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// Hyperbolic Rogue
// Copyright (C) 2011-2019 Zeno Rogue
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
/** \file crossbow.cpp
* \ brief implementation of the crossbow mode
*/
# include "hyper.h"
namespace hr {
EX namespace bow {
# if HDR
enum eWeapon { wBlade , wCrossbow } ;
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enum eCrossbowStyle { cbBull , cbGeodesic , cbGeometric } ;
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const string bowName [ ] = { " bull " , " geod " , " geom " } ;
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# endif
EX eWeapon weapon ;
EX eCrossbowStyle style ;
EX bool bump_to_shoot = true ;
EX bool crossbow_mode ( ) { return weapon = = wCrossbow ; }
# if HDR
struct bowpoint {
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cellwalker prev , next ;
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flagtype flags ;
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bowpoint ( ) { }
} ;
struct bowscore {
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int total ;
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cellwalker last ;
int turns ;
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} ;
# endif
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# if HDR
static constexpr flagtype bpFIRST = 1 ;
static constexpr flagtype bpLAST = 2 ;
static constexpr flagtype bpCOPIED = 4 ;
# endif
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EX vector < bowpoint > bowpath ;
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EX map < cell * , vector < bowpoint > > bowpath_map ;
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EX map < int , cell * > target_at ;
EX int loading_time ( ) {
return style = = cbBull ? 3 : 4 ;
}
EX bool blocks ( cell * c ) {
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if ( items [ itOrbAether ] ) return false ;
if ( isWall ( c ) & & ! among ( c - > wall , waMirrorWall , waMirror , waCloud ) & & ! isNonblock ( c - > wall ) ) return true ;
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// if(c->monst && isMultitile(c->monst)) return true;
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return false ;
}
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EX int qadd ( cellwalker a , cellwalker b ) {
hassert ( a . at = = b . at ) ;
for ( int i = 0 ; i < a . at - > type ; i + + ) if ( a + i = = b ) return i ;
return NODIR ;
}
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int best_score_res ;
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const int BOLT_INVALID = - 999999 ;
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EX int bolt_score ( cellwalker cw2 ) {
int d = cw2 . at - > cpdist ;
int ntotal = 2 ;
if ( inmirror ( cw2 . at ) ) cw2 = mirror : : reflect ( cw2 ) ;
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if ( blocks ( cw2 . cpeek ( ) ) ) return BOLT_INVALID ;
if ( thruVine ( cw2 . at , cw2 . cpeek ( ) ) ) return BOLT_INVALID ;
if ( nonAdjacent ( cw2 . at , cw2 . cpeek ( ) ) ) return BOLT_INVALID ;
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if ( cw2 . at - > monst ) {
flagtype attackflags = AF_BOW ;
if ( items [ itOrbSpeed ] & 1 ) attackflags | = AF_FAST ;
if ( items [ itOrbSlaying ] ) attackflags | = AF_CRUSH ;
if ( items [ itCurseWeakness ] ) attackflags | = AF_WEAK ;
if ( canAttack ( cw2 . cpeek ( ) , moPlayer , cw2 . at , cw2 . at - > monst , attackflags ) ) {
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int sco = 10 ;
if ( isFriendly ( cw2 . at ) ) sco = - 50 ;
ntotal + = 1000 * sco ; ntotal + = ( 128 * sco ) > > d ;
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}
}
for ( int t = 0 ; t < cw2 . at - > type ; t + + ) {
cell * c1 = cw2 . at - > cmove ( t ) ;
if ( ! logical_adjacent ( cw2 . cpeek ( ) , moPlayer , c1 ) ) continue ;
if ( canAttack ( cw2 . cpeek ( ) , moPlayer , c1 , c1 - > monst , AF_STAB ) ) {
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int sco = 10 ;
if ( isFriendly ( c1 ) ) sco = - 50 ;
ntotal + = 1000 * sco ; ntotal + = ( 128 * sco ) > > d ;
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}
}
return ntotal ;
}
EX vector < int > create_dirseq ( ) {
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map < cell * , bowscore > scores ;
scores [ cwt . at ] . total = 0 ;
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int best_score = BOLT_INVALID ; cell * best_score_at = cwt . at ;
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for ( cell * c : dcal ) {
cell * c1 = target_at [ c - > cpdist ] ;
if ( c1 & & c ! = c1 ) continue ;
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if ( c = = c1 ) { best_score = BOLT_INVALID ; }
