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/**************************************************************************/
/* a_star_grid_2d.cpp */
/**************************************************************************/
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/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
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# include "a_star_grid_2d.h"
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# include "a_star_grid_2d.compat.inc"
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# include "core/variant/typed_array.h"
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static real_t heuristic_euclidean ( const Vector2i & p_from , const Vector2i & p_to ) {
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real_t dx = ( real_t ) ABS ( p_to . x - p_from . x ) ;
real_t dy = ( real_t ) ABS ( p_to . y - p_from . y ) ;
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return ( real_t ) Math : : sqrt ( dx * dx + dy * dy ) ;
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}
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static real_t heuristic_manhattan ( const Vector2i & p_from , const Vector2i & p_to ) {
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real_t dx = ( real_t ) ABS ( p_to . x - p_from . x ) ;
real_t dy = ( real_t ) ABS ( p_to . y - p_from . y ) ;
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return dx + dy ;
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}
static real_t heuristic_octile ( const Vector2i & p_from , const Vector2i & p_to ) {
real_t dx = ( real_t ) ABS ( p_to . x - p_from . x ) ;
real_t dy = ( real_t ) ABS ( p_to . y - p_from . y ) ;
real_t F = Math_SQRT2 - 1 ;
return ( dx < dy ) ? F * dx + dy : F * dy + dx ;
}
static real_t heuristic_chebyshev ( const Vector2i & p_from , const Vector2i & p_to ) {
real_t dx = ( real_t ) ABS ( p_to . x - p_from . x ) ;
real_t dy = ( real_t ) ABS ( p_to . y - p_from . y ) ;
return MAX ( dx , dy ) ;
}
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static real_t ( * heuristics [ AStarGrid2D : : HEURISTIC_MAX ] ) ( const Vector2i & , const Vector2i & ) = { heuristic_euclidean , heuristic_manhattan , heuristic_octile , heuristic_chebyshev } ;
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void AStarGrid2D : : set_region ( const Rect2i & p_region ) {
ERR_FAIL_COND ( p_region . size . x < 0 | | p_region . size . y < 0 ) ;
if ( p_region ! = region ) {
region = p_region ;
dirty = true ;
}
}
Rect2i AStarGrid2D : : get_region ( ) const {
return region ;
}
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void AStarGrid2D : : set_size ( const Size2i & p_size ) {
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WARN_DEPRECATED_MSG ( R " (The " size " property is deprecated, use " region " instead.) " ) ;
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ERR_FAIL_COND ( p_size . x < 0 | | p_size . y < 0 ) ;
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if ( p_size ! = region . size ) {
region . size = p_size ;
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dirty = true ;
}
}
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Size2i AStarGrid2D : : get_size ( ) const {
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return region . size ;
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}
void AStarGrid2D : : set_offset ( const Vector2 & p_offset ) {
if ( ! offset . is_equal_approx ( p_offset ) ) {
offset = p_offset ;
dirty = true ;
}
}
Vector2 AStarGrid2D : : get_offset ( ) const {
return offset ;
}
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void AStarGrid2D : : set_cell_size ( const Size2 & p_cell_size ) {
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if ( ! cell_size . is_equal_approx ( p_cell_size ) ) {
cell_size = p_cell_size ;
dirty = true ;
}
}
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Size2 AStarGrid2D : : get_cell_size ( ) const {
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return cell_size ;
}
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void AStarGrid2D : : set_cell_shape ( CellShape p_cell_shape ) {
if ( cell_shape = = p_cell_shape ) {
return ;
}
ERR_FAIL_INDEX ( p_cell_shape , CellShape : : CELL_SHAPE_MAX ) ;
cell_shape = p_cell_shape ;
dirty = true ;
}
AStarGrid2D : : CellShape AStarGrid2D : : get_cell_shape ( ) const {
return cell_shape ;
}
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void AStarGrid2D : : update ( ) {
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if ( ! dirty ) {
return ;
}
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points . clear ( ) ;
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solid_mask . clear ( ) ;
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const int32_t end_x = region . get_end ( ) . x ;
const int32_t end_y = region . get_end ( ) . y ;
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const Vector2 half_cell_size = cell_size / 2 ;
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for ( int32_t x = region . position . x ; x < end_x + 2 ; x + + ) {
solid_mask . push_back ( true ) ;
}
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for ( int32_t y = region . position . y ; y < end_y ; y + + ) {
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LocalVector < Point > line ;
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solid_mask . push_back ( true ) ;
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for ( int32_t x = region . position . x ; x < end_x ; x + + ) {
