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# include "rogueviz.h"
// SAG visualizer (e.g. Reddit roguelikes, GitHub languages)
//-----------------------------------------------------------
// see: https://www.youtube.com/watch?v=mDG3_f8R2Ns (SAG boardgames)
// see: https://www.youtube.com/watch?v=WSyygk_3j9o (SAG roguelikes)
// see: https://www.youtube.com/watch?v=HWQkDkeEUeM (SAG programming languages)
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# include "dhrg/dhrg.h"
# include <thread>
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# include "leastsquare.cpp"
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namespace rogueviz {
namespace sag {
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int threads = 1 ;
int informat ; /* format ID */
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bool turn ( int delta ) ;
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int sagpar = 0 ;
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bool angular = false ;
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bool report_tempi = false ;
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int best_cost = 1000000000 ;
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enum eSagmode { sagOff , sagHC , sagSA } ;
eSagmode sagmode ; // 0 - off, 1 - hillclimbing, 2 - SA
const char * sagmodes [ 3 ] = { " off " , " HC " , " SA " } ;
ld temperature = - 4 ;
const char * loadfname ;
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string auto_save ;
bool auto_visualize = true ;
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int vizsa_start ;
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int vizsa_len = 5 ;
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/** all the SAG cells */
vector < cell * > sagcells ;
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/** table of distances between SAG cells */
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vector < vector < unsigned short > > sagdist ;
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/** what node is on sagcells[i] */
vector < int > sagnode ;
/** node i is on sagcells[sagid[i]] */
vector < int > sagid ;
/** sagcells[ids[c]]] == c */
map < cell * , int > ids ;
/** if i in neighbors[j], sagcells[i] is a neighbor of sagcells[j] */
vector < vector < int > > neighbors ;
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ld pdist ( hyperpoint hi , hyperpoint hj ) ;
/** matrix for every sagcell */
vector < transmatrix > cell_matrix ;
/** precision of geometric distances */
int gdist_prec ;
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/** max edge for dijkstra */
int dijkstra_maxedge ;
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/** the maximum value in sagdist +1 */
int max_sag_dist ;
vector < edgeinfo > sagedges ;
vector < vector < int > > edges_yes , edges_no ;
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enum eSagMethod { smClosest , smLogistic , smMatch } ;
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eSagMethod method ;
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bool loglik_repeat ;
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/* parameters for smMatch */
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ld match_a = 1 , match_b = 0 ;
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/* parameters for smLogistic */
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dhrg : : logistic lgsag ( 1 , 1 ) ;
vector < ld > loglik_tab_y , loglik_tab_n ;
int ipturn = 100 ;
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long long numiter = 0 ;
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int hightemp = 10 ;
int lowtemp = - 15 ;
/* for the embedding method: */
bool embedding ;
dhrg : : logistic lgemb ( 1 , 1 ) ;
vector < hyperpoint > placement ;
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string distance_file ;
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void compute_dists ( ) {
int N = isize ( sagcells ) ;
neighbors . clear ( ) ;
neighbors . resize ( N ) ;
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for ( int i = 0 ; i < N ; i + + )
for ( cell * c1 : adj_minefield_cells ( sagcells [ i ] ) )
if ( ids . count ( c1 ) ) neighbors [ i ] . push_back ( ids [ c1 ] ) ;
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const ld ERRORV = - 17.3 ;
transmatrix unknown = Id ; unknown [ 0 ] [ 0 ] = ERRORV ;
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cell_matrix . clear ( ) ;
cell_matrix . resize ( N , unknown ) ;
vector < int > visited ;
auto visit = [ & ] ( int id , const transmatrix & T ) {
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if ( cell_matrix [ id ] [ 0 ] [ 0 ] ! = ERRORV ) return ;
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cell_matrix [ id ] = T ;
visited . push_back ( id ) ;
} ;
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visit ( 0 , Id ) ;
for ( int i = 0 ; i < isize ( visited ) ; i + + ) {
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cell * c0 = sagcells [ visited [ i ] ] ;
const transmatrix & T0 = cell_matrix [ visited [ i ] ] ;
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for ( int d = 0 ; d < c0 - > type ; d + + )
if ( ids . count ( c0 - > move ( d ) ) )
visit ( ids [ c0 - > move ( d ) ] , T0 * currentmap - > adj ( c0 , d ) ) ;
}
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sagdist . clear ( ) ;
sagdist . resize ( N ) ;
for ( int i = 0 ; i < N ; i + + ) sagdist [ i ] . resize ( N , N ) ;
if ( distance_file ! = " " ) {
fhstream f ( distance_file , " rt " ) ;
f . read ( sagdist ) ;
}
else if ( gdist_prec & & dijkstra_maxedge ) {
vector < vector < pair < int , ld > > > dijkstra_edges ( N ) ;
for ( int i = 0 ; i < N ; i + + ) {
celllister cl ( sagcells [ i ] , dijkstra_maxedge , 50000 , nullptr ) ;
for ( auto c1 : cl . lst ) if ( ids . count ( c1 ) ) if ( c1 ! = sagcells [ i ] )
dijkstra_edges [ i ] . emplace_back ( ids [ c1 ] , pdist ( tC0 ( cell_matrix [ i ] ) , tC0 ( cell_matrix [ ids [ c1 ] ] ) ) ) ;
if ( i = = 0 ) println ( hlog , i , " has " , isize ( dijkstra_edges [ i ] ) , " edges " ) ;
}
parallelize ( N , [ & ] ( int a , int b ) {
vector < ld > distances ( N ) ;
for ( int i = a ; i < b ; i + + ) {
if ( i % 500 = = 0 ) println ( hlog , " computing dijkstra for " , i , " / " , N ) ;
for ( int j = 0 ; j < N ; j + + ) distances [ j ] = HUGE_VAL ;
std : : priority_queue < pair < ld , int > > pq ;
auto visit = [ & ] ( int i , ld dist ) {
if ( distances [ i ] < = dist ) return ;
distances [ i ] = dist ;
pq . emplace ( - dist , i ) ;
} ;
visit ( i , 0 ) ;
while ( ! pq . empty ( ) ) {
ld d = - pq . top ( ) . first ;
int at = pq . top ( ) . second ;
pq . pop ( ) ;
for ( auto e : dijkstra_edges [ at ] ) visit ( e . first , d + e . second ) ;
}
for ( int j = 0 ; j < N ; j + + ) sagdist [ i ] [ j ] = distances [ j ] * gdist_prec + .5 ;
}
return 0 ;
}
) ;
}
else if ( gdist_prec ) {
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for ( int i = 0 ; i < N ; i + + )
for ( int j = 0 ; j < N ; j + + )
sagdist [ i ] [ j ] = ( pdist ( tC0 ( cell_matrix [ i ] ) , tC0 ( cell_matrix [ j ] ) ) + .5 ) * gdist_prec ;
}
else {
