c->wall == waDeadTroll2 ||
c->wall == waVinePlant ||
c->wall == waMetal || isAlchAny(c))
return c->land == laStorms ? ecConductor : ecGrounded;
if(c->wall == waBarrier)
return ecIsolator;
if(c->wall == waChasm)
return ecIsolator;
if(shmup::on ? isPlayerOn(c) : (isPlayerOn(c) || stalemate::isMoveto(c) || (items[itOrbEmpathy] && isFriendly(c)))) {
if(items[itOrbShield]) return ecIsolator;
if(afterOrb) return ecIsolator;
if(!items[itOrbAether]) return c->land == laStorms ? ecConductor : ecGrounded;
}
// if(c->monst && stalemate::moveto) printf("%p: isKilled = %d\n", c, stalemate::isKilled(c));
else if(
(c->monst || stalemate::isPushto(c))
&&
(stalemate::isPushto(c) || !stalemate::isKilled(c))
&&
c->monst != moGhost && c->monst != moIvyDead && c->monst != moIvyNext
&& !(isDragon(c->monst) && !c->hitpoints)
)
return c->land == laStorms ? (ao ? ecCharged : ecConductor) : ecGrounded;
if(c->land != laStorms)
return ecGrounded;
if(ao) return ecCharged;
return ecIsolator;
}
// To process conductivity, consider the following graph:
// - edges are between conductors and adjacent charged/grounded/conductor cells
// - all charged cells are connected to one special cell '0'
// - all grounded cells are connected to one special cell '1'
// - cells '0' and '1' are connected
// If A and B are in the same biconnected component, then there is a closed circuit,
// consisting of all other cells in that component.
// To find biconnected components, we are using the Hopcroft-Tarjan algorithm.
struct chargedata {
cell *c;
int otmp;
int lowlink;
bool instack;
bool fire;
};
vector<chargedata> charges;
vector<pair<int, int> > xstack;
vector<cell*> chargecells;
bool hasdata(cell *c) {
return c->aitmp >= 0 && c->aitmp < size(charges) && charges[c->aitmp].c == c;
}
void connect(int from, cell *c) {
if(hasdata(c)) {
// seen again: set the lowlink
if(!charges[c->aitmp].instack) return;
// printf("edge %d-%d\n", from, c->aitmp);
if(c->aitmp < charges[from].lowlink)
charges[from].lowlink = c->aitmp;
}
else {
int id = size(charges);
charges.push_back(chargedata());
chargedata& ch(charges[id]);
ch.c = c; ch.otmp = c->aitmp; ch.lowlink = id; c->aitmp = id;
ch.instack = true; ch.fire = false;
// c->landparam = id;
// printf("edge %d-%d [%s]\n", from, id, dnameof(c->wall));
xstack.push_back(make_pair(from, id));
eCharge chh = getCharge(c);
if(chh == ecGrounded) {
xstack.push_back(make_pair(id, 0));
ch.lowlink = 0;
}
else if(chh == ecCharged) {
xstack.push_back(make_pair(id, 1));
if(from != 1) ch.lowlink = 1;
}
for(int i=0; i<c->type; i++) {
cell *c2 = c->mov[i];
if(!c2) continue;
if(c2->aitmp == from) continue;
eCharge ct = getCharge(c2);
if(conduct(chh, ct))
connect(id, c2);
}
// printf("lowlink of %d [%s] = %d\n", id, dnameof(c->wall), ch.lowlink);
if(ch.lowlink < charges[from].lowlink)
charges[from].lowlink = ch.lowlink;
if(charges[id].lowlink >= from) {
while(xstack.back().first != from || xstack.back().second != id) {
// printf("bcc %d,%d\n", xstack.back().first, xstack.back().second);
xstack.pop_back();
}
// printf("bcc %d,%d\n", xstack.back().first, xstack.back().second);
xstack.pop_back();
// printf("\n");
}
ch.instack = false;
}
}
void affect(cell *c) {
c->ligon = true;
if(c->monst) {
if(c->monst == moMetalBeast2 && !c->item)
c->item = itFulgurite;
killMonster(c, moLightningBolt);
}
if(isPlayerOn(c)) {
killThePlayerAt(moLightningBolt, c, 0);
}
if(c->wall == waSandstone)
c->wall = waNone, c->item = itFulgurite,
drawParticles(c, winf[waSandstone].color, 16);
if(c->wall == waDeadTroll) c->wall = waCavefloor;
if(c->wall == waDeadTroll2 || isAlchAny(c) || c->wall == waVinePlant)
drawParticles(c, winf[c->wall].color, 16),
c->wall = waNone;
/* if(c->wall == waCharged)
c->wall = waMetal; */
}
void listChargedCells(cell *c, eCharge last = ecConductor) {
if(eq(c->aitmp, sval)) return;
eCharge here = getCharge(c);
/* if(c->cpdist <= 2) {
printf("monst=%s ", dnameof(c->monst));
printf("wall=%s ", dnameof(c->wall));
printf("c=%p here=%d last=%d\n", c, here, last);
} */
if(here == ecIsolator) c->aitmp = sval;
if(!conduct(last, here)) return;
if(here == ecCharged) chargecells.push_back(c);
c->aitmp = sval;
for(int i=0; i<c->type; i++) {
cell *c2 = c->mov[i];
if(c2) listChargedCells(c2, here);
}
}
void init() {
chargecells.clear();
if(!haveelec && !afterOrb) return;
sval++;
for(int i=0; i<size(dcal); i++) listChargedCells(dcal[i]);
charges.resize(2);
charges[0].lowlink = 0; charges[1].lowlink = 1;
if(!havecharge) return;
xstack.clear();
for(int i=0; i<size(chargecells); i++)
connect(1, chargecells[i]);
havethunder = charges[1].lowlink == 0;
if(havethunder) {
for(int i=0; i<size(xstack); i++) {
int k = xstack[i].first;
int l = xstack[i].second;
// printf("connected %d-%d\n", k, l);
charges[k].fire = true;
charges[l].fire = true;
}
}
}
void fire() {
if(havethunder) {
addMessage(XLAT("There is a flash of thunder!"));
playSound(NULL, "storm");
drawLightning();
for(int i=2; i<size(charges); i++) if(charges[i].fire)
affect(charges[i].c);
}
}
void cleanup() {
for(int i=2; i<size(charges); i++)
charges[i].c->aitmp = charges[i].otmp;
charges.resize(0);
}
void draw(cell *c, eCharge what) {
if(c->ligon) return;
c->ligon = true;
for(int i=0; i<c->type; i++) {
cell *c2 = c->mov[i];
if(!c2) continue;
eCharge ch = getCharge(c2);
if(conduct(what, ch))
draw(c2, ch);
}
}
void drawcharges() {
for(int i=0; i<size(dcal); i++)
if(getCharge(dcal[i]) == ecCharged)
draw(dcal[i], ecCharged);
}
bool affected(cell *c) {
if(c->aitmp >= 0 && c->aitmp < size(charges) && charges[c->aitmp].c == c)
return charges[c->aitmp].fire;
return false;
}
struct builder {
builder() { init(); }
~builder() { cleanup(); }
};
void act() {
int k = tkills();
for(int i=0; i<numplayers(); i++)
if(multi::playerActive(i) && playerpos(i)->land == laStorms && !afterOrb)
markOrb(itOrbShield), markOrb(itOrbAether);
builder b;
fire();
if(!afterOrb)
achievement_count("ELEC", tkills() - k, 0);
}
// 0 = no close escape, 1 = close escape, 2 = message already shown
int lightningfast;
void checklightningfast() {
if(lightningfast == 1) {
addMessage(XLAT("Wow! That was close."));
lightningfast = 2;
}
if(lightningfast > 1) return;
builder b;
for(int i=0; i<numplayers(); i++)
if(multi::playerActive(i) && elec::affected(playerpos(i)))
lightningfast = 1;
}
};
namespace princess {
#define EPX 39
#define EPY 21
#define OUT_OF_PRISON 200
#define OUT_OF_PALACE 250
#define PRADIUS0 (141)
#define PRADIUS1 (150)
bool generating = false;
bool challenge = false;
bool saved = false;
bool everSaved = false;
bool forceVizier = false;
bool forceMouse = false;
bool gotoPrincess = false;
bool nodungeon = false;
bool squeaked = false;
int saveHP = 0, saveArmedHP = 0;
int reviveAt;
struct info {
int id; // id of this info
cell *prison; // where was the Princess locked
heptagon *alt; // alt of the prison
int bestdist; // best dist achieved
int bestnear; // best dist achieved, by the player
int value; // number of Rugs at 120
cell *princess; // where is the Princess currently
};
vector<info*> infos;
void assign(info *i) {
if(i->alt) i->alt->emeraldval = i->id;
}
int newInfo(cell *c) {
info *i = new info;
i->prison = c;
i->princess = c;
i->alt = c->master->alt;
i->id = size(infos);
i->bestdist = 0;
i->bestnear = OUT_OF_PRISON;
infos.push_back(i);
assign(i);
return i->id;
}
void newFakeInfo(cell *c) {
info *i = new info;
i->prison = NULL;
i->princess = c;
i->alt = NULL;
i->id = size(infos);
i->bestdist = items[itSavedPrincess] ? OUT_OF_PALACE : OUT_OF_PRISON;
i->bestnear = 0;
infos.push_back(i);
assign(i);
}
info *getPrisonInfo(cell *c) {
if(euclid) return NULL;
if(c->land != laPalace) return NULL;
if(!c->master->alt) return NULL;
int ev = c->master->alt->alt->emeraldval; // NEWYEARFIX
if(ev < 0 || ev >= size(infos)) return NULL;
if(infos[ev]->alt != c->master->alt->alt) return NULL;
return infos[ev];
}
info *getPrincessInfo(cell *c) {
for(int i=0; i<size(infos); i++) if(infos[i]->princess == c) {
while(i) {
infos[i]->id = i-1; assign(infos[i]);
infos[i-1]->id = i; assign(infos[i-1]);
swap(infos[i], infos[i-1]);
i--;
}
return infos[i];
}
return NULL;
}
int dist(cell *c) {
if(c->land != laPalace && c->land != laDungeon) return OUT_OF_PALACE;
else if(quotient || sphere || torus) return OUT_OF_PRISON;
else if(euclid) return celldistAlt(c);
else if(!c->master->alt) return OUT_OF_PRISON;
else return celldistAlt(c);
}
void clear() {
for(int i=0; i<size(infos); i++) delete infos[i];
infos.clear();
}
bool bringBackAt(cell *c) {
if(!c) return false;
if(!passable(c, NULL, 0)) return false;
c->monst = moPrincessArmed;
c->stuntime = 0;
c->hitpoints = palaceHP();
drawFlash(c);
playSound(c, princessgender() ? "heal-princess" : "heal-prince");
info *inf = NULL;
for(int i=0; i<size(infos); i++) {
if(infos[i]->princess && infos[i]->bestdist == OUT_OF_PALACE && isPrincess(infos[i]->princess->monst))
inf = infos[i];
}
if(inf) { inf->princess->monst = moNone; inf->princess = c; }
else newFakeInfo(c);
return true;
}
void bringBack() {
if(bringBackAt(cwt.c->mov[cwt.spin])) return;
