/usr/include/Aria/ariaUtil.h is in libaria-dev 2.8.0+repack-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Adept MobileRobots Robotics Interface for Applications (ARIA)
Copyright (C) 2004, 2005 ActivMedia Robotics LLC
Copyright (C) 2006, 2007, 2008, 2009, 2010 MobileRobots Inc.
Copyright (C) 2011, 2012, 2013 Adept Technology
This program 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 program 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.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
If you wish to redistribute ARIA under different terms, contact
Adept MobileRobots for information about a commercial version of ARIA at
robots@mobilerobots.com or
Adept MobileRobots, 10 Columbia Drive, Amherst, NH 03031; +1-603-881-7960
*/
#ifndef ARIAUTIL_H
#define ARIAUTIL_H
#define _GNU_SOURCE 1
#include <string>
// #define _XOPEN_SOURCE 500
#include <list>
#include <map>
#include <math.h>
#include <stdarg.h>
#include <stdlib.h>
#include <limits.h>
#include <string.h>
#include <float.h>
#if defined(_WIN32) || defined(WIN32)
#include <sys/timeb.h>
#include <sys/stat.h>
#else
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <unistd.h>
#include <strings.h>
#endif // ifndef win32
#include <time.h>
#include "ariaTypedefs.h"
#include "ArLog.h"
#include "ArFunctor.h"
#include "ArArgumentParser.h"
//#include "ariaInternal.h"
#include "ariaOSDef.h"
class ArLaser;
class ArBatteryMTX;
class ArLCDMTX;
class ArSonarMTX;
class ArDeviceConnection;
#ifndef M_PI
#define M_PI 3.1415927
#endif // of M_PI, windows has a function call instead of a define
/// Contains various utility functions, including cross-platform wrappers around common system functions.
/** @ingroup UtilityClasses
@ingroup ImportantClasses
*/
class ArUtil
{
public:
/// Values for the bits from 0 to 16
enum BITS {
BIT0 = 0x1, ///< value of BIT0
BIT1 = 0x2, ///< value of BIT1
BIT2 = 0x4, ///< value of BIT2
BIT3 = 0x8, ///< value of BIT3
BIT4 = 0x10, ///< value of BIT4
BIT5 = 0x20, ///< value of BIT5
BIT6 = 0x40, ///< value of BIT6
BIT7 = 0x80, ///< value of BIT7
BIT8 = 0x100, ///< value of BIT8
BIT9 = 0x200, ///< value of BIT9
BIT10 = 0x400, ///< value of BIT10
BIT11 = 0x800, ///< value of BIT11
BIT12 = 0x1000, ///< value of BIT12
BIT13 = 0x2000, ///< value of BIT13
BIT14 = 0x4000, ///< value of BIT14
BIT15 = 0x8000, ///< value of BIT15
};
#ifdef WIN32
typedef int mode_t;
#endif
/// Sleep for the given number of milliseconds
AREXPORT static void sleep(unsigned int ms);
/// Get the time in milliseconds
AREXPORT static unsigned int getTime(void);
/// Delete all members of a set. Does NOT empty the set.
/**
Assumes that T is an iterator that supports the operator*, operator!=
and operator++. The return is assumed to be a pointer to a class that
needs to be deleted.
*/
template<class T> static void deleteSet(T begin, T end)
{
for (; begin != end; ++begin)
{
delete (*begin);
}
}
/// Delete all members of a set. Does NOT empty the set.
/**
Assumes that T is an iterator that supports the operator**, operator!=
and operator++. The return is assumed to be a pair. The second value of
the pair is assumed to be a pointer to a class that needs to be deleted.
*/
template<class T> static void deleteSetPairs(T begin, T end)
{
for (; begin != end; ++begin)
{
delete (*begin).second;
}
}
/// Returns the minimum of the two values
static int findMin(int first, int second)
{ if (first < second) return first; else return second; }
/// Returns the maximum of the two values
static int findMax(int first, int second)
{ if (first > second) return first; else return second; }
/// Returns the minimum of the two values
static double findMin(double first, double second)
{ if (first < second) return first; else return second; }
/// Returns the maximum of the two values
static double findMax(double first, double second)
{ if (first > second) return first; else return second; }
/// OS-independent way of finding the size of a file.
