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// Hyperbolic Rogue -- Arbitrary Tilings
// Copyright (C) 2011-2019 Zeno Rogue, see 'hyper.cpp' for details
/** \file arbitrile.cpp
* \ brief Arbitrary tilings
*
* Arbitrary tilings , defined in . tes files .
*/
# include "hyper.h"
namespace hr {
EX namespace arb {
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EX int affine_limit = 200 ;
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EX bool legacy ; /* angleofs command */
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# if HDR
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/** a type used to specify the connections between shapes */
struct connection_t {
/** the index of the connected shape in the 'shapes' table */
int sid ;
/** the index of the edge in the 'shapes' table */
int eid ;
/** 1 if this connection mirrored, 0 otherwise. do_unmirror() removes all mirrors by doubling shapes */
int mirror ;
} ;
inline void print ( hstream & hs , const connection_t & conn ) { print ( hs , tie ( conn . sid , conn . eid , conn . mirror ) ) ; }
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/** \brief each shape of the arb tessellation
* note : the usual HyperRogue convention is : vertex 0 , edge 0 , vertex 1 , edge 1 , . . .
* note : the tesfile convention is : edge 0 , vertex 0 , edge 1 , vertex 1 , . . .
*/
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struct shape {
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/** index in the arbi_tiling::shapes */
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int id ;
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/** flags such as sfLINE and sfPH */
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int flags ;
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/** list of vertices in the usual convention */
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vector < hyperpoint > vertices ;
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/** list of vertices in the tesfile convention */
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vector < ld > angles ;
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/** list of edge lengths */
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vector < ld > edges ;
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/** list of edge connections */
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vector < connection_t > connections ;
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int size ( ) const { return isize ( vertices ) ; }
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void build_from_angles_edges ( ) ;
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vector < pair < int , int > > sublines ;
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vector < pair < ld , ld > > stretch_shear ;
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int repeat_value ;
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/** if a tile/edge combination may be connected to edges j1 and j2 of this, j1-j2 must be divisible by cycle_length */
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int cycle_length ;
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/** list of valences of vertices in the tesfile convention */
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vector < int > vertex_valence ;
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/** list of periods of vertices in the tesfile convention */
vector < int > vertex_period ;
/** list of angles at vertices in the tesfile convention */
vector < vector < ld > > vertex_angles ;
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} ;
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struct slider {
string name ;
ld zero ;
ld current ;
ld min ;
ld max ;
} ;
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struct arbi_tiling {
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int order ;
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bool have_line , have_ph , have_tree , is_star ;
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int yendor_backsteps ;
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vector < shape > shapes ;
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string name ;
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string comment ;
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vector < slider > sliders ;
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ld cscale ;
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int range ;
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ld floor_scale ;
ld boundary_ratio ;
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string filename ;
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int mirror_rules ;
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vector < string > options ;
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int min_valence , max_valence ;
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geometryinfo1 & get_geometry ( ) ;
eGeometryClass get_class ( ) { return get_geometry ( ) . kind ; }
ld scale ( ) ;
} ;
# endif
EX arbi_tiling current ;
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EX bool using_slided ;
EX arbi_tiling slided ;
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EX bool in_slided ( ) { return in ( ) & & using_slided ; }
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EX arbi_tiling & current_or_slided ( ) {
return using_slided ? slided : current ;
}
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/** id of vertex in the arbitrary tiling */
EX short & id_of ( heptagon * h ) { return h - > zebraval ; }
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# if HDR
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struct hr_polygon_error : hr_exception {
vector < transmatrix > v ;
eGeometryClass c ;
int id ;
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transmatrix end ;
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map < string , cld > params ;
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hr_polygon_error ( const vector < transmatrix > & _v , int _id , transmatrix _e ) : v ( _v ) , c ( cgclass ) , id ( _id ) , end ( _e ) { }
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~ hr_polygon_error ( ) noexcept ( true ) { }
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string generate_error ( ) ;
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} ;
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# endif
string hr_polygon_error : : generate_error ( ) {
cld dist = ( hdist0 ( tC0 ( end ) ) / params [ " distunit " ] ) ;
bool angle = abs ( dist ) < 1e-9 ;
if ( angle ) dist = ( atan2 ( end * xpush0 ( 1 ) ) / params [ " angleunit " ] ) ;
return
XLAT ( " Polygon number %1 did not close correctly (%2 %3). Here is the picture to help you understand the issue. \n \n " , its ( id ) ,
angle ? " angle " : " distance " ,
lalign ( 0 , dist )
) ;
}
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struct connection_debug_request : hr_exception {
int id ;
eGeometryClass c ;
connection_debug_request ( int i ) : id ( i ) , c ( cgclass ) { }
} ;
void ensure_geometry ( eGeometryClass c ) {
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stop_game ( ) ;
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if ( c ! = cgclass ) {
if ( c = = gcEuclid ) set_geometry ( gEuclid ) ;
if ( c = = gcHyperbolic ) set_geometry ( gNormal ) ;
if ( c = = gcSphere ) set_geometry ( gSphere ) ;
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}
if ( specialland ! = laCanvas ) {
canvas_default_wall = waInvisibleFloor ;
patterns : : whichCanvas = ' g ' ;
patterns : : canvasback = 0xFFFFFF ;
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enable_canvas ( ) ;
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}