for ( int i = 0 ; i < N ; i + + ) {
auto & sdi = sagdist [ i ] ;
vector < int > q ;
auto visit = [ & ] ( int j , int dist ) { if ( sdi [ j ] < N ) return ; sdi [ j ] = dist ; q . push_back ( j ) ; } ;
visit ( i , 0 ) ;
for ( int j = 0 ; j < isize ( q ) ; j + + ) for ( int k : neighbors [ q [ j ] ] ) visit ( k , sdi [ q [ j ] ] + 1 ) ;
}
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}
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max_sag_dist = 0 ;
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for ( auto & d : sagdist ) for ( auto & x : d ) max_sag_dist = max < int > ( max_sag_dist , x ) ;
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max_sag_dist + + ;
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}
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bool legacy ;
/* legacy method */
void init_snake ( int n ) {
sagcells . clear ( ) ;
ids . clear ( ) ;
auto enlist = [ & ] ( cellwalker cw ) {
ids [ cw . at ] = isize ( sagcells ) ;
sagcells . push_back ( cw . at ) ;
} ;
cellwalker cw = cwt ;
enlist ( cw ) ;
cw + = wstep ;
enlist ( cw ) ;
for ( int i = 2 ; i < n ; i + + ) {
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cw + = wstep ;
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while ( ids . count ( cw . at ) ) {
cw = cw + wstep + 1 + wstep ;
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}
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enlist ( cw ) ; cw + = 1 ;
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}
}
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void init_sag_cells ( ) {
sagcells = currentmap - > allcells ( ) ;
int N = isize ( sagcells ) ;
ids . clear ( ) ;
for ( int i = 0 ; i < N ; i + + ) ids [ sagcells [ i ] ] = i ;
}
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/* separate hubs -- only for smClosest */
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ld hub_penalty ;
string hub_filename ;
vector < int > hubval ;
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double costat ( int vid , int sid ) {
if ( vid < 0 ) return 0 ;
double cost = 0 ;
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if ( method = = smLogistic ) {
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auto & s = sagdist [ sid ] ;
for ( auto j : edges_yes [ vid ] )
cost + = loglik_tab_y [ s [ sagid [ j ] ] ] ;
for ( auto j : edges_no [ vid ] )
cost + = loglik_tab_n [ s [ sagid [ j ] ] ] ;
return - cost ;
}
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if ( method = = smMatch ) {
vertexdata & vd = vdata [ vid ] ;
for ( int j = 0 ; j < isize ( vd . edges ) ; j + + ) {
edgeinfo * ei = vd . edges [ j ] . second ;
int t2 = vd . edges [ j ] . first ;
if ( sagid [ t2 ] ! = - 1 ) {
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ld cdist = sagdist [ sid ] [ sagid [ t2 ] ] ;
ld expect = match_a / ei - > weight2 + match_b ;
ld dist = cdist - expect ;
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cost + = dist * dist ;
}
}
return cost ;
}
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vertexdata & vd = vdata [ vid ] ;
for ( int j = 0 ; j < isize ( vd . edges ) ; j + + ) {
edgeinfo * ei = vd . edges [ j ] . second ;
int t2 = vd . edges [ j ] . first ;
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if ( sagid [ t2 ] ! = - 1 ) cost + = sagdist [ sid ] [ sagid [ t2 ] ] * ei - > weight2 ;
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}
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if ( ! hubval . empty ( ) ) {
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for ( auto sid2 : neighbors [ sid ] ) {
int vid2 = sagnode [ sid2 ] ;
if ( vid2 > = 0 & & ( hubval [ vid ] & hubval [ vid ] ) = = 0 )
cost + = hub_penalty ;
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}
}
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return cost ;
}
// std::mt19937 los;
double cost ;
vector < double > chgs ;
edgetype * sag_edge ;
void forgetedges ( int id ) {
for ( int i = 0 ; i < isize ( vdata [ id ] . edges ) ; i + + )
vdata [ id ] . edges [ i ] . second - > orig = NULL ;
}
bool chance ( double p ) {
p * = double ( hrngen . max ( ) ) + 1 ;
auto l = hrngen ( ) ;
auto pv = ( decltype ( l ) ) p ;
if ( l < pv ) return true ;
if ( l = = pv ) return chance ( p - pv ) ;
return false ;
}
void saiter ( ) {
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int DN = isize ( sagid ) ;
int t1 = hrand ( DN ) ;
int sid1 = sagid [ t1 ] ;
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int sid2 ;
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int s = hrand ( 4 ) + 1 ;
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if ( s = = 4 ) sid2 = hrand ( isize ( sagcells ) ) ;
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else {
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sid2 = sid1 ;
for ( int ii = 0 ; ii < s ; ii + + ) sid2 = hrand_elt ( neighbors [ sid2 ] ) ;
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}
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int t2 = sagnode [ sid2 ] ;
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sagnode [ sid1 ] = - 1 ; sagid [ t1 ] = - 1 ;
sagnode [ sid2 ] = - 1 ; if ( t2 > = 0 ) sagid [ t2 ] = - 1 ;
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double change =
costat ( t1 , sid2 ) + costat ( t2 , sid1 ) - costat ( t1 , sid1 ) - costat ( t2 , sid2 ) ;
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sagnode [ sid1 ] = t1 ; sagid [ t1 ] = sid1 ;
sagnode [ sid2 ] = t2 ; if ( t2 > = 0 ) sagid [ t2 ] = sid2 ;
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if ( change > 0 & & ( sagmode = = sagHC | | ! chance ( exp ( - change * exp ( - temperature ) ) ) ) ) return ;
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sagnode [ sid1 ] = t2 ; sagnode [ sid2 ] = t1 ;
sagid [ t1 ] = sid2 ; if ( t2 > = 0 ) sagid [ t2 ] = sid1 ;
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cost + = change ;
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}
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void prepare_graph ( ) {
int DN = isize ( sagid ) ;
set < pair < int , int > > alledges ;
for ( auto e : sagedges ) {
if ( e . i = = e . j ) continue ;
alledges . emplace ( e . i , e . j ) ;
alledges . emplace ( e . j , e . i ) ;
}
edges_yes . clear ( ) ; edges_yes . resize ( DN ) ;
edges_no . clear ( ) ; edges_no . resize ( DN ) ;
for ( int i = 0 ; i < DN ; i + + ) for ( int j = 0 ; j < DN ; j + + ) if ( i ! = j ) {
if ( alledges . count ( { i , j } ) )
edges_yes [ i ] . push_back ( j ) ;
else
edges_no [ i ] . push_back ( j ) ;
}
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sagnode . clear ( ) ;
sagnode . resize ( isize ( sagcells ) , - 1 ) ;
for ( int i = 0 ; i < DN ; i + + )
sagnode [ sagid [ i ] ] = i ;
cost = 0 ;
for ( int i = 0 ; i < DN ; i + + )
cost + = costat ( i , sagid [ i ] ) ;
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cost / = 2 ;
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}
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void set_inverse ( ) {
if ( method = = smMatch ) vizflags | = RV_INVERSE_WEIGHT ;
else vizflags & = ~ RV_INVERSE_WEIGHT ;
}
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void reassign ( ) {