for(int i=1; i<size(dcal); i++)
if(bringBackAt(dcal[i])) return;
}
void setdist(info *i, int newdist) {
if(newdist < ALTDIST_ERROR && newdist > i->bestdist) {
i->bestdist = newdist;
// printf("Improved dist to %d\n", newdist);
if(newdist == OUT_OF_PALACE) {
if(!princess::saved)
#if CAP_INV
if(!inv::on || !inv::usedForbidden)
#endif
achievement_gain("PRINCESS1");
princess::saved = true;
princess::everSaved = true;
if(inv::on && !princess::reviveAt)
princess::reviveAt = gold(NO_LOVE);
items[itSavedPrincess]++;
}
if(newdist == OUT_OF_PRISON && princess::challenge) {
addMessage(XLAT("Congratulations! Your score is %1.", its(i->value)));
achievement_gain("PRINCESS2");
if(!cheater) achievement_score(36, i->value);
showMissionScreen();
}
}
if(i->princess->land == laDungeon && !saved && !nodungeon) {
addMessage(XLAT("%The1 says, \"not this place, it looks even worse...\"", moPrincess));
nodungeon = true;
}
}
void save(cell *princess) {
if(euclid) return;
princess::info *i = princess::getPrincessInfo(princess);
if(!i || i->bestdist <= 3) princess->monst = moNone;
else if(i) setdist(i, OUT_OF_PRISON);
}
void move(cell *ct, cell *cf) {
if(euclid) return;
princess::info *i = princess::getPrincessInfo(cf);
if(!i) {
// note: OK if mapediting or loading
printf("Warning: unknown princess\n");
if(!cheater)
addMessage("Warning: unknown princess (that's a bug, please report)");
}
else {
i->princess = ct;
setdist(i, dist(ct));
// printf("newdist = %d (vs %d)\n", newdist, i->bestdist);
}
}
void mouseSqueak(cell *c) {
eMonster m = c->monst;
info *i = getPrisonInfo(c);
int d = dist(c);
playSound(c, "mousesqueak", 40);
if(!i)
addMessage(XLAT("%The1 squeaks in a confused way.", m));
else if(i->bestdist >= 6)
addMessage(XLAT("%The1 squeaks gratefully!", m));
else if(!i->princess)
addMessage(XLAT("%The1 squeaks hopelessly.", m));
else if(d > 120)
addMessage(XLAT("%The1 squeaks in despair.", m));
else if(d > 90)
addMessage(XLAT("%The1 squeaks sadly.", m));
else if(d > 60)
addMessage(XLAT("%The1 squeaks with hope!", m));
else if(d > 30)
addMessage(XLAT("%The1 squeaks happily!", m));
else
addMessage(XLAT("%The1 squeaks excitedly!", m));
}
void line(cell *c) {
int d = (euclid || c->master->alt) ? celldistAlt(c) : 200;
eMonster m = c->monst;
static int msgid = 0;
playSound(c, princessgender() ? "speak-princess" : "speak-prince");
retry:
if(msgid >= 32) msgid = 0;
bool inpalace = c->land == laPalace || c->land == laDungeon;
if(msgid == 0 && d < 20 && inpalace) {
addMessage(XLAT("%The1 kisses you, and begs you to bring %him1 away from here.", m));
}
else if(msgid == 1 && d >= 20 && inpalace) {
if(m == moPrincess)
addMessage(XLAT("\"I want my revenge. Stun a guard and leave him for me!\"", m));
else
addMessage(XLAT("\"That felt great. Thanks!\"", m));
}
else if(msgid == 2 && d >= 70 && inpalace) {
addMessage(XLAT("\"Bring me out of here please!\"", m));
}
else if(msgid == 3 && !inpalace) {
addMessage(XLAT("%The1 kisses you, and thanks you for saving %him1.", m));
}
else if(msgid == 4 && !inpalace && m == moPrincess) {
addMessage(XLAT("\"I have been trained to fight with a Hypersian scimitar, you know?\"", m));
}
else if(msgid == 5 && !inpalace) {
addMessage(XLAT("\"I would love to come to your world with you!\"", m));
}
else if(msgid == 6 && !inpalace) {
addMessage(XLAT("\"Straight lines stay close to each other forever, this is so romantic!\"", m));
}
else if(msgid == 7 && !inpalace) {
addMessage(XLAT("\"Maps... Just like the world, but smaller... how is that even possible?!\"", m));
}
else {
msgid++; goto retry;
}
msgid++;
}
void playernear(cell *c) {
info *i = getPrisonInfo(c);
int d = dist(c);
// if(i) printf("d=%d bn=%d\n", d, i->bestnear);
if(i && d < i->bestnear) {
if(i->bestnear > 100 && d <= 100) {
i->value = items[itPalace];
if(princess::challenge)
addMessage(XLAT("Hardness frozen at %1.", its(i->value)));
}
i->bestnear = d;
}
}
}
namespace clearing {
struct clearingdata {
cell *root;
int dist;
};
bool buggyplant = false;
std::map<heptagon*, clearingdata> bpdata;
int plantdir(cell *c) {
generateAlts(c->master);
for(int i=0; i<7; i++)
generateAlts(c->master->move[i]);
int d = celldistAlt(c);
if(purehepta) {
for(int i=0; i<7; i++) {
cell *c2 = createMov(c, i);
if(!pseudohept(c2) && celldistAlt(c2) == d-1)
return i;
}
for(int i=0; i<7; i++) {
cell *c2 = createMov(c, i);
if(celldistAlt(c2) == d-1)
return (i+1) % 7;
}
}
for(int i=1; i<6; i+=2) {
cell *c2 = createMov(c, i);
if(celldistAlt(c2) == d-1)
return i;
}
int quseful = 0, tuseful = 0;
for(int i=1; i<6; i+=2) {
cell *c2 = c->mov[i];
if(celldistAlt(c2) == d) {
bool useful = false;
for(int j=1; j<6; j++) {
cell *c3 = createMov(c2, j);
if(celldistAlt(c3) == d-1)
useful = true;
}
if(useful) quseful++, tuseful += i;
}
}
if(quseful == 1) return tuseful;
if(quseful == 2) {
int i;
if(tuseful == 3+5) i = 3;
if(tuseful == 5+1) i = 5;
if(tuseful == 1+3) i = 1;
if((d & 7) < 4) i = (i+2) % 6;
return i;
}
printf("error in plantdir\n");
return 1;
}
vector<cell*> onpath;
vector<int> pdir;
vector<cell*> rpath;
void generate(cell *c) {
if(buggyplant) return;
if(euclid) {
if(torus) return;
if(pseudohept(c)) return;
c->monst = moMutant;
eucoord x, y;
decodeMaster(c->master, x, y);
int xco = x * 2 + y + 1;
c->stuntime = (8-xco/2) & 15;
// 2, 4, 5, 7
if(pseudohept(createMov(c, 0)))
c->mondir = 1 + hrand(2) * 4;
else
c->mondir = 0;
return;
}
// cell *oc = c;
if(!euclid) generateAlts(c->master);
if(pseudohept(c)) return;
heptagon *a = euclid ? NULL : c->master->alt->alt;
clearingdata& bd(bpdata[a]);
if(!bd.root) { bd.root = c; bd.dist = 8; }
onpath.clear(); pdir.clear(); rpath.clear();
int steps = 0;
int ds;
while(true) {
if(c == bd.root) {ds = bd.dist; break; }
// printf("R %4d C %4d\n", celldistAlt(bd.root), celldistAlt(c));
if(celldistAlt(c) > celldistAlt(bd.root)) {
if(c->mpdist <= 6) {
if(c->monst != moMutant) return; // already cut!
// ... else simply extend it
ds = c->stuntime; break;
}
int d = plantdir(c);
steps++;
onpath.push_back(c); pdir.push_back(d);
// printf("c [%4d] %p -> %p\n", celldistAlt(c), c, c->mov[d]);
c = c->mov[d];
}
else {
bd.dist--;
if(bd.dist < -1000) {
for(int i=0; i<steps; i++)
onpath[i]->item = itBuggy;
for(int i=0; i<(int) rpath.size(); i++)
rpath[i]->item = itBuggy;
buggyplant = true;
printf("buggygen\n");
return;
}
rpath.push_back(bd.root);
// printf("r [%4d] %p -> %p\n", celldistAlt(bd.root), bd.root, bd.root->mov[plantdir(bd.root)]);
bd.root = bd.root->mov[plantdir(bd.root)];
}
}
// printf("steps = %d dist = %d [%d]\n", steps, bd.dist, oc->mpdist);
onpath.push_back(c); pdir.push_back(plantdir(c));
while(steps >= 0) {
c = onpath[steps];
if(steps == 0) {
c->monst = moMutant;
c->mondir = pdir[steps];
if(pdir[steps] != plantdir(c)) {
printf("pdir i/ plantdir\n");
exit(1);
}
c->stuntime = ds;
}
if(c->mpdist <= 7 && c->monst != moMutant)
break;
steps--; ds++;
}
}
}
namespace whirlpool {
bool escaped = false; // escaped the Whirlpool?
// next == +1 -> next
// next == -1 -> prev
cell *get(cell *c, int next) {
int i = 0;
if(!euclid && !c->master->alt) return NULL;
int d = celldistAlt(c);
int d2;
while(true) {
if(i == c->type) return NULL;
if(c->mov[i] && (d2 = celldistAlt(c->mov[i])) != d)
break;
i++;
}
if(i == c->type) return NULL;
if(d>d2) next = -next;
for(int j=1; j<c->type; j++) {
cell *c2 = c->mov[(i+420+next*j) % c->type];
if(celldistAlt(c2) == d) return c2;
}
return NULL;
}
void build(vector<cell*>& whirlline, int d) {
again:
cell *at = whirlline[size(whirlline)-1];
cell *prev = whirlline[size(whirlline)-2];
for(int i=0; i<at->type; i++)
if(at->mov[i] && (euclid || at->mov[i]->master->alt) && celldistAlt(at->mov[i]) == d && at->mov[i] != prev) {
whirlline.push_back(at->mov[i]);
goto again;
}
}
void generate(cell *wto) {
if(wto->wall == waBoat || wto->monst)
return;
if(hrand(35000) < 40 + items[itWhirlpool] + yendor::hardness())
wto->monst = moCShark;
else if(hrand(5000) < 500)
wto->wall = waBoat;
if(wto->wall == waBoat && (euclid || wto->master->alt)) {
int d = celldistAlt(wto);
if(yendor::on) d -= 200;
// 250 : hard
if(hrand(5000) < 60 + 3 * items[itWhirlpool] + yendor::hardness())
wto->monst = moPirate;
if(hrand(5000) < 20 && d < -20 && !tactic::on)
wto->item = itOrbSafety;
else if(hrand(5000) < 20 && d < -20 && !tactic::on && markOrb(itOrbLuck))
wto->item = itOrbSafety;
else if(hrand(5000) < 20*PRIZEMUL && d < -20)
placePrizeOrb(wto);
else if(items[itWhirlpool] >= 10 && hrand(5000) < 20 && d < -15)
wto->item = itOrbWater;
else if(d<-10 && hrand(5000) < 1000-d)
wto->item = itWhirlpool;
}
}
void whirlMove(cell *wto, cell *wfrom) {
// monsters don't move
if(wfrom && (isPlayerOn(wfrom) || wfrom->monst))
return;
// disappear
if(!wto) { wfrom->wall = waSea; wfrom->item = itNone; }
if(wfrom && wto && wfrom->wall == waBoat && wto->wall == waSea && !wto->monst) {
wfrom->wall = waSea; wto->wall = waBoat;
wto->mondir = neighborId(wto, wfrom);
animateMovement(wfrom, wto, LAYER_BOAT);
}
if(wfrom && wto && wfrom->item && !wto->item && wfrom->wall != waBoat) {
// Keys and Orbs of Yendor never disappear!
