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/*************************************************************************/
/* body_pair_2d_sw.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
2017-08-27 12:16:55 +00:00
/* https://godotengine.org */
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/*************************************************************************/
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/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
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# include "body_pair_2d_sw.h"
# include "collision_solver_2d_sw.h"
# include "space_2d_sw.h"
# define POSITION_CORRECTION
# define ACCUMULATE_IMPULSES
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void BodyPair2DSW : : _add_contact ( const Vector2 & p_point_A , const Vector2 & p_point_B , void * p_self ) {
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BodyPair2DSW * self = ( BodyPair2DSW * ) p_self ;
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self - > _contact_added_callback ( p_point_A , p_point_B ) ;
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}
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void BodyPair2DSW : : _contact_added_callback ( const Vector2 & p_point_A , const Vector2 & p_point_B ) {
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// check if we already have the contact
Vector2 local_A = A - > get_inv_transform ( ) . basis_xform ( p_point_A ) ;
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Vector2 local_B = B - > get_inv_transform ( ) . basis_xform ( p_point_B - offset_B ) ;
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int new_index = contact_count ;
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ERR_FAIL_COND ( new_index > = ( MAX_CONTACTS + 1 ) ) ;
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Contact contact ;
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contact . acc_normal_impulse = 0 ;
contact . acc_bias_impulse = 0 ;
contact . acc_tangent_impulse = 0 ;
contact . local_A = local_A ;
contact . local_B = local_B ;
contact . reused = true ;
contact . normal = ( p_point_A - p_point_B ) . normalized ( ) ;
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contact . mass_normal = 0 ; // will be computed in setup()
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// attempt to determine if the contact will be reused
real_t recycle_radius_2 = space - > get_contact_recycle_radius ( ) * space - > get_contact_recycle_radius ( ) ;
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for ( int i = 0 ; i < contact_count ; i + + ) {
Contact & c = contacts [ i ] ;
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if (
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c . local_A . distance_squared_to ( local_A ) < ( recycle_radius_2 ) & &
c . local_B . distance_squared_to ( local_B ) < ( recycle_radius_2 ) ) {
contact . acc_normal_impulse = c . acc_normal_impulse ;
contact . acc_tangent_impulse = c . acc_tangent_impulse ;
contact . acc_bias_impulse = c . acc_bias_impulse ;
new_index = i ;
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break ;
}
}
// figure out if the contact amount must be reduced to fit the new contact
if ( new_index = = MAX_CONTACTS ) {
// remove the contact with the minimum depth
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int least_deep = - 1 ;
real_t min_depth = 1e10 ;
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for ( int i = 0 ; i < = contact_count ; i + + ) {
Contact & c = ( i = = contact_count ) ? contact : contacts [ i ] ;
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Vector2 global_A = A - > get_transform ( ) . basis_xform ( c . local_A ) ;
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Vector2 global_B = B - > get_transform ( ) . basis_xform ( c . local_B ) + offset_B ;
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Vector2 axis = global_A - global_B ;
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real_t depth = axis . dot ( c . normal ) ;
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if ( depth < min_depth ) {
min_depth = depth ;
least_deep = i ;
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}
}
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ERR_FAIL_COND ( least_deep = = - 1 ) ;
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if ( least_deep < contact_count ) { //replace the last deep contact by the new one
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contacts [ least_deep ] = contact ;
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}
return ;
}
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contacts [ new_index ] = contact ;
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if ( new_index = = contact_count ) {
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contact_count + + ;
}
}
void BodyPair2DSW : : _validate_contacts ( ) {
//make sure to erase contacts that are no longer valid
real_t max_separation = space - > get_contact_max_separation ( ) ;
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real_t max_separation2 = max_separation * max_separation ;
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for ( int i = 0 ; i < contact_count ; i + + ) {
Contact & c = contacts [ i ] ;
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bool erase = false ;
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if ( ! c . reused ) {
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//was left behind in previous frame
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erase = true ;
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} else {