AREXPORT static long sizeFile(const char *fileName);
/// OS-independent way of finding the size of a file.
AREXPORT static long sizeFile(std::string fileName);
/// OS-independent way of checking to see if a file exists and is readable.
AREXPORT static bool findFile(const char *fileName);
// OS-independent way of stripping the directory from the fileName.
// commented out with std::string changes since this didn't seem worth fixing right now
//AREXPORT static bool stripDir(std::string fileIn, std::string &fileOut);
// OS-independent way of stripping the fileName from the directory.
// commented out with std::string changes since this didn't seem worth fixing right now
//AREXPORT static bool stripFile(std::string fileIn, std::string &fileOut);
/// Appends a slash to a path if there is not one there already
AREXPORT static void appendSlash(char *path, size_t pathLength);
/// Appends a slash to the given string path if necessary.
AREXPORT static void appendSlash(std::string &path);
/// Fix the slash orientation in file path string for windows or linux
AREXPORT static void fixSlashes(char *path, size_t pathLength);
/// Fixes the slash orientation in the given file path string for the current platform
AREXPORT static void fixSlashes(std::string &path);
/// Fix the slash orientation in file path string to be all forward
AREXPORT static void fixSlashesForward(char *path, size_t pathLength);
/// Fix the slash orientation in file path string to be all backward
AREXPORT static void fixSlashesBackward(char *path, size_t pathLength);
/// Returns the slash (i.e. separator) character for the current platform
AREXPORT static char getSlash();
/// Adds two directories, taking care of all slash issues
AREXPORT static void addDirectories(char *dest, size_t destLength,
const char *baseDir,
const char *insideDir);
/// Finds out if two strings are equal
AREXPORT static int strcmp(std::string str, std::string str2);
/// Finds out if two strings are equal
AREXPORT static int strcmp(std::string str, const char *str2);
/// Finds out if two strings are equal
AREXPORT static int strcmp(const char *str, std::string str2);
/// Finds out if two strings are equal
AREXPORT static int strcmp(const char *str, const char *str2);
/// Finds out if two strings are equal (ignoring case)
AREXPORT static int strcasecmp(std::string str, std::string str2);
/// Finds out if two strings are equal (ignoring case)
AREXPORT static int strcasecmp(std::string str, const char *str2);
/// Finds out if two strings are equal (ignoring case)
AREXPORT static int strcasecmp(const char *str, std::string str2);
/// Finds out if two strings are equal (ignoring case)
AREXPORT static int strcasecmp(const char *str, const char *str2);
/// Finds out if a string has a suffix
AREXPORT static bool strSuffixCmp(const char *str, const char *suffix);
/// Finds out if a string has a suffix
AREXPORT static bool strSuffixCaseCmp(const char *str, const char *suffix);
/// Compares two strings (ignoring case and surrounding quotes)
/**
* This helper method is primarily used to ignore surrounding quotes
* when comparing ArArgumentBuilder args.
* @return int set to 0 if the two strings are equivalent, a negative
* number if str1 is "less than" str2, and a postive number if it is
* "greater than".
**/
AREXPORT static int strcasequotecmp(const std::string &str1,
const std::string &str2);
/// Puts a \ before spaces in src, puts it into dest
AREXPORT static void escapeSpaces(char *dest, const char *src,
size_t maxLen);
/// Strips out the quotes in the src buffer into the dest buffer
AREXPORT static bool stripQuotes(char *dest, const char *src,size_t destLen);
/// Strips the quotes from the given string.
AREXPORT static bool stripQuotes(std::string *strToStrip);
/// Lowers a string from src into dest, make sure there's enough space
AREXPORT static void lower(char *dest, const char *src,
size_t maxLen);
/// Returns true if this string is only alphanumeric (i.e. it contains only leters and numbers), false if it contains any non alphanumeric characters (punctuation, whitespace, control characters, etc.)
AREXPORT static bool isOnlyAlphaNumeric(const char *str);
/// Returns true if this string is only numeric (i.e. it contains only numeric
//digits), or it's null, or false if it contains any non nonnumeric characters (alphabetic, punctuation, whitespace, control characters, etc.)
