/usr/include/ETL/_fastangle.h is in etl-dev 1.2.1-0.1.
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** Extended Template and Library
** Fast fastangle Abstraction Class Implementation
** $Id$
**
** Copyright (c) 2002 Robert B. Quattlebaum Jr.
**
** This package is free software; you can redistribute it and/or
** modify it under the terms of the GNU General Public License as
** published by the Free Software Foundation; either version 2 of
** the License, or (at your option) any later version.
**
** This package 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 GNU
** General Public License for more details.
**
** === N O T E S ===========================================================
**
** This is an internal header file, included by other ETL headers.
** You should not attempt to use it directly.
**
** ========================================================================= */
/* === S T A R T =========================================================== */
#ifndef __ETL__FASTANGLE_H
#define __ETL__FASTANGLE_H
/* === H E A D E R S ======================================================= */
#include <cmath>
#include <ETL/fixed>
#include "_fastangle_tables.h"
/* === M A C R O S ========================================================= */
#ifndef PI
# define PI (3.1415926535897932384626433832795029L)
#endif
#define ETL_FASTANGLE_INIT()
/* === T Y P E D E F S ===================================================== */
/* === C L A S S E S & S T R U C T S ======================================= */
_ETL_BEGIN_NAMESPACE
/*! ========================================================================
** \class fastangle
** \brief Optimized abstraction of the concept of an angle
**
** A more detailed description needs to be written.
*/
class fastangle
{
public:
typedef double value_type;
protected:
typedef fixed_base<ETL_FIXED_TYPE,ETL_FASTANGLE_LOOKUP_RES> unit;
unit v; //! Stored in rotations
public:
/*
** Arithmetic Operators
*/
//! fastangle Addition Operator
fastangle
operator+(const fastangle &rhs)const
{
fastangle ret;
ret.v=v+rhs.v;
return ret;
}
//! fastangle Subtraction Operator
/*! \sa fastangle dist(const fastangle &) */
fastangle
operator-(const fastangle &rhs)const
{
fastangle ret;
ret.v=v-rhs.v;
return ret;
}
//! fastangle Scalar Multiplication Operator
/*! This operator will multiply the given
fastangle by the given scalar value. */
fastangle
operator*(const unit &rhs)const
{
fastangle ret;
ret.v=v*rhs;
return ret;
}
fastangle
operator/(const unit &rhs)const
{
fastangle ret;
ret.v=v/rhs;
return ret;
}
const fastangle &
operator+=(const fastangle &rhs)
{
v+=rhs.v;
return *this;
}
const fastangle &
operator-=(const fastangle &rhs)
{
v-=rhs.v;
return *this;
}
const fastangle &
operator*=(const unit &rhs)
{
v*=rhs;
return *this;
}
const fastangle &
operator/=(const unit &rhs)
{
v/=rhs;
return *this;
}
//! fastangle Negation
fastangle
operator-()const
{
fastangle ret;
ret.v=-v;
return ret;
}
//! 180 degree rotation operator
/*! Returns the fastangle directly opposite of
the given fastangle, and will yield a result
between 0 and 2PI */
fastangle
operator~()const
{
fastangle ret;
ret.v=(unit)std::floor(v+0.5f);
return ret;
}
/*! Returns true if the shortest
fastangle between the left-hand and
right-hand side is clockwise */
bool
operator<(const fastangle &rhs)const
{ return v<rhs.v; }
// { return dist(rhs).v<(value_type)0.0; }
/*! Returns true if the shortest
fastangle between the left-hand and
right-hand side is counter-clockwise */
bool
operator>(const fastangle &rhs)const
{ return v>rhs.v; }
// { return dist(rhs).v>(value_type)0.0; }
/*! Returns true if the shortest
fastangle between the left-hand and
right-hand side is clockwise,
or if the angles are refer to the same
point on the unit circle. */
bool
operator<=(const fastangle &rhs)const
{ return v<=rhs.v; }
// { return dist(rhs).v<=(value_type)0.0; }
/*! Returns true if the shortest
fastangle between the left-hand and
right-hand side is counter-clockwise,
or if the angles are refer to the same
point on the unit circle. */
bool