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c . reused = false ;
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Vector2 global_A = A - > get_transform ( ) . basis_xform ( c . local_A ) ;
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Vector2 global_B = B - > get_transform ( ) . basis_xform ( c . local_B ) + offset_B ;
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Vector2 axis = global_A - global_B ;
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real_t depth = axis . dot ( c . normal ) ;
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if ( depth < - max_separation | | ( global_B + c . normal * depth - global_A ) . length_squared ( ) > max_separation2 ) {
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erase = true ;
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}
}
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if ( erase ) {
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// contact no longer needed, remove
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if ( ( i + 1 ) < contact_count ) {
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// swap with the last one
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SWAP ( contacts [ i ] , contacts [ contact_count - 1 ] ) ;
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}
i - - ;
contact_count - - ;
}
}
}
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bool BodyPair2DSW : : _test_ccd ( real_t p_step , Body2DSW * p_A , int p_shape_A , const Transform2D & p_xform_A , Body2DSW * p_B , int p_shape_B , const Transform2D & p_xform_B , bool p_swap_result ) {
Vector2 motion = p_A - > get_linear_velocity ( ) * p_step ;
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real_t mlen = motion . length ( ) ;
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if ( mlen < CMP_EPSILON ) {
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return false ;
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}
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Vector2 mnormal = motion / mlen ;
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real_t min , max ;
p_A - > get_shape ( p_shape_A ) - > project_rangev ( mnormal , p_xform_A , min , max ) ;
bool fast_object = mlen > ( max - min ) * 0.3 ; //going too fast in that direction
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if ( ! fast_object ) { //did it move enough in this direction to even attempt raycast? let's say it should move more than 1/3 the size of the object in that axis
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return false ;
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}
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//cast a segment from support in motion normal, in the same direction of motion by motion length
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//support is the worst case collision point, so real collision happened before
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int a ;
Vector2 s [ 2 ] ;
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p_A - > get_shape ( p_shape_A ) - > get_supports ( p_xform_A . basis_xform ( mnormal ) . normalized ( ) , s , a ) ;
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Vector2 from = p_xform_A . xform ( s [ 0 ] ) ;
Vector2 to = from + motion ;
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Transform2D from_inv = p_xform_B . affine_inverse ( ) ;
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Vector2 local_from = from_inv . xform ( from - mnormal * mlen * 0.1 ) ; //start from a little inside the bounding box
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Vector2 local_to = from_inv . xform ( to ) ;
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Vector2 rpos , rnorm ;
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if ( ! p_B - > get_shape ( p_shape_B ) - > intersect_segment ( local_from , local_to , rpos , rnorm ) ) {
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return false ;
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}
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//ray hit something
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Vector2 hitpos = p_xform_B . xform ( rpos ) ;
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Vector2 contact_A = to ;
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Vector2 contact_B = hitpos ;
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//create a contact
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if ( p_swap_result ) {
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_contact_added_callback ( contact_B , contact_A ) ;
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} else {
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_contact_added_callback ( contact_A , contact_B ) ;
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}
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return true ;
}
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real_t combine_bounce ( Body2DSW * A , Body2DSW * B ) {
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return CLAMP ( A - > get_bounce ( ) + B - > get_bounce ( ) , 0 , 1 ) ;
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}
real_t combine_friction ( Body2DSW * A , Body2DSW * B ) {
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return ABS ( MIN ( A - > get_friction ( ) , B - > get_friction ( ) ) ) ;
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}
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bool BodyPair2DSW : : setup ( real_t p_step ) {
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//cannot collide