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Vector2 v = offset ;
switch ( cell_shape ) {
case CELL_SHAPE_ISOMETRIC_RIGHT :
v + = half_cell_size + Vector2 ( x + y , y - x ) * half_cell_size ;
break ;
case CELL_SHAPE_ISOMETRIC_DOWN :
v + = half_cell_size + Vector2 ( x - y , x + y ) * half_cell_size ;
break ;
case CELL_SHAPE_SQUARE :
v + = Vector2 ( x , y ) * cell_size ;
break ;
default :
break ;
}
line . push_back ( Point ( Vector2i ( x , y ) , v ) ) ;
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solid_mask . push_back ( false ) ;
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}
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solid_mask . push_back ( true ) ;
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points . push_back ( line ) ;
}
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for ( int32_t x = region . position . x ; x < end_x + 2 ; x + + ) {
solid_mask . push_back ( true ) ;
}
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dirty = false ;
}
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bool AStarGrid2D : : is_in_bounds ( int32_t p_x , int32_t p_y ) const {
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return region . has_point ( Vector2i ( p_x , p_y ) ) ;
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}
bool AStarGrid2D : : is_in_boundsv ( const Vector2i & p_id ) const {
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return region . has_point ( p_id ) ;
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}
bool AStarGrid2D : : is_dirty ( ) const {
return dirty ;
}
void AStarGrid2D : : set_jumping_enabled ( bool p_enabled ) {
jumping_enabled = p_enabled ;
}
bool AStarGrid2D : : is_jumping_enabled ( ) const {
return jumping_enabled ;
}
void AStarGrid2D : : set_diagonal_mode ( DiagonalMode p_diagonal_mode ) {
ERR_FAIL_INDEX ( ( int ) p_diagonal_mode , ( int ) DIAGONAL_MODE_MAX ) ;
diagonal_mode = p_diagonal_mode ;
}
AStarGrid2D : : DiagonalMode AStarGrid2D : : get_diagonal_mode ( ) const {
return diagonal_mode ;
}
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void AStarGrid2D : : set_default_compute_heuristic ( Heuristic p_heuristic ) {
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ERR_FAIL_INDEX ( ( int ) p_heuristic , ( int ) HEURISTIC_MAX ) ;
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default_compute_heuristic = p_heuristic ;
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}
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AStarGrid2D : : Heuristic AStarGrid2D : : get_default_compute_heuristic ( ) const {
return default_compute_heuristic ;
}
void AStarGrid2D : : set_default_estimate_heuristic ( Heuristic p_heuristic ) {
ERR_FAIL_INDEX ( ( int ) p_heuristic , ( int ) HEURISTIC_MAX ) ;
default_estimate_heuristic = p_heuristic ;
}
AStarGrid2D : : Heuristic AStarGrid2D : : get_default_estimate_heuristic ( ) const {
return default_estimate_heuristic ;
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}
void AStarGrid2D : : set_point_solid ( const Vector2i & p_id , bool p_solid ) {
ERR_FAIL_COND_MSG ( dirty , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_MSG ( ! is_in_boundsv ( p_id ) , vformat ( " Can't set if point is disabled. Point %s out of bounds %s. " , p_id , region ) ) ;
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_set_solid_unchecked ( p_id , p_solid ) ;
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}
bool AStarGrid2D : : is_point_solid ( const Vector2i & p_id ) const {
ERR_FAIL_COND_V_MSG ( dirty , false , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_id ) , false , vformat ( " Can't get if point is disabled. Point %s out of bounds %s. " , p_id , region ) ) ;
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return _get_solid_unchecked ( p_id ) ;
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}
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void AStarGrid2D : : set_point_weight_scale ( const Vector2i & p_id , real_t p_weight_scale ) {
ERR_FAIL_COND_MSG ( dirty , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_MSG ( ! is_in_boundsv ( p_id ) , vformat ( " Can't set point's weight scale. Point %s out of bounds %s. " , p_id , region ) ) ;
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ERR_FAIL_COND_MSG ( p_weight_scale < 0.0 , vformat ( " Can't set point's weight scale less than 0.0: %f. " , p_weight_scale ) ) ;
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_get_point_unchecked ( p_id ) - > weight_scale = p_weight_scale ;
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}
real_t AStarGrid2D : : get_point_weight_scale ( const Vector2i & p_id ) const {
ERR_FAIL_COND_V_MSG ( dirty , 0 , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_id ) , 0 , vformat ( " Can't get point's weight scale. Point %s out of bounds %s. " , p_id , region ) ) ;
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return _get_point_unchecked ( p_id ) - > weight_scale ;
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}
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void AStarGrid2D : : fill_solid_region ( const Rect2i & p_region , bool p_solid ) {
ERR_FAIL_COND_MSG ( dirty , " Grid is not initialized. Call the update method. " ) ;
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const Rect2i safe_region = p_region . intersection ( region ) ;
const int32_t end_x = safe_region . get_end ( ) . x ;
const int32_t end_y = safe_region . get_end ( ) . y ;
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for ( int32_t y = safe_region . position . y ; y < end_y ; y + + ) {
