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EPhysics: constraint recalc 

Just making it possible to fix world rate set.
This code will be modified when all constraints are added as generic
and modified later.



SVN revision: 75333
This commit is contained in:
Bruno Dilly 2012-08-16 21:35:09 +00:00
parent 44aeda07ae
commit 3fe6e1dc40
2 changed files with 109 additions and 39 deletions
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140
legacy/ephysics/src/lib/ephysics_constraints.cpp
View File

@ -17,8 +17,97 @@ struct _EPhysics_Constraint {
btTypedConstraint *bt_constraint; btTypedConstraint *bt_constraint;
EPhysics_World *world; EPhysics_World *world;
EPhysics_Constraint_Type type; EPhysics_Constraint_Type type;
struct {
EPhysics_Body *body1;
EPhysics_Body *body2;
Evas_Coord anchor_b1_x;
Evas_Coord anchor_b1_y;
Evas_Coord anchor_b2_x;
Evas_Coord anchor_b2_y;
} p2p;
}; };
/* FIXME: it shouldn't be this way.
* All constraints should be generic and have all these options
* set after add().
*/
static Eina_Bool
_ephysics_constraint_p2p_set(EPhysics_Constraint *constraint, double rate)
{
if (!constraint->p2p.body2)
constraint->bt_constraint = new btPoint2PointConstraint(
*ephysics_body_rigid_body_get(constraint->p2p.body1),
btVector3(constraint->p2p.anchor_b1_x / rate,
constraint->p2p.anchor_b1_y / rate, 0));
else
constraint->bt_constraint = new btPoint2PointConstraint(
*ephysics_body_rigid_body_get(constraint->p2p.body1),
*ephysics_body_rigid_body_get(constraint->p2p.body2),
btVector3(constraint->p2p.anchor_b1_x / rate,
constraint->p2p.anchor_b1_y / rate, 0),
btVector3(constraint->p2p.anchor_b2_x / rate,
constraint->p2p.anchor_b2_y / rate, 0));
if (!constraint->bt_constraint)
{
ERR("Failed to create a btConstraint");
free(constraint);
return EINA_FALSE;
}
constraint->type = EPHYSICS_CONSTRAINT_P2P;
constraint->world = ephysics_body_world_get(constraint->p2p.body1);
ephysics_world_constraint_add(constraint->world, constraint,
constraint->bt_constraint);
return EINA_TRUE;
}
static void
_ephysics_constraint_p2p_recalc(EPhysics_Constraint *constraint, double rate)
{
ephysics_world_constraint_del(constraint->world, constraint,
constraint->bt_constraint);
delete constraint->bt_constraint;
_ephysics_constraint_p2p_set(constraint, rate);
}
static void
_ephysics_constraint_slider_linear_limit_set(EPhysics_Constraint *constraint, Evas_Coord left_x, Evas_Coord under_y, Evas_Coord right_x, Evas_Coord above_y, double rate)
{
btGeneric6DofConstraint *slider_constraint;
slider_constraint = (btGeneric6DofConstraint *)constraint->bt_constraint;
rate = ephysics_world_rate_get(constraint->world);
left_x = (left_x) / rate;
right_x = (right_x) / rate;
under_y = (under_y) / rate;
above_y = (above_y) / rate;
slider_constraint->setLinearLowerLimit(btVector3(-left_x, -under_y, 0));
slider_constraint->setLinearUpperLimit(btVector3(right_x, above_y, 0));
}
void
ephysics_constraint_recalc(EPhysics_Constraint *constraint, double rate)
{
Evas_Coord left_x, under_y, right_x, above_y;
if (constraint->type == EPHYSICS_CONSTRAINT_P2P)
{
_ephysics_constraint_p2p_recalc(constraint, rate);
return;
}
ephysics_constraint_slider_linear_limit_get(constraint, &left_x, &under_y,
&right_x, &above_y);
_ephysics_constraint_slider_linear_limit_set(constraint, left_x, under_y,