start_game ( ) ;
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}
void start_poly_debugger ( hr_polygon_error & err ) {
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# if CAP_EDIT
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ensure_geometry ( err . c ) ;
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drawthemap ( ) ;
mapeditor : : drawing_tool = true ;
pushScreen ( mapeditor : : showDrawEditor ) ;
mapeditor : : initdraw ( cwt . at ) ;
int n = isize ( err . v ) ;
mapeditor : : dtcolor = 0xFF0000FF ;
mapeditor : : dtwidth = 0.02 ;
for ( int i = 0 ; i < n - 1 ; i + + )
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mapeditor : : dt_add_line ( shiftless ( tC0 ( err . v [ i ] ) ) , shiftless ( tC0 ( err . v [ i + 1 ] ) ) , 0 ) ;
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mapeditor : : dtcolor = 0xFFFFFFFF ;
for ( int i = 0 ; i < n ; i + + )
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mapeditor : : dt_add_text ( shiftless ( tC0 ( err . v [ i ] ) ) , 0.5 , its ( i ) ) ;
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# endif
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}
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void shape : : build_from_angles_edges ( ) {
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transmatrix at = Id ;
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vertices . clear ( ) ;
int n = isize ( angles ) ;
hyperpoint ctr = Hypc ;
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vector < transmatrix > matrices ;
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if ( ! legacy ) for ( auto & a : angles ) a + = M_PI ;
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for ( int i = 0 ; i < n ; i + + ) {
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matrices . push_back ( at ) ;
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if ( debugflags & DF_GEOM ) println ( hlog , " at = " , at ) ;
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vertices . push_back ( tC0 ( at ) ) ;
ctr + = tC0 ( at ) ;
at = at * xpush ( edges [ i ] ) * spin ( angles [ i ] ) ;
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}
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matrices . push_back ( at ) ;
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if ( ! eqmatrix ( at , Id ) ) {
throw hr_polygon_error ( matrices , id , at ) ;
}
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if ( sqhypot_d ( 3 , ctr ) < 1e-2 ) {
// this may happen for some spherical tilings
// try to move towards the center
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if ( debugflags & DF_GEOM ) println ( hlog , " special case encountered " ) ;
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for ( int i = 0 ; i < n ; i + + ) {
ctr + = at * xpush ( edges [ i ] ) * spin ( ( angles [ i ] + M_PI ) / 2 ) * xpush0 ( .01 ) ;
at = at * xpush ( edges [ i ] ) * spin ( angles [ i ] ) ;
}
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if ( debugflags & DF_GEOM ) println ( hlog , " ctr = " , ctr ) ;
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}
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if ( ! legacy ) for ( auto & a : angles ) a - = M_PI ;
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ctr = normalize ( ctr ) ;
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for ( auto & v : vertices ) v = gpushxto0 ( ctr ) * v ;
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}
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EX bool correct_index ( int index , int size ) { return index > = 0 & & index < size ; }
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template < class T > bool correct_index ( int index , const T & v ) { return correct_index ( index , isize ( v ) ) ; }
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template < class T > void verify_index ( int index , const T & v , exp_parser & ep ) { if ( ! correct_index ( index , v ) ) throw hr_parse_exception ( " bad index: " + its ( index ) + " at " + ep . where ( ) ) ; }
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string unnamed = " unnamed " ;
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EX void load_tile ( exp_parser & ep , arbi_tiling & c , bool unit ) {
c . shapes . emplace_back ( ) ;
auto & cc = c . shapes . back ( ) ;
cc . id = isize ( c . shapes ) - 1 ;
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cc . flags = 0 ;
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cc . repeat_value = 1 ;
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while ( ep . next ( ) ! = ' ) ' ) {
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cld dist = 1 ;
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if ( ! unit ) {
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dist = ep . parse ( 0 ) ;
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ep . force_eat ( " , " ) ;
}
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cld angle = ep . parse ( 0 ) ;
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cc . edges . push_back ( ep . validate_real ( dist * ep . extra_params [ " distunit " ] ) ) ;
cc . angles . push_back ( ep . validate_real ( angle * ep . extra_params [ " angleunit " ] + ep . extra_params [ " angleofs " ] ) ) ;
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if ( ep . eat ( " , " ) ) continue ;
else if ( ep . eat ( " ) " )) break ;
else throw hr_parse_exception ( " expecting , or ) " ) ;
}
try {
cc . build_from_angles_edges ( ) ;
}
catch ( hr_parse_exception & ex ) {
throw hr_parse_exception ( ex . s + ep . where ( ) ) ;
}
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catch ( hr_polygon_error & poly ) {
poly . params = ep . extra_params ;
throw ;
}
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cc . connections . resize ( cc . size ( ) ) ;
for ( int i = 0 ; i < isize ( cc . connections ) ; i + + )
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cc . connections [ i ] = connection_t { cc . id , i , false } ;
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cc . stretch_shear . resize ( cc . size ( ) , make_pair ( 1 , 0 ) ) ;
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}
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EX bool do_unmirror = true ;
/** \brief for tessellations which contain mirror rules, remove them by taking the orientable double cover */
EX void unmirror ( ) {
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auto & mirror_rules = arb : : current . mirror_rules ;
mirror_rules = 0 ;
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for ( auto & s : arb : : current . shapes )
for ( auto & t : s . connections )
if ( t . mirror )
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mirror_rules + + ;
if ( ! mirror_rules ) return ;
auto & sh = current . shapes ;
int s = isize ( sh ) ;
for ( int i = 0 ; i < s ; i + + )
sh . push_back ( sh [ i ] ) ;
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for ( int i = 0 ; i < 2 * s ; i + + )
sh [ i ] . id = i ;
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for ( int i = s ; i < s + s ; i + + ) {
for ( auto & v : sh [ i ] . vertices )
v [ 1 ] = - v [ 1 ] ;
reverse ( sh [ i ] . edges . begin ( ) , sh [ i ] . edges . end ( ) ) ;
reverse ( sh [ i ] . vertices . begin ( ) + 1 , sh [ i ] . vertices . end ( ) ) ;
reverse ( sh [ i ] . angles . begin ( ) , sh [ i ] . angles . end ( ) - 1 ) ;
reverse ( sh [ i ] . connections . begin ( ) , sh [ i ] . connections . end ( ) ) ;
}
if ( true ) for ( int i = 0 ; i < s + s ; i + + ) {
for ( auto & co : sh [ i ] . connections ) {
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bool mirr = co . mirror ^ ( i > = s ) ;
co . mirror = false ;
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if ( mirr ) {
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co . sid + = s ;