AREXPORT static bool isOnlyNumeric(const char *str);
/// Returns true if the given string is null or of zero length, false otherwise
AREXPORT static bool isStrEmpty(const char *str);
/// Determines whether the given text is contained in the given list of strings.
AREXPORT static bool isStrInList(const char *str,
const std::list<std::string> &list,
bool isIgnoreCase = false);
/// Returns the floating point number from the string representation of that number in @a nptr, or HUGE_VAL for "inf" or -HUGE_VAL for "-inf".
AREXPORT static double atof(const char *nptr);
/// Converts an integer value into a string for true or false
AREXPORT static const char *convertBool(int val);
#ifndef SWIG
/// Function for doing a printf style call to a functor
/** @swigomit */
AREXPORT static void functorPrintf(ArFunctor1<const char *> *functor,
char *str, ...);
#endif
/// Function for doing a fprintf to a file (here to make a functor for)
AREXPORT static void writeToFile(const char *str, FILE *file);
/// Gets a string contained in an arbitrary file
AREXPORT static bool getStringFromFile(const char *fileName,
char *str, size_t strLen);
/**
These are for passing into getStringFromRegistry
**/
enum REGKEY {
REGKEY_CLASSES_ROOT, ///< use HKEY_CLASSES_ROOT
REGKEY_CURRENT_CONFIG, ///< use HKEY_CURRENT_CONFIG
REGKEY_CURRENT_USER, ///< use HKEY_CURRENT_USER
REGKEY_LOCAL_MACHINE, ///< use HKEY_LOCAL_MACHINE
REGKEY_USERS ///< use HKEY_USERS
};
/// Returns a string from the Windows registry
AREXPORT static bool getStringFromRegistry(REGKEY root,
const char *key,
const char *value,
char *str,
int len);
/// Returns a string from the Windows registry, searching each of the following registry root paths in order: REGKEY_CURRENT_USER, REGKEY_LOCAL_MACHINE
AREXPORT static bool findFirstStringInRegistry(const char* key, const char* value, char* str, int len) {
if(!getStringFromRegistry(REGKEY_CURRENT_USER, key, value, str, len))
return getStringFromRegistry(REGKEY_LOCAL_MACHINE, key, value, str, len);
return true;
}
AREXPORT static const char *COM1; ///< First serial port device name (value depends on compilation platform)
AREXPORT static const char *COM2; ///< Second serial port device name (value depends on compilation platform)
AREXPORT static const char *COM3; ///< Third serial port device name (value depends on compilation platform)
AREXPORT static const char *COM4; ///< Fourth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM5; ///< Fifth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM6; ///< Sixth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM7; ///< Seventh serial port device name (value depends on compilation platform)
AREXPORT static const char *COM8; ///< Eighth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM9; ///< Ninth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM10; ///< Tenth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM11; ///< Eleventh serial port device name (value depends on compilation platform)
AREXPORT static const char *COM12; ///< Twelth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM13; ///< Thirteenth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM14; ///< Fourteenth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM15; ///< Fifteenth serial port device name (value depends on compilation platform)
AREXPORT static const char *COM16; ///< Sixteenth serial port device name (value depends on compilation platform)
AREXPORT static const char *TRUESTRING; ///< "true"
AREXPORT static const char *FALSESTRING; ///< "false"
/** Put the current year (GMT) in s (e.g. "2005").
* @param s String buffer (allocated) to write year into
* @param len Size of @a s
*/
AREXPORT static void putCurrentYearInString(char* s, size_t len);
/** Put the current month (GMT) in s (e.g. "09" if September).
* @param s String buffer (allocated) to write month into
* @param len Size of @a s
*/
AREXPORT static void putCurrentMonthInString(char* s, size_t len);
/** Put the current day (GMT) of the month in s (e.g. "20").
* @param s String buffer (allocated) to write day into
* @param len Size of @a s
*/
AREXPORT static void putCurrentDayInString(char* s, size_t len);
/** Put the current hour (GMT) in s (e.g. "13" for 1 o'clock PM).
* @param s String buffer (allocated) to write hour into
* @param len Size of @a s
*/
AREXPORT static void putCurrentHourInString(char* s, size_t len);
/** Put the current minute (GMT) in s (e.g. "05").