operator>=(const fastangle &rhs)const
{ return v>=rhs.v; }
// { return dist(rhs).v>=(value_type)0.0; }
/*! Returns true if the angles
are refer to the same point
on the unit circle. */
bool
operator==(const fastangle &rhs)const
{ return v==rhs.v; }
// { return dist(rhs).v==(value_type)0.0; }
/*! Returns false if the angles
are refer to the same point
on the unit circle. */
bool
operator!=(const fastangle &rhs)const
{ return v!=rhs.v; }
// { return dist(rhs).v!=(value_type)0.0; }
//! fastangle Difference Function
/*! This function will return the
shortest physical distance between
two angles, from -PI/2 to PI/2
\warning Not yet tested
\sa fastangle operator-(const fastangle &) */
fastangle
dist(const fastangle &rhs)const
{
fastangle ret;
ret.v=v-rhs.v;
ret.v-=(unit)std::floor(ret.v+0.5f);
return ret;
}
//! Rotation Modulus
/*! This function will return the
value of the fastangle between 0 and 2PI */
fastangle
mod()const
{
fastangle ret(*this);
ret.v-=(unit)std::floor(ret.v);
return ret;
}
static fastangle
zero()
{
fastangle ret;
ret.v=0;
return ret;
}
bool operator!()const { return v==unit(0); }
/*
** Conversion Classes
*/
class radians;
class degrees;
class rotations;
/*
** Trigonometric Classes
*/
class sin;
class cos;
class tan;
/*
** Friend classes
*/
friend class radians;
friend class degrees;
friend class rotations;
friend class sin;
friend class cos;
friend class tan;
/*
** Bleh...
*/
typedef radians rad;
typedef degrees deg;
typedef rotations rot;
}; // END of class fastangle
/*! ========================================================================
** \class fastangle::radians
** \brief fastangle representation in radians
**
** A more detailed description needs to be written.
*/
class fastangle::radians : public fastangle
{
public:
radians(const value_type &x) { v=x/((value_type)PI*2.0f); }
radians(const fastangle &a):fastangle(a) { }
radians mod()const { return fastangle::mod(); }
radians dist(const fastangle &rhs)const { return fastangle::dist(rhs); }
operator value_type()const { return get(); }
value_type get()const { return (value_type)v*(value_type)PI*2.0f; }
}; // END of class fastangle::radians
/*! ========================================================================
** \class fastangle::degrees
** \brief fastangle representation in degrees
**
** A more detailed description needs to be written.
*/
class fastangle::degrees : public fastangle
{
public:
degrees(const value_type &x) { v=x/360; }
degrees(const fastangle &a):fastangle(a) { }
degrees mod()const { return fastangle::mod(); }
degrees dist(const fastangle &rhs)const { return fastangle::dist(rhs); }
operator value_type()const { return get(); }
value_type get()const { return v*360/*(value_type)(v-::floor(v))*360*/; }
}; // END of class fastangle::degrees
/*! ========================================================================
** \class fastangle::rotations
** \brief fastangle representation in rotations
**
** A more detailed description needs to be written.
*/
class fastangle::rotations : public fastangle
{
public:
rotations(const value_type &x) { v=x; }
rotations(const fastangle &a):fastangle(a) { }
rotations mod()const { return fastangle::mod(); }
rotations dist(const fastangle &rhs)const { return fastangle::dist(rhs); }
operator value_type()const { return get(); }
value_type get()const { return v; }
}; // END of class fastangle::rotations
/*! ========================================================================
** \class fastangle::sin
** \brief fastangle representation as a sine function
**
** A more detailed description needs to be written.
*/
class fastangle::sin : public fastangle
{
public:
sin(const value_type &x) { v.data()=_fastangle_asin_table[(int)((x+1)*(value_type)(1<<(ETL_FASTANGLE_LOOKUP_RES-1)))]; }
sin(const fastangle &a):fastangle(a) { }
sin mod()const { return fastangle::mod(); }
sin dist(const fastangle &rhs)const { return fastangle::dist(rhs); }
operator value_type()const { return get(); }
value_type get()const { return (value_type)_fastangle_sin_table[v.data()&( (1<<ETL_FASTANGLE_LOOKUP_RES)-1)]; }