int DN = isize ( sagid ) ;
for ( int i = 0 ; i < DN ; i + + ) {
vdata [ i ] . m - > base = sagcells [ sag : : sagid [ i ] ] ;
forgetedges ( i ) ;
}
shmup : : fixStorage ( ) ;
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set_inverse ( ) ;
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}
void load_sag_solution ( const string & fname ) {
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printf ( " Loading the sag from: %s \n " , fname . c_str ( ) ) ;
FILE * sf = fopen ( fname . c_str ( ) , " rt " ) ;
if ( ! sf ) { printf ( " Failed to open file. \n " ) ; exit ( 1 ) ; }
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int SN = isize ( sagcells ) ;
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if ( sf ) while ( true ) {
string lab ;
while ( true ) {
int c = fgetc ( sf ) ;
if ( c = = EOF ) goto afterload ;
else if ( c = = ' , ' | | c = = ' ; ' ) break ;
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else if ( rv_ignore ( c ) ) ;
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else lab + = c ;
}
int sid = - 1 ;
int err = fscanf ( sf , " %d " , & sid ) ;
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if ( sid < 0 | | sid > = SN | | err < 1 ) sid = - 1 ;
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if ( ! labeler . count ( lab ) ) {
printf ( " unknown vertex: %s \n " , lab . c_str ( ) ) ;
}
else {
int id = getid ( lab ) ;
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sagid [ id ] = sid ;
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}
}
afterload :
if ( sf ) fclose ( sf ) ;
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prepare_graph ( ) ;
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reassign ( ) ;
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}
void dofullsa ( int satime ) {
sagmode = sagSA ;
int t1 = SDL_GetTicks ( ) ;
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int tl = - 999999 ;
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while ( true ) {
int t2 = SDL_GetTicks ( ) ;
double d = ( t2 - t1 ) / ( 1000. * satime ) ;
if ( d > 1 ) break ;
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temperature = hightemp - ( d * ( hightemp - lowtemp ) ) ;
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for ( int i = 0 ; i < 10000 ; i + + ) {
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numiter + + ;
sag : : saiter ( ) ;
}
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if ( t2 - tl > 980 ) {
tl = t2 ;
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println ( hlog , format ( " it %12Ld temp %6.4f [1/e at %13.6f] cost = %f " ,
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numiter , double ( sag : : temperature ) , ( double ) exp ( sag : : temperature ) ,
double ( sag : : cost ) ) ) ;
}
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}
temperature = - 5 ;
sagmode = sagOff ;
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reassign ( ) ;
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}
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void dofullsa_iterations ( long long saiter ) {
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sagmode = sagSA ;
decltype ( SDL_GetTicks ( ) ) t1 = - 999999 ;
for ( int i = 0 ; i < saiter ; i + + ) {
temperature = hightemp - ( ( i + .5 ) / saiter * ( hightemp - lowtemp ) ) ;
numiter + + ;
sag : : saiter ( ) ;
if ( numiter % 10000 = = 0 ) {
auto t2 = SDL_GetTicks ( ) ;
if ( t2 - t1 > 1000 ) {
t1 = t2 ;
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println ( hlog , format ( " it %12Ld temp %6.4f [1/e at %13.6f] cost = %f " ,
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numiter , double ( sag : : temperature ) , ( double ) exp ( sag : : temperature ) ,
double ( sag : : cost ) ) ) ;
}
}
}
temperature = - 5 ;
sagmode = sagOff ;
reassign ( ) ;
}
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int sag_ittime = 100 ;
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void iterate ( ) {
if ( ! sagmode ) return ;
int t1 = SDL_GetTicks ( ) ;
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int last = - 1 ;
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for ( int i = 0 ; i < ipturn ; i + + ) {
numiter + + ;
sag : : saiter ( ) ;
}
int t2 = SDL_GetTicks ( ) ;
int t = t2 - t1 ;
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if ( t < ( sag_ittime + 1 ) / 2 ) ipturn * = 2 ;
else if ( t > sag_ittime * 2 ) ipturn / = 2 ;
else ipturn = ipturn * sag_ittime / t ;
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print ( hlog , format ( " it %12Ld temp %6.4f [2:%8.6f,10:%8.6f,50:%8.6f] cost = %f \n " ,
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numiter , double ( sag : : temperature ) ,
( double ) exp ( - 2 * exp ( - sag : : temperature ) ) ,
( double ) exp ( - 10 * exp ( - sag : : temperature ) ) ,
( double ) exp ( - 50 * exp ( - sag : : temperature ) ) ,
( double ) sag : : cost ) ) ;
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if ( auto_visualize ) reassign ( ) ;
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}
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void save_sag_solution ( const string & fname ) {
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FILE * f = fopen ( fname . c_str ( ) , " wt " ) ;
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for ( int i = 0 ; i < isize ( sagid ) ; i + + )
fprintf ( f , " %s;%d \n " , vdata [ i ] . name . c_str ( ) , sagid [ i ] ) ;
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fclose ( f ) ;
}
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void compute_loglik_tab ( ) {
loglik_tab_y . resize ( max_sag_dist ) ;
loglik_tab_n . resize ( max_sag_dist ) ;
for ( int i = 0 ; i < max_sag_dist ; i + + ) {
loglik_tab_y [ i ] = lgsag . lyes ( i ) ;
loglik_tab_n [ i ] = lgsag . lno ( i ) ;
}
}
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void compute_auto_rt ( ) {
ld sum0 = 0 , sum1 = 0 , sum2 = 0 ;
for ( auto & tab : sagdist ) for ( auto i : tab ) {
sum0 + + ;
sum1 + = i ;
sum2 + = i * i ;
}
lgsag . R = sum1 / sum0 ;
lgsag . T = sqrt ( ( sum2 - sum1 * sum1 / sum0 ) / sum0 ) ;
println ( hlog , " automatically set R = " , lgsag . R , " and " , lgsag . T , " max_sag_dist = " , max_sag_dist ) ;
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if ( method = = smLogistic ) compute_loglik_tab ( ) ;
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}
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void optimize_sag_loglik_logistic ( ) {
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vector < int > indist ( max_sag_dist , 0 ) ;
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const int mul = 1 ;
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int N = isize ( sagid ) ;
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for ( int i = 0 ; i < N ; i + + )
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for ( int j = 0 ; j < i ; j + + ) {
int d = sagdist [ sagid [ i ] ] [ sagid [ j ] ] ;
indist [ d ] + + ;
}
vector < int > pedge ( max_sag_dist , 0 ) ;
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for ( int i = 0 ; i < isize ( sagedges ) ; i + + ) {
edgeinfo & ei = sagedges [ i ] ;