* @param s String buffer (allocated) to write minutes into
* @param len Size of @a s
*/
AREXPORT static void putCurrentMinuteInString(char* s, size_t len);
/** Put the current second (GMT) in s (e.g. "59").
* @param s String buffer (allocated) to write seconds into
* @param len Size of @a s
*/
AREXPORT static void putCurrentSecondInString(char* s, size_t len);
/// Parses the given time string (h:mm) and returns the corresponding time.
/**
* @param str the char * string to be parsed; in the 24-hour format h:mm
* @param ok an output bool * set to true if the time is successfully parsed;
* false, otherwise
* @param toToday true to find the time on the current day, false to find the time on 1/1/70
* @return time_t if toToday is true then its the parsed time on the current day, if toToday is false then its the parsed time on 1/1/70
* 1/1/70
**/
AREXPORT static time_t parseTime(const char *str, bool *ok = NULL, bool toToday = true);
/** Interface to native platform localtime() function.
* On Linux, this is equivalent to a call to localtime_r(@a timep, @a result) (which is threadsafe, including the returned pointer, since it uses a different time struct for each thread)
* On Windows, this is equivalent to a call to localtime(@a timep, @a result). In addition, a static mutex is used to make it threadsafe.
*
* @param timep Pointer to current time (Unix time_t; seconds since epoch)
* @param result The result of calling platform localtime function is copied into this struct, so it must have been allocated.
* @return false on error (e.g. invalid input), otherwise true.
*
* Example:
* @code
* struct tm t;
* ArUtil::localtime(time(NULL), &t);
* ArLog::log("Current month is %d.\n", t.tm_mon);
* @endcode
*/
AREXPORT static bool localtime(const time_t *timep, struct tm *result);
/** Call ArUtil::localtime(const time_t*, struct tm *) with the current time obtained by calling
* time(NULL).
* @return false on error (e.g. invalid input), otherwise true.
*/
AREXPORT static bool localtime(struct tm *result);
// these aren't needed in windows since it ignores case anyhow
#ifndef WIN32
/// this matches the case out of what file we want
AREXPORT static bool matchCase(const char *baseDir, const char *fileName,
char * result, size_t resultLen);
#endif
/// Pulls the directory out of a file name
AREXPORT static bool getDirectory(const char *fileName,
char * result, size_t resultLen);
/// Pulls the filename out of the file name
AREXPORT static bool getFileName(const char *fileName,
char * result, size_t resultLen);
/// Sets the timestamp on the specified file
AREXPORT static bool changeFileTimestamp(const char *fileName,
time_t timestamp);
/// Opens a file, defaulting it so that the file will close on exec
AREXPORT static FILE *fopen(const char *path, const char *mode,
bool closeOnExec = true);
/// Opens a file, defaulting it so that the file will close on exec
AREXPORT static int open(const char *pathname, int flags,
bool closeOnExec = true);
/// Opens a file, defaulting it so that the file will close on exec
AREXPORT static int open(const char *pathname, int flags, mode_t mode,
bool closeOnExec = true);
/// Opens a file, defaulting it so that the file will close on exec
AREXPORT static int creat(const char *pathname, mode_t mode,
bool closeOnExec = true);
/// Opens a pipe, defaulting it so that the file will close on exec
AREXPORT static FILE *popen(const char *command, const char *type,
bool closeOnExec = true);
/// Sets if the file descriptor will be closed on exec or not
AREXPORT static void setFileCloseOnExec(int fd, bool closeOnExec = true);
/// Sets if the file descriptor will be closed on exec or not
AREXPORT static void setFileCloseOnExec(FILE *file, bool closeOnExec = true);
/** Return true if the value of @a f is not NaN and is not infinite (+/- INF) */
AREXPORT static bool floatIsNormal(double f);
/** Convert seconds to milliseconds */
static double secToMSec(const double sec) { return sec * 1000.0; }
/** Convert milliseconds to seconds */
static double mSecToSec(const double msec) { return msec / 1000.0; }
/** Convert meters to US feet */
static double metersToFeet(const double m) { return m * 3.2808399; }