right_x, above_y, rate);
}
EAPI EPhysics_Constraint * EAPI EPhysics_Constraint *
ephysics_constraint_slider_add(EPhysics_Body *body) ephysics_constraint_slider_add(EPhysics_Body *body)
{ {
@ -62,9 +151,6 @@ ephysics_constraint_slider_add(EPhysics_Body *body)
EAPI void EAPI void
ephysics_constraint_slider_linear_limit_set(EPhysics_Constraint *constraint, Evas_Coord left_x, Evas_Coord under_y, Evas_Coord right_x, Evas_Coord above_y) ephysics_constraint_slider_linear_limit_set(EPhysics_Constraint *constraint, Evas_Coord left_x, Evas_Coord under_y, Evas_Coord right_x, Evas_Coord above_y)
{ {
btGeneric6DofConstraint *slider_constraint;
int rate;
if (!constraint) if (!constraint)
{ {
ERR("Can't set constraint's linear limit, constraint is null."); ERR("Can't set constraint's linear limit, constraint is null.");
@ -77,17 +163,9 @@ ephysics_constraint_slider_linear_limit_set(EPhysics_Constraint *constraint, Eva
return; return;
} }
slider_constraint = (btGeneric6DofConstraint *)constraint->bt_constraint; _ephysics_constraint_slider_linear_limit_set(
rate = ephysics_world_rate_get(constraint->world); constraint, left_x, under_y, right_x, above_y,
ephysics_world_rate_get(constraint->world));
left_x = (left_x) / rate;
right_x = (right_x) / rate;
under_y = (under_y) / rate;
above_y = (above_y) / rate;
slider_constraint->setLinearLowerLimit(btVector3(-left_x, -under_y, 0));
slider_constraint->setLinearUpperLimit(btVector3(right_x, above_y, 0));
} }
EAPI void EAPI void
@ -184,7 +262,6 @@ EAPI EPhysics_Constraint *
ephysics_constraint_p2p_add(EPhysics_Body *body1, EPhysics_Body *body2, Evas_Coord anchor_b1_x, Evas_Coord anchor_b1_y, Evas_Coord anchor_b2_x, Evas_Coord anchor_b2_y) ephysics_constraint_p2p_add(EPhysics_Body *body1, EPhysics_Body *body2, Evas_Coord anchor_b1_x, Evas_Coord anchor_b1_y, Evas_Coord anchor_b2_x, Evas_Coord anchor_b2_y)
{ {
EPhysics_Constraint *constraint; EPhysics_Constraint *constraint;
int rate;
if (!body1) if (!body1)
{ {
@ -207,30 +284,17 @@ ephysics_constraint_p2p_add(EPhysics_Body *body1, EPhysics_Body *body2, Evas_Coo
return NULL; return NULL;
} }
rate = ephysics_world_rate_get(ephysics_body_world_get(body1)); constraint->p2p.body1 = body1;
constraint->p2p.body2 = body2;
constraint->p2p.anchor_b1_x = anchor_b1_x;
constraint->p2p.anchor_b1_y = anchor_b1_y;
constraint->p2p.anchor_b2_x = anchor_b2_x;
constraint->p2p.anchor_b2_y = anchor_b2_y;
if (!body2) if (!_ephysics_constraint_p2p_set(
constraint->bt_constraint = new btPoint2PointConstraint( constraint, ephysics_world_rate_get(ephysics_body_world_get(
*ephysics_body_rigid_body_get(body1), constraint->p2p.body1))))
btVector3(anchor_b1_x / rate, anchor_b1_y / rate, 0)); return NULL;
else
constraint->bt_constraint = new btPoint2PointConstraint(
*ephysics_body_rigid_body_get(body1),
*ephysics_body_rigid_body_get(body2),
btVector3(anchor_b1_x / rate, anchor_b1_y / rate, 0),
btVector3(anchor_b2_x / rate, anchor_b2_y / rate, 0));
if (!constraint->bt_constraint)
{
ERR("Failed to create a btConstraint");
free(constraint);
return NULL;
}
constraint->type = EPHYSICS_CONSTRAINT_P2P;
constraint->world = ephysics_body_world_get(body1);
ephysics_world_constraint_add(constraint->world, constraint,
constraint->bt_constraint);
INF("Constraint added."); INF("Constraint added.");
return constraint; return constraint;