if(wfrom->item == itKey || wfrom->item == itOrbYendor)
for(int i=0; i<wto->type; i++) createMov(wto, i);
moveItem(wfrom, wto, false);
}
if(wto && !wfrom)
generate(wto);
}
void moveAt(cell *c) {
if(c->land != laWhirlpool) return;
if(eq(c->aitmp, sval)) return;
if(!(euclid || c->master->alt)) return;
cell *c2 = get(c, 1);
if(!c2) return;
int d = celldistAlt(c);
vector<cell*> whirlline;
whirlline.push_back(c);
whirlline.push_back(c2);
build(whirlline, d);
reverse(whirlline.begin(), whirlline.end());
build(whirlline, d);
int z = size(whirlline);
for(int i=0; i<z; i++)
whirlline[i]->aitmp = sval;
whirlMove(NULL, whirlline[0]);
for(int i=0; i<z-1; i++)
whirlMove(whirlline[i], whirlline[i+1]);
whirlMove(whirlline[z-1], NULL);
}
void move() {
sval++;
for(int i=0; i<size(dcal); i++) {
cell *c = dcal[i];
moveAt(c);
}
// Keys and Orbs of Yendor always move
using namespace yendor;
for(int i=0; i<size(yi); i++) {
moveAt(yi[i].path[0]);
moveAt(yi[i].path[YDIST-1]);
}
}
}
bool operator == (const cellwalker& c1, const cellwalker& c2) {
return c1.c == c2.c && c1.spin == c2.spin && c1.mirrored == c2.mirrored;
}
namespace mirror {
vector<pair<int, cellwalker>> mirrors;
static const int LIGHTNING = -1; // passed instead of cpid
bool noMirrorOn(cell *c) {
return c->monst || (!shmup::on && isPlayerOn(c)) || (geometry != gQuotient2 && geometry != gTorus && c->cpdist > 7);
}
bool cellMirrorable(cell *c) {
if(noMirrorOn(c)) return false;
return
c->wall == waNone || c->wall == waCavefloor || isAlchAny(c) ||
c->wall == waFrozenLake || c->wall == waDeadfloor || c->wall == waDeadfloor2 ||
c->wall == waGiantRug || c->wall == waCIsland || c->wall == waCIsland2 ||
c->wall == waGargoyleFloor || c->wall == waRubble ||
c->wall == waGargoyleBridge || c->wall == waTempFloor || c->wall == waTempBridge ||
c->wall == waMirrorWall;
}
void destroyKilled() {
int j = 0;
for(int i=0; i<size(mirrors); i++)
if(mirrors[i].second.c->monst == moMimic)
mirrors[j++] = mirrors[i];
mirrors.resize(j);
}
void unlist() {
for(auto& m: mirrors)
if(m.second.c->monst == moMimic)
m.second.c->monst = moNone;
}
void list() {
for(auto& m: mirrors)
m.second.c->monst = moMimic;
}
void destroyAll() {
unlist();
mirrors.clear();
}
void createMirror(cellwalker cw, int cpid) {
if(!shmup::on && inmirror(cw))
cw = reflect(cw);
if(cpid == LIGHTNING)
castLightningBolt(cw);
else if(cellMirrorable(cw.c)) {
for(auto& m: mirrors)
if(m == make_pair(cpid,cw))
return;
mirrors.emplace_back(cpid, cw);
}
}
void createMirrors(cellwalker cw, int cpid) {
cw.mirrored = !cw.mirrored;
cell *c = cw.c;
for(int i=0; i<cw.c->type; i++) {
cwstep(cw);
if(cw.c->type == c->type) {
cwspin(cw, i);
createMirror(cw, cpid);
cwspin(cw, -i);
}
cwstep(cw);
cwspin(cw, 1);
}
}
void createMirages(cellwalker cw, int cpid) {
if(purehepta) {
for(int i=0; i<cw.c->type; i++) {
cellwalker C2 = cw;
cwstep(C2);
cwspin(C2, 3);
cwstep(C2);
cwspin(C2, 5);
cwstep(C2);
cwspin(C2, 3);
cwspin(C2, -i);
createMirror(C2, cpid);
cwspin(cw, 1);
}
return;
}
for(int i=0; i<6; i++) {
cwstep(cw);
if(cw.c->type == 6) {
cwspin(cw, 2);
cwstep(cw);
cwspin(cw, 4-i);
createMirror(cw, cpid);
cwspin(cw, 6-4+i);
cwstep(cw);
cwspin(cw, 2);
cwstep(cw);
cwspin(cw, 2-i);
createMirror(cw, cpid);
cwspin(cw, 6-2+i);
cwstep(cw);
cwspin(cw, 2);
}
cwstep(cw);
cwspin(cw, 1);
}
}
void createHere(cellwalker cw, int cpid) {
if(cw.c->wall == waCloud)
createMirages(cw, cpid);
if(cw.c->wall == waMirror)
createMirrors(cw, cpid);
}
void breakMirror(cellwalker cw, int pid) {
cell *c = cw.c;
if(c->wall == waMirror || c->wall == waCloud) {
drawParticles(c, winf[c->wall].color, 16);
playSound(c, "pickup-mirror", 50);
if(pid >= 0 && (cw.c->land == laMirror || cw.c->land == laMirrorOld)) {
dynamicval<int> d(multi::cpid, pid);
gainShard(cw.c, c->wall == waMirror ? "The mirror shatters!" : "The cloud turns into a bunch of images!");
}
c->wall = waNone;
}
}
bool isKilledByMirror(cell *c) {
for(auto& m: mirrors)
if(cwpeek(m.second, 0) == c && canAttack(m.second.c, moMimic, c, c->monst, 0))
return true;
return false;
}
void go(bool fwd) {
int tk = tkills();
int nummirage = 0;
int j = 0;
for(int i=0; i<size(mirrors); i++) {
auto& m = mirrors[i];
bool survive = true;
if(m.first == multi::cpid) {
cell *c = m.second.c;
if(!m.second.mirrored) nummirage++;
auto cw2 = m.second;
cwstep(cw2);
if(inmirror(cw2)) cw2 = reflect(cw2);
cell *c2 = cw2.c;
if(c2->monst) {
c->monst = moMimic;
if(!peace::on && canAttack(c,moMimic,c2,c2->monst, 0))
attackMonster(c2, AF_MSG | AF_ORSTUN, moMimic);
c->monst = moNone;
}
if(c2->wall == waBigTree)
c2->wall = waSmallTree;
else if(c2->wall == waSmallTree)
c2->wall = waNone;
if(fwd) {
if(noMirrorOn(c2) || !passable(c2, c, P_MONSTER | P_MIRROR | P_MIRRORWALL)) {
survive = false;
continue;
}
c->monst = moMimic;
moveMonster(c2, c);
c2->monst = moNone;
empathyMove(c, c2, neighborId(c2, c));
m.second = cw2;
}
}
if(survive) {
mirrors[j++] = m;
}
}
mirrors.resize(j);
achievement_count("MIRRORKILL", tkills(), tk);
achievement_count("MIRAGE", nummirage, 0);
}
void act(int d, int flags) {
destroyKilled();
unlist();
if(multi::players == 1) multi::cpid = 0;
bool spinning =
flags & (multi::players > 1 ? SPINMULTI : SPINSINGLE);
if(spinning && d) {
for(auto& m: mirrors)
if(m.first == multi::cpid)
cwspin(m.second, d);
}
if(flags & ATTACK)
go(flags & GO);
list();
}
void breakAll() {
destroyKilled();
unlist();
if(numplayers() == 1)
createHere(cwt, 0);
else for(int i=0; i<numplayers(); i++)
createHere(multi::player[i], i);
for(int i=0; i<size(mirrors); i++)
createHere(mirrors[i].second, mirrors[i].first);
if(numplayers() == 1)
breakMirror(cwt, 0);
else for(int i=0; i<numplayers(); i++)
breakMirror(multi::player[i], i);
for(int i=0; i<size(mirrors); i++)
breakMirror(mirrors[i].second, -1);
list();
}
int mirrordir(cell *c) {
if(c->type == 7) return c->bardir;
int icount = 0, isum = 0;
for(int i=0; i<6; i+=2) {
if(createMov(c, i)->bardir == c->spin(i))
icount++, isum+=i;
}
if(icount != 1) return -1;
return isum;
}
pair<bool, cellwalker> traceback(vector<int>& v, cellwalker cw) {
bool goout = false;
for(int i=size(v)-1; i>=0; i--) {
if(v[i]) cwspin(cw, -v[i]);
else {
cwstep(cw);
if(cw.c->land == laMirrorWall || cw.c->land == laMirror) goout = true;
}
}
return make_pair(goout, cw);
}
cellwalker reflect(cellwalker cw, bool debug) {
int stepcount = 0;
cellwalker cwcopy = cw;
static vector<int> v;
v.clear();
while(true) {
if(!inmirror(cw)) break;
stepcount++; if(stepcount > 10000) {
if(debug) cw.c->wall = waBoat;
if(debug) printf("fail\n");
return cw;
}
cell *c0 = cwpeek(cw, 0);
int go = 0;
if(!inmirror(c0)) go = 2;
else if(c0->landparam && c0->landparam < cw.c->landparam) go = 1;
if(go) {
v.push_back(0);
cwstep(cw);
if(debug) queuemarkerat(gmatrix[cw.c], 0x00FF0020);
if(go == 2) break;
}
else {
v.push_back(1);
cwspin(cw, 1);
}
}
if(cw.c->land == laMirrorWall || cw.c->land == laMirrorWall2) {
if(cw.c->type == 7) {
while(cw.spin != cw.c->bardir) {
cwspin(cw, 1);
v.push_back(1);
stepcount++; if(stepcount > 10000) { printf("failhep\n"); return cw; }
}
if(purehepta && cwpeek(cw,0) == cwcopy.c)
v.pop_back();
if(purehepta && cwpeek(cw,3)->land == laMirrored && cwpeek(cw,2)->land == laMirrorWall) {
cw.mirrored = !cw.mirrored;
auto p = traceback(v, cw);
if(p.first) return p.second;
cwspin(cw, 2);
v.push_back(2);
cwstep(cw);
if(debug) queuemarkerat(gmatrix[cw.c], 0xC9C90080);
v.push_back(0);
cwspin(cw, 3);
v.push_back(3);
}
}
else {
while(cwpeek(cw,0)->type != 7) {
cwspin(cw, 1);
v.push_back(1);
}
int icount = 0;
for(int i=0; i<3; i++) {
if(cwpeek(cw, 0)->bardir == cw.c->spin(cw.spin))
icount++;
cwspin(cw, 2);
}
if(icount >= 2) {
cellwalker cwcopy = cw;
for(int a=0; a<3; a++) for(int m=0; m<2; m++) {
cellwalker cw = cwcopy;
if(m) cw.mirrored = !cw.mirrored;
cwspin(cw, a*2);
auto p = traceback(v,cw);
if(p.first) return p.second;
}
printf("icount >= 2 but failed\n");
return cw;
}
while(cwpeek(cw, 0)->bardir != cw.c->spin(cw.spin)) {
stepcount++; if(stepcount > 10000) { printf("fail2\n"); return cw; }
cwspin(cw, 2);
v.push_back(1);
v.push_back(1);
}
}
}
else v.pop_back();
cw.mirrored = !cw.mirrored;
cw = traceback(v,cw).second;
return cw;
}
#if ISMOBILE==0
void debug() {
if(!mouseover) return;