/** Convert US feet to meters */
static double feetToMeters(const double f) { return f / 3.2808399; }
protected:
//#ifndef WIN32
/// this splits up a file name (it isn't exported since it'd crash with dlls)
static std::list<std::string> splitFileName(const char *fileName);
//#endif
private:
/// The character used as a file separator on the current platform (i.e. Linux or Windows)
static const char SEPARATOR_CHAR;
/// The character used as a file separator on the current platform, in a string format
static const char *SEPARATOR_STRING;
/// The character used as a file separator on the other platforms (i.e. slash in opposite direction)
static const char OTHER_SEPARATOR_CHAR;
#ifdef WIN32
// Used on Windows to make ArUtil::localtime() function threadsafe
static ArMutex ourLocaltimeMutex;
#endif
};
/** Common math operations
@ingroup UtilityClasses
*/
class ArMath
{
private:
/* see ArMath::epsilon() */
static const double ourEpsilon;
// see getRandMax())
static const long ourRandMax;
public:
/** @return a very small number which can be used for comparisons of floating
* point values, etc. */
AREXPORT static double epsilon();
/// This adds two angles together and fixes the result to [-180, 180]
/**
@param ang1 first angle
@param ang2 second angle, added to first
@return sum of the angles, in range [-180,180]
@see subAngle
@see fixAngle */
static double addAngle(double ang1, double ang2)
{ return fixAngle(ang1 + ang2); }
/// This subtracts one angle from another and fixes the result to [-180,180]
/**
@param ang1 first angle
@param ang2 second angle, subtracted from first angle
@return resulting angle, in range [-180,180]
@see addAngle
@see fixAngle
*/
static double subAngle(double ang1, double ang2)
{ return fixAngle(ang1 - ang2); }
/// Takes an angle and returns the angle in range (-180,180]
/**
@param angle the angle to fix
@return the angle in range (-180,180]
@see addAngle
@see subAngle
*/
static double fixAngle(double angle)
{
if (angle >= 360)
angle = angle - 360.0 * (double)((int)angle / 360);
if (angle < -360)
angle = angle + 360.0 * (double)((int)angle / -360);
if (angle <= -180)
angle = + 180.0 + (angle + 180.0);
if (angle > 180)
angle = - 180.0 + (angle - 180.0);
return angle;
}
/// Converts an angle in degrees to an angle in radians
/**
@param deg the angle in degrees
@return the angle in radians
@see radToDeg
*/
static double degToRad(double deg) { return deg * M_PI / 180.0; }
/// Converts an angle in radians to an angle in degrees
/**
@param rad the angle in radians
@return the angle in degrees
@see degToRad
*/
static double radToDeg(double rad) { return rad * 180.0 / M_PI; }
/// Finds the cos, from angles in degrees
/**
@param angle angle to find the cos of, in degrees
@return the cos of the angle
@see sin
*/
static double cos(double angle) { return ::cos(ArMath::degToRad(angle)); }
/// Finds the sin, from angles in degrees
/**
@param angle angle to find the sin of, in degrees
@return the sin of the angle
@see cos
*/
static double sin(double angle) { return ::sin(ArMath::degToRad(angle)); }
/// Finds the tan, from angles in degrees
/**
@param angle angle to find the tan of, in degrees
@return the tan of the angle
*/
static double tan(double angle) { return ::tan(ArMath::degToRad(angle)); }
/// Finds the arctan of the given y/x pair
/**
@param y the y distance
@param x the x distance
@return the angle y and x form
*/
static double atan2(double y, double x)
{ return ArMath::radToDeg(::atan2(y, x)); }
/// Finds if one angle is between two other angles
static bool angleBetween(double angle, double startAngle, double endAngle)
{
angle = fixAngle(angle);
startAngle = fixAngle(startAngle);
endAngle = fixAngle(endAngle);
if ((startAngle < endAngle && angle > startAngle && angle < endAngle) ||
(startAngle > endAngle && (angle > startAngle || angle < endAngle)))
return true;
else
return false;
}
/// Finds the absolute value of a double
/**
@param val the number to find the absolute value of
@return the absolute value of the number
*/
static double fabs(double val)
{
if (val < 0.0)
return -val;
else
return val;
}
/// Finds the closest integer to double given
/**
@param val the double to find the nearest integer to