co . eid = isize ( sh [ co . sid ] . angles ) - 1 - co . eid ;
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}
}
}
}
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EX void compute_vertex_valence ( ) {
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auto & ac = arb : : current ;
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int tcl = - 1 ;
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for ( auto & sh : ac . shapes )
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sh . cycle_length = isize ( sh . vertices ) ;
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recompute :
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while ( true ) {
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for ( auto & sh : ac . shapes ) {
int i = sh . id ;
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int n = isize ( sh . vertices ) ;
for ( int k = sh . cycle_length ; k < n ; k + + ) {
auto co = sh . connections [ k ] ;
auto co1 = sh . connections [ k - sh . cycle_length ] ;
if ( co . sid ! = co1 . sid ) {
println ( hlog , " ik = " , tie ( i , k ) , " co= " , co , " co1= " , co1 , " cl= " , sh . cycle_length ) ;
throw hr_parse_exception ( " connection error #2 in compute_vertex_valence " ) ;
}
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ac . shapes [ co . sid ] . cycle_length = abs ( gcd ( ac . shapes [ co . sid ] . cycle_length , co . eid - co1 . eid ) ) ;
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}
for ( int k = 0 ; k < n ; k + + ) {
auto co = sh . connections [ k ] ;
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co = ac . shapes [ co . sid ] . connections [ co . eid ] ;
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if ( co . sid ! = i ) throw hr_parse_exception ( " connection error in compute_vertex_valence " ) ;
sh . cycle_length = abs ( gcd ( sh . cycle_length , k - co . eid ) ) ;
}
if ( debugflags & DF_GEOM )
println ( hlog , " tile " , i , " cycle_length = " , sh . cycle_length , " / " , n ) ;
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}
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int new_tcl = 0 ;
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for ( auto & sh : ac . shapes ) {
auto & len = sh . cycle_length ;
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if ( len < 0 ) len = - len ;
new_tcl + = len ;
}
if ( new_tcl = = tcl ) break ;
tcl = new_tcl ;
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}
if ( cgflags & qAFFINE ) return ;
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if ( ac . is_star ) return ;
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for ( auto & sh : ac . shapes ) {
int n = sh . size ( ) ;
int i = sh . id ;
sh . vertex_valence . resize ( n ) ;
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sh . vertex_period . resize ( n ) ;
sh . vertex_angles . resize ( n ) ;
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for ( int k = 0 ; k < n ; k + + ) {
ld total = 0 ;
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int qty = 0 , pqty = 0 ;
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connection_t at = { i , k , false } ;
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connection_t at1 = at ;
vector < ld > anglelist ;
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do {
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if ( at . sid = = at1 . sid & & ( at . eid - at1 . eid ) % ac . shapes [ at . sid ] . cycle_length = = 0 ) pqty = 0 ;
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ld a = ac . shapes [ at . sid ] . angles [ at . eid ] ;
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while ( a < 0 ) a + = 360 * degree ;
while ( a > 360 * degree ) a - = 360 * degree ;
total + = a ;
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anglelist . push_back ( a ) ;
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qty + + ;
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pqty + + ;
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at . eid + + ;
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if ( at . eid = = isize ( ac . shapes [ at . sid ] . angles ) ) at . eid = 0 ;
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at = ac . shapes [ at . sid ] . connections [ at . eid ] ;
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}
while ( total < 360 * degree - 1e-6 ) ;
if ( total > 360 * degree + 1e-6 ) throw hr_parse_exception ( " improper total in compute_stats " ) ;
if ( at . sid ! = i ) throw hr_parse_exception ( " ended at wrong type determining vertex_valence " ) ;
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if ( ( at . eid - k ) % ac . shapes [ i ] . cycle_length ) {
ac . shapes [ i ] . cycle_length = abs ( gcd ( ac . shapes [ i ] . cycle_length , at . eid - k ) ) ;
goto recompute ;
}
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sh . vertex_valence [ k ] = qty ;
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sh . vertex_period [ k ] = pqty ;
sh . vertex_angles [ k ] = std : : move ( anglelist ) ;
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}
if ( debugflags & DF_GEOM )
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println ( hlog , " computed vertex_valence of " , i , " as " , ac . shapes [ i ] . vertex_valence ) ;
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}
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ac . min_valence = UNKNOWN ; ac . max_valence = 0 ;
for ( auto & sh : ac . shapes )
for ( auto & val : sh . vertex_valence ) {
if ( val < ac . min_valence ) ac . min_valence = val ;
if ( val > ac . max_valence ) ac . max_valence = val ;
}
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}
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EX void load ( const string & fname , bool after_sliding IS ( false ) ) {
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fhstream f ( fname , " rt " ) ;
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if ( ! f . f ) throw hr_parse_exception ( " file " + fname + " does not exist " ) ;
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string s ;
while ( true ) {
int c = fgetc ( f . f ) ;
if ( c < 0 ) break ;
s + = c ;
}
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auto & c = after_sliding ? slided : current ;
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c . order + + ;
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c . shapes . clear ( ) ;
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c . sliders . clear ( ) ;
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c . name = unnamed ;
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c . comment = " " ;
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c . filename = fname ;
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c . cscale = 1 ;
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c . range = 0 ;
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c . boundary_ratio = 1 ;
c . floor_scale = .5 ;
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c . have_ph = c . have_line = false ;
c . have_tree = false ;
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c . yendor_backsteps = 0 ;
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c . is_star = false ;
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exp_parser ep ;
ep . s = s ;
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ld angleunit = 1 , distunit = 1 , angleofs = 0 ;
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auto addflag = [ & ] ( int f ) {
int ai ;
if ( ep . next ( ) = = ' ) ' ) ai = isize ( c . shapes ) - 1 ;
else ai = ep . iparse ( ) ;
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verify_index ( ai , c . shapes , ep ) ;
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c . shapes [ ai ] . flags | = f ;
ep . force_eat ( " ) " ) ;