queuemarkerat(gmatrix[mouseover], 0xFF0000FF);
#if CAP_SDL
cellwalker mw(mouseover, (SDL_GetTicks()/1000) % mouseover->type, (SDL_GetTicks()/500) % 2);
#else
cellwalker mw(mouseover, 0, 0);
#endif
mw = mirror::reflect(mw, true);
queuemarkerat(gmatrix[mw.c], 0x800000FF);
}
#endif
}
namespace hive {
struct buginfo_t {
cell *where;
short dist[BUGCOLORS];
};
vector<buginfo_t> buginfo;
vector<int> bugqueue[BUGCOLORS];
vector<int> bugqueue4[BUGCOLORS];
struct bugtomove_t {
int dist, moves, index;
bugtomove_t(int d, int m, int i) { dist=d; moves=m; index=i; }
};
bool operator < (const bugtomove_t& m1, const bugtomove_t& m2) {
if(m1.dist != m2.dist) return m1.dist < m2.dist;
if(m1.moves != m2.moves) return m1.moves < m2.moves;
return false;
}
vector<bugtomove_t> bugtomove;
vector<cell*> deadbug;
vector<cell*> bugcellq;
int bugcount[BUGCOLORS];
bool isBugEnemy(cell *c, int k) {
if(isPlayerOn(c) && !invismove) return true;
if(!c->monst) return false;
if(c->monst == moBug0+k) return false;
if(isIvy(c)) return false;
return true;
}
// list bugs and targets for each color
#define BUGINF 29999
void bugQueueInsert(int k, int i, int d) {
if(buginfo[i].dist[k] > d) {
if(buginfo[i].dist[k] != BUGINF) {
printf("%d -> %d\n", buginfo[i].dist[k], d);
}
buginfo[i].dist[k] = d;
bugqueue[k].push_back(i);
}
}
void bugcell(cell *c) {
short& i(c->aitmp);
if(i >= 0 && i < size(buginfo) && buginfo[i].where == c)
return;
i = size(buginfo);
buginfo.resize(i+1);
buginfo_t& b(buginfo[i]);
b.where = c;
for(int k=0; k<BUGCOLORS; k++) {
b.dist[k] = BUGINF;
bool havebug = false, haveother = false;
for(int dir=0; dir<c->type; dir++) {
cell *c2 = c->mov[dir];
if(c2 && isBugEnemy(c2,k) && canAttack(c,eMonster(moBug0+k),c2,c2->monst, AF_TOUGH | AF_NOSHIELD | AF_GETPLAYER)) {
if(isBug(c2)) havebug = true;
else haveother = true;
}
}
if(havebug) bugQueueInsert(k, i, 0);
else if(haveother) bugqueue4[k].push_back(i);
}
/*// bugs communicate if the distance is at most 2
// also all nearby cells are inserted to the buginfo structure
if(size(buginfo) < 30000) {
for(int dir=0; dir<c->type; dir++) {
cell *c2 = c->mov[dir];
if(c2) {
// if(isBug(c)) bugcellq.push_back(c2); => does not help...
for(int t=0; t<c2->type; t++)
if(c2->mov[t] && isBug(c2->mov[t]))
bugcellq.push_back(c2),
bugcellq.push_back(c2->mov[t]);
}
}
}*/
// use pheromones!
if(c->land == laHive && c->landparam > 1 && c->wall != waWaxWall) {
c->landparam --;
for(int dir=0; dir<c->type; dir++) {
cell *c2 = c->mov[dir];
if(c2) {
for(int t=0; t<c2->type; t++)
if(c2->mov[t])
bugcellq.push_back(c2),
bugcellq.push_back(c2->mov[t]);
}
}
}
}
int last_d = -1;
void handleBugQueue(int k, int t) {
int i = bugqueue[k][t];
buginfo_t& b(buginfo[i]);
cell *c = b.where;
int d = b.dist[k];
last_d = d;
int goodmoves = 0;
for(int dir=0; dir<c->type; dir++) {
cell *c2 = c->mov[dir];
if(!c2) continue;
if(c2->aitmp < 0 || c2->aitmp >= size(buginfo)) continue;
if(!passable(c, c2, P_MONSTER)) continue;
int j = c2->aitmp;
if(buginfo[j].where != c2) continue;
if(buginfo[j].dist[k] < d) goodmoves++;
bugQueueInsert(k, j, d+1);
}
if(isBug(c) && c->monst == moBug0+k) {
bugcount[c->monst - moBug0]++;
bugtomove.push_back(bugtomove_t(d,goodmoves,i));
}
}
#include <set>
bool fightspam(cell *c) {
return c->cpdist >= 7 ||
isMetalBeast(c->monst) || c->monst == moSkeleton ||
isIvy(c->monst) || isMutantIvy(c->monst);
}
void movebugs() {
buginfo.clear();
for(int k=0; k<BUGCOLORS; k++) bugqueue[k].clear();
for(int k=0; k<BUGCOLORS; k++) bugqueue4[k].clear();
for(int k=0; k<BUGCOLORS; k++) bugcount[k] = 0;
bugtomove.clear();
deadbug.clear();
int xdcs = size(dcal); for(int i=0; i<xdcs; i++) bugcell(dcal[i]);
for(int i=0; i<size(bugcellq); i++) bugcell(bugcellq[i]);
bugcellq.clear();
// printf("buginfo = %d\n", size(buginfo));
for(int k=0; k<BUGCOLORS; k++) {
int t = 0;
last_d = -1;
int invadist = 4 - (items[itRoyalJelly]+10) / 20;
if(invadist<0) invadist = 0;
for(; t<size(bugqueue[k]) && last_d < invadist-1; t++) handleBugQueue(k, t);
for(int u=0; u<size(bugqueue4[k]); u++)
bugQueueInsert(k, bugqueue4[k][u], invadist);
bugqueue4[k].clear();
for(; t<size(bugqueue[k]); t++) handleBugQueue(k, t);
}
for(int k=0; k<BUGCOLORS; k++) {
set<int> check;
for(int t=0; t<size(bugqueue[k]); t++) {
if(check.count(bugqueue[k][t])) {
printf("REPETITION! [%d]\n", t);
}
check.insert(bugqueue[k][t]);
}
}
random_shuffle(bugtomove.begin(), bugtomove.end());
sort(bugtomove.begin(), bugtomove.end());
int battlecount = 0;
for(int t=0; t<size(bugtomove); t++) {
bugtomove_t& bm(bugtomove[t]);
int i = bm.index;
buginfo_t& b(buginfo[i]);
cell *c = b.where;
if(!isBug(c)) continue;
if(c->stuntime) continue;
eMonster m = c->monst;
int k = (m - moBug0) % BUGCOLORS;
int gmoves[8], q=0, bqual = -1;
if(againstRose(c, NULL)) bqual = -40;
for(int dir=0; dir<c->type; dir++) {
cell *c2 = c->mov[dir];
int qual = -10;
if(!c2) continue;
else if(againstRose(c, c2)) qual = -50;
else if(canAttack(c, m, c2, c2->monst, AF_GETPLAYER))
qual = c2->monst == moDeadBug ? -60: isBugEnemy(c2,k) ? 2 : -20;
else if(!passable(c2, c, 0))
qual = passable(c2, c, P_DEADLY) ? -30 : -60;
else if(c2->aitmp < 0 || c2->aitmp >= size(buginfo)) qual = -15;
else if(buginfo[c2->aitmp].where != c2) qual = -15;
else if(buginfo[c2->aitmp].dist[k] < b.dist[k])
qual = 1;
else if(buginfo[c2->aitmp].dist[k] == b.dist[k])
qual = 0;
// printf("%d->#%d %d: %d\n", i, dir, c2->tmp, qual);
if(qual > bqual) bqual = qual, q=0;
if(qual == bqual) gmoves[q++] = dir;
}
if(!q) { if(c->land == laHive) c->landparam += 3; continue; }
int d = gmoves[hrand(q)];
cell *c2 = c->mov[d];
if(c2->monst || isPlayerOn(c2)) {
eMonster killed = c2->monst;
if(isPlayerOn(c2)) killed = moPlayer;
if(isBug(killed)) battlecount++;
else if(killed != moPlayer && !fightspam(c2))
addMessage(XLAT("%The1 fights with %the2!", c->monst, killed));
attackMonster(c2, AF_ORSTUN | AF_GETPLAYER, c->monst);
// killMonster(c);
if(isBug(killed)) {
c2->monst = moDeadBug, deadbug.push_back(c2);
bugcount[killed - moBug0]--;
}
// c->monst = moDeadBug, deadbug.push_back(c);
}
else {
moveMonster(c2, c);
// pheromones!
if(c->land == laHive && c->landparam < 90) c->landparam += 5;
if(c2->land == laHive && c2->landparam < 90) c2->landparam += 5;
// if(isHive(c2->land)) c2->land = eLand(laHive0+k);
/* if(c2->item == itRoyalJelly && !isQueen(m)) {
// advance!
c2->monst = eMonster(m+BUGCOLORS);
c2->item = itNone;
} */
}
}
// cleanup
for(int i=0; i<size(deadbug); i++) deadbug[i]->monst = moNone;
if(battlecount)
addMessage(XLAT("The Hyperbugs are fighting!"));
int maxbug = 0;
for(int k=0; k<BUGCOLORS; k++) if(bugcount[k] > maxbug) maxbug = bugcount[k];
achievement_count("BUG", maxbug, 0);
}
void bugcitycell(cell *c, int d) {
short& i = c->aitmp;
if(i >= 0 && i < size(buginfo) && buginfo[i].where == c)
return;
i = size(buginfo);
buginfo_t b;
b.where = c;
b.dist[0] = d;
buginfo.push_back(b);
}
void createBugArmy(cell *c) {
int k = randomHyperbug() - moBug0;
int minbugs = 50, maxbugs = 50;
int var = 5 + items[itRoyalJelly];
if(var>25) var=25;
// minbugs += 100; maxbugs += 100;
minbugs -= var; maxbugs += var;
maxbugs += items[itRoyalJelly];
int numbugs = minbugs + hrand(maxbugs - minbugs + 1);
/* int i = items[itRoyalJelly];
int chance = 20 + 25 * i + 9000;
// i=0: 16%
// i=10: 73%
// i=50: 1270 vs 6000
eMonster m = eMonster(moBug0 + hrand(BUGCOLORS));
if(c->wall) return;
for(int i=0; i<c->type; i++) {
cell *c2 = createMov(c,i);
if(hrand(100+chance) < chance) {
if(!c2->wall) c2->monst = m;
for(int j=2; j<=c2->type-2; j++) {
int jj = (j+c->spn[i]) % c2->type;
cell *c3 = createMov(c2, jj);
if(hrand(6000+chance) < chance && !c3->wall)
c3->monst = m;
}
}
}
c->monst = eMonster(m + BUGCOLORS); */
int gdir = -1;
for(int i=0; i<c->type; i++) {
if(c->mov[i] && c->mov[i]->mpdist < c->mpdist) gdir = i;
}
if(!gdir) return;
cellwalker bf(c, gdir);
int radius = 9;
if(chaosmode) radius = 5;
for(int i=2; i<radius; i++) {
if(bf.c->type == 6)
cwspin(bf, 3);
else
cwspin(bf, 3 + hrand(2));
cwstep(bf);
}
cell *citycenter = bf.c;
buginfo.clear();
// mark the area with BFS
bugcitycell(citycenter, 0);
for(int i=0; i<size(buginfo); i++) {
buginfo_t& b(buginfo[i]);
cell *c = b.where;
int d = b.dist[0];
// ERRORS!