8
legacy/ephysics/src/lib/ephysics_private.h
View File

@ -81,6 +81,7 @@ struct _EPhysics_Body {
extern int _ephysics_log_dom; extern int _ephysics_log_dom;
/* World */
int ephysics_world_init(void); int ephysics_world_init(void);
int ephysics_world_shutdown(void); int ephysics_world_shutdown(void);
Eina_Bool ephysics_world_body_add(EPhysics_World *world, EPhysics_Body *body); Eina_Bool ephysics_world_body_add(EPhysics_World *world, EPhysics_Body *body);
@ -92,8 +93,8 @@ void ephysics_world_boundary_set(EPhysics_World *world, EPhysics_World_Boundary
EPhysics_Body *ephysics_world_boundary_get(const EPhysics_World *world, EPhysics_World_Boundary boundary); EPhysics_Body *ephysics_world_boundary_get(const EPhysics_World *world, EPhysics_World_Boundary boundary);
Eina_Bool ephysics_world_bodies_outside_autodel_get(const EPhysics_World *world); Eina_Bool ephysics_world_bodies_outside_autodel_get(const EPhysics_World *world);
/* Body */
Eina_Bool ephysics_body_filter_collision(EPhysics_Body *body0, EPhysics_Body *body1); Eina_Bool ephysics_body_filter_collision(EPhysics_Body *body0, EPhysics_Body *body1);
void ephysics_body_evas_object_update_select(EPhysics_Body *body); void ephysics_body_evas_object_update_select(EPhysics_Body *body);
void ephysics_orphan_body_del(EPhysics_Body *body); void ephysics_orphan_body_del(EPhysics_Body *body);
void ephysics_body_contact_processed(EPhysics_Body *body, EPhysics_Body *contact_body, btVector3 position); void ephysics_body_contact_processed(EPhysics_Body *body, EPhysics_Body *contact_body, btVector3 position);
@ -101,14 +102,19 @@ btRigidBody *ephysics_body_rigid_body_get(const EPhysics_Body *body);
void ephysics_body_active_set(EPhysics_Body *body, Eina_Bool active); void ephysics_body_active_set(EPhysics_Body *body, Eina_Bool active);
void ephysics_body_recalc(EPhysics_Body *body, double rate); void ephysics_body_recalc(EPhysics_Body *body, double rate);
/* Camera */
EPhysics_Camera *ephysics_camera_add(EPhysics_World *world); EPhysics_Camera *ephysics_camera_add(EPhysics_World *world);
void ephysics_camera_del(EPhysics_Camera *camera); void ephysics_camera_del(EPhysics_Camera *camera);
void ephysics_camera_moved_set(EPhysics_Camera *camera, Eina_Bool moved); void ephysics_camera_moved_set(EPhysics_Camera *camera, Eina_Bool moved);
Eina_Bool ephysics_camera_moved_get(const EPhysics_Camera *camera); Eina_Bool ephysics_camera_moved_get(const EPhysics_Camera *camera);
void ephysics_camera_target_moved(EPhysics_Camera *camera, EPhysics_Body *body); void ephysics_camera_target_moved(EPhysics_Camera *camera, EPhysics_Body *body);
/* Shape */
const Eina_Inlist *ephysics_shape_points_get(const EPhysics_Shape *shape); const Eina_Inlist *ephysics_shape_points_get(const EPhysics_Shape *shape);
/* Constraint */
void ephysics_constraint_recalc(EPhysics_Constraint *constraint, double rate);
#ifdef __cplusplus #ifdef __cplusplus
} }
#endif #endif