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if ( ! A - > test_collision_mask ( B ) | | A - > has_exception ( B - > get_self ( ) ) | | B - > has_exception ( A - > get_self ( ) ) ) {
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collided = false ;
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return false ;
}
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bool report_contacts_only = false ;
if ( ( A - > get_mode ( ) < = Physics2DServer : : BODY_MODE_KINEMATIC ) & & ( B - > get_mode ( ) < = Physics2DServer : : BODY_MODE_KINEMATIC ) ) {
if ( ( A - > get_max_contacts_reported ( ) > 0 ) | | ( B - > get_max_contacts_reported ( ) > 0 ) ) {
report_contacts_only = true ;
} else {
collided = false ;
return false ;
}
}
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//use local A coordinates to avoid numerical issues on collision detection
offset_B = B - > get_transform ( ) . get_origin ( ) - A - > get_transform ( ) . get_origin ( ) ;
_validate_contacts ( ) ;
Vector2 offset_A = A - > get_transform ( ) . get_origin ( ) ;
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Transform2D xform_Au = A - > get_transform ( ) . untranslated ( ) ;
Transform2D xform_A = xform_Au * A - > get_shape_transform ( shape_A ) ;
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Transform2D xform_Bu = B - > get_transform ( ) ;
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xform_Bu . elements [ 2 ] - = A - > get_transform ( ) . get_origin ( ) ;
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Transform2D xform_B = xform_Bu * B - > get_shape_transform ( shape_B ) ;
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Shape2DSW * shape_A_ptr = A - > get_shape ( shape_A ) ;
Shape2DSW * shape_B_ptr = B - > get_shape ( shape_B ) ;
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Vector2 motion_A , motion_B ;
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if ( A - > get_continuous_collision_detection_mode ( ) = = Physics2DServer : : CCD_MODE_CAST_SHAPE ) {
motion_A = A - > get_motion ( ) ;
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}
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if ( B - > get_continuous_collision_detection_mode ( ) = = Physics2DServer : : CCD_MODE_CAST_SHAPE ) {
motion_B = B - > get_motion ( ) ;
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}
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bool prev_collided = collided ;
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collided = CollisionSolver2DSW : : solve ( shape_A_ptr , xform_A , motion_A , shape_B_ptr , xform_B , motion_B , _add_contact , this , & sep_axis ) ;
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if ( ! collided ) {
//test ccd (currently just a raycast)
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if ( A - > get_continuous_collision_detection_mode ( ) = = Physics2DServer : : CCD_MODE_CAST_RAY & & A - > get_mode ( ) > Physics2DServer : : BODY_MODE_KINEMATIC ) {
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if ( _test_ccd ( p_step , A , shape_A , xform_A , B , shape_B , xform_B ) ) {
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collided = true ;
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}
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}
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if ( B - > get_continuous_collision_detection_mode ( ) = = Physics2DServer : : CCD_MODE_CAST_RAY & & B - > get_mode ( ) > Physics2DServer : : BODY_MODE_KINEMATIC ) {
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if ( _test_ccd ( p_step , B , shape_B , xform_B , A , shape_A , xform_A , true ) ) {
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collided = true ;
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}
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}
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if ( ! collided ) {
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oneway_disabled = false ;
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return false ;
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}
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}
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if ( oneway_disabled ) {
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return false ;
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}
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if ( ! prev_collided ) {
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if ( A - > is_shape_set_as_one_way_collision ( shape_A ) ) {
Vector2 direction = xform_A . get_axis ( 1 ) . normalized ( ) ;
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bool valid = false ;
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for ( int i = 0 ; i < contact_count ; i + + ) {
Contact & c = contacts [ i ] ;
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if ( ! c . reused ) {
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continue ;
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}
if ( c . normal . dot ( direction ) > - CMP_EPSILON ) { //greater (normal inverted)
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continue ;
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}
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valid = true ;
break ;
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}
if ( ! valid ) {
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collided = false ;
oneway_disabled = true ;
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return false ;
}
}
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if ( B - > is_shape_set_as_one_way_collision ( shape_B ) ) {
