axmol/external/chipmunk/src/cpBody.c

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/* Copyright (c) 2007 Scott Lembcke
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <float.h>
#include "chipmunk_private.h"
#include "constraints/util.h"
// initialized in cpInitChipmunk()
cpBody cpStaticBodySingleton;
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cpBody*
cpBodyAlloc(void)
{
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return (cpBody *)cpcalloc(1, sizeof(cpBody));
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}
cpBody *
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cpBodyInit(cpBody *body, cpFloat m, cpFloat i)
{
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body->space = NULL;
body->shapeList = NULL;
body->arbiterList = NULL;
body->constraintList = NULL;
body->velocity_func = cpBodyUpdateVelocity;
body->position_func = cpBodyUpdatePosition;
cpComponentNode node = {NULL, NULL, 0.0f};
body->node = node;
body->p = cpvzero;
body->v = cpvzero;
body->f = cpvzero;
body->w = 0.0f;
body->t = 0.0f;
body->v_bias = cpvzero;
body->w_bias = 0.0f;
body->v_limit = (cpFloat)INFINITY;
body->w_limit = (cpFloat)INFINITY;
body->data = NULL;
// Setters must be called after full initialization so the sanity checks don't assert on garbage data.
cpBodySetMass(body, m);
cpBodySetMoment(body, i);
cpBodySetAngle(body, 0.0f);
return body;
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}
cpBody*
cpBodyNew(cpFloat m, cpFloat i)
{
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return cpBodyInit(cpBodyAlloc(), m, i);
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}
cpBody *
cpBodyInitStatic(cpBody *body)
{
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cpBodyInit(body, (cpFloat)INFINITY, (cpFloat)INFINITY);
body->node.idleTime = (cpFloat)INFINITY;
return body;
}
cpBody *
cpBodyNewStatic(void)
{
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return cpBodyInitStatic(cpBodyAlloc());
}
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void cpBodyDestroy(cpBody *body){}
void
cpBodyFree(cpBody *body)
{
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if(body){
cpBodyDestroy(body);
cpfree(body);
}
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}
static void cpv_assert_nan(cpVect v, char *message){cpAssertSoft(v.x == v.x && v.y == v.y, message);}
static void cpv_assert_infinite(cpVect v, char *message){cpAssertSoft(cpfabs(v.x) != INFINITY && cpfabs(v.y) != INFINITY, message);}
static void cpv_assert_sane(cpVect v, char *message){cpv_assert_nan(v, message); cpv_assert_infinite(v, message);}
#ifdef __cplusplus
extern "C" {
#endif
void
cpBodySanityCheck(cpBody *body)
{
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cpAssertSoft(body->m == body->m && body->m_inv == body->m_inv, "Body's mass is invalid.");
cpAssertSoft(body->i == body->i && body->i_inv == body->i_inv, "Body's moment is invalid.");
cpv_assert_sane(body->p, "Body's position is invalid.");
cpv_assert_sane(body->v, "Body's velocity is invalid.");
cpv_assert_sane(body->f, "Body's force is invalid.");
cpAssertSoft(body->a == body->a && cpfabs(body->a) != INFINITY, "Body's angle is invalid.");
cpAssertSoft(body->w == body->w && cpfabs(body->w) != INFINITY, "Body's angular velocity is invalid.");
cpAssertSoft(body->t == body->t && cpfabs(body->t) != INFINITY, "Body's torque is invalid.");
cpv_assert_sane(body->rot, "Body's rotation vector is invalid.");
cpAssertSoft(body->v_limit == body->v_limit, "Body's velocity limit is invalid.");
cpAssertSoft(body->w_limit == body->w_limit, "Body's angular velocity limit is invalid.");
}
#ifdef __cplusplus
}
#endif
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void
cpBodySetMass(cpBody *body, cpFloat mass)
{
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cpAssertHard(mass > 0.0f, "Mass must be positive and non-zero.");
cpBodyActivate(body);
body->m = mass;
body->m_inv = 1.0f/mass;
cpBodyAssertSane(body);
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}
void
cpBodySetMoment(cpBody *body, cpFloat moment)
{
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cpAssertHard(moment > 0.0f, "Moment of Inertia must be positive and non-zero.");
cpBodyActivate(body);
body->i = moment;
body->i_inv = 1.0f/moment;
cpBodyAssertSane(body);
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}
void
cpBodyAddShape(cpBody *body, cpShape *shape)
{
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cpShape *next = body->shapeList;
if(next) next->prev = shape;
shape->next = next;
body->shapeList = shape;
}
void
cpBodyRemoveShape(cpBody *body, cpShape *shape)
{
cpShape *prev = shape->prev;
cpShape *next = shape->next;
if(prev){
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prev->next = next;