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if ( int ( sagdist [ sagid [ ei . i ] ] [ sagid [ ei . j ] ] * mul ) = = 136 ) printf ( " E %d,%d \n " , ei . i , ei . j ) ;
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if ( ei . i ! = ei . j )
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if ( ei . weight > = sag_edge - > visible_from )
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pedge [ sagdist [ sagid [ ei . i ] ] [ sagid [ ei . j ] ] * mul ] + + ;
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}
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for ( int d = 0 ; d < max_sag_dist ; d + + )
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if ( indist [ d ] )
printf ( " %2d: %7d/%7d %7.3lf \n " ,
d , pedge [ d ] , indist [ d ] , double ( pedge [ d ] * 100. / indist [ d ] ) ) ;
ld loglik = 0 ;
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for ( int d = 0 ; d < max_sag_dist ; d + + ) {
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int p = pedge [ d ] , pq = indist [ d ] ;
int q = pq - p ;
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if ( p & & q ) {
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loglik + = p * log ( p ) + q * log ( q ) - pq * log ( pq ) ;
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println ( hlog , tie ( d , p , q ) , loglik ) ;
}
}
println ( hlog , " loglikelihood best = " , fts ( loglik ) ) ;
auto logisticf = [ & ] ( dhrg : : logistic & l ) {
ld loglik = 0 ;
for ( int d = 0 ; d < max_sag_dist ; d + + ) {
int p = pedge [ d ] , pq = indist [ d ] ;
if ( p ) loglik + = p * l . lyes ( d ) ;
if ( pq > p ) loglik + = ( pq - p ) * l . lno ( d ) ;
}
return loglik ;
} ;
dhrg : : fast_loglik_cont ( lgsag , logisticf , nullptr , 1 , 1e-5 ) ;
println ( hlog , " loglikelihood logistic = " , logisticf ( lgsag ) , " R= " , lgsag . R , " T= " , lgsag . T ) ;
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if ( method = = smLogistic ) {
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compute_loglik_tab ( ) ;
prepare_graph ( ) ;
println ( hlog , " cost = " , cost ) ;
}
}
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void optimize_sag_loglik_match ( ) {
lsq : : leastsquare_solver < 2 > lsqs ;
for ( auto & ei : sagedges ) {
ld y = sagdist [ sagid [ ei . i ] ] [ sagid [ ei . j ] ] ;
ld x = 1. / ei . weight ;
lsqs . add_data ( { { x , 1 } } , y ) ;
}
array < ld , 2 > solution = lsqs . solve ( ) ;
match_a = solution [ 0 ] ;
match_b = solution [ 1 ] ;
println ( hlog , " got a = " , match_a , " b = " , match_b ) ;
if ( method = = smMatch )
prepare_graph ( ) ;
}
void optimize_sag_loglik_auto ( ) {
if ( method = = smLogistic ) optimize_sag_loglik_logistic ( ) ;
if ( method = = smMatch ) optimize_sag_loglik_match ( ) ;
}
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void disttable_add ( ld dist , int qty0 , int qty1 ) {
using namespace dhrg ;
size_t i = dist * llcont_approx_prec ;
constexpr array < ll , 2 > zero = { 0 , 0 } ;
while ( disttable_approx . size ( ) < = i ) disttable_approx . push_back ( zero ) ;
disttable_approx [ i ] [ 0 ] + = qty0 ;
disttable_approx [ i ] [ 1 ] + = qty1 ;
}
ld approx_01 ( hyperpoint h ) {
ld d = 0 ;
if ( h [ 0 ] > 1 ) {
ld z = log ( h [ 0 ] ) ;
d + = z ; h [ 1 ] * = h [ 0 ] ; h [ 0 ] = 1 ; h [ 2 ] + = z ;
}
d + = h [ 0 ] ;
if ( h [ 1 ] > 1 ) {
ld z = log ( h [ 1 ] ) ;
d + = z ; h [ 1 ] = 1 ; h [ 2 ] - = z ;
}
d + = h [ 1 ] ;
d + = abs ( h [ 2 ] ) ;
return d ;
}
ld pdist ( hyperpoint hi , hyperpoint hj ) {
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if ( sol ) return min ( geo_dist ( hi , hj ) , geo_dist ( hj , hi ) ) ;
if ( prod & & angular ) {
auto di = product_decompose ( hi ) ;
auto dj = product_decompose ( hj ) ;
ld x = hdist ( di . second , dj . second ) ;
ld z = di . first - dj . first ;
return log ( ( x * x + z * z ) * ( x > 0 ? sinh ( x ) / x : 0 ) ) ;
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}
return geo_dist ( hi , hj ) ;
} ;
ld pdist ( int i , int j ) {
return pdist ( placement [ i ] , placement [ j ] ) ;
} ;
void prepare_embedding ( ) {
map < int , transmatrix > maps ;
vector < int > visited ;
auto visit = [ & ] ( int id , const transmatrix & T ) {
if ( maps . count ( id ) ) return ;
maps [ id ] = T ;
visited . push_back ( id ) ;
} ;
visit ( 0 , Id ) ;
for ( int i = 0 ; i < isize ( visited ) ; i + + ) {
cell * c0 = sagcells [ i ] ;
transmatrix T0 = maps [ i ] ;
for ( int d = 0 ; d < c0 - > type ; d + + )
if ( ids . count ( c0 - > move ( d ) ) )
visit ( ids [ c0 - > move ( d ) ] , T0 * currentmap - > adj ( c0 , d ) ) ;
}
int DN = isize ( sagid ) ;
placement . resize ( DN ) ;
for ( int i = 0 ; i < DN ; i + + ) placement [ i ] = tC0 ( maps [ sagid [ i ] ] ) ;
}
int embiter ;
void compute_loglik ( ) {
dhrg : : llcont_approx_prec = 10 ;
dhrg : : disttable_approx . clear ( ) ;
int DN = isize ( sagid ) ;
for ( int i = 0 ; i < DN ; i + + )
for ( int j = 0 ; j < i ; j + + )
disttable_add ( pdist ( i , j ) , 1 , 0 ) ;
for ( int i = 0 ; i < isize ( sagedges ) ; i + + ) {
edgeinfo & ei = sagedges [ i ] ;
if ( ei . i ! = ei . j )
disttable_add ( pdist ( ei . i , ei . j ) , - 1 , 1 ) ;
}
dhrg : : logisticfun lc = dhrg : : loglik_cont_approx ;
dhrg : : fast_loglik_cont ( lgemb , lc , nullptr , 1 , 1e-5 ) ;
println ( hlog , " loglik = " , format ( " %.6f " , lc ( lgemb ) ) , " R = " , lgemb . R , " T = " , lgemb . T , " iterations = " , embiter ) ;
}
void reassign_embedding ( ) {
int DN = isize ( sagid ) ;
for ( int i = 0 ; i < DN ; i + + ) {
vdata [ i ] . m - > base = sagcells [ 0 ] ;
vdata [ i ] . m - > at = rgpushxto0 ( placement [ i ] ) ;
virtualRebase ( vdata [ i ] . m ) ;
forgetedges ( i ) ;
}
shmup : : fixStorage ( ) ;
}
void improve_embedding ( ) {
embiter + + ;
if ( placement . empty ( ) ) {
prepare_embedding ( ) ;
compute_loglik ( ) ;
}
ld eps = .1 ;
int DN = isize ( sagid ) ;
hyperpoint h = C0 ;
for ( int i = 0 ; i < WDIM ; i + + ) h [ i ] + = ( hrandf ( ) - 0.5 ) * eps ;
h = normalize ( h ) ;
auto nplacement = placement ;
parallelize ( DN , [ & ] ( int a , int b ) {
for ( int i = a ; i < b ; i + + ) {
hyperpoint np = rgpushxto0 ( placement [ i ] ) * h ;
ld change ;
for ( auto e : edges_yes [ i ] ) change - = lgemb . lyes ( pdist ( placement [ i ] , placement [ e ] ) ) ;
for ( auto e : edges_no [ i ] ) change - = lgemb . lno ( pdist ( placement [ i ] , placement [ e ] ) ) ;
for ( auto e : edges_yes [ i ] ) change + = lgemb . lyes ( pdist ( np , placement [ e ] ) ) ;
for ( auto e : edges_no [ i ] ) change + = lgemb . lno ( pdist ( np , placement [ e ] ) ) ;
if ( change > 0 ) nplacement [ i ] = np ;
}
return 0 ;
} ) ;
placement = nplacement ;
}
int embturn = 1 ;
void embedding_iterate ( ) {
int t1 = SDL_GetTicks ( ) ;
for ( int i = 0 ; i < embturn ; i + + ) {
improve_embedding ( ) ;
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}
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int t2 = SDL_GetTicks ( ) ;
int t = t2 - t1 ;
if ( t < 50 ) embturn * = 2 ;
else if ( t > 200 ) embturn = ( embturn + 1 ) / 2 ;
else embturn = ( embturn * 100 + ( t - 1 ) ) / t ;
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compute_loglik ( ) ;