for ( int32_t x = safe_region . position . x ; x < end_x ; x + + ) {
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_set_solid_unchecked ( x , y , p_solid ) ;
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}
}
}
void AStarGrid2D : : fill_weight_scale_region ( const Rect2i & p_region , real_t p_weight_scale ) {
ERR_FAIL_COND_MSG ( dirty , " Grid is not initialized. Call the update method. " ) ;
ERR_FAIL_COND_MSG ( p_weight_scale < 0.0 , vformat ( " Can't set point's weight scale less than 0.0: %f. " , p_weight_scale ) ) ;
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const Rect2i safe_region = p_region . intersection ( region ) ;
const int32_t end_x = safe_region . get_end ( ) . x ;
const int32_t end_y = safe_region . get_end ( ) . y ;
for ( int32_t y = safe_region . position . y ; y < end_y ; y + + ) {
for ( int32_t x = safe_region . position . x ; x < end_x ; x + + ) {
_get_point_unchecked ( x , y ) - > weight_scale = p_weight_scale ;
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}
}
}
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AStarGrid2D : : Point * AStarGrid2D : : _jump ( Point * p_from , Point * p_to ) {
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int32_t from_x = p_from - > id . x ;
int32_t from_y = p_from - > id . y ;
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int32_t to_x = p_to - > id . x ;
int32_t to_y = p_to - > id . y ;
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int32_t dx = to_x - from_x ;
int32_t dy = to_y - from_y ;
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if ( diagonal_mode = = DIAGONAL_MODE_ALWAYS | | diagonal_mode = = DIAGONAL_MODE_AT_LEAST_ONE_WALKABLE ) {
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if ( dx = = 0 | | dy = = 0 ) {
return _forced_successor ( to_x , to_y , dx , dy ) ;
}
while ( _is_walkable ( to_x , to_y ) & & ( diagonal_mode = = DIAGONAL_MODE_ALWAYS | | _is_walkable ( to_x , to_y - dy ) | | _is_walkable ( to_x - dx , to_y ) ) ) {
if ( end - > id . x = = to_x & & end - > id . y = = to_y ) {
return end ;
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}
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if ( ( _is_walkable ( to_x - dx , to_y + dy ) & & ! _is_walkable ( to_x - dx , to_y ) ) | | ( _is_walkable ( to_x + dx , to_y - dy ) & & ! _is_walkable ( to_x , to_y - dy ) ) ) {
return _get_point_unchecked ( to_x , to_y ) ;
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}
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if ( _forced_successor ( to_x + dx , to_y , dx , 0 ) ! = nullptr | | _forced_successor ( to_x , to_y + dy , 0 , dy ) ! = nullptr ) {
return _get_point_unchecked ( to_x , to_y ) ;
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}
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to_x + = dx ;
to_y + = dy ;
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}
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} else if ( diagonal_mode = = DIAGONAL_MODE_ONLY_IF_NO_OBSTACLES ) {
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if ( dx = = 0 | | dy = = 0 ) {
return _forced_successor ( from_x , from_y , dx , dy , true ) ;
}
while ( _is_walkable ( to_x , to_y ) & & _is_walkable ( to_x , to_y - dy ) & & _is_walkable ( to_x - dx , to_y ) ) {
if ( end - > id . x = = to_x & & end - > id . y = = to_y ) {
return end ;
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}
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if ( ( _is_walkable ( to_x + dx , to_y + dy ) & & ! _is_walkable ( to_x , to_y + dy ) ) | | ! _is_walkable ( to_x + dx , to_y ) ) {
return _get_point_unchecked ( to_x , to_y ) ;
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}
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if ( _forced_successor ( to_x , to_y , dx , 0 ) ! = nullptr | | _forced_successor ( to_x , to_y , 0 , dy ) ! = nullptr ) {
return _get_point_unchecked ( to_x , to_y ) ;
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}
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to_x + = dx ;
to_y + = dy ;
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}
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} else { // DIAGONAL_MODE_NEVER
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if ( dy = = 0 ) {
return _forced_successor ( from_x , from_y , dx , 0 , true ) ;
}
while ( _is_walkable ( to_x , to_y ) ) {
if ( end - > id . x = = to_x & & end - > id . y = = to_y ) {
return end ;
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}
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if ( ( _is_walkable ( to_x - 1 , to_y ) & & ! _is_walkable ( to_x - 1 , to_y - dy ) ) | | ( _is_walkable ( to_x + 1 , to_y ) & & ! _is_walkable ( to_x + 1 , to_y - dy ) ) ) {
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return _get_point_unchecked ( to_x , to_y ) ;
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}
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if ( _forced_successor ( to_x , to_y , 1 , 0 , true ) ! = nullptr | | _forced_successor ( to_x , to_y , - 1 , 0 , true ) ! = nullptr ) {
return _get_point_unchecked ( to_x , to_y ) ;
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}
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to_y + = dy ;
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}
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}
return nullptr ;
}
AStarGrid2D : : Point * AStarGrid2D : : _forced_successor ( int32_t p_x , int32_t p_y , int32_t p_dx , int32_t p_dy , bool p_inclusive ) {
// Remembering previous results can improve performance.