Vector2 direction = xform_B . get_axis ( 1 ) . normalized ( ) ;
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bool valid = false ;
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for ( int i = 0 ; i < contact_count ; i + + ) {
Contact & c = contacts [ i ] ;
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if ( ! c . reused ) {
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continue ;
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}
if ( c . normal . dot ( direction ) < CMP_EPSILON ) { //less (normal ok)
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continue ;
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}
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valid = true ;
break ;
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}
if ( ! valid ) {
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collided = false ;
oneway_disabled = true ;
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return false ;
}
}
}
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real_t max_penetration = space - > get_contact_max_allowed_penetration ( ) ;
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real_t bias = 0.3 ;
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if ( shape_A_ptr - > get_custom_bias ( ) | | shape_B_ptr - > get_custom_bias ( ) ) {
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if ( shape_A_ptr - > get_custom_bias ( ) = = 0 ) {
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bias = shape_B_ptr - > get_custom_bias ( ) ;
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} else if ( shape_B_ptr - > get_custom_bias ( ) = = 0 ) {
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bias = shape_A_ptr - > get_custom_bias ( ) ;
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} else {
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bias = ( shape_B_ptr - > get_custom_bias ( ) + shape_A_ptr - > get_custom_bias ( ) ) * 0.5 ;
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}
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}
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cc = 0 ;
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real_t inv_dt = 1.0 / p_step ;
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bool do_process = false ;
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for ( int i = 0 ; i < contact_count ; i + + ) {
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Contact & c = contacts [ i ] ;
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c . active = false ;
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Vector2 global_A = xform_Au . xform ( c . local_A ) ;
Vector2 global_B = xform_Bu . xform ( c . local_B ) ;
real_t depth = c . normal . dot ( global_A - global_B ) ;
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if ( depth < = 0 | | ! c . reused ) {
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continue ;
}
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# ifdef DEBUG_ENABLED
if ( space - > is_debugging_contacts ( ) ) {
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space - > add_debug_contact ( global_A + offset_A ) ;
space - > add_debug_contact ( global_B + offset_A ) ;
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}
# endif
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c . rA = global_A ;
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c . rB = global_B - offset_B ;
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if ( A - > can_report_contacts ( ) ) {
Vector2 crB ( - B - > get_angular_velocity ( ) * c . rB . y , B - > get_angular_velocity ( ) * c . rB . x ) ;
A - > add_contact ( global_A + offset_A , - c . normal , depth , shape_A , global_B + offset_A , shape_B , B - > get_instance_id ( ) , B - > get_self ( ) , crB + B - > get_linear_velocity ( ) ) ;
}
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if ( B - > can_report_contacts ( ) ) {
Vector2 crA ( - A - > get_angular_velocity ( ) * c . rA . y , A - > get_angular_velocity ( ) * c . rA . x ) ;
B - > add_contact ( global_B + offset_A , c . normal , depth , shape_B , global_A + offset_A , shape_A , A - > get_instance_id ( ) , A - > get_self ( ) , crA + A - > get_linear_velocity ( ) ) ;
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}
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if ( report_contacts_only ) {
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collided = false ;
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continue ;
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}
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c . active = true ;
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// Precompute normal mass, tangent mass, and bias.
real_t rnA = c . rA . dot ( c . normal ) ;
real_t rnB = c . rB . dot ( c . normal ) ;
real_t kNormal = A - > get_inv_mass ( ) + B - > get_inv_mass ( ) ;
kNormal + = A - > get_inv_inertia ( ) * ( c . rA . dot ( c . rA ) - rnA * rnA ) + B - > get_inv_inertia ( ) * ( c . rB . dot ( c . rB ) - rnB * rnB ) ;
c . mass_normal = 1.0f / kNormal ;
Vector2 tangent = c . normal . tangent ( ) ;
real_t rtA = c . rA . dot ( tangent ) ;
real_t rtB = c . rB . dot ( tangent ) ;
real_t kTangent = A - > get_inv_mass ( ) + B - > get_inv_mass ( ) ;
kTangent + = A - > get_inv_inertia ( ) * ( c . rA . dot ( c . rA ) - rtA * rtA ) + B - > get_inv_inertia ( ) * ( c . rB . dot ( c . rB ) - rtB * rtB ) ;
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c . mass_tangent = 1.0f / kTangent ;
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c . bias = - bias * inv_dt * MIN ( 0.0f , - depth + max_penetration ) ;