if ( auto_visualize ) reassign_embedding ( ) ;
}
void save_embedding ( const string & fname ) {
fhstream f ( fname , " wt " ) ;
for ( int i = 0 ; i < isize ( sagid ) ; i + + ) {
println ( f , vdata [ i ] . name ) ;
for ( int d = 0 ; d < MDIM ; d + + )
println ( f , format ( " %.20f " , placement [ i ] [ d ] ) ) ;
}
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}
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void load_embedding ( const string & fname ) {
prepare_embedding ( ) ;
fhstream f ( fname , " rt " ) ;
if ( informat = = 2 ) {
/* H2 embedding */
while ( ! feof ( f . f ) ) {
string lab = scan < string > ( f ) ;
int id ;
if ( ! labeler . count ( lab ) ) {
printf ( " unknown vertex: %s \n " , lab . c_str ( ) ) ;
continue ;
}
else id = getid ( lab ) ;
ld alpha , r ;
if ( 1 ) {
dynamicval < eGeometry > g ( geometry , gNormal ) ;
hyperpoint h ;
for ( int d = 0 ; d < MDIM ; d + + ) h [ d ] = scan < ld > ( f ) ;
alpha = atan2 ( h ) ;
r = hdist0 ( h ) ;
println ( hlog , " read " , lab , " as " , h , " which is " , tie ( alpha , r ) ) ;
}
placement [ id ] = direct_exp ( cspin ( 0 , 2 , alpha ) * ctangent ( 0 , r ) ) ;
println ( hlog , " dist = " , pdist ( placement [ id ] , C0 ) , " expected: " , r ) ;
}
}
else if ( informat = = 3 ) {
/* BFKL */
string ignore ;
if ( ! scan ( f , ignore , ignore , ignore , ignore , ignore , ignore , ignore , ignore ) ) {
printf ( " Error: incorrect format of the first line \n " ) ; exit ( 1 ) ;
}
while ( true ) {
string lab = scan < string > ( f ) ;
if ( lab = = " " | | lab = = " #ROGUEVIZ_ENDOFDATA " ) break ;
ld r , alpha ;
if ( ! scan ( f , r , alpha ) ) { printf ( " Error: incorrect format of r/alpha \n " ) ; exit ( 1 ) ; }
hyperpoint h = spin ( alpha * degree ) * xpush0 ( r ) ;
if ( ! labeler . count ( lab ) ) {
printf ( " unknown vertex: %s \n " , lab . c_str ( ) ) ;
}
else {
int id = getid ( lab ) ;
placement [ id ] = h ;
}
}
}
else if ( informat = = 4 ) {
while ( true ) {
string lab = scan < string > ( f ) ;
if ( lab = = " " ) break ;
ld r , alpha ;
if ( ! scan ( f , r , alpha ) ) { printf ( " Error: incorrect format of r/alpha \n " ) ; exit ( 1 ) ; }
hyperpoint h = spin ( alpha ) * xpush0 ( r ) ;
if ( ! labeler . count ( lab ) ) {
printf ( " unknown vertex: %s \n " , lab . c_str ( ) ) ;
}
else {
int id = getid ( lab ) ;
placement [ id ] = h ;
}
}
}
else {
while ( ! feof ( f . f ) ) {
string lab = scan < string > ( f ) ;
int id ;
if ( ! labeler . count ( lab ) ) {
printf ( " unknown vertex: %s \n " , lab . c_str ( ) ) ;
continue ;
}
else id = getid ( lab ) ;
hyperpoint h ;
for ( int d = 0 ; d < MDIM ; d + + ) h [ d ] = scan < ld > ( f ) ;
placement [ id ] = h ;
}
}
reassign_embedding ( ) ;
compute_loglik ( ) ;
}
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void read_hubs ( const string & fname ) {
hubval . resize ( isize ( vdata ) , - 1 ) ;
fhstream f ( fname , " rt " ) ;
if ( ! f . f ) { printf ( " Failed to open hub file: %s \n " , fname . c_str ( ) ) ; exit ( 1 ) ; }
println ( hlog , " loading hubs: " , fname ) ;
while ( ! feof ( f . f ) ) {
string l1 , l2 ;
while ( true ) {
int c = fgetc ( f . f ) ;
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if ( c = = EOF ) return ;
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else if ( c = = ' ; ' ) break ;
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else if ( rv_ignore ( c ) ) ;
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else l1 + = c ;
}
while ( true ) {
int c = fgetc ( f . f ) ;
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if ( c = = EOF ) return ;
else if ( c = = ' ; ' ) return ;
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else if ( rv_ignore ( c ) ) break ;
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else l2 + = c ;
}
if ( ! id_known ( l1 ) ) {
printf ( " label unknown: %s \n " , l1 . c_str ( ) ) ;
exit ( 1 ) ;
}
hubval [ getid ( l1 ) ] = atoi ( l2 . c_str ( ) ) ;
}
}
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void readsag ( const char * fname ) {
maxweight = 0 ;
sag_edge = add_edgetype ( " SAG edge " ) ;
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rogueviz : : cleanup . push_back ( [ ] { sag_edge = nullptr ; } ) ;
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fhstream f ( fname , " rt " ) ;
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if ( ! f . f ) {
printf ( " Failed to open SAG file: %s \n " , fname ) ;
throw " failed to open SAG file " ;
}
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if ( informat = = 1 ) {
scanline ( f ) ;
set < pair < int , int > > edges ;
int all = 0 , good = 0 ;
while ( ! feof ( f . f ) ) {
string l1 = scan < string > ( f ) ;
string l2 = scan < string > ( f ) ;
if ( l1 = = " " ) continue ;
if ( l2 = = " " ) continue ;
edgeinfo ei ( sag_edge ) ;
ei . i = getid ( l1 ) ;
ei . j = getid ( l2 ) ;
if ( ei . i > ei . j ) swap ( ei . i , ei . j ) ;
all + + ;
if ( edges . count ( { ei . i , ei . j } ) ) continue ;
good + + ;
edges . emplace ( ei . i , ei . j ) ;
ei . weight = 1 ;
sagedges . push_back ( ei ) ;
}
println ( hlog , " N = " , isize ( vdata ) , " edges = " , good , " / " , all ) ;
return ;
}
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while ( ! feof ( f . f ) ) {
string l1 , l2 ;
while ( true ) {
int c = fgetc ( f . f ) ;
if ( c = = EOF ) return ;
else if ( c = = ' ; ' ) break ;
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else if ( rv_ignore ( c ) ) ;
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else l1 + = c ;
}
while ( true ) {
int c = fgetc ( f . f ) ;
if ( c = = EOF ) return ;
else if ( c = = ' ; ' ) break ;
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else if ( rv_ignore ( c ) ) ;
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else l2 + = c ;
}
ld wei ;
if ( ! scan ( f , wei ) ) continue ;
edgeinfo ei ( sag_edge ) ;
ei . i = getid ( l1 ) ;
ei . j = getid ( l2 ) ;
ei . weight = wei ;
sagedges . push_back ( ei ) ;
}
}
ld edgepower = 1 , edgemul = 1 ;
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void init ( ) {
rogueviz : : init ( RV_GRAPH | RV_WHICHWEIGHT | RV_AUTO_MAXWEIGHT | RV_HAVE_WEIGHT ) ;
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rv_hook ( rogueviz : : hooks_close , 100 , [ ] { sag : : sagedges . clear ( ) ; } ) ;
rv_hook ( shmup : : hooks_turn , 100 , turn ) ;
rv_hook ( rogueviz : : hooks_rvmenu , 100 , [ ] {
dialog : : addSelItem ( XLAT ( " temperature " ) , fts ( sag : : temperature ) , ' t ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( sag : : temperature , sag : : lowtemp , sag : : hightemp , 1 , 0 , XLAT ( " temperature " ) , " " ) ;
} ) ;
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dialog : : addSelItem ( XLAT ( " SAG mode " ) , sag : : sagmodes [ sag : : sagmode ] , ' m ' ) ;
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dialog : : add_action ( [ ] { sag : : sagmode = sag : : eSagmode ( ( 1 + sag : : sagmode ) % 3 ) ; } ) ;
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dialog : : addSelItem ( XLAT ( " min temperature " ) , fts ( sag : : lowtemp ) , ' i ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( sag : : lowtemp , - 20 , 20 , 1 , 0 , XLAT ( " min temperature " ) , " " ) ;
