/usr/include/ode/common.h is in libode-dev 2:0.13.1+git20150309-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* *
* Open Dynamics Engine, Copyright (C) 2001,2002 Russell L. Smith. *
* All rights reserved. Email: russ@q12.org Web: www.q12.org *
* *
* This library is free software; you can redistribute it and/or *
* modify it under the terms of EITHER: *
* (1) The GNU Lesser General Public License as published by the Free *
* Software Foundation; either version 2.1 of the License, or (at *
* your option) any later version. The text of the GNU Lesser *
* General Public License is included with this library in the *
* file LICENSE.TXT. *
* (2) The BSD-style license that is included with this library in *
* the file LICENSE-BSD.TXT. *
* *
* This library is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the files *
* LICENSE.TXT and LICENSE-BSD.TXT for more details. *
* *
*************************************************************************/
#ifndef _ODE_COMMON_H_
#define _ODE_COMMON_H_
#include <ode/odeconfig.h>
#include <ode/error.h>
#ifdef __cplusplus
extern "C" {
#endif
/* configuration stuff */
/* constants */
/* pi and 1/sqrt(2) are defined here if necessary because they don't get
* defined in <math.h> on some platforms (like MS-Windows)
*/
#ifndef M_PI
#define M_PI REAL(3.1415926535897932384626433832795029)
#endif
#ifndef M_PI_2
#define M_PI_2 REAL(1.5707963267948966192313216916398)
#endif
#ifndef M_SQRT1_2
#define M_SQRT1_2 REAL(0.7071067811865475244008443621048490)
#endif
/* floating point data type, vector, matrix and quaternion types */
#if defined(dSINGLE)
typedef float dReal;
#ifdef dDOUBLE
#error You can only #define dSINGLE or dDOUBLE, not both.
#endif /* dDOUBLE */
#elif defined(dDOUBLE)
typedef double dReal;
#else
#error You must #define dSINGLE or dDOUBLE
#endif
/* Detect if we've got both trimesh engines enabled. */
#if dTRIMESH_ENABLED
#if dTRIMESH_OPCODE && dTRIMESH_GIMPACT
#error You can only #define dTRIMESH_OPCODE or dTRIMESH_GIMPACT, not both.
#endif
#endif /* dTRIMESH_ENABLED */
/*
* Define a type for indices, either 16 or 32 bit, based on build option
* TODO: Currently GIMPACT only supports 32 bit indices.
*/
#if dTRIMESH_16BIT_INDICES
#if dTRIMESH_GIMPACT
typedef duint32 dTriIndex;
#else /* dTRIMESH_GIMPACT */
typedef duint16 dTriIndex;
#endif /* dTRIMESH_GIMPACT */
#else /* dTRIMESH_16BIT_INDICES */
typedef duint32 dTriIndex;
#endif /* dTRIMESH_16BIT_INDICES */
/* round an integer up to a multiple of 4, except that 0 and 1 are unmodified
* (used to compute matrix leading dimensions)
*/
#define dPAD(a) (((a) > 1) ? ((((a)-1)|3)+1) : (a))
/* these types are mainly just used in headers */
typedef dReal dVector3[4];
typedef dReal dVector4[4];
typedef dReal dMatrix3[4*3];
typedef dReal dMatrix4[4*4];
typedef dReal dMatrix6[8*6];
typedef dReal dQuaternion[4];
/* precision dependent scalar math functions */
#if defined(dSINGLE)
#define REAL(x) (x##f) /* form a constant */
#define dRecip(x) ((1.0f/(x))) /* reciprocal */
#define dSqrt(x) (sqrtf(x)) /* square root */
#define dRecipSqrt(x) ((1.0f/sqrtf(x))) /* reciprocal square root */
#define dSin(x) (sinf(x)) /* sine */
#define dCos(x) (cosf(x)) /* cosine */
#define dFabs(x) (fabsf(x)) /* absolute value */
#define dAtan2(y,x) (atan2f(y,x)) /* arc tangent with 2 args */