}; // END of class fastangle::sin
/*! ========================================================================
** \class fastangle::cos
** \brief fastangle representation as a cosine function
**
** A more detailed description needs to be written.
*/
class fastangle::cos : public fastangle
{
public:
cos(const value_type &x) { v.data()=(1<<(ETL_FASTANGLE_LOOKUP_RES-2))-_fastangle_asin_table[(int)((x+1)*(value_type)(1<<(ETL_FASTANGLE_LOOKUP_RES-1)))]; }
cos(const fastangle &a):fastangle(a) { }
cos mod()const { return fastangle::mod(); }
cos dist(const fastangle &rhs)const { return fastangle::dist(rhs); }
operator value_type()const { return get(); }
value_type get()const { return (value_type)_fastangle_sin_table[(v.data()+(1<<(ETL_FASTANGLE_LOOKUP_RES-2)))&( (1<<ETL_FASTANGLE_LOOKUP_RES)-1)]; }
}; // END of class fastangle::cos
/*! ========================================================================
** \class fastangle::tan
** \brief fastangle representation as a tangent function
**
** A more detailed description needs to be written.
*/
class fastangle::tan : public fastangle
{
public:
tan(const value_type &x)
{
if(x>1)
v.data()=(1<<(ETL_FASTANGLE_LOOKUP_RES-2))-_fastangle_atan_table[(int)(((1.0/x)+1)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
else if(x<-1)
v.data()=-(1<<(ETL_FASTANGLE_LOOKUP_RES-1)) + (1<<(ETL_FASTANGLE_LOOKUP_RES-2)) - _fastangle_atan_table[(int)(((1.0/x)+1)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
else
v.data()=_fastangle_atan_table[(int)((x+1)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
}
tan(const value_type &y,const value_type &x)
{
if(x>=0 && y>=0) // First quadrant
{
if(y>x)
v.data()=(1<<(ETL_FASTANGLE_LOOKUP_RES-2))-_fastangle_atan_table[(int)(((x/y)+1)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
else
v.data()=_fastangle_atan_table[(int)(((y/x)+1)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
}
else if(x>=0 && y<0) // Fourth quadrant
{
if(-y>x)
v.data()=-(1<<(ETL_FASTANGLE_LOOKUP_RES-1)) + (1<<(ETL_FASTANGLE_LOOKUP_RES-2))-_fastangle_atan_table[(int)(((x/y)+1.0)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
else
v.data()=_fastangle_atan_table[(int)(((y/x)+1.0)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
}
else if(x<0 && y>=0) // Second quadrant
{
if(y>-x)
v.data()=(1<<(ETL_FASTANGLE_LOOKUP_RES-2))-_fastangle_atan_table[(int)(((x/y)+1.0)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))];
else
v.data()=_fastangle_atan_table[(int)(((y/x)+1.0)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))]+(1<<(ETL_FASTANGLE_LOOKUP_RES-1));
}
else if(x<0 && y<0) // Third Quadrant
{
if(-y>-x)
v.data()=(1<<(ETL_FASTANGLE_LOOKUP_RES-2))-_fastangle_atan_table[(int)(((x/y)+1.0)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))] - (1<<(ETL_FASTANGLE_LOOKUP_RES-1));
else
v.data()=_fastangle_atan_table[(int)(((y/x)+1.0)*(value_type)((1<<(ETL_FASTANGLE_LOOKUP_RES-1))-1))]-(1<<(ETL_FASTANGLE_LOOKUP_RES-1));
}
else v.data()=0;
}
tan(const fastangle &a):fastangle(a) { }
tan mod()const { return fastangle::mod(); }
tan dist(const fastangle &rhs)const { return fastangle::dist(rhs); }
operator value_type()const { return get(); }
value_type get()const { return (value_type)_fastangle_tan_table[v.data()&( (1<<ETL_FASTANGLE_LOOKUP_RES)-1)]; }
}; // END of class fastangle::tan
_ETL_END_NAMESPACE
template <>
struct affine_combo<etl::fastangle,float>
{
etl::fastangle operator()(const etl::fastangle &a,const etl::fastangle &b,const float &t)const
{
return b.dist(a)*t+a;
}
etl::fastangle reverse(const etl::fastangle &x, const etl::fastangle &b, const float &t)const
{
return x.dist(b*t)*((float)1/((float)1-t));
}
};
template <>
struct distance_func<etl::fastangle> : public std::binary_function<etl::fastangle, etl::fastangle, etl::fastangle>
{
etl::fastangle operator()(const etl::fastangle &a,const etl::fastangle &b)const
{
etl::fastangle delta=b.dist(a);
if(delta<etl::fastangle::zero())
return -delta;
return delta;
}
etl::fastangle cook(const etl::fastangle &x) { return x; }
etl::fastangle uncook(const etl::fastangle &x) { return x; }
};
/* === E N D =============================================================== */
#endif
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