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bowscore best ;
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best . total = BOLT_INVALID ;
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forCellIdEx ( c1 , i , c ) if ( c1 - > cpdist < c - > cpdist & & scores . count ( c1 ) ) {
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auto & last = scores [ c1 ] ;
auto ocw2 = cellwalker ( c , i ) ;
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int bonus = bolt_score ( ocw2 ) ;
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println ( hlog , " at " , ocw2 , " bonus is " , bonus ) ;
if ( bonus = = BOLT_INVALID ) continue ;
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int ntotal = last . total + bonus ;
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int dir = 0 ;
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if ( c - > cpdist > 1 ) {
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dir = qadd ( last . last , ocw2 + wstep ) ;
int d = abs ( szgmod ( dir , c1 - > type ) ) ;
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if ( d ! = c1 - > type / 2 ) {
if ( style = = cbGeodesic ) ntotal - - ;
if ( style = = cbBull ) continue ;
}
}
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else {
dir = qadd ( cwt , ocw2 + wstep ) ;
}
if ( ntotal > best . total ) {
best . total = ntotal ;
best . last = ocw2 ;
best . turns = dir ;
}
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best . total = max ( best . total , ntotal ) ;
}
if ( best . total > best_score ) { best_score = best . total ; best_score_at = c ; }
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if ( best . total > BOLT_INVALID ) scores [ c ] = best ;
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}
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if ( best_score = = BOLT_INVALID ) return { } ;
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vector < int > dirseq = { NODIR } ;
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while ( best_score_at ! = cwt . at ) {
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auto & at = scores [ best_score_at ] ;
dirseq . push_back ( at . turns ) ;
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best_score_at = at . last . cpeek ( ) ;
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}
reverse ( dirseq . begin ( ) , dirseq . end ( ) ) ;
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best_score_res = best_score ;
return dirseq ;
}
EX vector < int > create_dirseq_geometric ( ) {
cell * tgt = nullptr ;
for ( auto t : target_at ) tgt = t . second ;
if ( ! tgt ) return { } ;
hyperpoint h = tC0 ( currentmap - > relative_matrix ( tgt , cwt . at , C0 ) ) ;
transmatrix T = spintox ( h ) ;
best_score_res = 0 ;
cellwalker at = cwt ;
vector < int > dirseq ;
while ( true ) {
int best_i = - 1 ;
ld best_y = HUGE_VAL ;
for ( int i = 0 ; i < at . at - > type ; i + + ) {
cellwalker at1 = at + i ;
if ( at1 . cpeek ( ) - > cpdist ! = at . at - > cpdist + 1 ) continue ;
transmatrix U = T * currentmap - > adj ( at . at , at1 . spin ) ;
hyperpoint U0 = tC0 ( U ) ;
hyperpoint T0 = tC0 ( T ) ;
if ( U0 [ 0 ] < T0 [ 0 ] + 1e-6 ) continue ;
ld y ;
if ( GDIM = = 3 ) y = hypot ( U0 [ 1 ] , U0 [ 2 ] ) ; else y = abs ( U0 [ 1 ] ) + ( U0 [ 1 ] > 0 ? 1e-6 : 0 ) ;
if ( y < best_y ) { best_y = y ; best_i = i ; }
}
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if ( best_i < 0 ) {
dirseq . push_back ( NODIR ) ;
break ;
}
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at = at + best_i ;
int bonus = bolt_score ( at + wstep ) ;
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if ( bonus ! = BOLT_INVALID ) best_score_res + = bonus ;
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dirseq . push_back ( best_i ) ;
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if ( bonus = = BOLT_INVALID ) break ;
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T = T * currentmap - > adj ( at . at , at . spin ) ;
at = at + wstep ;
}
return dirseq ;
}
EX int create_path ( ) {
auto dirseq = style = = cbGeometric ? create_dirseq_geometric ( ) : create_dirseq ( ) ;
if ( dirseq . empty ( ) ) return - 1 ;
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struct bolt {
cellwalker at ;
flagtype flags ;
bolt ( cellwalker cw , flagtype f ) { at = cw ; flags = f ; }
} ;
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bowpath . clear ( ) ;
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vector < bolt > bolts = { bolt ( cwt , 0 ) } ;
for ( auto m : mirror : : mirrors ) bolts . emplace_back ( m . second , bpCOPIED ) ;
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set < cell * > broken_mirrors ;