#define dAcos(x) (acosf(x))
#define dFMod(a,b) (fmodf(a,b)) /* modulo */
#define dFloor(x) floorf(x) /* floor */
#define dCeil(x) ceilf(x) /* ceil */
#define dCopySign(a,b) _ode_copysignf(a, b) /* copy value sign */
#define dNextAfter(x, y) _ode_nextafterf(x, y) /* next value after */
#ifdef HAVE___ISNANF
#define dIsNan(x) (__isnanf(x))
#elif defined(HAVE__ISNANF)
#define dIsNan(x) (_isnanf(x))
#elif defined(HAVE_ISNANF)
#define dIsNan(x) (isnanf(x))
#else
/*
fall back to _isnan which is the VC way,
this may seem redundant since we already checked
for _isnan before, but if isnan is detected by
configure but is not found during compilation
we should always make sure we check for __isnanf,
_isnanf and isnanf in that order before falling
back to a default
*/
#define dIsNan(x) (_isnan(x))
#endif
#elif defined(dDOUBLE)
#define REAL(x) (x)
#define dRecip(x) (1.0/(x))
#define dSqrt(x) sqrt(x)
#define dRecipSqrt(x) (1.0/sqrt(x))
#define dSin(x) sin(x)
#define dCos(x) cos(x)
#define dFabs(x) fabs(x)
#define dAtan2(y,x) atan2((y),(x))
#define dAcos(x) acos(x)
#define dFMod(a,b) (fmod((a),(b)))
#define dFloor(x) floor(x)
#define dCeil(x) ceil(x)
#define dCopySign(a,b) _ode_copysign(a, b)
#define dNextAfter(x, y) _ode_nextafter(x, y)
#ifdef HAVE___ISNAN
#define dIsNan(x) (__isnan(x))
#elif defined(HAVE__ISNAN)
#define dIsNan(x) (_isnan(x))
#elif defined(HAVE_ISNAN)
#define dIsNan(x) (isnan(x))
#else
#define dIsNan(x) (_isnan(x))
#endif
#else
#error You must #define dSINGLE or dDOUBLE
#endif
/* internal object types (all prefixed with `dx') */
struct dxWorld; /* dynamics world */
struct dxSpace; /* collision space */
struct dxBody; /* rigid body (dynamics object) */
struct dxGeom; /* geometry (collision object) */
struct dxJoint;
struct dxJointNode;
struct dxJointGroup;
struct dxWorldProcessThreadingManager;
typedef struct dxWorld *dWorldID;
typedef struct dxSpace *dSpaceID;
typedef struct dxBody *dBodyID;
typedef struct dxGeom *dGeomID;
typedef struct dxJoint *dJointID;
typedef struct dxJointGroup *dJointGroupID;
typedef struct dxWorldProcessThreadingManager *dWorldStepThreadingManagerID;
/* error numbers */
enum {
d_ERR_UNKNOWN = 0, /* unknown error */
d_ERR_IASSERT, /* internal assertion failed */
d_ERR_UASSERT, /* user assertion failed */
d_ERR_LCP /* user assertion failed */
};
/* joint type numbers */
typedef enum {
dJointTypeNone = 0, /* or "unknown" */
dJointTypeBall,
dJointTypeHinge,
dJointTypeSlider,
dJointTypeContact,
dJointTypeUniversal,
dJointTypeHinge2,
dJointTypeFixed,
dJointTypeNull,
dJointTypeAMotor,
dJointTypeLMotor,
dJointTypePlane2D,
dJointTypePR,
dJointTypePU,
dJointTypePiston,
dJointTypeDBall,
dJointTypeDHinge,
dJointTypeTransmission,
} dJointType;
/* an alternative way of setting joint parameters, using joint parameter
* structures and member constants. we don't actually do this yet.
*/
/*
typedef struct dLimot {
int mode;
dReal lostop, histop;
dReal vel, fmax;
dReal fudge_factor;
dReal bounce, soft;
dReal suspension_erp, suspension_cfm;
} dLimot;
enum {
dLimotLoStop = 0x0001,
dLimotHiStop = 0x0002,
dLimotVel = 0x0004,
dLimotFMax = 0x0008,
dLimotFudgeFactor = 0x0010,
dLimotBounce = 0x0020,
dLimotSoft = 0x0040
};
*/
/* standard joint parameter names. why are these here? - because we don't want
* to include all the joint function definitions in joint.cpp. hmmmm.