} ;
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while ( true ) {
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ep . extra_params [ " distunit " ] = distunit ;
ep . extra_params [ " angleunit " ] = angleunit ;
ep . extra_params [ " angleofs " ] = angleofs ;
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ep . skip_white ( ) ;
if ( ep . next ( ) = = 0 ) break ;
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if ( ep . eat ( " # " ) ) {
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bool doubled = ep . eat ( " # " ) ;
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while ( ep . eat ( " " ) ) ;
string s = " " ;
while ( ep . next ( ) > = 32 ) s + = ep . next ( ) , ep . at + + ;
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if ( doubled ) {
if ( c . name = = unnamed ) c . name = s ;
else {
c . comment + = s ;
c . comment + = " \n " ;
}
}
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}
else if ( ep . eat ( " e2. " ) ) {
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ginf [ gArbitrary ] . g = giEuclid2 ;
ginf [ gArbitrary ] . sides = 7 ;
set_flag ( ginf [ gArbitrary ] . flags , qBOUNDED , false ) ;
set_flag ( ginf [ gArbitrary ] . flags , qAFFINE , false ) ;
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geom3 : : apply_always3 ( ) ;
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}
else if ( ep . eat ( " a2. " ) ) {
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ginf [ gArbitrary ] . g = giEuclid2 ;
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ginf [ gArbitrary ] . sides = 7 ;
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set_flag ( ginf [ gArbitrary ] . flags , qBOUNDED , false ) ;
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set_flag ( ginf [ gArbitrary ] . flags , qAFFINE , true ) ;
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affine_limit = 200 ;
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geom3 : : apply_always3 ( ) ;
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}
else if ( ep . eat ( " h2. " ) ) {
ginf [ gArbitrary ] . g = giHyperb2 ;
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ginf [ gArbitrary ] . sides = 7 ;
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set_flag ( ginf [ gArbitrary ] . flags , qBOUNDED , false ) ;
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set_flag ( ginf [ gArbitrary ] . flags , qAFFINE , false ) ;
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geom3 : : apply_always3 ( ) ;
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}
else if ( ep . eat ( " s2. " ) ) {
ginf [ gArbitrary ] . g = giSphere2 ;
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ginf [ gArbitrary ] . sides = 5 ;
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set_flag ( ginf [ gArbitrary ] . flags , qBOUNDED , true ) ;
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set_flag ( ginf [ gArbitrary ] . flags , qAFFINE , false ) ;
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geom3 : : apply_always3 ( ) ;
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}
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else if ( ep . eat ( " legacysign. " ) ) {
if ( legacy ) angleunit * = - 1 ;
}
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else if ( ep . eat ( " star. " ) ) {
c . is_star = true ;
}
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else if ( ep . eat ( " option( \" " ) ) {
next :
string s = " " ;
while ( ep . next ( ) ! = ' " ' ) s + = ep . eatchar ( ) ;
ep . force_eat ( " \" " ) ;
c . options . push_back ( s ) ;
ep . skip_white ( ) ;
if ( ep . eat ( " , " ) ) { ep . skip_white ( ) ; ep . force_eat ( " \" " ) ; goto next ; }
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " angleunit( " ) ) angleunit = real ( ep . parsepar ( ) ) ;
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else if ( ep . eat ( " angleofs( " ) ) {
angleofs = real ( ep . parsepar ( ) ) ;
if ( ! legacy ) angleofs = 0 ;
}
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else if ( ep . eat ( " distunit( " ) ) distunit = real ( ep . parsepar ( ) ) ;
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else if ( ep . eat ( " line( " ) ) {
addflag ( arcm : : sfLINE ) ;
c . have_line = true ;
}
else if ( ep . eat ( " grave( " ) ) {
addflag ( arcm : : sfPH ) ;
c . have_ph = true ;
}
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else if ( ep . eat ( " slider( " ) ) {
slider sl ;
sl . name = ep . next_token ( ) ;
ep . force_eat ( " , " ) ;
sl . current = sl . zero = ep . rparse ( ) ;
ep . force_eat ( " , " ) ;
sl . min = ep . rparse ( ) ;
ep . force_eat ( " , " ) ;
sl . max = ep . rparse ( ) ;
ep . force_eat ( " ) " ) ;
c . sliders . push_back ( sl ) ;
if ( after_sliding )
ep . extra_params [ sl . name ] = current . sliders [ isize ( c . sliders ) - 1 ] . current ;
else
ep . extra_params [ sl . name ] = sl . zero ;
}
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else if ( ep . eat ( " let( " ) ) {
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string tok = ep . next_token ( ) ;
ep . force_eat ( " = " ) ;
ep . extra_params [ tok ] = ep . parsepar ( ) ;
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if ( debugflags & DF_GEOM )
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println ( hlog , " let " , tok , " = " , ep . extra_params [ tok ] ) ;
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}
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else if ( ep . eat ( " unittile( " ) ) load_tile ( ep , c , true ) ;
else if ( ep . eat ( " tile( " ) ) load_tile ( ep , c , false ) ;
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else if ( ep . eat ( " affine_limit( " ) ) {
affine_limit = ep . iparse ( ) ;
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " cscale( " ) ) {
c . cscale = ep . rparse ( ) ;
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " treestate( " ) ) {
rulegen : : parse_treestate ( c , ep ) ;
}
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else if ( ep . eat ( " first_treestate( " ) ) {
rulegen : : rule_root = ep . iparse ( ) ;
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " yendor_backsteps( " ) ) {
c . yendor_backsteps = ep . iparse ( ) ;
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " range( " ) ) {
c . range = ep . iparse ( ) ;
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " floor_scale( " ) ) {
c . floor_scale = ep . rparse ( ) ;
ep . force_eat ( " ) " ) ;
}
else if ( ep . eat ( " boundary_ratio( " ) ) {
c . boundary_ratio = ep . rparse ( ) ;
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " conway( \" " ) ) {
string s = " " ;
while ( true ) {
int m = 0 ;
if ( ep . eat ( " ( " ) ) m = 0 ;
else if ( ep . eat ( " [ " ) ) m = 1 ;
else if ( ep . eat ( " \" " ) ) break ;
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else throw hr_parse_exception ( " cannot parse Conway notation, " + ep . where ( ) ) ;
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int ai = 0 ;
int as = ep . iparse ( ) ;
while ( ep . eat ( " ' " ) ) ai + + ;
if ( ep . eat ( " @ " ) ) ai = ep . iparse ( ) ;
int bi = 0 , bs = 0 ;
if ( ep . eat ( " ) " ) | | ep . eat ( " ] " ) ) bs = as , bi = ai ;
else {
bs = ep . iparse ( ) ;
while ( ep . eat ( " ' " ) ) bi + + ;
if ( ep . eat ( " @ " ) ) bi = ep . iparse ( ) ;
}
if ( ep . eat ( " ) " ) | | ep . eat ( " ] " ) ) { }
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verify_index ( ai , c . shapes , ep ) ;
verify_index ( as , c . shapes [ ai ] , ep ) ;
verify_index ( bi , c . shapes , ep ) ;
verify_index ( bs , c . shapes [ bi ] , ep ) ;
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c . shapes [ ai ] . connections [ as ] = connection_t { bi , bs , m } ;
c . shapes [ bi ] . connections [ bs ] = connection_t { ai , as , m } ;
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}