for ( auto d : dirseq ) {
bool first = bowpath . empty ( ) ;
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vector < bolt > nbolts ;
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set < cell * > next_broken_mirrors = broken_mirrors ;
for ( auto bolt : bolts ) {
bowpath . emplace_back ( ) ;
auto & p = bowpath . back ( ) ;
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p . prev = bolt . at ;
p . flags = bolt . flags ;
if ( first ) p . flags | = bpFIRST ;
if ( d = = NODIR | | blocks ( bolt . at . at ) ) { p . next = bolt . at ; p . flags | = bpLAST ; }
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else {
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if ( inmirror ( bolt . at . at ) | | ( bolt . at . at - > wall = = waMirrorWall & & inmirror ( ( bolt . at + d ) . cpeek ( ) ) ) )
bolt . at = mirror : : reflect ( bolt . at ) ;
bolt . at + = d ;
p . next = bolt . at ;
bolt . at + = wstep ;
if ( among ( bolt . at . at - > wall , waCloud , waMirror ) & & ! broken_mirrors . count ( bolt . at . at ) ) {
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auto & mir = mirror : : mirrors ;
vector < pair < int , cellwalker > > bmir ;
swap ( mir , bmir ) ;
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mirror : : createHere ( bolt . at , 0 ) ;
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swap ( mir , bmir ) ;
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for ( auto b : bmir ) nbolts . emplace_back ( b . second , bolt . flags ) ;
next_broken_mirrors . insert ( bolt . at . at ) ;
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}
nbolts . push_back ( bolt ) ;
}
}
bolts = nbolts ;
broken_mirrors = next_broken_mirrors ;
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}
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return best_score_res ;
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}
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EX void clear_bowpath ( ) {
bowpath_map . clear ( ) ;
}
EX void gen_bowpath_map ( ) {
bowpath_map = { } ;
for ( auto & b : bowpath ) bowpath_map [ b . next . at ] . push_back ( b ) ;
}
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EX bool auto_path ( ) {
target_at = { } ;
target_at [ 1 ] = cwt . cpeek ( ) ;
return create_path ( ) > = 10000 ;
}
EX bool fire_mode ;
EX void switch_fire_mode ( ) {
if ( ! crossbow_mode ( ) ) { addMessage ( XLAT ( " You fire an angry glance at your enemies. " ) ) ; return ; }
if ( ! fire_mode ) {
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addMessage ( items [ itCrossbow ] ? XLAT ( " Note: cannot fire again yet. Turns to reload: %1. " , its ( items [ itCrossbow ] ) ) : XLAT ( " Fire crossbow! Click to aim, click again to confirm. " ) ) ;
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fire_mode = true ;
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clear_bowpath ( ) ;
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target_at = { } ;
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}
else if ( fire_mode ) {
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addMessage ( items [ itCrossbow ] ? XLAT ( " Fire mode disabled. " ) : XLAT ( " Firing cancelled. " ) ) ;
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fire_mode = false ;
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clear_bowpath ( ) ;
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}
}
EX void add_fire ( cell * c ) {
bool emp = target_at . empty ( ) ;
auto & t = target_at [ c - > cpdist ] ;
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if ( t = = c & & ! bow : : bowpath . empty ( ) ) {
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if ( items [ itCrossbow ] ) {
clear_bowpath ( ) ;
addMessage ( XLAT ( " Cannot fire again yet. Turns to reload: %1. " , its ( items [ itCrossbow ] ) ) ) ;
fire_mode = false ;
return ;
}
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clear_bowpath ( ) ;
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checked_move_issue . type = miVALID ;
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pcmove pcm ;
pcm . checkonly = false ;
changes . init ( false ) ;
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addMessage ( XLAT ( " Fire! " ) ) ;
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bool b = pcm . try_shooting ( false ) ;
if ( ! b ) changes . rollback ( ) ;
fire_mode = false ;
}
else {
t = c ;
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if ( style = = cbGeometric ) { target_at = { } ; target_at [ c - > cpdist ] = c ; }
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int res = create_path ( ) ;
if ( res = = - 1 ) {
if ( ! emp ) {