if(c->land != laHive && c->land != laNone) return;
if(c->bardir != NODIR) return;
if(c->land == laHive && c->landparam >= 100) return;
// bfs
if(d < radius) for(int t=0; t<c->type; t++)
bugcitycell(createMov(c,t), d+1);
}
// place everything
for(int i=0; i<size(buginfo); i++) {
buginfo_t& b(buginfo[i]);
cell *c = b.where;
int d = b.dist[0];
if(d <= 1 && c->wall == waNone)
c->item = itRoyalJelly;
preventbarriers(c);
if(d == 9 || d == 6 || d == 3)
c->barleft = eLand(d/3),
c->barright = eLand(k);
else
c->barleft = laNone;
if(numbugs && c->wall == waNone)
c->monst = eMonster(moBug0 + k), numbugs--;
c->land = laHive;
// prevent barriers
if(c->mpdist == INFD) c->mpdist = BUGLEV;
}
}
}
inline float& HEAT(cell *c) { return c->LHU.heat; }
namespace heat {
vector<cell*> vinefires;
vector<pair<cell*, int> > rosefires;
double absheat(cell *c) {
if(c->land == laCocytus) return HEAT(c) -.6;
if(c->land == laIce) return HEAT(c) -.4;
return 0;
}
double celsius(cell *c) { return absheat(c) * 60; }
// adjust to the improved heat transfer algorithm in 9.4
const float FIX94 = 1.5;
void processheat(double rate = 1, bool tick = true) {
if(markOrb(itOrbSpeed)) rate /= 2;
int oldmelt = kills[0];
vector<cell*> offscreen2;
for(int i=0; i<size(offscreen); i++) {
cell *c = offscreen[i];
if(c->cpdist > 7) {
bool readd = false;
if(isIcyLand(c)) {
if(HEAT(c) < .01 && HEAT(c) > -.01)
HEAT(c) = 0;
else {
HEAT(c) *= 1 - rate/10;
readd = true;
}
}
if(hasTimeout(c)) {
useup(c);
if(hasTimeout(c)) readd = true;
}
if(readd) offscreen2.push_back(c);
}
}
offscreen.clear(); swap(offscreen, offscreen2);
/* if(cwt.c->heat > .5) cwt.c->heat += .3;
if(cwt.c->heat > 1.) cwt.c->heat += .3;
if(cwt.c->heat > 1.4) cwt.c->heat += .5; */
for(int i=0; i<numplayers(); i++) {
cell *c = playerpos(i);
if(!c) continue;
double xrate = (c->land == laCocytus && shmup::on) ? rate/3 : rate;
if(purehepta) xrate *= 1.7;
if(!shmup::on) xrate /= FIX94;
if(isIcyLand(c))
HEAT(c) += (markOrb(itOrbWinter) ? -1.2 : 1.2) * xrate;
}
vinefires.clear();
rosefires.clear();
vector<cell*>& allcells = currentmap->allcells();
int dcs = size(allcells);
vector<ld> hmods(dcs, 0);
for(int i=0; i<dcs; i++) {
bool readd = false;
cell *c = allcells[i];
double xrate = (c->land == laCocytus && shmup::on) ? 1/3. : 1;
if(purehepta) xrate *= 1.7;
if(!shmup::on) xrate /= FIX94;
if(c->cpdist > 7 && !doall) break;
if(hasTimeout(c)) {
if(tick) useup(c);
readd = true;
}
if(isFire(c) && tick) {
if(c->wall != waPartialFire) for(int i=0; i<c->type; i++) {
cell *c2 = c->mov[i];
if(!c2) continue;
if(c2->wall == waNone && c2->land == laRose && c->wparam >= 10)
rosefires.push_back(make_pair(c2, c->wparam));
if(c2->wall == waFire && c2->land == laRose && c->wparam >= 10 && c2->wparam < c->wparam/2)
rosefires.push_back(make_pair(c2, c->wparam));
if(againstWind(c, c2) && c->wall != waEternalFire && c->wparam >= 10) {
if(isFire(c2)) {
if(c2->wparam < c->wparam/2) {
rosefires.push_back(make_pair(c2, c->wparam));
}
}
else {
rosefires.push_back(make_pair(c2, c->wparam));
useup(c);
}
}
if(c2->wall == waVinePlant)
vinefires.push_back(c2);
if(c2->wall == waRose)
vinefires.push_back(c2);
if(c2->wall == waSaloon)
vinefires.push_back(c2);
if(c2->wall == waSmallTree && c2->land != laDryForest)
vinefires.push_back(c2);
if((c2->wall == waWeakBranch || c2->wall == waCanopy || c2->wall == waTrunk || c2->wall == waSolidBranch ||
c2->wall == waBigBush || c2->wall == waSmallBush))
vinefires.push_back(c2);
if(c2->wall == waBonfireOff) activateActiv(c2, false);
// both halfvines have to be near fire at once
if(cellHalfvine(c2) && c->mov[(i+1)%c->type]->wall == c2->wall)
vinefires.push_back(c2);
}
// two semifires are required to spread
if(c->wall == waPartialFire) for(int i=0; i<c->type; i++) {
cell *c2 = c->mov[i];
if(c2 && (c2->wall == waVinePlant)) {
for(int j=0; j<c2->type; j++) if(c2->mov[j] && c2->mov[j]->wall == waPartialFire &&
c2->mov[j] != c)
vinefires.push_back(c2);
}
}
}
if(isIcyLand(c)) {
ld hmod = 0;
if(c->monst == moRanger) hmod += 3 * xrate;
if(c->monst == moDesertman) hmod += 4 * xrate;
if(c->monst == moMonkey) hmod += xrate;
if(c->wall == waDeadTroll) hmod -= 2 * xrate;
if(c->wall == waDeadTroll2) hmod -= 1.5 * xrate;
if(c->wall == waBigStatue) hmod -= .5 * xrate;
if(c->monst == moLesser || c->monst == moLesserM || c->monst == moGreater || c->monst == moGreaterM)
hmod += (c->land == laCocytus ? 1.5 : 10) * xrate;
if(c->monst == moGreaterShark)
hmod += 2 * xrate;
if(c->monst == moCultist) hmod += 3 * xrate;
if(c->monst == moCultistLeader) hmod += 4 * xrate;
if(c->monst == moPyroCultist) hmod += 6 * xrate;
if(c->monst == moFireFairy) hmod += 6 * xrate;
if(c->monst == moFireElemental) hmod += 8 * xrate;
if(isDragon(c->monst)) hmod += 2 * xrate;
if(c->monst == moGhost) hmod -= xrate;
if(c->monst == moFriendlyGhost) hmod -= xrate;
if(c->monst == moSkeleton) hmod -= .2 * xrate;
if(c->monst == moDraugr) hmod -= .75 * xrate;
if(c->monst == moWaterElemental) hmod -= xrate;
if(c->monst == moAirElemental) hmod -= .4 * xrate;
if(isFire(c)) hmod += 4 * xrate;
if(isPrincess(c->monst)) hmod += (markEmpathy(itOrbWinter) ? -1.2 : 1.2) * xrate;
forCellEx(ct, c) if(!isIcyLand(ct) && isFire(ct))
hmod += xrate*.1;
for(int j=0; j<c->type; j++) if(c->mov[j]) {
if(!isIcyLand(c->mov[j])) {
// make sure that we can still enter Cocytus,
// it won't heat up right away even without Orb of Winter or Orb of Speed
if(isPlayerOn(c->mov[j]) && (c->land == laIce || markOrb(itOrbWinter)))
hmod += (markOrb(itOrbWinter) ? -1.2 : 1.2) / 4 * xrate;
continue;
}
ld hdiff = absheat(c->mov[j]) - absheat(c);
hdiff /= 10;
if(shmup::on && (c->land == laCocytus || c->mov[j]->land == laCocytus))
hdiff /= 3;
// if(c->mov[j]->cpdist > 7 && !quotient) hdiff += -HEAT(c) / 30;
hmod += hdiff;
}
hmods[i] = hmod;
}
if((readd || HEAT(c)) && !doall)
offscreen.push_back(c);
}
#define MELTCOLOR 0xA04040
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(!isIcyLand(c)) continue;
HEAT(c) += hmods[i] * rate;
if(c->monst == moCrystalSage && HEAT(c) >= SAGEMELT) {
addMessage(XLAT("%The1 melts away!", c->monst));
fallMonster(c);
}
if(c->wall == waIcewall && HEAT(c) > .4)
drawParticles(c, MELTCOLOR, 4, 60),
c->wall = waNone, kills[0]++;
if(c->wall == waFrozenLake && HEAT(c) > (c->land == laCocytus ? .6 : .4))
drawParticles(c, MELTCOLOR, 4, 60),
playSound(c, "trapdoor", 50),
c->wall = waLake, kills[0]++;
if(c->wall == waLake && HEAT(c) < (c->land == laCocytus ? -.4 : .4) && c->monst != moGreaterShark) {
c->wall = waFrozenLake;
if(c->monst == moShark || c->monst == moCShark) {
addMessage(XLAT("%The1 is frozen!", c->monst));
fallMonster(c);
}
}
}
if(tick) for(int i=0; i<size(vinefires); i++) {
cell* c = vinefires[i];
if(c->wall == waNone && c->land == laRose)
makeflame(c, 6, false);
else if(c->wall == waVinePlant || c->wall == waSmallTree || c->wall == waSaloon || c->wall == waRose)
makeflame(c, 6, false);
else if(c->wall == waSolidBranch || c->wall == waTrunk || c->wall == waWeakBranch || c->wall == waCanopy)
makeflame(c, 6, false);
else if(c->wall == waBigBush || c->wall == waSmallBush)
makeflame(c, 6, false);
else if(cellHalfvine(c)) destroyHalfvine(c, waPartialFire, 6);
}
if(tick) for(int i=0; i<size(rosefires); i++) {
cell* c = rosefires[i].first;
int qty = rosefires[i].second;
qty /= 2;
// if(c->wall == waNone && c->land == laRose)
makeflame(c, qty, false);
if(c->wparam < qty) c->wparam = qty;
}
if(kills[0] != oldmelt) bfs();
}
void dryforest() {
vector<cell*>& allcells = currentmap->allcells();
int dcs = size(allcells);
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(!doall && c->cpdist > 8) break;
if(c->land != laDryForest) continue;
forCellEx(c2, c) {
if(isFire(c2)) {
if(!againstWind(c, c2)) c->landparam++;
if(againstWind(c2, c)) c->landparam++;
}
}
}
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(c->land != laDryForest) continue;
if(c->landparam >= 10) makeflame(c, 10, false), c->landparam = 0;
}
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(!doall && c->cpdist > 8) break;
if(c->land != laDryForest) continue;
if((c->wall == waBigTree || c->wall == waSmallTree || isFire(c)) && c->landparam >= 1)
c->wall = waEternalFire;
}
}
}
bool gardener = false;
bool lifebrought = false; // was Life brought to the Dead Caves?