@return the integer the value is nearest to (also caps it within
int bounds)
*/
static int roundInt(double val)
{
val += .49;
if (val > INT_MAX)
return (int) INT_MAX;
else if (val < INT_MIN)
return (int) INT_MIN;
else
return((int) floor(val));
}
/// Finds the closest short to double given
/**
@param val the double to find the nearest short to
@return the integer the value is nearest to (also caps it within
short bounds)
*/
static short roundShort(double val)
{
val += .49;
if (val > 32767)
return (short) 32767;
else if (val < -32768)
return (short) -32768;
else
return((short) floor(val));
}
/// Rotates a point around 0 by degrees given
static void pointRotate(double *x, double *y, double th)
{
double cs, sn, xt, yt;
cs = cos(th);
sn = sin(th);
xt = *x;
yt = *y;
*x = cs*xt + sn*yt;
*y = cs*yt - sn*xt;
}
/** Returns a random number between 0 and RAND_MAX on Windows, 2^31 on Linux
* (see ArUtil::getRandMax()). On Windows, rand() is used, on Linux, lrand48(). */
static long random(void)
{
#ifdef WIN32
return(rand());
#else
return(lrand48());
#endif
}
/// Maximum of value returned by random()
AREXPORT static long getRandMax();
/** Returns a random number between @a m and @a n. On Windows, rand() is used,
* on Linux lrand48(). */
AREXPORT static long randomInRange(long m, long n);
/// Finds the distance between two coordinates
/**
@param x1 the first coords x position
@param y1 the first coords y position
@param x2 the second coords x position
@param y2 the second coords y position
@return the distance between (x1, y1) and (x2, y2)
**/
static double distanceBetween(double x1, double y1, double x2, double y2)
{ return sqrt((x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2)); }
/// Finds the squared distance between two coordinates
/**
use this only where speed really matters
@param x1 the first coords x position
@param y1 the first coords y position
@param x2 the second coords x position
@param y2 the second coords y position
@return the distance between (x1, y1) and (x2, y2)
**/
static double squaredDistanceBetween(double x1, double y1, double x2, double y2)
{ return (x1 - x2) * (x1 - x2) + (y1 - y2) * (y1 - y2); }
/** Base-2 logarithm */
static double log2(double x)
{
return log10(x) / 0.3010303; // 0.301... is log10(2.0).
}
/// Platform-independent call to determine whether the given double is not-a-number.
static bool isNan(double d) {
#ifdef WIN32
return _isnan(d);
#else
return isnan(d);
#endif
}
static bool isNan(float f) {
#ifdef WIN32
return _isnan(f);
#else
return isnan(f);
#endif
}
static bool isFinite(float f) {
#ifdef WIN32
return _finite(f);
#else
return isfinite(f);
#endif
}
static bool isFinite(double d) {
#ifdef WIN32
return _finite(d);
#else
return isfinite(d);
#endif
}
static bool compareFloats(double f1, double f2, double epsilon)
{
return (fabs(f2-f1) <= epsilon);
}
static bool compareFloats(double f1, double f2)
{
return compareFloats(f1, f2, epsilon());
}
}; // end class ArMath
/// Represents an x, y position with an orientation
/**
This class represents a robot position with heading. The heading is
automatically adjusted to be in the range -180 to 180. It also defaults
to 0, and so does not need to be used. (This avoids having 2 types of
positions.) Everything in the class is inline so it should be fast.
@ingroup UtilityClasses
*/
class ArPose
{
public:
/// Constructor, with optional initial values
/**
Sets the pose to the given values. The constructor can be called with no
parameters, with just x and y, or with x, y, and th. The given heading (th)
is automatically adjusted to be in the range -180 to 180.
@param x the double to set the x position to, default of 0
@param y the double to set the y position to, default of 0
@param th the double value for the pose's heading (or th), default of 0
*/
ArPose(double x = 0, double y = 0, double th = 0) :
myX(x),
myY(y),
myTh(ArMath::fixAngle(th))
{}
/// Copy Constructor
ArPose(const ArPose &pose) :
myX(pose.myX), myY(pose.myY), myTh(pose.myTh) {}
/// Destructor
virtual ~ArPose() {}
/// Sets the position to the given values
/**
Sets the position with the given three values, but the theta does not
need to be given as it defaults to 0.