target_at = { } ;
add_fire ( c ) ;
}
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else {
addMessage ( XLAT ( " No way to hit this place. " ) ) ;
bow : : bowpath = { } ;
}
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}
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gen_bowpath_map ( ) ;
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}
}
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# if HDR
enum eMouseFireMode { mfmNone , mfmPriority , mfmAlways } ;
# endif
EX eMouseFireMode mouse_fire_mode = mfmPriority ;
EX bool fire_on_mouse ( cell * c ) {
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if ( ! crossbow_mode ( ) ) return false ;
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if ( mouse_fire_mode = = mfmNone ) return false ;
if ( ! mouseover ) return false ;
if ( ! mouseover - > monst ) return false ;
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if ( isFriendly ( mouseover ) ) return false ;
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if ( shmup : : on ) return false ;
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if ( items [ itCrossbow ] ) {
if ( mouse_fire_mode = = mfmAlways ) {
addMessage ( XLAT ( " Cannot fire again yet. Turns to reload: %1. " , its ( items [ itCrossbow ] ) ) ) ;
return true ;
}
return false ;
}
target_at = { } ;
target_at [ mouseover - > cpdist ] = mouseover ;
int res = create_path ( ) ;
if ( res < = 0 ) {
if ( mouse_fire_mode = = mfmAlways ) {
addMessage ( XLAT ( " Shooting impossible. " ) ) ;
return true ;
}
return false ;
}
gen_bowpath_map ( ) ;
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checked_move_issue . type = miVALID ;
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pcmove pcm ;
pcm . checkonly = false ;
changes . init ( false ) ;
addMessage ( XLAT ( " Fire! " ) ) ;
bool b = pcm . try_shooting ( false ) ;
if ( ! b ) changes . rollback ( ) ;
if ( mouse_fire_mode = = mfmAlways ) return true ;
return b ;
}
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EX int rusalka_curses = 0 ;
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EX void shoot ( ) {
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flagtype attackflags = AF_BOW ;
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if ( items [ itOrbSpeed ] & 1 ) attackflags | = AF_FAST ;
if ( items [ itOrbSlaying ] ) attackflags | = AF_CRUSH ;
if ( items [ itCurseWeakness ] ) attackflags | = AF_WEAK ;
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vector < bowpoint > pushes ;
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// for achievements
set < eMonster > kills ;
vector < pair < cell * , int > > healthy_dragons ;
map < cell * , pair < int , int > > kraken_hits ;
int dragon_hits = 0 ;
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rusalka_curses = 0 ;
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// for achievements
for ( auto & mov : bowpath ) {
cell * c = mov . prev . at ;
if ( c - > monst = = moDragonHead ) {
bool healthy = true ;
cell * c1 = c ;
int qty = 0 ;
for ( int i = 0 ; i < iteration_limit ; i + + ) {
if ( ! isDragon ( c1 ) ) break ;
if ( ! c1 - > hitpoints ) { healthy = false ; break ; }
if ( c1 - > mondir = = NODIR ) break ;
c1 = c1 - > move ( c1 - > mondir ) ;
qty + + ;
}
if ( healthy ) healthy_dragons . emplace_back ( c , qty ) ;
}
if ( c - > monst = = moKrakenT & & c - > hitpoints ) {
kraken_hits [ kraken : : head ( c ) ] . first + + ;
}
}
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for ( auto & mov : bowpath ) {
cell * c = mov . prev . at ;
cell * cf = mov . prev . cpeek ( ) ;
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if ( ! c ) continue ;
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eMonster who = ( mov . flags & bpCOPIED ) ? moMimic : moPlayer ;
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if ( c ! = cf ) for ( int t = 0 ; t < cf - > type ; t + + ) {
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cell * c1 = cf - > cmove ( t ) ;
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if ( ! c ) continue ;
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bool stabthere = false ;
if ( logical_adjacent ( c , moPlayer , c1 ) ) stabthere = true ;
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if ( stabthere & & canAttack ( cf , who , c1 , c1 - > monst , AF_STAB ) ) {
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hit_anything = true ;
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changes . ccell ( c1 ) ;
eMonster m = c - > monst ;
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if ( attackMonster ( c1 , AF_STAB | AF_MSG , who ) ) {
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achievement_count ( " STAB " , 1 , 0 ) ;