} ) ;
dialog : : addSelItem ( XLAT ( " max temperature " ) , fts ( sag : : hightemp ) , ' i ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( sag : : hightemp , - 20 , 20 , 1 , 0 , XLAT ( " high temperature " ) , " " ) ;
} ) ;
dialog : : addSelItem ( XLAT ( " automatic cycle " ) , fts ( sag : : vizsa_len ) , ' c ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( sag : : vizsa_len , 5 , 1800 , 1 , 0 , XLAT ( " automatic cycle " ) , " " ) ;
} ) ;
dialog : : addBoolItem ( XLAT ( " automatic " ) , sag : : vizsa_start , ' a ' ) ;
dialog : : add_action ( [ ] {
sag : : vizsa_start = sag : : vizsa_start ? 0 : SDL_GetTicks ( ) ;
sag : : sagmode = sagOff ;
} ) ;
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dialog : : addSelItem ( XLAT ( " smoothness " ) , its ( sag_ittime ) , ' s ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( sag_ittime , 0 , 1000 , 10 , 100 , XLAT ( " smoothness " ) ,
XLAT ( " How much milliseconds to compute before re-rendering the screen when optimizing in the background. Low values look nicer, but may cause less time to be spent on iterations. " )
) ;
} ) ;
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dialog : : addBoolItem_action ( XLAT ( " auto-visualize " ) , sag : : auto_visualize , ' b ' ) ;
dialog : : addBoolItem_action ( XLAT ( " continuous embedding " ) , sag : : embedding , ' e ' ) ;
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if ( method = = smMatch ) {
dialog : : addSelItem ( XLAT ( " match parameter A " ) , fts ( match_a ) , ' A ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( match_a , 0 , 10 , 1 , 1 , XLAT ( " match parameter A " ) , " " ) ;
dialog : : reaction = prepare_graph ;
} ) ;
dialog : : addSelItem ( XLAT ( " match parameter B " ) , fts ( match_b ) , ' B ' ) ;
dialog : : add_action ( [ ] {
dialog : : editNumber ( match_b , 0 , 10 , 1 , 1 , XLAT ( " match parameter B " ) , " " ) ;
dialog : : reaction = prepare_graph ;
} ) ;
}
dialog : : addSelItem ( XLAT ( " cost value " ) , fts ( cost ) , ' X ' ) ;
dialog : : add_action ( [ ] {
optimize_sag_loglik_auto ( ) ;
} ) ;
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} ) ;
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weight_label = " min weight " ;
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temperature = 0 ; sagmode = sagOff ;
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}
void create_viz ( ) {
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int DN = isize ( vdata ) ;
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for ( int i = 0 ; i < DN ; i + + ) vdata [ i ] . data = 0 ;
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for ( int i = 0 ; i < isize ( sagedges ) ; i + + ) {
edgeinfo & ei = sagedges [ i ] ;
ei . weight2 = pow ( ( double ) ei . weight , ( double ) edgepower ) * edgemul ;
addedge0 ( ei . i , ei . j , & ei ) ;
}
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for ( int i = 0 ; i < DN ; i + + ) {
int ii = i ;
vertexdata & vd = vdata [ ii ] ;
vd . cp = colorpair ( dftcolor ) ;
createViz ( ii , sagcells [ sagid [ i ] ] , Id ) ;
}
storeall ( ) ;
}
void read ( string fn ) {
fname = fn ;
init ( ) ;
readsag ( fname . c_str ( ) ) ;
if ( hub_filename ! = " " )
read_hubs ( hub_filename ) ;
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int DN = isize ( vdata ) ;
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if ( legacy )
init_snake ( 2 * DN ) ;
else
init_sag_cells ( ) ;
compute_dists ( ) ;
int SN = isize ( sagcells ) ;
if ( SN < DN ) {
println ( hlog , " SN = " , SN , " DN = " , DN ) ;
throw hr_exception ( " not enough cells for SAG " ) ;
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exit ( 1 ) ;
}
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sagid . resize ( DN ) ;
for ( int i = 0 ; i < DN ; i + + ) sagid [ i ] = i ;
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prepare_graph ( ) ;
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create_viz ( ) ;
}
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void generate_fake_data ( int n , int m ) {
init ( ) ;
init_sag_cells ( ) ;
compute_dists ( ) ;
sagid . resize ( n ) ;
for ( int i = 0 ; i < n ; i + + ) sagid [ i ] = i ;
hrandom_shuffle ( sagid ) ;
if ( m > n | | m < 0 ) throw hr_exception ( " generate_fake_data parameters incorrect " ) ;
sagid . resize ( m ) ;
int SN = isize ( sagcells ) ;
int DN = isize ( sagid ) ;
vdata . resize ( DN ) ;
for ( int i = 0 ; i < DN ; i + + )
vdata [ i ] . name = its ( i ) + " @ " + its ( sagid [ i ] ) ;
sag_edge = add_edgetype ( " SAG edge " ) ;
for ( int i = 0 ; i < DN ; i + + )
for ( int j = i + 1 ; j < DN ; j + + ) {
edgeinfo ei ( sag_edge ) ;
ei . i = i ;
ei . j = j ;
ei . weight = 1. / sagdist [ sagid [ i ] ] [ sagid [ j ] ] ;
sagedges . push_back ( ei ) ;
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}
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if ( SN < DN ) {
println ( hlog , " SN = " , SN , " DN = " , DN ) ;
throw hr_exception ( " not enough cells for SAG " ) ;
exit ( 1 ) ;
}
prepare_graph ( ) ;
create_viz ( ) ;
for ( int i = 0 ; i < DN ; i + + ) {
color_t col = patterns : : compute_cell_color ( sagcells [ sagid [ i ] ] ) ;
col < < = 8 ;
col | = 0xFF ;
vdata [ i ] . cp . color1 = vdata [ i ] . cp . color2 = col ;
}
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}
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ld compute_mAP ( ) {
ld mAP = 0 ;
int DN = isize ( sagid ) ;
for ( int i = 0 ; i < DN ; i + + ) {
vector < int > alldist ;
for ( int j = 0 ; j < DN ; j + + ) if ( i ! = j ) alldist . push_back ( sagdist [ sagid [ i ] ] [ sagid [ j ] ] ) ;
sort ( alldist . begin ( ) , alldist . end ( ) ) ;
int q = isize ( edges_yes [ i ] ) ;
int qmin = q - 1 , qmax = q + 1 ;
int threshold = alldist [ q - 1 ] ;
while ( qmin & & alldist [ qmin - 1 ] = = threshold ) qmin - - ;
while ( qmax < isize ( alldist ) - 2 & & alldist [ qmax + 1 ] = = threshold ) qmax + + ;
ld on_threshold = ( q - qmin ) / ( qmax + 1. - qmin ) ;
int good = 0 , onthr = 0 ;
for ( auto j : edges_yes [ i ] ) {
int d = sagdist [ sagid [ i ] ] [ sagid [ j ] ] ;
if ( d < threshold ) good + + ;
if ( d = = threshold ) onthr + + ;
}
mAP + = ( good + onthr * on_threshold ) / q / DN ;
}
return mAP ;
}
int logid ;
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void geo_stats ( ) {
start_game ( ) ;
println ( hlog , " init_sag_cells started " ) ;
init_sag_cells ( ) ;
println ( hlog , " compute_dists started " ) ;
compute_dists ( ) ;
println ( hlog , " real " ) ;
vector < short > sorted_sagdist ;
for ( auto & a : sagdist ) for ( auto b : a ) sorted_sagdist . push_back ( b ) ;
sort ( sorted_sagdist . begin ( ) , sorted_sagdist . end ( ) ) ;
vector < int > d ( 5 , 0 ) ;
for ( auto a : sagdist [ 0 ] ) if ( a < 5 ) d [ a ] + + ;
for ( int i = 0 ; i < 3 ; i + + ) {
bool first = false ;
# define out(x, y) if(i == 0) println(hlog, x, " = ", y); else if(first) print(hlog, ";"); first = true; if(i == 1) print(hlog, x); if(i == 2) print(hlog, y);
out ( " nodes " , isize ( sagcells ) ) ;
out ( " maxsagdist " , max_sag_dist ) ;
out ( " dim " , ( euclid & & WDIM = = 2 & & euc : : eu . user_axes [ 1 ] [ 1 ] = = 1 ) ? 1 : WDIM ) ;