ep . force_eat ( " ) " ) ;
}
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else if ( ep . eat ( " c( " ) ) {
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int ai = ep . iparse ( ) ; verify_index ( ai , c . shapes , ep ) ; ep . force_eat ( " , " ) ;
int as = ep . iparse ( ) ; verify_index ( as , c . shapes [ ai ] , ep ) ; ep . force_eat ( " , " ) ;
int bi = ep . iparse ( ) ; verify_index ( bi , c . shapes , ep ) ; ep . force_eat ( " , " ) ;
int bs = ep . iparse ( ) ; verify_index ( bs , c . shapes [ bi ] , ep ) ; ep . force_eat ( " , " ) ;
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int m = ep . iparse ( ) ; ep . force_eat ( " ) " ) ;
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c . shapes [ ai ] . connections [ as ] = connection_t { bi , bs , m } ;
c . shapes [ bi ] . connections [ bs ] = connection_t { ai , as , m } ;
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}
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else if ( ep . eat ( " subline( " ) ) {
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int ai = ep . iparse ( ) ; verify_index ( ai , c . shapes , ep ) ; ep . force_eat ( " , " ) ;
int as = ep . iparse ( ) ; verify_index ( as , c . shapes [ ai ] , ep ) ; ep . force_eat ( " , " ) ;
int bs = ep . iparse ( ) ; verify_index ( bs , c . shapes [ ai ] , ep ) ; ep . force_eat ( " ) " ) ;
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c . shapes [ ai ] . sublines . emplace_back ( as , bs ) ;
}
else if ( ep . eat ( " sublines( " ) ) {
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ld d = ep . rparse ( ) * distunit ;
ld eps = 1e-4 ;
if ( ep . eat ( " , " ) ) eps = ep . rparse ( ) * distunit ;
ep . force_eat ( " ) " ) ;
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for ( auto & sh : c . shapes ) {
for ( int i = 0 ; i < isize ( sh . vertices ) ; i + + )
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for ( int j = 0 ; j < i ; j + + )
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if ( j ! = i + 1 & & i ! = j + 1 & & ! ( i = = 0 & & j = = isize ( sh . vertices ) - 1 ) & & ! ( j = = 0 & & i = = isize ( sh . vertices ) - 1 ) & & i ! = j ) {
ld dist = hdist ( sh . vertices [ i ] , sh . vertices [ j ] ) ;
if ( abs ( dist - d ) < eps ) {
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sh . sublines . emplace_back ( i , j ) ;
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if ( debugflags & DF_GEOM ) println ( hlog , " add subline " , i , " - " , j ) ;
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}
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}
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}
}
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else if ( ep . eat ( " repeat( " ) ) {
int i = ep . iparse ( 0 ) ;
verify_index ( i , c . shapes , ep ) ;
ep . force_eat ( " , " ) ;
int rep = ep . iparse ( 0 ) ;
ep . force_eat ( " ) " ) ;
auto & sh = c . shapes [ i ] ;
int N = isize ( sh . angles ) ;
if ( N % rep )
throw hr_parse_exception ( " repeat value should be a factor of the number of vertices, " + ep . where ( ) ) ;
sh . repeat_value = rep ;
int d = N / rep ;
for ( int i = d ; i < N ; i + + )
sh . connections [ i ] = sh . connections [ i - d ] ;
}
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else if ( ep . eat ( " debug( " ) ) {
int i = ep . iparse ( 0 ) ;
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verify_index ( i , c . shapes , ep ) ;
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ep . force_eat ( " ) " ) ;
throw connection_debug_request ( i ) ;
}
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else if ( ep . eat ( " stretch_shear( " ) ) {
ld stretch = ep . rparse ( 0 ) ;
ep . force_eat ( " , " ) ;
ld shear = ep . rparse ( 0 ) ;
ep . force_eat ( " , " ) ;
int i = ep . iparse ( 0 ) ;
verify_index ( i , c . shapes , ep ) ;
ep . force_eat ( " , " ) ;
int j = ep . iparse ( 0 ) ;
verify_index ( j , c . shapes [ i ] , ep ) ;
ep . force_eat ( " ) " ) ;
auto & sh = c . shapes [ i ] ;
sh . stretch_shear [ j ] = { stretch , shear } ;
auto & co = sh . connections [ j ] ;
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auto & xsh = c . shapes [ co . sid ] ;
ld scale = sh . edges [ j ] / xsh . edges [ co . eid ] ;
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println ( hlog , " scale = " , scale ) ;
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xsh . stretch_shear [ co . eid ] = { 1 / stretch , shear * ( co . mirror ? 1 : - 1 ) * stretch } ;
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}
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else throw hr_parse_exception ( " expecting command, " + ep . where ( ) ) ;
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}
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if ( ! ( cgflags & qAFFINE ) ) {
for ( int i = 0 ; i < isize ( c . shapes ) ; i + + ) {
auto & sh = c . shapes [ i ] ;
for ( int j = 0 ; j < isize ( sh . edges ) ; j + + ) {
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ld d1 = sh . edges [ j ] ;
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auto con = sh . connections [ j ] ;
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auto & xsh = c . shapes [ con . sid ] ;
ld d2 = xsh . edges [ con . eid ] ;
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if ( abs ( d1 - d2 ) > 1e-6 )
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throw hr_parse_exception ( lalign ( 0 , " connecting " , make_pair ( i , j ) , " to " , con , " of different lengths only possible in a2 " ) ) ;
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}
}
}
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if ( do_unmirror ) {
unmirror ( ) ;
}
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if ( ! c . have_tree ) compute_vertex_valence ( ) ;
if ( c . have_tree ) rulegen : : verify_parsed_treestates ( ) ;
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if ( ! after_sliding ) slided = current ;
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}
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arbi_tiling debugged ;
vector < pair < transmatrix , int > > debug_polys ;
string primes ( int i ) {
string res ;
while ( i - - ) res + = " ' " ;
return res ;
}
void connection_debugger ( ) {
cmode = sm : : SIDE | sm : : DIALOG_STRICT_X ;
gamescreen ( 0 ) ;
auto & last = debug_polys . back ( ) ;
initquickqueue ( ) ;
for ( auto & p : debug_polys ) {
int id = p . second ;
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shiftmatrix V = gmatrix [ cwt . at ] * p . first ;
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auto & sh = debugged . shapes [ id ] . vertices ;
for ( auto & v : sh )
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curvepoint ( v ) ;
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curvepoint ( sh [ 0 ] ) ;
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color_t col = colortables [ ' A ' ] [ id ] ;
col = darkena ( col , 0 , 0xFF ) ;
if ( & p = = & last ) {
vid . linewidth * = 2 ;
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queuecurve ( V , 0xFFFF00FF , col , PPR : : LINE ) ;
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vid . linewidth / = 2 ;
for ( int i = 0 ; i < isize ( sh ) ; i + + )
queuestr ( V * sh [ i ] , vid . fsize , its ( i ) , 0xFFFFFFFF ) ;
}
else
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queuecurve ( V , 0xFFFFFFFF , col , PPR : : LINE ) ;
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}
quickqueue ( ) ;
dialog : : init ( XLAT ( " connection debugger " ) ) ;
dialog : : addInfo ( debugged . name ) ;
dialog : : addHelp ( debugged . comment ) ;
dialog : : addBreak ( 50 ) ;
dialog : : addInfo ( " face index " + its ( last . second ) ) ;
dialog : : addBreak ( 50 ) ;
auto & sh = debugged . shapes [ last . second ] ;