bool l_prev = false , r_prev = false , l = false , r = false ;
int32_t o_x = p_x , o_y = p_y ;
if ( p_inclusive ) {
o_x + = p_dx ;
o_y + = p_dy ;
}
int32_t l_x = p_x - p_dy , l_y = p_y - p_dx ;
int32_t r_x = p_x + p_dy , r_y = p_y + p_dx ;
while ( _is_walkable ( o_x , o_y ) ) {
if ( end - > id . x = = o_x & & end - > id . y = = o_y ) {
return end ;
}
l_prev = l | | _is_walkable ( l_x , l_y ) ;
r_prev = r | | _is_walkable ( r_x , r_y ) ;
l_x + = p_dx ;
l_y + = p_dy ;
r_x + = p_dx ;
r_y + = p_dy ;
l = _is_walkable ( l_x , l_y ) ;
r = _is_walkable ( r_x , r_y ) ;
if ( ( l & & ! l_prev ) | | ( r & & ! r_prev ) ) {
return _get_point_unchecked ( o_x , o_y ) ;
}
o_x + = p_dx ;
o_y + = p_dy ;
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}
return nullptr ;
}
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void AStarGrid2D : : _get_nbors ( Point * p_point , LocalVector < Point * > & r_nbors ) {
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bool ts0 = false , td0 = false ,
ts1 = false , td1 = false ,
ts2 = false , td2 = false ,
ts3 = false , td3 = false ;
Point * left = nullptr ;
Point * right = nullptr ;
Point * top = nullptr ;
Point * bottom = nullptr ;
Point * top_left = nullptr ;
Point * top_right = nullptr ;
Point * bottom_left = nullptr ;
Point * bottom_right = nullptr ;
{
bool has_left = false ;
bool has_right = false ;
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if ( p_point - > id . x - 1 > = region . position . x ) {
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left = _get_point_unchecked ( p_point - > id . x - 1 , p_point - > id . y ) ;
has_left = true ;
}
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if ( p_point - > id . x + 1 < region . position . x + region . size . width ) {
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right = _get_point_unchecked ( p_point - > id . x + 1 , p_point - > id . y ) ;
has_right = true ;
}
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if ( p_point - > id . y - 1 > = region . position . y ) {
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top = _get_point_unchecked ( p_point - > id . x , p_point - > id . y - 1 ) ;
if ( has_left ) {
top_left = _get_point_unchecked ( p_point - > id . x - 1 , p_point - > id . y - 1 ) ;
}
if ( has_right ) {
top_right = _get_point_unchecked ( p_point - > id . x + 1 , p_point - > id . y - 1 ) ;
}
}
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if ( p_point - > id . y + 1 < region . position . y + region . size . height ) {
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bottom = _get_point_unchecked ( p_point - > id . x , p_point - > id . y + 1 ) ;
if ( has_left ) {
bottom_left = _get_point_unchecked ( p_point - > id . x - 1 , p_point - > id . y + 1 ) ;
}
if ( has_right ) {
bottom_right = _get_point_unchecked ( p_point - > id . x + 1 , p_point - > id . y + 1 ) ;
}
}
}
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if ( top & & ! _get_solid_unchecked ( top - > id ) ) {
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r_nbors . push_back ( top ) ;
ts0 = true ;
}
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if ( right & & ! _get_solid_unchecked ( right - > id ) ) {
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r_nbors . push_back ( right ) ;
ts1 = true ;
}
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if ( bottom & & ! _get_solid_unchecked ( bottom - > id ) ) {
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r_nbors . push_back ( bottom ) ;
ts2 = true ;
}
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if ( left & & ! _get_solid_unchecked ( left - > id ) ) {
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r_nbors . push_back ( left ) ;
ts3 = true ;
}
switch ( diagonal_mode ) {
case DIAGONAL_MODE_ALWAYS : {
td0 = true ;
td1 = true ;
td2 = true ;
td3 = true ;
} break ;
case DIAGONAL_MODE_NEVER : {
} break ;
case DIAGONAL_MODE_AT_LEAST_ONE_WALKABLE : {
td0 = ts3 | | ts0 ;
td1 = ts0 | | ts1 ;
td2 = ts1 | | ts2 ;
td3 = ts2 | | ts3 ;
} break ;
case DIAGONAL_MODE_ONLY_IF_NO_OBSTACLES : {
td0 = ts3 & & ts0 ;
td1 = ts0 & & ts1 ;
td2 = ts1 & & ts2 ;
td3 = ts2 & & ts3 ;
} break ;
default :
break ;
}
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if ( td0 & & ( top_left & & ! _get_solid_unchecked ( top_left - > id ) ) ) {
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r_nbors . push_back ( top_left ) ;
}
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if ( td1 & & ( top_right & & ! _get_solid_unchecked ( top_right - > id ) ) ) {