out ( " geometry " , S3 > = OINF ? " tree " : hyperbolic ? " hyperbolic " : sphere ? " sphere " : euclid ? " euclid " : nil ? " nil " : sol ? " solv " : prod ? " product " : " other " ) ;
out ( " closed " , max_sag_dist = = isize ( sagcells ) ? 0 : closed_manifold ? 1 : 0 ) ;
out ( " angular " , angular ) ;
for ( int p : { 1 , 10 , 50 } ) { out ( format ( " sagdist%02d " , p ) , sorted_sagdist [ ( p * sorted_sagdist . size ( ) ) / 100 ] ) ; }
for ( int p : { 1 , 2 , 3 , 4 } ) { out ( format ( " d%d " , p ) , d [ p ] ) ; }
println ( hlog ) ;
# undef out
}
}
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void output_stats ( ) {
if ( auto_save ! = " " & & cost < best_cost ) {
println ( hlog , " cost " , cost , " beats " , best_cost ) ;
best_cost = cost ;
sag : : save_sag_solution ( auto_save ) ;
}
println ( hlog , " solution: " , sagid ) ;
int DN = isize ( sagid ) ;
ld mAP = compute_mAP ( ) ;
dhrg : : iddata routing_result ;
dhrg : : prepare_pairs ( DN , [ ] ( int i ) { return edges_yes [ i ] ; } ) ;
dhrg : : greedy_routing ( routing_result , [ ] ( int i , int j ) { return sagdist [ sagid [ i ] ] [ sagid [ j ] ] ; } ) ;
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print ( hlog , " CSV; " , logid + + , " ; " , isize ( sagnode ) , " ; " , DN , " ; " , isize ( sagedges ) , " ; " , lgsag . R , " ; " , lgsag . T , " ; " , cost , " ; " , mAP , " ; " , routing_result . suc / routing_result . tot , " ; " , routing_result . routedist / routing_result . bestdist ) ;
if ( report_tempi ) print ( hlog , " ; " , hightemp , " ; " , lowtemp , " ; " , format ( " %lld " , numiter ) ) ;
println ( hlog ) ;
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}
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int readArgs ( ) {
# if CAP_COMMANDLINE
using namespace arg ;
if ( 0 ) ;
else if ( argis ( " -sagmin " ) ) {
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auto & ed = sag_edge ? * sag_edge : default_edgetype ;
shift_arg_formula ( ed . visible_from ) ;
ed . visible_from_hi = ed . visible_from ;
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}
else if ( argis ( " -sagminhi " ) ) {
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auto & ed = sag_edge ? * sag_edge : default_edgetype ;
shift_arg_formula ( ed . visible_from_hi ) ;
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}
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else if ( argis ( " -sag_gdist " ) ) {
shift ( ) ; sag : : gdist_prec = argi ( ) ;
}
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else if ( argis ( " -sag_gdist_dijkstra " ) ) {
shift ( ) ; sag : : dijkstra_maxedge = argi ( ) ;
}
else if ( argis ( " -sag_gdist_save " ) ) {
shift ( ) ;
fhstream f ( args ( ) , " wt " ) ;
f . write ( sagdist ) ;
}
else if ( argis ( " -sag_gdist_load " ) ) {
shift ( ) ; distance_file = args ( ) ;
}
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else if ( argis ( " -sagrt " ) ) {
shift ( ) ; sag : : lgsag . R = argf ( ) ;
shift ( ) ; sag : : lgsag . T = argf ( ) ;
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if ( method = = smLogistic ) compute_loglik_tab ( ) ;
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}
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else if ( argis ( " -sagmatch-ab " ) ) {
shift ( ) ; sag : : match_a = argf ( ) ;
shift ( ) ; sag : : match_b = argf ( ) ;
if ( method = = smMatch ) prepare_graph ( ) ;
}
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else if ( argis ( " -sagrt-auto " ) ) {
compute_auto_rt ( ) ;
}
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else if ( argis ( " -sag_use_loglik " ) ) {
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shift ( ) ; int mtd = argi ( ) ;
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if ( mtd = = 0 ) method = smClosest , loglik_repeat = false ;
if ( mtd = = 1 ) method = smLogistic , loglik_repeat = false ;
if ( mtd = = 2 ) method = smLogistic , loglik_repeat = true ;
if ( mtd = = 3 ) method = smMatch , loglik_repeat = false ;
if ( mtd = = 4 ) method = smMatch , loglik_repeat = true ;
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if ( method = = smLogistic )
compute_loglik_tab ( ) ;
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if ( method = = smMatch ) prepare_graph ( ) ;
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}
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else if ( argis ( " -sagformat " ) ) {
shift ( ) ; informat = argi ( ) ;
}
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// (1) configure edge weights
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else if ( argis ( " -sag-edgepower " ) ) {
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shift_arg_formula ( sag : : edgepower ) ;
shift_arg_formula ( sag : : edgemul ) ;
}
// (1) configure temperature (high, low)
else if ( argis ( " -sagtemp " ) ) {
shift ( ) ; sag : : hightemp = argi ( ) ;
shift ( ) ; sag : : lowtemp = argi ( ) ;
}
// (2) read the edge data
else if ( argis ( " -sagpar " ) ) {
PHASE ( 3 ) ;
shift ( ) ;
sag : : sagpar = argi ( ) ;
}
else if ( argis ( " -sag " ) ) {
PHASE ( 3 ) ;
shift ( ) ; sag : : read ( args ( ) ) ;
}
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else if ( argis ( " -sagfake " ) ) {
PHASE ( 3 ) ;
shift ( ) ; int n = argi ( ) ;
shift ( ) ; int m = argi ( ) ;
sag : : generate_fake_data ( n , m ) ;
}
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else if ( argis ( " -sagaviz " ) ) {
PHASE ( 3 ) ;
shift ( ) ; sag : : auto_visualize = argi ( ) ;
}
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else if ( argis ( " -saghubs " ) ) {
println ( hlog , " HUBS " ) ;
PHASE ( 3 ) ;
shift_arg_formula ( sag : : hub_penalty ) ;
shift ( ) ; hub_filename = args ( ) ;
}
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// (3) load the initial positioning
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else if ( argis ( " -sagload " ) ) {
PHASE ( 3 ) ; shift ( ) ; sag : : load_sag_solution ( args ( ) ) ;
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}
// (4) perform simulated annealing: -fullsa <time in seconds>
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else if ( argis ( " -sagfull " ) ) {
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shift ( ) ; sag : : dofullsa ( argi ( ) ) ;
}
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else if ( argis ( " -sagfulli " ) ) {
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shift ( ) ; sag : : dofullsa_iterations ( argll ( ) ) ;
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}
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else if ( argis ( " -sagviz " ) ) {
sag : : vizsa_start = SDL_GetTicks ( ) ;
shift ( ) ; sag : : vizsa_len = argi ( ) ;
}
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else if ( argis ( " -sagsmooth " ) ) {
shift ( ) ; sag : : sag_ittime = argi ( ) ;
}
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else if ( argis ( " -sagstats " ) ) {
output_stats ( ) ;
}
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else if ( argis ( " -sag-angular " ) ) {
shift ( ) ; angular = argi ( ) ;
}
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else if ( argis ( " -sagstats-logid " ) ) {