int N = isize ( sh . edges ) ;
for ( int k = 0 ; k < N ; k + + ) {
auto con = sh . connections [ k ] ;
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string cap = its ( k ) + primes ( last . second ) + " -> " + its ( con . eid ) + primes ( con . sid ) + ( con . mirror ? " (m) " : " " ) ;
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dialog : : addSelItem ( cap , " go " , ' 0 ' + k ) ;
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dialog : : add_action ( [ k , last , con ] {
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if ( euclid ) cgflags | = qAFFINE ;
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debug_polys . emplace_back ( last . first * get_adj ( debugged , last . second , k , - 1 , - 1 ) , con . sid ) ;
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if ( euclid ) cgflags & = ~ qAFFINE ;
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} ) ;
}
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dialog : : addItem ( " undo " , ' u ' ) ;
dialog : : add_action ( [ ] {
if ( isize ( debug_polys ) > 1 )
debug_polys . pop_back ( ) ;
} ) ;
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dialog : : addBack ( ) ;
dialog : : display ( ) ;
keyhandler = [ ] ( int sym , int uni ) {
handlePanning ( sym , uni ) ;
dialog : : handleNavigation ( sym , uni ) ;
if ( doexiton ( sym , uni ) ) popScreen ( ) ;
} ;
}
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geometryinfo1 & arbi_tiling : : get_geometry ( ) {
return ginf [ gEuclid ] . g ;
}
map < heptagon * , vector < pair < heptagon * , transmatrix > > > altmap ;
EX map < heptagon * , pair < heptagon * , transmatrix > > arbi_matrix ;
EX hrmap * current_altmap ;
heptagon * build_child ( heptspin p , pair < int , int > adj ) ;
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EX transmatrix get_adj ( arbi_tiling & c , int t , int dl , int t1 , int xdl ) {
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auto & sh = c . shapes [ t ] ;
int dr = gmod ( dl + 1 , sh . size ( ) ) ;
auto & co = sh . connections [ dl ] ;
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if ( xdl = = - 1 ) xdl = co . eid ;
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if ( t1 = = - 1 ) t1 = co . sid ;
auto & xsh = c . shapes [ t1 ] ;
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int xdr = gmod ( xdl + 1 , xsh . size ( ) ) ;
hyperpoint vl = sh . vertices [ dl ] ;
hyperpoint vr = sh . vertices [ dr ] ;
hyperpoint vm = mid ( vl , vr ) ;
transmatrix rm = gpushxto0 ( vm ) ;
hyperpoint xvl = xsh . vertices [ xdl ] ;
hyperpoint xvr = xsh . vertices [ xdr ] ;
hyperpoint xvm = mid ( xvl , xvr ) ;
transmatrix xrm = gpushxto0 ( xvm ) ;
transmatrix Res = rgpushxto0 ( vm ) * rspintox ( rm * vr ) ;
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if ( cgflags & qAFFINE ) {
ld sca = hdist ( vl , vr ) / hdist ( xvl , xvr ) ;
transmatrix Tsca = Id ;
Tsca [ 0 ] [ 0 ] = Tsca [ 1 ] [ 1 ] = sca ;
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auto & ss = sh . stretch_shear [ dl ] ;
Tsca [ 0 ] [ 1 ] = ss . first * ss . second * sca ;
Tsca [ 1 ] [ 1 ] * = ss . first ;
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Res = Res * Tsca ;
}
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if ( co . mirror ) Res = Res * MirrorX ;
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Res = Res * spintox ( xrm * xvl ) * xrm ;
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if ( co . mirror ) swap ( vl , vr ) ;
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if ( hdist ( vl , Res * xvr ) + hdist ( vr , Res * xvl ) > .1 ) {
println ( hlog , " s1 = " , kz ( spintox ( rm * vr ) ) , " s2 = " , kz ( rspintox ( xrm * xvr ) ) ) ;
println ( hlog , tie ( t , dl ) , " = " , kz ( Res ) ) ;
println ( hlog , hdist ( vl , Res * xvr ) , " # " , hdist ( vr , Res * xvl ) ) ;
exit ( 3 ) ;
}
return Res ;
}
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struct hrmap_arbi : hrmap {
heptagon * origin ;
heptagon * getOrigin ( ) override { return origin ; }
hrmap_arbi ( ) {
dynamicval < hrmap * > curmap ( currentmap , this ) ;
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origin = init_heptagon ( current . shapes [ 0 ] . size ( ) ) ;
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origin - > s = hsOrigin ;
origin - > c7 = newCell ( origin - > type , origin ) ;
heptagon * alt = NULL ;
if ( hyperbolic ) {
dynamicval < eGeometry > g ( geometry , gNormal ) ;
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alt = init_heptagon ( S7 ) ;
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alt - > s = hsOrigin ;
alt - > alt = alt ;
current_altmap = newAltMap ( alt ) ;
}
transmatrix T = xpush ( .01241 ) * spin ( 1.4117 ) * xpush ( 0.1241 ) * Id ;
arbi_matrix [ origin ] = make_pair ( alt , T ) ;
altmap [ alt ] . emplace_back ( origin , T ) ;
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if ( ! current . range )
current . range = auto_compute_range ( origin - > c7 ) ;
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}
~ hrmap_arbi ( ) {
clearfrom ( origin ) ;
altmap . clear ( ) ;
arbi_matrix . clear ( ) ;
if ( current_altmap ) {
dynamicval < eGeometry > g ( geometry , gNormal ) ;
delete current_altmap ;
current_altmap = NULL ;
}
}
void verify ( ) override { }
transmatrix adj ( heptagon * h , int dl ) override {
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return get_adj ( current_or_slided ( ) , id_of ( h ) , dl , - 1 , h - > c . move ( dl ) ? h - > c . spin ( dl ) : - 1 ) ;
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}
heptagon * create_step ( heptagon * h , int d ) override {
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dynamicval < bool > sl ( using_slided , false ) ;
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int t = id_of ( h ) ;
auto & sh = current . shapes [ t ] ;
auto & co = sh . connections [ d ] ;
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auto & xsh = current . shapes [ co . sid ] ;
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if ( cgflags & qAFFINE ) {
set < heptagon * > visited ;
vector < pair < heptagon * , transmatrix > > v ;
visited . insert ( h ) ;
v . emplace_back ( h , Id ) ;
transmatrix goal = adj ( h , d ) ;
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for ( int i = 0 ; i < affine_limit & & i < isize ( v ) ; i + + ) {
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transmatrix T = v [ i ] . second ;
heptagon * h2 = v [ i ] . first ;
if ( eqmatrix ( T , goal ) ) {
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h - > c . connect ( d , h2 , co . eid , co . mirror ) ;
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return h2 ;
}
for ( int i = 0 ; i < h2 - > type ; i + + ) {
heptagon * h3 = h2 - > move ( i ) ;
if ( ! h3 ) continue ;
if ( visited . count ( h3 ) ) continue ;
visited . insert ( h3 ) ;
v . emplace_back ( h3 , T * adj ( h2 , i ) ) ;
}
}
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auto h1 = init_heptagon ( current . shapes [ co . sid ] . size ( ) ) ;
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h1 - > distance = h - > distance + 1 ;
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h1 - > zebraval = co . sid ;
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h1 - > c7 = newCell ( h1 - > type , h1 ) ;
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h1 - > emeraldval = h - > emeraldval ^ co . mirror ;
h - > c . connect ( d , h1 , co . eid , co . mirror ) ;
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return h1 ;
}
const auto & p = arbi_matrix [ h ] ;
heptagon * alt = p . first ;
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transmatrix T = p . second * adj ( h , d ) ;
if ( hyperbolic ) {
dynamicval < eGeometry > g ( geometry , gNormal ) ;
dynamicval < hrmap * > cm ( currentmap , current_altmap ) ;
// transmatrix U = T;