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r_nbors . push_back ( top_right ) ;
}
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if ( td2 & & ( bottom_right & & ! _get_solid_unchecked ( bottom_right - > id ) ) ) {
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r_nbors . push_back ( bottom_right ) ;
}
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if ( td3 & & ( bottom_left & & ! _get_solid_unchecked ( bottom_left - > id ) ) ) {
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r_nbors . push_back ( bottom_left ) ;
}
}
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bool AStarGrid2D : : _solve ( Point * p_begin_point , Point * p_end_point , bool p_allow_partial_path ) {
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last_closest_point = nullptr ;
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pass + + ;
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if ( _get_solid_unchecked ( p_end_point - > id ) & & ! p_allow_partial_path ) {
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return false ;
}
bool found_route = false ;
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LocalVector < Point * > open_list ;
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SortArray < Point * , SortPoints > sorter ;
p_begin_point - > g_score = 0 ;
p_begin_point - > f_score = _estimate_cost ( p_begin_point - > id , p_end_point - > id ) ;
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p_begin_point - > abs_g_score = 0 ;
p_begin_point - > abs_f_score = _estimate_cost ( p_begin_point - > id , p_end_point - > id ) ;
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open_list . push_back ( p_begin_point ) ;
end = p_end_point ;
while ( ! open_list . is_empty ( ) ) {
Point * p = open_list [ 0 ] ; // The currently processed point.
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// Find point closer to end_point, or same distance to end_point but closer to begin_point.
if ( last_closest_point = = nullptr | | last_closest_point - > abs_f_score > p - > abs_f_score | | ( last_closest_point - > abs_f_score > = p - > abs_f_score & & last_closest_point - > abs_g_score > p - > abs_g_score ) ) {
last_closest_point = p ;
}
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if ( p = = p_end_point ) {
found_route = true ;
break ;
}
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sorter . pop_heap ( 0 , open_list . size ( ) , open_list . ptr ( ) ) ; // Remove the current point from the open list.
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open_list . remove_at ( open_list . size ( ) - 1 ) ;
p - > closed_pass = pass ; // Mark the point as closed.
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LocalVector < Point * > nbors ;
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_get_nbors ( p , nbors ) ;
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for ( Point * e : nbors ) {
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real_t weight_scale = 1.0 ;
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if ( jumping_enabled ) {
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// TODO: Make it works with weight_scale.
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e = _jump ( p , e ) ;
if ( ! e | | e - > closed_pass = = pass ) {
continue ;
}
} else {
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if ( _get_solid_unchecked ( e - > id ) | | e - > closed_pass = = pass ) {
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continue ;
}
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weight_scale = e - > weight_scale ;
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}
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real_t tentative_g_score = p - > g_score + _compute_cost ( p - > id , e - > id ) * weight_scale ;
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bool new_point = false ;
if ( e - > open_pass ! = pass ) { // The point wasn't inside the open list.
e - > open_pass = pass ;
open_list . push_back ( e ) ;
new_point = true ;
} else if ( tentative_g_score > = e - > g_score ) { // The new path is worse than the previous.
continue ;
}
e - > prev_point = p ;
e - > g_score = tentative_g_score ;
e - > f_score = e - > g_score + _estimate_cost ( e - > id , p_end_point - > id ) ;
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e - > abs_g_score = tentative_g_score ;
e - > abs_f_score = e - > f_score - e - > g_score ;
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if ( new_point ) { // The position of the new points is already known.