shift ( ) ; logid = argi ( ) ;
}
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// (5) save the positioning
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else if ( argis ( " -sagsave " ) ) {
PHASE ( 3 ) ; shift ( ) ; sag : : save_sag_solution ( args ( ) ) ;
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}
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else if ( argis ( " -sagsave-auto " ) ) {
PHASE ( 3 ) ; shift ( ) ; auto_save = args ( ) ;
}
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// (6) output loglikelihood
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else if ( argis ( " -sagloglik-l " ) ) {
sag : : optimize_sag_loglik_logistic ( ) ;
}
else if ( argis ( " -sagloglik-m " ) ) {
sag : : optimize_sag_loglik_match ( ) ;
}
else if ( argis ( " -sagloglik-a " ) ) {
sag : : optimize_sag_loglik_auto ( ) ;
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}
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else if ( argis ( " -sagmode " ) ) {
shift ( ) ;
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vizsa_start = 0 ;
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sagmode = ( eSagmode ) argi ( ) ;
if ( sagmode = = sagSA ) {
shift ( ) ; temperature = argf ( ) ;
}
}
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else if ( argis ( " -sagembed " ) ) {
sag : : embedding = true ;
}
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else if ( argis ( " -sag0 " ) ) {
sag : : report_tempi = true ;
numiter = 0 ;
}
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else if ( argis ( " -sagembedoff " ) ) {
sag : : embedding = false ;
}
else if ( argis ( " -sagsavee " ) ) {
PHASE ( 3 ) ; shift ( ) ; sag : : save_embedding ( args ( ) ) ;
}
else if ( argis ( " -sagloade " ) ) {
PHASE ( 3 ) ; shift ( ) ; sag : : load_embedding ( args ( ) ) ;
}
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else if ( argis ( " -sag-geo-stats " ) ) geo_stats ( ) ;
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else return 1 ;
# endif
return 0 ;
}
bool turn ( int delta ) {
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if ( vizsa_start ) {
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if ( vizsa_start = = - 1 ) vizsa_start = ticks ;
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auto t = ticks ;
double d = ( t - vizsa_start ) / ( 1000. * vizsa_len ) ;
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if ( d > 1 & & loglik_repeat ) {
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optimize_sag_loglik_auto ( ) ;
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output_stats ( ) ;
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vizsa_start = - 1 ;
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}
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if ( d > 1 ) sagmode = sagOff ;
else {
temperature = hightemp - ( d * ( hightemp - lowtemp ) ) ;
sagmode = sagSA ;
}
}
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if ( sagmode = = sagOff & & embedding ) {
embedding_iterate ( ) ;
}
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iterate ( ) ;
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return false ;
// shmup::pc[0]->rebase();
}
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string cname ( ) {
if ( euclid ) return " coord-6.txt " ;
if ( PURE ) return " coord-7.txt " ;
return " coord-67.txt " ;
}
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int ah = addHook ( hooks_args , 100 , readArgs )
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+ addHook_rvslides ( 120 , [ ] ( string s , vector < tour : : slide > & v ) {
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if ( s ! = " data " ) return ;
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using namespace pres ;
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string sagf = " SAG/ " ;
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v . push_back (
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slide { sagf + " Roguelikes " , 63 , LEGAL : : UNLIMITED | QUICKGEO ,
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" A visualization of roguelikes, based on discussion on /r/reddit. "
" See: http://www.roguetemple.com/z/hyper/reddit.php " ,
roguevizslide ( ' 0 ' , [ ] ( ) {
rogueviz : : dftcolor = 0x282828FF ;
rogueviz : : showlabels = true ;
part ( rogueviz : : default_edgetype . color , 0 ) = 181 ;
rogueviz : : sag : : edgepower = 1 ;
rogueviz : : sag : : edgemul = 1 ;
gmatrix . clear ( ) ;
drawthemap ( ) ;
gmatrix0 = gmatrix ;
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slide_backup ( rogueviz : : sag : : legacy , true ) ;
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rogueviz : : sag : : read ( RVPATH " roguelikes/edges.csv " ) ;
rogueviz : : readcolor ( RVPATH " roguelikes/color.csv " ) ;
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rogueviz : : sag : : load_sag_solution ( RVPATH " roguelikes/ " + cname ( ) ) ;
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} )
}
) ;
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v . push_back ( slide { sagf + " Programming languages of GitHub " , 64 , LEGAL : : UNLIMITED | QUICKGEO ,
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" A visualization of programming languages. " ,
roguevizslide ( ' 0 ' , [ ] ( ) {
rogueviz : : dftcolor = 0x282828FF ;
rogueviz : : showlabels = true ;
part ( rogueviz : : default_edgetype . color , 0 ) = 128 ;
rogueviz : : sag : : edgepower = .4 ;
rogueviz : : sag : : edgemul = .02 ;
gmatrix . clear ( ) ;
drawthemap ( ) ;
gmatrix0 = gmatrix ;
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slide_backup ( rogueviz : : sag : : legacy , true ) ;
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rogueviz : : sag : : read ( RVPATH " lang/edges.csv " ) ;
rogueviz : : readcolor ( RVPATH " lang/color.csv " ) ;
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rogueviz : : sag : : load_sag_solution ( RVPATH " lang/ " + cname ( ) ) ;
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if ( euclid ) rogueviz : : legend . clear ( ) ;
} )
} ) ;
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v . push_back ( slide { sagf + " Boardgames " , 62 , LEGAL : : UNLIMITED | QUICKGEO ,
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" A visualization of board games, based on discussions on Reddit. " ,
roguevizslide ( ' 0 ' , [ ] ( ) {
rogueviz : : dftcolor = 0x282828FF ;
rogueviz : : showlabels = true ;
part ( rogueviz : : default_edgetype . color , 0 ) = 157 ;
rogueviz : : sag : : edgepower = 1 ;
rogueviz : : sag : : edgemul = 1 ;
gmatrix . clear ( ) ;
drawthemap ( ) ;
gmatrix0 = gmatrix ;
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slide_backup ( rogueviz : : sag : : legacy , true ) ;
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rogueviz : : sag : : read ( RVPATH " boardgames/edges.csv " ) ;
rogueviz : : readcolor ( RVPATH " boardgames/color.csv " ) ;
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rogueviz : : sag : : load_sag_solution ( RVPATH " boardgames/ " + cname ( ) ) ;
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} )
} ) ;
} ) ;
EX }
}