void livecaves() {
vector<cell*>& allcells = currentmap->allcells();
int dcs = size(allcells);
vector<cell*> bringlife;
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(!doall && c->cpdist > 8) break;
if(c->wall == waCavefloor || c->wall == waCavewall || c->wall == waDeadTroll) {
c->aitmp = 0;
if(c->monst == moDarkTroll) c->monst = moTroll;
if(c->item || c->monst || c->cpdist == 0) continue;
for(int j=0; j<c->type; j++) if(c->mov[j]) {
if(c->mov[j]->wall == waDeadfloor) c->aitmp++, bringlife.push_back(c->mov[j]);
else if(c->mov[j]->wall == waDeadwall || (c->mov[j]->wall == waDeadfloor2 && !c->mov[j]->monst))
c->aitmp--, bringlife.push_back(c->mov[j]);
else if(c->mov[j]->wall == waCavefloor) c->aitmp++;
else if(c->mov[j]->wall == waCavewall) c->aitmp--;
else if(c->mov[j]->wall == waRubble) c->aitmp--;
else if(c->mov[j]->wall == waGargoyle) c->aitmp--;
else if(c->mov[j]->wall == waGargoyleFloor) c->aitmp--;
else if(c->mov[j]->wall == waGargoyleBridge) c->aitmp--;
else if(c->mov[j]->wall == waDeadTroll) c->aitmp -= 5;
else if(c->mov[j]->wall == waDeadTroll2) c->aitmp -= 3;
else if(c->mov[j]->wall == waPetrified) c->aitmp -= 2;
else if(c->mov[j]->wall == waVinePlant) c->aitmp--;
else if(chaosmode && c->mov[j]->land != laCaves && c->mov[j]->land != laEmerald) ;
else if(c->mov[j]->land == laTrollheim) ; // trollheim floor does not count
else if(c->mov[j]->wall != waBarrier) c->aitmp += 5;
if(sword::at(c)) c->aitmp += 500;
if(c->mov[j]->cpdist == 0 && markOrb(itOrbDigging)) c->aitmp+=100;
if(items[itOrbEmpathy] && isFriendly(c->mov[j]) && markEmpathy(itOrbDigging))
c->aitmp+=100;
if(c->mov[j]->wall == waThumperOn) c->aitmp+=100;
if(c->mov[j]->wall == waFire) c->aitmp+=100;
if(c->mov[j]->wall == waBigStatue) c->aitmp-=100;
if(c->mov[j]->item && !peace::on) c->aitmp+=2;
if(c->mov[j]->monst == moZombie) c->aitmp += 10;
if(c->mov[j]->monst == moGhost) c->aitmp += 10;
if(c->mov[j]->monst == moTentacleGhost) c->aitmp += 10;
if(c->mov[j]->monst == moFriendlyGhost) c->aitmp += 10;
if(c->mov[j]->monst == moSkeleton) c->aitmp ++;
if(c->mov[j]->monst == moGargoyle) c->aitmp--;
if(c->mov[j]->monst == moDraugr) c->aitmp--;
if(isDragon(c->mov[j]->monst)) c->aitmp++;
if(c->mov[j]->monst == moNecromancer) c->aitmp += 10;
if(c->mov[j]->monst == moWormtail) c->aitmp++;
if(c->mov[j]->monst == moTentacletail) c->aitmp-=2;
if(isIvy(c->mov[j])) c->aitmp--;
if(isDemon(c->mov[j])) c->aitmp-=3;
// if(c->mov[j]->monst) c->tmp++;
// if(c->mov[j]->monst == moTroll) c->tmp -= 3;
}
}
else if(c->land == laLivefjord) {
c->aitmp = 0;
if(c->monst == moWaterElemental)
c->aitmp += 1000;
if(isPlayerInBoatOn(c) && markOrb(itOrbWater))
c->aitmp += 1000;
if(c->monst == moEarthElemental)
c->aitmp -= 1000;
if(isPlayerOn(c) && markOrb(itOrbDigging))
c->aitmp -= 1000;
for(int j=0; j<c->type; j++) if(c->mov[j]) {
cell *c2 = c->mov[j];
if(c2->wall == waNone || c2->wall == waStrandedBoat)
c->aitmp -= (c2->land == laLivefjord ? 1 : 100);
if(c2->wall == waTempFloor || c2->wall == waTempBridge)
;
else if(c2->wall == waDeadTroll || c2->wall == waDeadTroll2 || c2->wall == waThumperOn || isFire(c2) || snakelevel(c2))
c->aitmp -= 10;
else if(c2->wall == waPetrified)
c->aitmp -= 10;
if(c2->wall == waBigStatue)
c->aitmp -= 10;
if(c2->wall == waSea || c2->wall == waBoat)
c->aitmp += (c2->land == laLivefjord ? 1 : 100);
if(c2->monst == moWaterElemental)
c->aitmp += 1000;
if(isPlayerOn(c2) && c2->wall == waBoat && markOrb(itOrbWater))
c->aitmp += 1000;
if(c2->monst == moEarthElemental)
c->aitmp -= 1000;
if(isPlayerOn(c2) && markOrb(itOrbDigging))
c->aitmp -= 1000;
if(items[itOrbEmpathy] && isFriendly(c2) && markEmpathy(itOrbDigging))
c->aitmp -= 1000;
if(c2->wall == waBarrier) {
bool landbar = false;
for(int k=0; k<c2->type; k++)
if(c2->mov[k]) {
cell *c3 = c2->mov[k];
if(!isSealand(c3->land))
landbar = true;
}
if(landbar) c->aitmp -= 5;
else c->aitmp += 5;
}
}
}
}
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(!doall && c->cpdist > 8) break;
if(c->wall == waCavefloor || c->wall == waCavewall) {
// if(c->land != laCaves) continue;
// if(c->wall == waThumper || c->wall == waBonfire) continue;
if(c->aitmp > 0) c->wall = waCavefloor;
if(c->aitmp < 0) {
c->wall = waCavewall;
if(c->land != laCaves && c->land != laDeadCaves && c->land != laEmerald && !gardener) {
gardener = true;
achievement_gain("GARDENER");
}
}
}
else if(c->land == laLivefjord) {
if(c->aitmp > 0 && c->wall == waStrandedBoat) c->wall = waBoat;
if(c->aitmp > 0 && c->wall == waNone) {
if(c->item && c->cpdist == 1 && markOrb(itOrbWater))
collectItem(c);
c->wall = waSea;
}
if(c->aitmp < 0 && c->wall == waBoat) c->wall = waStrandedBoat;
if(c->aitmp < 0 && c->wall == waSea) c->wall = waNone;
}
}
for(int i=0; i<size(bringlife); i++) {
cell *c = bringlife[i];
if(c->land == laDeadCaves && !lifebrought) {
lifebrought = true;
achievement_gain("LIFEBRINGER");
}
if(c->wall == waDeadfloor) c->wall = waCavefloor;
if(c->wall == waDeadfloor2) c->wall = waCavewall;
if(c->wall == waDeadwall) c->wall = waCavewall;
if(c->wall == waCavewall && c->item) c->wall = waCavefloor;
if(c->land == laDeadCaves) c->land = laCaves;
if(c->item == itSilver) c->item = itGold;
if(c->item == itGreenStone) c->item = itOrbLife;
if(c->monst == moEarthElemental) {
addMessage(XLAT("%The1 is destroyed by the forces of Life!", c->monst));
fallMonster(c);
c->item = itOrbDigging;
}
}
}
/* evolver */
namespace tortoise {
map<cell*, cell*> emap;
map<cell*, int> babymap;
int last;
enum tflag {
tfShell, tfScute0, tfScute1, tfScute2, tfScute3,
tfEdge1, tfEdge, tfEdge3,
tfLongNeck, tfFront, tfRear, tfTail,
tfEyeHue, tfShellHue, tfScuteHue, tfSkinHue,
tfShellSat, tfScuteSat, tfSkinSat,
tfShellDark, tfSkinDark,
tfCOUNT
};
const int numbits = (int) tfCOUNT;
const int mask = (1<<numbits)-1;
cell *get(cell *where) {
if(emap.count(where)) return emap[where];
return where;
}
int getb(cell *where) { return getBits(get(where)); }
int countBits(int c) {
int bi = 0;
for(int i=0; i<numbits; i++) if((c >> i)&1) bi++;
return bi;
}
int getBit(int bits, int id) { return (bits >> id) & 1; }
int getRandomBits() { return hrand(1 << numbits); }
bool seek() { return items[itBabyTortoise] % 5; }
int seekbits;
double seekval[numbits];
double currval[numbits];
void update(double& val, double target, int delta) {
double d = delta / 300.;
if(d>1) d = 1;
if(target>val+d) val += d;
else if(target<val-d) val -= d;
else val = target;
}
void updateVals(int delta) {
int currbits = getBits(cwt.c);
for(int i=0; i<numbits; i++)
update(seekval[i], seek() && !(peace::on && !peace::hint) ? getBit(seekbits, i) : .5, delta);
for(int i=0; i<numbits; i++)
update(currval[i], getBit(currbits, i), delta);
}
double getScent(int bits) {
double res = 0;
for(int i=0; i<numbits; i++)
/* if(getBit(bits, i) != getBit(getBits(cwt.c), i))
res += (1 - 2*getBit(bits, i)); */
res += (2* seekval[i] - 1) * (getBit(bits, i) - currval[i]);
// seek curr bit => res
// 1 1 1 => 0
// 1 1 0 => -1
// 1 0 1 => +1
// 1 0 0 => 0
// 0 1 1 => 0
// 0 1 0 => +1
// 0 0 1 => -1
// 0 0 0 => 0
return res;
}
int diff(int bits) { return countBits(bits ^ tortoise::seekbits); }
int progress(int bits) { return numbits - diff(bits); }
string measure(int bits) {
return "(" + its(progress(bits)) + "/" + its(tortoise::numbits) + ")";
}
}
namespace dragon {
int whichturn; // which turn has the target been set on
cell *target; // actually for all Orb of Control
void pullback(cell *c) {
int maxlen = 1000;
while(maxlen-->0) {
cell *c2 = c->mov[c->mondir];
mountmove(c, c->mondir, true, c2);
c->monst = c2->monst;
c->hitpoints = c2->hitpoints;
animateMovement(c2, c, LAYER_BIG);
c->stuntime = 2;
if(c2->mondir == NODIR) { c->mondir = NODIR; c2->monst = moNone; return; }
c = c2;
}
}
bool dragbugs = false;
cell *findhead(cell *c) {
cell *cor = c;
int maxlen=1000;
findhead:
if(maxlen--<0) return c;
if(c->monst == moDragonHead) return c;
for(int i=0; i<c->type; i++)
if(c->mov[i] && isDragon(c->mov[i]->monst) && c->mov[i]->mondir == c->spn(i)) {