* MSVC complains if we call D_ALL_PARAM_NAMES_X with a blank second argument,
* which is why we have the D_ALL_PARAM_NAMES macro as well. please copy and
* paste between these two.
*/
#define D_ALL_PARAM_NAMES(start) \
/* parameters for limits and motors */ \
dParamLoStop = start, \
dParamHiStop, \
dParamVel, \
dParamLoVel, \
dParamHiVel, \
dParamFMax, \
dParamFudgeFactor, \
dParamBounce, \
dParamCFM, \
dParamStopERP, \
dParamStopCFM, \
/* parameters for suspension */ \
dParamSuspensionERP, \
dParamSuspensionCFM, \
dParamERP, \
/*
* \enum D_ALL_PARAM_NAMES_X
*
* \var dParamGroup This is the starting value of the different group
* (i.e. dParamGroup1, dParamGroup2, dParamGroup3)
* It also helps in the use of parameter
* (dParamGroup2 | dParamFMax) == dParamFMax2
*/
#define D_ALL_PARAM_NAMES_X(start,x) \
dParamGroup ## x = start, \
/* parameters for limits and motors */ \
dParamLoStop ## x = start, \
dParamHiStop ## x, \
dParamVel ## x, \
dParamLoVel ## x, \
dParamHiVel ## x, \
dParamFMax ## x, \
dParamFudgeFactor ## x, \
dParamBounce ## x, \
dParamCFM ## x, \
dParamStopERP ## x, \
dParamStopCFM ## x, \
/* parameters for suspension */ \
dParamSuspensionERP ## x, \
dParamSuspensionCFM ## x, \
dParamERP ## x,
enum {
D_ALL_PARAM_NAMES(0)
dParamsInGroup, /* < Number of parameter in a group */
D_ALL_PARAM_NAMES_X(0x000,1)
D_ALL_PARAM_NAMES_X(0x100,2)
D_ALL_PARAM_NAMES_X(0x200,3)
/* add a multiple of this constant to the basic parameter numbers to get
* the parameters for the second, third etc axes.
*/
dParamGroup=0x100
};
/* angular motor mode numbers */
enum {
dAMotorUser = 0,
dAMotorEuler = 1
};
/* transmission joint mode numbers */
enum {
dTransmissionParallelAxes = 0,
dTransmissionIntersectingAxes = 1,
dTransmissionChainDrive = 2
};
/* joint force feedback information */
typedef struct dJointFeedback {
dVector3 f1; /* force applied to body 1 */
dVector3 t1; /* torque applied to body 1 */
dVector3 f2; /* force applied to body 2 */
dVector3 t2; /* torque applied to body 2 */
} dJointFeedback;
/* private functions that must be implemented by the collision library:
* (1) indicate that a geom has moved, (2) get the next geom in a body list.
* these functions are called whenever the position of geoms connected to a
* body have changed, e.g. with dBodySetPosition(), dBodySetRotation(), or
* when the ODE step function updates the body state.
*/
void dGeomMoved (dGeomID);
dGeomID dGeomGetBodyNext (dGeomID);
/**
* dGetConfiguration returns the specific ODE build configuration as
* a string of tokens. The string can be parsed in a similar way to
* the OpenGL extension mechanism, the naming convention should be
* familiar too. The following extensions are reported:
*
* ODE
* ODE_single_precision
* ODE_double_precision
* ODE_EXT_no_debug
* ODE_EXT_trimesh
* ODE_EXT_opcode
* ODE_EXT_gimpact
* ODE_OPC_16bit_indices
* ODE_OPC_new_collider
* ODE_EXT_mt_collisions
* ODE_EXT_threading
* ODE_THR_builtin_impl
*/
ODE_API const char* dGetConfiguration (void);
/**
* Helper to check for a token in the ODE configuration string.
* Caution, this function is case sensitive.
*
* @param token A configuration token, see dGetConfiguration for details
*
* @return 1 if exact token is present, 0 if not present
*/
ODE_API int dCheckConfiguration( const char* token );
#ifdef __cplusplus
}
#endif
#endif
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