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sorter . push_heap ( 0 , open_list . size ( ) - 1 , 0 , e , open_list . ptr ( ) ) ;
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} else {
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sorter . push_heap ( 0 , open_list . find ( e ) , 0 , e , open_list . ptr ( ) ) ;
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}
}
}
return found_route ;
}
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real_t AStarGrid2D : : _estimate_cost ( const Vector2i & p_from_id , const Vector2i & p_end_id ) {
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real_t scost ;
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if ( GDVIRTUAL_CALL ( _estimate_cost , p_from_id , p_end_id , scost ) ) {
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return scost ;
}
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return heuristics [ default_estimate_heuristic ] ( p_from_id , p_end_id ) ;
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}
real_t AStarGrid2D : : _compute_cost ( const Vector2i & p_from_id , const Vector2i & p_to_id ) {
real_t scost ;
if ( GDVIRTUAL_CALL ( _compute_cost , p_from_id , p_to_id , scost ) ) {
return scost ;
}
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return heuristics [ default_compute_heuristic ] ( p_from_id , p_to_id ) ;
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}
void AStarGrid2D : : clear ( ) {
points . clear ( ) ;
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region = Rect2i ( ) ;
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}
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Vector2 AStarGrid2D : : get_point_position ( const Vector2i & p_id ) const {
ERR_FAIL_COND_V_MSG ( dirty , Vector2 ( ) , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_id ) , Vector2 ( ) , vformat ( " Can't get point's position. Point %s out of bounds %s. " , p_id , region ) ) ;
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return _get_point_unchecked ( p_id ) - > pos ;
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}
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TypedArray < Dictionary > AStarGrid2D : : get_point_data_in_region ( const Rect2i & p_region ) const {
ERR_FAIL_COND_V_MSG ( dirty , TypedArray < Dictionary > ( ) , " Grid is not initialized. Call the update method. " ) ;
const Rect2i inter_region = region . intersection ( p_region ) ;
const int32_t start_x = inter_region . position . x - region . position . x ;
const int32_t start_y = inter_region . position . y - region . position . y ;
const int32_t end_x = inter_region . get_end ( ) . x - region . position . x ;
const int32_t end_y = inter_region . get_end ( ) . y - region . position . y ;
TypedArray < Dictionary > data ;
for ( int32_t y = start_y ; y < end_y ; y + + ) {
for ( int32_t x = start_x ; x < end_x ; x + + ) {
const Point & p = points [ y ] [ x ] ;
Dictionary dict ;
dict [ " id " ] = p . id ;
dict [ " position " ] = p . pos ;
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dict [ " solid " ] = _get_solid_unchecked ( p . id ) ;
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dict [ " weight_scale " ] = p . weight_scale ;
data . push_back ( dict ) ;
}
}
return data ;
}
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Vector < Vector2 > AStarGrid2D : : get_point_path ( const Vector2i & p_from_id , const Vector2i & p_to_id , bool p_allow_partial_path ) {
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ERR_FAIL_COND_V_MSG ( dirty , Vector < Vector2 > ( ) , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_from_id ) , Vector < Vector2 > ( ) , vformat ( " Can't get id path. Point %s out of bounds %s. " , p_from_id , region ) ) ;
ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_to_id ) , Vector < Vector2 > ( ) , vformat ( " Can't get id path. Point %s out of bounds %s. " , p_to_id , region ) ) ;
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Point * a = _get_point ( p_from_id . x , p_from_id . y ) ;
Point * b = _get_point ( p_to_id . x , p_to_id . y ) ;
if ( a = = b ) {
Vector < Vector2 > ret ;
ret . push_back ( a - > pos ) ;
return ret ;
}
Point * begin_point = a ;
Point * end_point = b ;
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bool found_route = _solve ( begin_point , end_point , p_allow_partial_path ) ;
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if ( ! found_route ) {
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if ( ! p_allow_partial_path | | last_closest_point = = nullptr ) {
return Vector < Vector2 > ( ) ;
}
// Use closest point instead.
end_point = last_closest_point ;
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}
Point * p = end_point ;
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int32_t pc = 1 ;
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while ( p ! = begin_point ) {
pc + + ;
p = p - > prev_point ;
}
Vector < Vector2 > path ;
path . resize ( pc ) ;
{
Vector2 * w = path . ptrw ( ) ;
p = end_point ;
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int32_t idx = pc - 1 ;
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while ( p ! = begin_point ) {
w [ idx - - ] = p - > pos ;
p = p - > prev_point ;
}
w [ 0 ] = p - > pos ;
}
return path ;
}
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TypedArray < Vector2i > AStarGrid2D : : get_id_path ( const Vector2i & p_from_id , const Vector2i & p_to_id , bool p_allow_partial_path ) {
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ERR_FAIL_COND_V_MSG ( dirty , TypedArray < Vector2i > ( ) , " Grid is not initialized. Call the update method. " ) ;
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ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_from_id ) , TypedArray < Vector2i > ( ) , vformat ( " Can't get id path. Point %s out of bounds %s. " , p_from_id , region ) ) ;
ERR_FAIL_COND_V_MSG ( ! is_in_boundsv ( p_to_id ) , TypedArray < Vector2i > ( ) , vformat ( " Can't get id path. Point %s out of bounds %s. " , p_to_id , region ) ) ;
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Point * a = _get_point ( p_from_id . x , p_from_id . y ) ;
Point * b = _get_point ( p_to_id . x , p_to_id . y ) ;
if ( a = = b ) {
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TypedArray < Vector2i > ret ;
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ret . push_back ( a - > id ) ;
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return ret ;
}
Point * begin_point = a ;
Point * end_point = b ;
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bool found_route = _solve ( begin_point , end_point , p_allow_partial_path ) ;
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if ( ! found_route ) {
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if ( ! p_allow_partial_path | | last_closest_point = = nullptr ) {
return TypedArray < Vector2i > ( ) ;
}
// Use closest point instead.