c = c->mov[i]; goto findhead;
}
if(!conformal::includeHistory) {
printf("dragon bug #3 (%p -> %p)\n", cor, c);
dragbugs = true;
}
c->monst = moDragonHead; return c;
}
void validate(const char *where) {
dragbugs = false;
for(int i=0; i<size(dcal); i++)
if(dcal[i]->monst == moDragonTail)
findhead(dcal[i]);
if(dragbugs) {
printf("DRAGON BUG in %s\n", where);
exit(1);
}
}
int bodypart(cell *c, cell *head) {
int i = 0, j = 0;
int maxlen = 1000;
while(maxlen-->0) {
if(head == c) i = j;
j++;
if(head->mondir == NODIR) break;
head = head->mov[head->mondir];
}
if(i == 0) return 'h';
if(i == 1) return 'l';
if(i == j-2) return '2';
if(i == j-1) return 't';
if(i == 2) return 'w';
return 0;
}
void kill(cell *c, eMonster who) {
int delay = false;
kills[moDragonHead]++;
int penalty = 0;
int maxlen = 1000;
while(maxlen-->0) {
makeflame(c, 5, false);
eMonster m = c->monst;
drawFireParticles(c, 16);
c->monst = moNone;
if(checkOrb(who, itOrbUndeath))
c->monst = moFriendlyGhost;
if(checkOrb(who, itOrbStone))
c->wparam = m, c->wall = waPetrified;
else if(c->wall == waFire) {
if(delay) delay = false;
else {
if(c->land != laDragon) penalty += 3;
if(penalty) penalty--;
else {
c->item = itDragon;
c->landparam = shmup::on ? shmup::curtime : turncount;
delay = true;
}
}
}
if(c->mondir == NODIR) break;
c = c->mov[c->mondir];
}
}
int totalhp(cell *c) {
int total = 0;
int maxlen = 1000;
while(maxlen-->0) {
if(!isDragon(c->monst)) {
if(!conformal::includeHistory) printf("dragon bug #4\n");
return total;
}
total += c->hitpoints;
if(c->mondir == NODIR) return total;
c = c->mov[c->mondir];
}
return total;
}
#define SWAPBITFIELD(x,y,t) { t bak=x; x=y; y=bak; }
void pullfront(cell *c, cell *until) {
int maxlen = 1000;
static vector<cell*> allcells;
allcells.clear();
while(maxlen-->0) {
allcells.push_back(c);
// SWAPBITFIELD(c->monst, buffer->monst, eMonster);
// SWAPBITFIELD(c->hitpoints, buffer->hitpoints, int);
c->stuntime = 2;
if(c == until) {
for(int i=size(allcells)-2; i>=0; i--) {
cell *cmt = allcells[i+1];
cell *cft = allcells[i];
cmt->hitpoints = cft->hitpoints;
cmt->monst = cft->monst;
cft->monst = moNone;
mountmove(cmt, cmt->mondir, true, cft);
animateMovement(cft, cmt, LAYER_BIG);
}
while(c->mondir != NODIR) {
c = c->mov[c->mondir];
c->stuntime = 2;
}
break;
}
if(c->mondir == NODIR) { printf("dragon bug\n"); break; }
c = c->mov[c->mondir];
if(!c) {
if(!conformal::includeHistory) printf("dragon bug #2\n");
break;
}
}
}
bool move(cell *dt, cell *df) {
if(df->monst == moDragonHead) {
dt->mondir = neighborId(dt,df);
// printf("pull back\n");
pullback(dt);
dt->stuntime = 2;
return true;
}
if(df->monst == moDragonTail && df->stuntime == 0) {
cell *head = findhead(df);
if(df->mondir == NODIR) {
df->mondir = neighborId(df,dt);
dt->mondir = NODIR;
// printf("pull all: head = %p, df=%p, dt=%p\n", head, df, dt);
pullfront(head, dt);
}
else {
cell *c2 = df->mov[df->mondir];
if(!c2) return false;
int id = neighborId(dt, c2);
if(id == -1) return false;
dt->mondir = id;
df->mondir = neighborId(df, dt);
// printf("pull front: head = %p, df=%p, dt=%p\n", head, df, dt);
pullfront(head, dt);
}
return true;
}
return false;
}
}
namespace sword {
int angle[MAXPLAYER];
cell *pos(cell *c, int s) {
int t = c->type;
s *= 2;
s += S42/t;
s %= S84;
if(s<0) s += S84;
s /= (S84/t);
return c->mov[s];
}
eItem orbof(bool rev) { return rev ? itOrbSword2 : itOrbSword; }
int orbcount(bool rev) { return items[orbof(rev)]; }
cell *pos(int id, bool rev) {
if(!orbcount(rev)) return NULL;
return pos(playerpos(id), angle[id] + (rev ? S21 : 0));
}
bool at(cell *where, bool noplayer) {
if(noplayer) return false;
if(!orbcount(0) && !orbcount(1)) return false;
for(int i=0; i<numplayers(); i++) if(multi::playerActive(i)) for(int b=0; b<2; b++)
if(pos(i,b) == where) return true;
return false;
}
bool near(cell *where) {
if(at(where, false)) return true;
forCellEx(w2, where) if(at(w2, false)) return true;
return false;
}
// from c1 to c2
int shift(cell *c1, cell *c2, int angle) {
if(!c1 || !c2) return 0;
int s1 = neighborId(c1, c2);
int s2 = neighborId(c2, c1);
if(s1 < 0 || s2 < 0) return angle;
if(c1->mirror(s1))
return ((s2*S42/c2->type - angle + s1*S42/c1->type) + S21) % S42;
else
return ((s2*S42/c2->type - s1*S42/c1->type) + S21 + angle) % S42;
}
void shuffle() {
for(int i=0; i<MAXPLAYER; i++)
sword::angle[i] = euclid ? S7*hrand(6) : purehepta ? 3*hrand(S14)+1 : hrand(S42);
}
};
namespace kraken {
cell *head(cell *c) {
if(c->monst == moKrakenH) return c;
if(c->monst == moKrakenT) return c->mov[c->mondir];
return NULL;
}
void kill(cell *c, eMonster who) {
drawParticles(c, minf[moKrakenH].color, 16);
c->monst = moNone;
if(checkOrb(who, itOrbUndeath)) c->monst = moFriendlyGhost;
if(c->land == laKraken && !c->item) c->item = itKraken;
kills[moKrakenH]++;
if(checkOrb(who, itOrbStone)) c->wall = waNone;
for(int i=0; i<c->type; i++)
if(c->mov[i]->monst == moKrakenT) {
drawParticles(c, minf[moKrakenT].color, 16);
c->mov[i]->monst = moNone;
if(checkOrb(who, itOrbStone)) {
if(isWatery(c->mov[i]))
c->mov[i]->wall = waNone;
else
c->mov[i]->wall = waPetrified, c->mov[i]->wparam = moKrakenT;
}
}
}
int totalhp(cell *c) {
int total = 0;
for(int i=0; i<c->type; i++)
if(c->mov[i]->monst == moKrakenT)
total += c->mov[i]->hitpoints;
return total;
}
void trymove(cell *c);
void sleep(cell *c) {
if(c->monst == moKrakenT) c = c->mov[c->mondir];
c->stuntime = 1;
forCellEx(c2, c) c2->stuntime = 1;
}
void attacks() {
bool offboat[MAXPLAYER];
for(int i=0; i<MAXPLAYER; i++) offboat[i] = false;
for(int i=0; i<size(dcal); i++) {
cell *c = dcal[i];
if(c->monst == moKrakenT && !c->stuntime) forCellEx(c2, c) {
bool dboat = false;
if(c2->monst && canAttack(c, moKrakenT, c2, c2->monst, AF_ONLY_FBUG)) {
attackMonster(c2, AF_ORSTUN | AF_MSG, c->monst);
sleep(c);
}
else for(int i=0; i<numplayers(); i++) if(playerpos(i) == c2) {
if(isPlayerInBoatOn(c2, i)) {
addMessage(XLAT("%The1 destroys your boat!", moKrakenH));
dboat = true;
offboat[i] = true;
}
else if(offboat[i]) ;
else killThePlayer(moKrakenH, i, 0);
sleep(c);
}
if(dboat) destroyBoats(c2, c, true);
}
}
for(int i=0; i<size(dcal); i++) {
cell *c = dcal[i];
if(c->monst == moKrakenH && !c->stuntime && !isWateryOrBoat(c)) {
int qdir = 0;
cell *ctab[7];
forCellEx(c2, c) if(isWatery(c2)) ctab[qdir++] = c2;
random_shuffle(ctab, ctab+qdir);
while(qdir--) trymove(ctab[qdir]);
}
}
}
// c is the tentacle which will be the head after the move
void trymove(cell *c) {
if(pseudohept(c)) return;
cell *c2 = c->mov[c->mondir];
if(!isWatery(c)) return;
if(againstCurrent(c, c2)) return;
forCellIdEx(c3, i, c) {
if(c3->monst && c3 != c2 && !(c3->mondir >= 0 && c3->mondir < c3->type &&
c3->mov[c3->mondir] == c2))
return;
if(isPlayerOn(c3)) return;
if(sword::at(c3)) return;
if(!passable(c3, c, P_FISH | P_MONSTER)) return;
}
if(c2->stuntime) return;
int hpcount[10];
forCellIdEx(c3, i, c2) {
hpcount[i] = c3->hitpoints;
c3->monst = moNone;
}
c->monst = moKrakenH;
vector<pair<cell*, cell*> > acells;
acells.push_back(make_pair(c2, c));
forCellIdEx(c3, i, c) {
c3->monst = moKrakenT, c3->mondir = c->spn(i),
c3->aitmp = sval;
int i0 = (i+c->spn(c->mondir)-c->mondir+99) % c2->type;
c3->hitpoints = hpcount[i0];
acells.push_back(make_pair(c2->mov[i0], c3));
if(c3->wall == waBoat) {
addMessage(XLAT("%The1 destroys %the2!", moKrakenH, waBoat));
c3->wall = waSea;
}
if(c3->wall == waStrandedBoat) {
addMessage(XLAT("%The1 destroys %the2!", moKrakenH, waBoat));
c3->wall = waNone;
}
}
while(size(acells)) {
// bool found = false;
for(int i=0; i<size(acells); i++) {
/* bool noconflict = true;
for(int j=0; j<size(acells); j++)
if(acells[i].second == acells[j].first)
noconflict = false; */
/* if(noconflict) */ {
// found = true;
indAnimateMovement(acells[i].first, acells[i].second, LAYER_BIG);
acells[i] = acells[size(acells)-1];
acells.resize(size(acells)-1);
i--;
}
}
}
commitAnimations(LAYER_BIG);
sleep(c);
c->aitmp = sval;
return;
}
}
bool barrierhept(cell *c) {