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spread_plague ( c1 , cf , t , moPlayer ) ;
produceGhost ( c , m , moPlayer ) ;
}
}
}
mirror : : breakMirror ( mov . next , - 1 ) ;
eMonster m = c - > monst ;
if ( ! m | | isMimic ( m ) ) continue ;
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if ( m = = moKrakenH ) continue ;
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if ( ! canAttack ( cf , who , c , m , attackflags ) ) {
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if ( among ( m , moSleepBull , moHerdBull ) ) {
addMessage ( XLAT ( " %The1 is enraged! " , m ) ) ;
c - > monst = moRagingBull ;
hit_anything = true ;
continue ;
}
else {
pcmove pcm ; pcm . mi = movei ( mov . prev ) . rev ( ) ;
pcm . tell_why_cannot_attack ( ) ;
continue ;
}
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}
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changes . ccell ( c ) ;
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bool push = ( items [ itCurseWeakness ] | | ( isStunnable ( c - > monst ) & & c - > hitpoints > 1 ) ) ;
push = push & & ( ! ( mov . flags & bpLAST ) & & monsterPushable ( c ) ) ;
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// for achievements
if ( isDragon ( m ) ) dragon_hits + + ;
if ( m = = moKrakenT & & c - > hitpoints ) kraken_hits [ kraken : : head ( c ) ] . second + + ;
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if ( m & & attackMonster ( c , attackflags | AF_MSG , who ) ) hit_anything = true ;
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if ( m = = moRusalka ) rusalka_curses + + ;
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if ( ! c - > monst | | isAnyIvy ( m ) ) {
spread_plague ( cf , c , movei ( mov . prev ) . rev ( ) . d , moPlayer ) ;
produceGhost ( c , m , moPlayer ) ;
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kills . insert ( m ) ;
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}
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if ( push ) pushes . push_back ( mov ) ;
}
while ( ! pushes . empty ( ) ) {
auto & mov = pushes . back ( ) ;
cell * c = mov . prev . at ;
cell * ct = mov . next . cpeek ( ) ;
bool can_push = passable ( ct , c , P_BLOW ) ;
if ( can_push ) {
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hit_anything = true ;
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changes . ccell ( c ) ;
changes . ccell ( ct ) ;
pushMonster ( mov . next ) ;
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}
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pushes . pop_back ( ) ;
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}
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reverse ( bowpath . begin ( ) , bowpath . end ( ) ) ;
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// three achievements:
achievement_count ( " BOWVARIETY " , kills . size ( ) , 0 ) ;
for ( auto p : healthy_dragons ) {
cell * c = p . first ;
if ( c - > monst ! = moDragonHead & & dragon_hits > = p . second )
achievement_gain_once ( " BOWDRAGON " ) ;
}
for ( auto kh : kraken_hits ) {
if ( kh . second . first = = 3 & & kh . second . second = = 3 ) {
if ( kraken : : half_killed [ kh . first ] ) achievement_gain_once ( " BOWKRAKEN " ) ;
else kraken : : half_killed [ kh . first ] = true ;
}
}
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gen_bowpath_map ( ) ;
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}
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EX bool have_bow_target ( ) {
dynamicval < decltype ( bowpath ) > bp ( bowpath ) ;
dynamicval < decltype ( bowpath_map ) > bpm ( bowpath_map ) ;
for ( int i = 0 ; i < isize ( dcal ) ; i + + ) {
cell * c = dcal [ i ] ;
target_at = { } ;
target_at [ c - > cpdist ] = { c } ;
int res = create_path ( ) ;
if ( res = = - 1 ) continue ;
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checked_move_issue . type = miVALID ;
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pcmove pcm ;
pcm . checkonly = true ;
changes . init ( true ) ;
bool b = pcm . try_shooting ( false ) ;
changes . rollback ( ) ;
if ( b ) return true ;
}
return false ;
}
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EX void showMenu ( ) {
cmode = sm : : SIDE | sm : : MAYDARK ;
gamescreen ( ) ;
dialog : : init ( XLAT ( " weapon selection " ) ) ;
add_edit ( weapon ) ;
if ( crossbow_mode ( ) ) {
add_edit ( style ) ;
add_edit ( bump_to_shoot ) ;
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add_edit ( bow : : mouse_fire_mode ) ;
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}
else dialog : : addBreak ( 200 ) ;
dialog : : addBack ( ) ;
dialog : : display ( ) ;
}
EX }
}