end_point = last_closest_point ;
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}
Point * p = end_point ;
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int32_t pc = 1 ;
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while ( p ! = begin_point ) {
pc + + ;
p = p - > prev_point ;
}
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TypedArray < Vector2i > path ;
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path . resize ( pc ) ;
{
p = end_point ;
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int32_t idx = pc - 1 ;
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while ( p ! = begin_point ) {
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path [ idx - - ] = p - > id ;
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p = p - > prev_point ;
}
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path [ 0 ] = p - > id ;
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}
return path ;
}
void AStarGrid2D : : _bind_methods ( ) {
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ClassDB : : bind_method ( D_METHOD ( " set_region " , " region " ) , & AStarGrid2D : : set_region ) ;
ClassDB : : bind_method ( D_METHOD ( " get_region " ) , & AStarGrid2D : : get_region ) ;
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ClassDB : : bind_method ( D_METHOD ( " set_size " , " size " ) , & AStarGrid2D : : set_size ) ;
ClassDB : : bind_method ( D_METHOD ( " get_size " ) , & AStarGrid2D : : get_size ) ;
ClassDB : : bind_method ( D_METHOD ( " set_offset " , " offset " ) , & AStarGrid2D : : set_offset ) ;
ClassDB : : bind_method ( D_METHOD ( " get_offset " ) , & AStarGrid2D : : get_offset ) ;
ClassDB : : bind_method ( D_METHOD ( " set_cell_size " , " cell_size " ) , & AStarGrid2D : : set_cell_size ) ;
ClassDB : : bind_method ( D_METHOD ( " get_cell_size " ) , & AStarGrid2D : : get_cell_size ) ;
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ClassDB : : bind_method ( D_METHOD ( " set_cell_shape " , " cell_shape " ) , & AStarGrid2D : : set_cell_shape ) ;
ClassDB : : bind_method ( D_METHOD ( " get_cell_shape " ) , & AStarGrid2D : : get_cell_shape ) ;
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ClassDB : : bind_method ( D_METHOD ( " is_in_bounds " , " x " , " y " ) , & AStarGrid2D : : is_in_bounds ) ;
ClassDB : : bind_method ( D_METHOD ( " is_in_boundsv " , " id " ) , & AStarGrid2D : : is_in_boundsv ) ;
ClassDB : : bind_method ( D_METHOD ( " is_dirty " ) , & AStarGrid2D : : is_dirty ) ;
ClassDB : : bind_method ( D_METHOD ( " update " ) , & AStarGrid2D : : update ) ;
ClassDB : : bind_method ( D_METHOD ( " set_jumping_enabled " , " enabled " ) , & AStarGrid2D : : set_jumping_enabled ) ;
ClassDB : : bind_method ( D_METHOD ( " is_jumping_enabled " ) , & AStarGrid2D : : is_jumping_enabled ) ;
ClassDB : : bind_method ( D_METHOD ( " set_diagonal_mode " , " mode " ) , & AStarGrid2D : : set_diagonal_mode ) ;
ClassDB : : bind_method ( D_METHOD ( " get_diagonal_mode " ) , & AStarGrid2D : : get_diagonal_mode ) ;
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ClassDB : : bind_method ( D_METHOD ( " set_default_compute_heuristic " , " heuristic " ) , & AStarGrid2D : : set_default_compute_heuristic ) ;
ClassDB : : bind_method ( D_METHOD ( " get_default_compute_heuristic " ) , & AStarGrid2D : : get_default_compute_heuristic ) ;
ClassDB : : bind_method ( D_METHOD ( " set_default_estimate_heuristic " , " heuristic " ) , & AStarGrid2D : : set_default_estimate_heuristic ) ;
ClassDB : : bind_method ( D_METHOD ( " get_default_estimate_heuristic " ) , & AStarGrid2D : : get_default_estimate_heuristic ) ;
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ClassDB : : bind_method ( D_METHOD ( " set_point_solid " , " id " , " solid " ) , & AStarGrid2D : : set_point_solid , DEFVAL ( true ) ) ;
ClassDB : : bind_method ( D_METHOD ( " is_point_solid " , " id " ) , & AStarGrid2D : : is_point_solid ) ;
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ClassDB : : bind_method ( D_METHOD ( " set_point_weight_scale " , " id " , " weight_scale " ) , & AStarGrid2D : : set_point_weight_scale ) ;