return c->bardir != NOBARRIERS && c->bardir != NODIR;
}
namespace prairie {
using namespace fieldpattern;
int getfval(cell *c3) {
if(barrierhept(c3)) return btspin(fieldval(c3).first, c3->bardir)+1;
return 0;
}
void spread(cell *c, cell *from) {
int rd;
c->LHU.fi.flowerdist = 8;
c->LHU.fi.walldist = 8;
c->LHU.fi.walldist2 = 8;
if(torus) {
c->LHU.fi.rval = 0;
}
else if(euclid) {
eucoord x, y;
decodeMaster(c->master, x, y);
c->LHU.fi.rval = (y&15);
}
else if(sphere) {
c->LHU.fi.rval = celldistance(c, cwt.c) + 8 - (purehepta ? 2 : 3);
}
else {
if(!from) {
for(int i=0; i<size(fp43.matrices); i++)
if(fp43.distflower[i] == 0)
c->fval = fp43.inverses[i]+1;
}
else if(from && from->land == laPrairie && from->fval)
c->fval = from->fval;
else {
forCellEx(c2, c) if(c2->land == laPrairie && c2->fval)
c->fval = c2->fval;
if(!c->fval) forCellEx(c2, c) if(!c->fval) c->fval = getfval(c2);
if(!c->fval) forCellEx(c2, c) forCellEx(c3, c2) if(!c->fval) c->fval = getfval(c3);
if(!c->fval) {
int barclose = 0;
forCellEx(c2, c) if(barrierhept(c2)) barclose++;
forCellEx(c2, c) forCellEx(c3, c2)
if(barrierhept(c3)) barclose++;
printf("c = %p bc = %d\n", c, barclose);
raiseBuggyGeneration(c, "could not set river fval");
}
}
pair<int,bool> fv = fieldpattern::fieldval(c);
fv = fp43.gmul(fv, fp43.inverses[c->fval-1]);
rd = fp43.getdist(fv, fp43.distriver);
int rl = fp43.getdist(fv, fp43.distriverleft);
int rr = fp43.getdist(fv, fp43.distriverright);
c->LHU.fi.flowerdist = fp43.getdist(fv, fp43.distflower);
c->LHU.fi.walldist = fp43.getdist(fv, fp43.distwall);
c->LHU.fi.walldist2 = fp43.getdist(fv, fp43.distwall2);
c->LHU.fi.rval = 0;
if(rd <= 7 && rl < rr)
c->LHU.fi.rval = 8 + rd;
if(rd <= 7 && rl > rr)
c->LHU.fi.rval = 7 - rd;
}
if(c->LHU.fi.flowerdist == 0 && c->type != 6) c->item = itOrbSafety;
if(c->LHU.fi.walldist == 0) c->wall = waBarrier;
if(0) if(c->type == 7) for(int i=0; i<7; i++) {
eItem m = fp43.markers[fieldpattern::btspin(c->master->fieldval,i)];
if(m) {
if(c->item) c->item = itBuggy2;
else c->item = m, c->mondir = i;
if(c->wall == waSea) c->wall = waBoat;
}
}
}
#define RLOW (sphere?(purehepta?7:6):purehepta?4:2)
#define RHIGH (sphere?(purehepta?8:9):purehepta?11:13)
bool isriver(cell *c) {
return c->land == laPrairie && c->LHU.fi.rval <= RHIGH && c->LHU.fi.rval >= RLOW;
}
bool mainriver(cell *c) {
return c->LHU.fi.rval <= 8 && c->LHU.fi.rval >= 7;
}
bool nearriver(cell *c) {
return c->LHU.fi.rval == RHIGH+1 || c->LHU.fi.rval == RLOW-1;
}
cell *enter;
bool opposite(cell *c) {
return (c->LHU.fi.rval ^ enter->LHU.fi.rval) & 8;
}
bool isleft(cell *c) {
return c->LHU.fi.rval & 8;
}
int towerleft(cell *c) {
return c->LHU.fi.rval;
}
int towerright(cell *c) {
return 15^c->LHU.fi.rval;
}
cell *next(cell *c, int pv=1) {
for(int i=0; i<c->type; i++) {
cell *c1 = createMov(c, i);
cell *c2 = createMov(c, (i+pv+c->type)%c->type);
if(c1 && c1->LHU.fi.rval == c->LHU.fi.rval)
if(c2 && c2->LHU.fi.rval == c->LHU.fi.rval+1)
if(isNeighbor(c1,c2))
return c1;
}
return NULL;
}
cell *prev(cell *c) { return next(c, -1); }
int beastdist(cell *c, int dir) {
cell *cx = c; int n=0;
while(true) {
if(cx->monst == moHerdBull) return n;
cx = next(cx, dir);
n++;
if(!cx || n >= 1000) return 1000;
}
}
vector<cell*> beaststogen;
void generateBeast(cell *c) {
int beastdistance = min(beastdist(c, 1), beastdist(c, -1));
if(hrand(1000) >= 15 * beastdistance + 2 * items[itGreenGrass]) return;
c->monst = moHerdBull;
cell *c2 = prev(c);
if(c2) c->mondir = neighborId(c, c2);
}
void moveAt(cell *c) {
if(eq(c->aitmp, sval)) return;
vector<cell*> whirlline;
whirlline.push_back(c);
c->aitmp = sval;
cell *c2 = prev(c);
while(c2 && !eq(c2->aitmp, sval)) {
whirlline.push_back(c2), c2->aitmp = sval;
c2 = prev(c2);
// in sphere/quotient geometries, never break before a bull
if((sphere || quotient) && !c2->monst) break;
}
reverse(whirlline.begin(), whirlline.end());
c2 = next(c);
while(c2 && !eq(c2->aitmp, sval)) whirlline.push_back(c2), c2->aitmp = sval, c2 = next(c2);
int qty = size(whirlline);
// for(int i=0; i<qty; i++) whirlline[i]->aitmp = sval;
if(shmup::on) {
for(int i=0; i<qty; i++) if(whirlline[i]->cpdist <= 7) {
generateBeast(whirlline[i]);
break;
}
}
else {
c2 = whirlline[qty-1];
if(c2->monst == moHerdBull) c2->monst = moNone;
if(!shmup::on) for(int q=qty-2; q>=0; q--) {
cell *cp = whirlline[q];
cell *cn = whirlline[q+1];
if(cp->monst == moHerdBull && !cp->stuntime) {
forCellEx(c2, cp) {
int flags = AF_GETPLAYER | AF_BULL | AF_ORSTUN;
if(c2 != cn) flags |= AF_ONLY_FBUG;
if(canAttack(c, moHerdBull, c2, c2->monst, flags))
attackMonster(c2, flags | AF_MSG, moHerdBull);
}
if(!cn->monst && !isPlayerOn(cn) && passable_for(cp->monst, cn, cp, P_DEADLY))
moveMonster(cn, cp);
else {
playSound(NULL, "hit-axe"+pick123());
beastcrash(cn, cp);
cp->monst = moRagingBull;
cp->stuntime = 3;
cp->mondir = NODIR;
}
}
}
if(!sphere && !quotient) generateBeast(whirlline[0]);
}
}
void move() {
sval++;
for(int i=0; i<size(dcal); i++) {
cell *c = dcal[i];
if(isriver(c)) moveAt(c);
}
for(int i=0; i<size(beaststogen); i++)
generateBeast(beaststogen[i]);
beaststogen.clear();
}
vector<cell*> tchoices;
cell *lasttreasure;
// vector<cell*> orbs;
bool thisriver(cell *c) {
forCellEx(c2, c) if(c2->mpdist < c->mpdist && !isriver(c2)) return false;
forCellEx(c2, c) if(c2->mpdist < c->mpdist) return thisriver(c2);
return true;
}
void generateTreasure(cell *c) {
// if(nearriver(c) && op
if(enter && nearriver(c) && opposite(c) && thisriver(c)) {
int hr = hrand(100);
if(hr == 0 && items[itGreenGrass] >= 10) {
c->item = itOrbBull;
// orbs.push_back(c);
}
else if(hr < 1+PRIZEMUL) {
placePrizeOrb(c);
// if(c->item) orbs.push_back(c);
}
else tchoices.push_back(c);
}
}
void treasures() {
if(enter && !isriver(cwt.c)) enter = NULL;
else if(!enter && isriver(cwt.c)) enter = cwt.c;
if(size(tchoices)) {
if(lasttreasure && lasttreasure->item == itGreenGrass) {
if(celldistance(lasttreasure, cwt.c) >= (purehepta ? 7 : 10)) {
lasttreasure->item = itNone;
forCellEx(c2, lasttreasure) if(c2->item == itGreenGrass) c2->item = itNone;
}
else { tchoices.clear(); return; }
}
if(size(tchoices) < 3) { tchoices.clear(); return; }
lasttreasure = tchoices[hrand(size(tchoices))];
lasttreasure->item = itGreenGrass;
for(int i=0; i<size(tchoices); i++) if(isNeighbor(tchoices[i], lasttreasure))
tchoices[i]->item = itGreenGrass;
tchoices.clear();
}
}
}
namespace ca {
ld prob = .2;
string carule[8][2];
void init() {
// hexagonal variant of Game of Life, as suggested by Wikipedia
for(int i=0; i<8; i++)
carule[i][0] = "00100000",
carule[i][1] = "00011000";
}
#if CAP_COMMANDLINE
bool readArg() {
using namespace arg;
if(argis("-caprob")) {
shift(); prob = argf();
return true;
}
if(args()[0] != '-') return false;
if(args()[1] != 'c') return false;
int livedead = args()[2] - '0';
if(livedead < 0 || livedead > 1) return false;
int nei = -1;
if(args()[3]) {
nei = args()[3] - '0';
if(nei < 0 || nei > 7) return false;
if(args()[4]) return false;
}
shift();
string s = args(); s += "00000000";
if(nei == -1) for(int i=0; i<8; i++)
carule[i][livedead] = s;
else
carule[nei][livedead] = s;
return true;
}
#endif
void simulate() {
if(cwt.c->land != laCA) return;
vector<cell*>& allcells = currentmap->allcells();
int dcs = size(allcells);
bool willlive[dcs];
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
if(c->land != laCA) return;
int nei = 0, live = 0;
forCellEx(c2, c) if(c2->land == laCA) {
nei++; if(c2->wall == waFloorA) live++;
}
int welive = 0; if(c->wall == waFloorA) welive++;
willlive[i] = carule[nei][welive][live] == '1';
}
for(int i=0; i<dcs; i++) {
cell *c = allcells[i];
c->wall = willlive[i] ? waFloorA : waNone;
}
}
}
auto ccm = addHook(clearmemory, 0, [] () {
offscreen.clear();
princess::clear();
mirror::mirrors.clear();
clearing::bpdata.clear();
tortoise::emap.clear();
tortoise::babymap.clear();
prairie::lasttreasure = NULL;
prairie::enter = NULL;
prairie::tchoices.clear();
prairie::beaststogen.clear();
});