} else {
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body->shapeList = next;
}
if(next){
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next->prev = prev;
}
shape->prev = NULL;
shape->next = NULL;
}
static cpConstraint *
filterConstraints(cpConstraint *node, cpBody *body, cpConstraint *filter)
{
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if(node == filter){
return cpConstraintNext(node, body);
} else if(node->a == body){
node->next_a = filterConstraints(node->next_a, body, filter);
} else {
node->next_b = filterConstraints(node->next_b, body, filter);
}
return node;
}
void
cpBodyRemoveConstraint(cpBody *body, cpConstraint *constraint)
{
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body->constraintList = filterConstraints(body->constraintList, body, constraint);
}
void
cpBodySetPos(cpBody *body, cpVect pos)
{
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cpBodyActivate(body);
body->p = pos;
cpBodyAssertSane(body);
}
static inline void
setAngle(cpBody *body, cpFloat angle)
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{
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body->a = angle;//fmod(a, (cpFloat)M_PI*2.0f);
body->rot = cpvforangle(angle);
cpBodyAssertSane(body);
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}
void
cpBodySetAngle(cpBody *body, cpFloat angle)
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{
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cpBodyActivate(body);
setAngle(body, angle);
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}
void
cpBodyUpdateVelocity(cpBody *body, cpVect gravity, cpFloat damping, cpFloat dt)
{
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body->v = cpvclamp(cpvadd(cpvmult(body->v, damping), cpvmult(cpvadd(gravity, cpvmult(body->f, body->m_inv)), dt)), body->v_limit);
cpFloat w_limit = body->w_limit;
body->w = cpfclamp(body->w*damping + body->t*body->i_inv*dt, -w_limit, w_limit);
cpBodySanityCheck(body);
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}
void
cpBodyUpdatePosition(cpBody *body, cpFloat dt)
{
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body->p = cpvadd(body->p, cpvmult(cpvadd(body->v, body->v_bias), dt));
setAngle(body, body->a + (body->w + body->w_bias)*dt);
body->v_bias = cpvzero;
body->w_bias = 0.0f;
cpBodySanityCheck(body);
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}
void
cpBodyResetForces(cpBody *body)
{
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cpBodyActivate(body);
body->f = cpvzero;
body->t = 0.0f;
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}
void
cpBodyApplyForce(cpBody *body, cpVect force, cpVect r)
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{
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cpBodyActivate(body);
body->f = cpvadd(body->f, force);
body->t += cpvcross(r, force);
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}
void
cpBodyApplyImpulse(cpBody *body, const cpVect j, const cpVect r)
{
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cpBodyActivate(body);
apply_impulse(body, j, r);
}
static inline cpVect
cpBodyGetVelAtPoint(cpBody *body, cpVect r)
{
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return cpvadd(body->v, cpvmult(cpvperp(r), body->w));
}
cpVect
cpBodyGetVelAtWorldPoint(cpBody *body, cpVect point)
{
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return cpBodyGetVelAtPoint(body, cpvsub(point, body->p));
}
cpVect
cpBodyGetVelAtLocalPoint(cpBody *body, cpVect point)
{
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return cpBodyGetVelAtPoint(body, cpvrotate(point, body->rot));
}
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void
cpBodyEachShape(cpBody *body, cpBodyShapeIteratorFunc func, void *data)
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{
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cpShape *shape = body->shapeList;
while(shape){
cpShape *next = shape->next;
func(body, shape, data);
shape = next;
}
}
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void
cpBodyEachConstraint(cpBody *body, cpBodyConstraintIteratorFunc func, void *data)
{
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cpConstraint *constraint = body->constraintList;
while(constraint){
cpConstraint *next = cpConstraintNext(constraint, body);
func(body, constraint, data);
constraint = next;
}
}
void
cpBodyEachArbiter(cpBody *body, cpBodyArbiterIteratorFunc func, void *data)
{
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cpArbiter *arb = body->arbiterList;
while(arb){
cpArbiter *next = cpArbiterNext(arb, body);
arb->swappedColl = (body == arb->body_b);
func(body, arb, data);
arb = next;
}
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}