current_altmap - > virtualRebase ( alt , T ) ;
// U = U * inverse(T);
}
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fixmatrix ( T ) ;
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if ( euclid ) {
/* hash the rough coordinates as heptagon* alt */
size_t s = size_t ( T [ 0 ] [ LDIM ] + .261 ) * 124101 + size_t ( T [ 1 ] [ LDIM ] + .261 ) * 82143 ;
alt = ( heptagon * ) s ;
}
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for ( auto & p2 : altmap [ alt ] ) if ( id_of ( p2 . first ) = = co . sid & & same_point_may_warn ( tC0 ( p2 . second ) , tC0 ( T ) ) ) {
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for ( int oth = 0 ; oth < p2 . first - > type ; oth + + ) {
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if ( same_point_may_warn ( p2 . second * xsh . vertices [ oth ] , T * xsh . vertices [ co . eid ] ) ) {
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h - > c . connect ( d , p2 . first , oth % p2 . first - > type , co . mirror ) ;
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return p2 . first ;
}
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}
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}
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auto h1 = init_heptagon ( current . shapes [ co . sid ] . size ( ) ) ;
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h1 - > distance = h - > distance + 1 ;
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h1 - > zebraval = co . sid ;
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h1 - > c7 = newCell ( h1 - > type , h1 ) ;
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h1 - > emeraldval = h - > emeraldval ^ co . mirror ;
h - > c . connect ( d , h1 , co . eid , co . mirror ) ;
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arbi_matrix [ h1 ] = make_pair ( alt , T ) ;
altmap [ alt ] . emplace_back ( h1 , T ) ;
return h1 ;
}
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transmatrix relative_matrixh ( heptagon * h2 , heptagon * h1 , const hyperpoint & hint ) override {
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return relative_matrix_recursive ( h2 , h1 ) ;
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}
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transmatrix adj ( cell * c , int dir ) override { return adj ( c - > master , dir ) ; }
ld spin_angle ( cell * c , int d ) override { return SPIN_NOT_AVAILABLE ; }
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int shvid ( cell * c ) override {
return id_of ( c - > master ) ;
}
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hyperpoint get_corner ( cell * c , int cid , ld cf ) override {
auto & sh = arb : : current_or_slided ( ) . shapes [ arb : : id_of ( c - > master ) ] ;
return normalize ( C0 + ( sh . vertices [ gmod ( cid , c - > type ) ] - C0 ) * 3 / cf ) ;
}
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} ;
EX hrmap * new_map ( ) { return new hrmap_arbi ; }
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EX void run ( string fname ) {
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stop_game ( ) ;
eGeometry g = geometry ;
arbi_tiling t = current ;
auto v = variation ;
set_geometry ( gArbitrary ) ;
try {
load ( fname ) ;
ginf [ gArbitrary ] . tiling_name = current . name ;
}
catch ( hr_polygon_error & poly ) {
set_geometry ( g ) ;
set_variation ( v ) ;
current = t ;
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start_poly_debugger ( poly ) ;
string help = poly . generate_error ( ) ;
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showstartmenu = false ;
for ( auto & p : poly . params )
help + = lalign ( - 1 , p . first , " = " , p . second , " \n " ) ;
gotoHelp ( help ) ;
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}
catch ( hr_parse_exception & ex ) {
println ( hlog , " failed: " , ex . s ) ;
set_geometry ( g ) ;
current = t ;
start_game ( ) ;
addMessage ( " failed: " + ex . s ) ;
}
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catch ( connection_debug_request & cr ) {
set_geometry ( g ) ;
debugged = current ;
current = t ;
ensure_geometry ( cr . c ) ;
debug_polys . clear ( ) ;
debug_polys . emplace_back ( Id , cr . id ) ;
pushScreen ( connection_debugger ) ;
}
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start_game ( ) ;
}
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string slider_error ;
EX void sliders_changed ( ) {
try {
load ( current . filename , true ) ;
using_slided = true ;
slider_error = " OK " ;
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# if CAP_TEXTURE
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texture : : config . remap ( ) ;
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# endif
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}
catch ( hr_parse_exception & ex ) {
using_slided = false ;
slider_error = ex . s ;
}
catch ( hr_polygon_error & poly ) {
using_slided = false ;
slider_error = poly . generate_error ( ) ;
}
}
EX void set_sliders ( ) {
cmode = sm : : SIDE | sm : : MAYDARK ;
gamescreen ( 1 ) ;
dialog : : init ( XLAT ( " tessellation sliders " ) ) ;
char ch = ' A ' ;
for ( auto & sl : current . sliders ) {
dialog : : addSelItem ( sl . name , fts ( sl . current ) , ch + + ) ;
dialog : : add_action ( [ & ] {
dialog : : editNumber ( sl . current , sl . min , sl . max , 1 , sl . zero , sl . name , sl . name ) ;
dialog : : reaction = sliders_changed ;
} ) ;
}
dialog : : addInfo ( slider_error ) ;
dialog : : addBack ( ) ;
dialog : : display ( ) ;
}
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/** convert a tessellation (e.g. Archimedean, regular, etc.) to the arb::current internal representation */
EX namespace convert {
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EX eGeometry base_geometry ;
EX eVariation base_variation ;
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struct id_record {
int target ; /* master of this id type */
int shift ; /* sample direction 0 == our direction shift */
int modval ; /* this master type is the same as itself rotated by modval */
cell * sample ; /* sample of the master type */
} ;
inline void print ( hstream & hs , const id_record & i ) { print ( hs , " [ " , i . target , " shift= " , i . shift , " mod= " , i . modval , " ] " ) ; }
map < int , id_record > identification ;
id_record & get_identification ( int s , cell * c ) {
if ( ! identification . count ( s ) ) {
auto & id = identification [ s ] ;
id . target = s ;
id . shift = 0 ;
id . modval = c - > type ;
id . sample = c ;
}
return identification [ s ] ;
}
id_record & get_identification ( cell * c ) {
auto id = currentmap - > full_shvid ( c ) ;
return get_identification ( id , c ) ;
}
int changes ;
void be_identified ( cellwalker cw1 , cellwalker cw2 ) {
auto & id1 = get_identification ( cw1 . at ) ;
auto & id2 = get_identification ( cw2 . at ) ;
indenter ind ( 2 ) ;
int t = cw2 . at - > type ;
if ( cw1 . at - > type ! = t ) {
println ( hlog , cw1 . at - > type , " vs " , t ) ;
throw hr_exception ( " numbers disagree " ) ;
}
int d2 = gmod ( - cw2 . to_spin ( id2 . shift ) , id2 . modval ) ;
int d1 = gmod ( - cw1 . to_spin ( id1 . shift ) , id1 . modval ) ;
indenter ind1 ( 2 ) ;
if ( id2 . target ! = id1 . target ) {
auto oid2 = id2 ;
id1 . modval = gcd ( id1 . modval , id2 . modval ) ;
for ( auto & p : identification ) {
auto & idr = p . second ;
if ( idr . target = = oid2 . target ) {
idr . target = id1 . target ;
idr . modval = id1 . modval ;
idr . shift = gmod ( idr . shift + ( d2 - d1 ) , idr . modval ) ;
idr . sample = id1 . sample ;
}
}
changes + + ;
println ( hlog , identification ) ;
return ;
}
if ( d2 ! = d1 ) {
auto oid2 = id2 ;
id2 . modval = gcd ( id2 . modval , abs ( d2 - d1 ) ) ;
for ( auto & p : identification )
if ( p . second . target = = oid2 . target ) p . second . modval = id2 . modval ;