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c . depth = depth ;
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//c.acc_bias_impulse=0;
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# ifdef ACCUMULATE_IMPULSES
{
// Apply normal + friction impulse
Vector2 P = c . acc_normal_impulse * c . normal + c . acc_tangent_impulse * tangent ;
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A - > apply_impulse ( c . rA , - P ) ;
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B - > apply_impulse ( c . rB , P ) ;
}
# endif
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c . bounce = combine_bounce ( A , B ) ;
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if ( c . bounce ) {
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Vector2 crA ( - A - > get_angular_velocity ( ) * c . rA . y , A - > get_angular_velocity ( ) * c . rA . x ) ;
Vector2 crB ( - B - > get_angular_velocity ( ) * c . rB . y , B - > get_angular_velocity ( ) * c . rB . x ) ;
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Vector2 dv = B - > get_linear_velocity ( ) + crB - A - > get_linear_velocity ( ) - crA ;
c . bounce = c . bounce * dv . dot ( c . normal ) ;
}
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do_process = true ;
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}
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return do_process ;
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}
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void BodyPair2DSW : : solve ( real_t p_step ) {
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if ( ! collided ) {
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return ;
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}
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for ( int i = 0 ; i < contact_count ; + + i ) {
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Contact & c = contacts [ i ] ;
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cc + + ;
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if ( ! c . active ) {
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continue ;
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}
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// Relative velocity at contact
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Vector2 crA ( - A - > get_angular_velocity ( ) * c . rA . y , A - > get_angular_velocity ( ) * c . rA . x ) ;
Vector2 crB ( - B - > get_angular_velocity ( ) * c . rB . y , B - > get_angular_velocity ( ) * c . rB . x ) ;
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Vector2 dv = B - > get_linear_velocity ( ) + crB - A - > get_linear_velocity ( ) - crA ;
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Vector2 crbA ( - A - > get_biased_angular_velocity ( ) * c . rA . y , A - > get_biased_angular_velocity ( ) * c . rA . x ) ;
Vector2 crbB ( - B - > get_biased_angular_velocity ( ) * c . rB . y , B - > get_biased_angular_velocity ( ) * c . rB . x ) ;
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Vector2 dbv = B - > get_biased_linear_velocity ( ) + crbB - A - > get_biased_linear_velocity ( ) - crbA ;
real_t vn = dv . dot ( c . normal ) ;
real_t vbn = dbv . dot ( c . normal ) ;
Vector2 tangent = c . normal . tangent ( ) ;
real_t vt = dv . dot ( tangent ) ;
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real_t jbn = ( c . bias - vbn ) * c . mass_normal ;
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real_t jbnOld = c . acc_bias_impulse ;
c . acc_bias_impulse = MAX ( jbnOld + jbn , 0.0f ) ;
Vector2 jb = c . normal * ( c . acc_bias_impulse - jbnOld ) ;
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A - > apply_bias_impulse ( c . rA , - jb ) ;
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B - > apply_bias_impulse ( c . rB , jb ) ;
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real_t jn = - ( c . bounce + vn ) * c . mass_normal ;
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real_t jnOld = c . acc_normal_impulse ;
c . acc_normal_impulse = MAX ( jnOld + jn , 0.0f ) ;
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real_t friction = combine_friction ( A , B ) ;
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real_t jtMax = friction * c . acc_normal_impulse ;
real_t jt = - vt * c . mass_tangent ;
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real_t jtOld = c . acc_tangent_impulse ;
c . acc_tangent_impulse = CLAMP ( jtOld + jt , - jtMax , jtMax ) ;
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Vector2 j = c . normal * ( c . acc_normal_impulse - jnOld ) + tangent * ( c . acc_tangent_impulse - jtOld ) ;
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A - > apply_impulse ( c . rA , - j ) ;
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B - > apply_impulse ( c . rB , j ) ;
}
}
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BodyPair2DSW : : BodyPair2DSW ( Body2DSW * p_A , int p_shape_A , Body2DSW * p_B , int p_shape_B ) :
Constraint2DSW ( _arr , 2 ) {
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A = p_A ;
B = p_B ;
shape_A = p_shape_A ;
shape_B = p_shape_B ;
space = A - > get_space ( ) ;
A - > add_constraint ( this , 0 ) ;
B - > add_constraint ( this , 1 ) ;
contact_count = 0 ;
collided = false ;
oneway_disabled = false ;
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}
BodyPair2DSW : : ~ BodyPair2DSW ( ) {
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A - > remove_constraint ( this ) ;
B - > remove_constraint ( this ) ;
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}