ClassDB : : bind_method ( D_METHOD ( " get_point_weight_scale " , " id " ) , & AStarGrid2D : : get_point_weight_scale ) ;
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ClassDB : : bind_method ( D_METHOD ( " fill_solid_region " , " region " , " solid " ) , & AStarGrid2D : : fill_solid_region , DEFVAL ( true ) ) ;
ClassDB : : bind_method ( D_METHOD ( " fill_weight_scale_region " , " region " , " weight_scale " ) , & AStarGrid2D : : fill_weight_scale_region ) ;
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ClassDB : : bind_method ( D_METHOD ( " clear " ) , & AStarGrid2D : : clear ) ;
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ClassDB : : bind_method ( D_METHOD ( " get_point_position " , " id " ) , & AStarGrid2D : : get_point_position ) ;
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ClassDB : : bind_method ( D_METHOD ( " get_point_data_in_region " , " region " ) , & AStarGrid2D : : get_point_data_in_region ) ;
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ClassDB : : bind_method ( D_METHOD ( " get_point_path " , " from_id " , " to_id " , " allow_partial_path " ) , & AStarGrid2D : : get_point_path , DEFVAL ( false ) ) ;
ClassDB : : bind_method ( D_METHOD ( " get_id_path " , " from_id " , " to_id " , " allow_partial_path " ) , & AStarGrid2D : : get_id_path , DEFVAL ( false ) ) ;
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GDVIRTUAL_BIND ( _estimate_cost , " from_id " , " end_id " )
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GDVIRTUAL_BIND ( _compute_cost , " from_id " , " to_id " )
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ADD_PROPERTY ( PropertyInfo ( Variant : : RECT2I , " region " ) , " set_region " , " get_region " ) ;
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ADD_PROPERTY ( PropertyInfo ( Variant : : VECTOR2I , " size " ) , " set_size " , " get_size " ) ;
ADD_PROPERTY ( PropertyInfo ( Variant : : VECTOR2 , " offset " ) , " set_offset " , " get_offset " ) ;
ADD_PROPERTY ( PropertyInfo ( Variant : : VECTOR2 , " cell_size " ) , " set_cell_size " , " get_cell_size " ) ;
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ADD_PROPERTY ( PropertyInfo ( Variant : : INT , " cell_shape " , PROPERTY_HINT_ENUM , " Square,IsometricRight,IsometricDown " ) , " set_cell_shape " , " get_cell_shape " ) ;
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ADD_PROPERTY ( PropertyInfo ( Variant : : BOOL , " jumping_enabled " ) , " set_jumping_enabled " , " is_jumping_enabled " ) ;
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ADD_PROPERTY ( PropertyInfo ( Variant : : INT , " default_compute_heuristic " , PROPERTY_HINT_ENUM , " Euclidean,Manhattan,Octile,Chebyshev " ) , " set_default_compute_heuristic " , " get_default_compute_heuristic " ) ;
ADD_PROPERTY ( PropertyInfo ( Variant : : INT , " default_estimate_heuristic " , PROPERTY_HINT_ENUM , " Euclidean,Manhattan,Octile,Chebyshev " ) , " set_default_estimate_heuristic " , " get_default_estimate_heuristic " ) ;
ADD_PROPERTY ( PropertyInfo ( Variant : : INT , " diagonal_mode " , PROPERTY_HINT_ENUM , " Never,Always,At Least One Walkable,Only If No Obstacles " ) , " set_diagonal_mode " , " get_diagonal_mode " ) ;
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BIND_ENUM_CONSTANT ( HEURISTIC_EUCLIDEAN ) ;
BIND_ENUM_CONSTANT ( HEURISTIC_MANHATTAN ) ;
BIND_ENUM_CONSTANT ( HEURISTIC_OCTILE ) ;
BIND_ENUM_CONSTANT ( HEURISTIC_CHEBYSHEV ) ;
BIND_ENUM_CONSTANT ( HEURISTIC_MAX ) ;
BIND_ENUM_CONSTANT ( DIAGONAL_MODE_ALWAYS ) ;
BIND_ENUM_CONSTANT ( DIAGONAL_MODE_NEVER ) ;
BIND_ENUM_CONSTANT ( DIAGONAL_MODE_AT_LEAST_ONE_WALKABLE ) ;
BIND_ENUM_CONSTANT ( DIAGONAL_MODE_ONLY_IF_NO_OBSTACLES ) ;
BIND_ENUM_CONSTANT ( DIAGONAL_MODE_MAX ) ;
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BIND_ENUM_CONSTANT ( CELL_SHAPE_SQUARE ) ;
BIND_ENUM_CONSTANT ( CELL_SHAPE_ISOMETRIC_RIGHT ) ;
BIND_ENUM_CONSTANT ( CELL_SHAPE_ISOMETRIC_DOWN ) ;
BIND_ENUM_CONSTANT ( CELL_SHAPE_MAX ) ;
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}