changes + + ;
println ( hlog , identification ) ;
return ;
}
}
EX void convert ( ) {
start_game ( ) ;
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identification . clear ( ) ; changes = 0 ;
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manual_celllister cl ;
cl . add ( currentmap - > gamestart ( ) ) ;
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int more_tests = 1000 ;
pointer_indices . clear ( ) ;
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int chg = - 1 ;
while ( changes > chg ) {
changes = chg ;
set < int > masters_analyzed ;
for ( int i = 0 ; i < isize ( cl . lst ) ; i + + ) {
auto c = cl . lst [ i ] ;
auto & id = get_identification ( c ) ;
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if ( masters_analyzed . count ( id . target ) ) {
more_tests - - ;
if ( more_tests < 0 ) continue ;
}
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masters_analyzed . insert ( id . target ) ;
cellwalker cw0 ( c , id . shift ) ;
cellwalker cws ( id . sample , 0 ) ;
for ( int i = 0 ; i < c - > type ; i + + ) {
if ( 1 ) {
indenter ind ( 2 ) ;
be_identified ( cw0 + i + wstep , cws + i + wstep ) ;
be_identified ( cw0 + i + wstep , cw0 + i + id . modval + wstep ) ;
}
if ( 1 ) {
indenter ind ( 2 ) ;
auto cwx = cw0 + i + wstep ;
auto idx = get_identification ( cwx . at ) ;
cellwalker xsample ( idx . sample , cwx . spin ) ;
xsample - = idx . shift ;
be_identified ( cwx + wstep , xsample + wstep ) ;
cl . add ( ( cw0 + i ) . cpeek ( ) ) ;
}
}
}
}
vector < int > old_shvids ;
map < int , int > old_to_new ;
for ( auto id : identification )
if ( id . first = = id . second . target ) {
old_to_new [ id . first ] = isize ( old_shvids ) ;
old_shvids . push_back ( id . first ) ;
}
auto & ac = arb : : current ;
ac . order + + ;
ac . comment = ac . filename = " converted from: " + full_geometry_name ( ) ;
ac . cscale = cgi . scalefactor ;
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ac . boundary_ratio = 1 ;
ac . floor_scale = cgi . hexvdist / cgi . scalefactor ;
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ac . range = cgi . base_distlimit ;
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int N = isize ( old_shvids ) ;
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ac . shapes . clear ( ) ;
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ac . shapes . resize ( N ) ;
ginf [ gArbitrary ] . g = cginf . g ;
ginf [ gArbitrary ] . flags = cgflags & qBOUNDED ;
for ( int i = 0 ; i < N ; i + + ) {
auto id = identification [ old_shvids [ i ] ] ;
cell * s = id . sample ;
auto & sh = ac . shapes [ i ] ;
sh . id = i ;
int t = s - > type ;
sh . vertices . clear ( ) ;
sh . connections . clear ( ) ;
sh . repeat_value = id . modval ;
for ( int j = 0 ; j < t ; j + + ) {
auto co = currentmap - > get_corner ( s , j ) ;
sh . vertices . push_back ( co ) ;
cellwalker cw ( s , j ) ;
cw + = wstep ;
auto idx = get_identification ( cw . at ) ;
cellwalker xsample ( idx . sample , cw . spin ) ;
xsample - = idx . shift ;
sh . connections . emplace_back ( arb : : connection_t { old_to_new . at ( idx . target ) , xsample . spin , false } ) ;
}
sh . stretch_shear . resize ( t , make_pair ( 1 , 0 ) ) ;
sh . edges . clear ( ) ;
for ( int j = 0 ; j < t - 1 ; j + + )
sh . edges . push_back ( hdist ( sh . vertices [ j ] , sh . vertices [ j + 1 ] ) ) ;
sh . edges . push_back ( hdist ( sh . vertices [ t - 1 ] , sh . vertices [ 0 ] ) ) ;
sh . angles . clear ( ) ;
for ( int j = 0 ; j < t ; j + + ) {
hyperpoint v0 = sh . vertices [ j ] ;
hyperpoint v1 = sh . vertices [ ( j + 1 ) % t ] ;
hyperpoint v2 = sh . vertices [ ( j + 2 ) % t ] ;
transmatrix T = gpushxto0 ( v1 ) ;
v0 = T * v0 ;
v2 = T * v2 ;
ld alpha = atan2 ( v0 ) - atan2 ( v2 ) ;
while ( alpha > M_PI ) alpha - = 360 * degree ;
while ( alpha < - M_PI ) alpha + = 360 * degree ;
sh . angles . push_back ( alpha ) ;
}
if ( debugflags & DF_GEOM ) {
println ( hlog , " shape " , i , " : " ) ;
indenter indp ( 2 ) ;
println ( hlog , " vertices= " , sh . vertices ) ;
println ( hlog , " connections= " , sh . connections ) ;
println ( hlog , " edges= " , sh . edges ) ;
println ( hlog , " angles= " , sh . angles ) ;
}
}
arb : : compute_vertex_valence ( ) ;
}
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EX bool in ( ) {
return arb : : in ( ) & & base_geometry ! = gArbitrary ;
}
/** activate the converted tessellation */
EX void activate ( ) {
if ( geometry ! = gArbitrary ) {
base_geometry = geometry ;
base_variation = variation ;
stop_game ( ) ;
geometry = gArbitrary ;
variation = eVariation : : pure ;
}
}
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EX }
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# if CAP_COMMANDLINE
int readArgs ( ) {
using namespace arg ;
if ( 0 ) ;
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else if ( argis ( " -tes " ) | | argis ( " -arbi " ) ) {
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PHASEFROM ( 2 ) ;
shift ( ) ;
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run ( args ( ) ) ;
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}
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else if ( argis ( " -tes-opt " ) ) {
arg : : run_arguments ( current . options ) ;
}
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else if ( argis ( " -arb-legacy " ) ) {
legacy = true ;
}
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else if ( argis ( " -arb-convert " ) ) {
try {
convert : : convert ( ) ;
set_geometry ( gArbitrary ) ;
}
catch ( hr_exception & e ) {
println ( hlog , " failed to convert: " , e . what ( ) ) ;
}
}
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else if ( argis ( " -arb-slider " ) ) {
PHASEFROM ( 2 ) ;
shift ( ) ;
string slider = args ( ) ;
bool found = true ;
for ( auto & sl : current . sliders )
if ( sl . name = = slider ) {
shift_arg_formula ( sl . current , sliders_changed ) ;
found = true ;
}
if ( ! found ) {
println ( hlog , " warning: no slider named " , slider , " found " ) ;
shift ( ) ;
}
}
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else return 1 ;
return 0 ;
}
auto hook = addHook ( hooks_args , 100 , readArgs ) ;
# endif
EX bool in ( ) { return geometry = = gArbitrary ; }
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EX string tes = " tessellations/sample/marjorie-rice.tes " ;
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EX bool linespattern ( cell * c ) {
return current . shapes [ id_of ( c - > master ) ] . flags & arcm : : sfLINE ;
}
EX bool pseudohept ( cell * c ) {
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if ( ! current . have_ph ) return true ;
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return current . shapes [ id_of ( c - > master ) ] . flags & arcm : : sfPH ;
}
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EX void choose ( ) {
dialog : : openFileDialog ( tes , XLAT ( " open a tiling " ) , " .tes " ,
[ ] ( ) {
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run ( tes ) ;
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if ( ! current . options . empty ( ) )
dialog : : push_confirm_dialog ( [ ] { arg : : run_arguments ( current . options ) ; start_game ( ) ; } , " load the settings defined in this file? " ) ;
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return true ;
} ) ;
}
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# if MAXMDIM >= 4
auto hooksw = addHook ( hooks_swapdim , 100 , [ ] {
for ( auto & p : { & current , & slided } )
for ( auto & s : p - > shapes )
for ( auto & v : s . vertices )
swapmatrix ( v ) ;
for ( auto & p : altmap ) for ( auto & pp : p . second ) swapmatrix ( pp . second ) ;
for ( auto & p : arbi_matrix ) swapmatrix ( p . second . second ) ;
} ) ;
# endif
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EX }
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}