@param x the position to set the x position to
@param y the position to set the y position to
@param th the position to set the th position to, default of 0
*/
virtual void setPose(double x, double y, double th = 0)
{ setX(x); setY(y); setTh(th); }
/// Sets the position equal to the given position
/** @param position the position value this instance should be set to */
virtual void setPose(ArPose position)
{
setX(position.getX());
setY(position.getY());
setTh(position.getTh());
}
/// Sets the x position
void setX(double x) { myX = x; }
/// Sets the y position
void setY(double y) { myY = y; }
/// Sets the heading
void setTh(double th) { myTh = ArMath::fixAngle(th); }
/// Sets the heading, using radians
void setThRad(double th) { myTh = ArMath::fixAngle(ArMath::radToDeg(th)); }
/// Gets the x position
double getX(void) const { return myX; }
/// Gets the y position
double getY(void) const { return myY; }
/// Gets the heading
double getTh(void) const { return myTh; }
/// Gets the heading, in radians
double getThRad(void) const { return ArMath::degToRad(myTh); }
/// Gets the whole position in one function call
/**
Gets the whole position at once, by giving it 2 or 3 pointers to
doubles. If you give the function a null pointer for a value it won't
try to use the null pointer, so you can pass in a NULL if you don't
care about that value. Also note that th defaults to NULL so you can
use this with just x and y.
@param x a pointer to a double to set the x position to
@param y a pointer to a double to set the y position to
@param th a pointer to a double to set the heading to, defaults to NULL
*/
void getPose(double *x, double *y, double *th = NULL) const
{
if (x != NULL)
*x = myX;
if (y != NULL)
*y = myY;
if (th != NULL)
*th = myTh;
}
/// Finds the distance from this position to the given position
/**
@param position the position to find the distance to
@return the distance to the position from this instance
*/
virtual double findDistanceTo(ArPose position) const
{
return ArMath::distanceBetween(getX(), getY(),
position.getX(),
position.getY());
}
/// Finds the square distance from this position to the given position
/**
This is only here for speed, if you aren't doing this thousands
of times a second don't use this one use findDistanceTo
@param position the position to find the distance to
@return the distance to the position from this instance
**/
virtual double squaredFindDistanceTo(ArPose position) const
{
return ArMath::squaredDistanceBetween(getX(), getY(),
position.getX(),
position.getY());
}
/// Finds the angle between this position and the given position
/**
@param position the position to find the angle to
@return the angle to the given position from this instance, in degrees
*/
virtual double findAngleTo(ArPose position) const
{
return ArMath::radToDeg(atan2(position.getY() - getY(),
position.getX() - getX()));
}
/// Logs the coordinates using ArLog
virtual void log(void) const
{ ArLog::log(ArLog::Terse, "%.0f %.0f %.1f", myX, myY, myTh); }
/// Add the other pose's X, Y and theta to this pose's X, Y, and theta (sum in theta will be normalized to (-180,180)), and return the result
virtual ArPose operator+(const ArPose& other) const
{
return ArPose( myX + other.getX(),
myY + other.getY(),
ArMath::fixAngle(myTh + other.getTh()) );
}
/// Substract the other pose's X, Y, and theta from this pose's X, Y, and theta (difference in theta will be normalized to (-180,180)), and return the result
virtual ArPose operator-(const ArPose& other) const
{
return ArPose( myX - other.getX(),
myY - other.getY(),
ArMath::fixAngle(myTh - other.getTh()) );
}
/** Adds the given pose to this one.
* @swigomit
*/
ArPose & operator+= ( const ArPose & other)
{
myX += other.myX;
myY += other.myY;
myTh = ArMath::fixAngle(myTh + other.myTh);
return *this;
}
/** Subtracts the given pose from this one.
* @swigomit
*/
ArPose & operator-= ( const ArPose & other)
{
myX -= other.myX;
myY -= other.myY;
myTh = ArMath::fixAngle(myTh - other.myTh);
return *this;
}
/// Equality operator (for sets)
virtual bool operator==(const ArPose& other) const
{
return ((fabs(myX - other.myX) < ArMath::epsilon()) &&
(fabs(myY - other.myY) < ArMath::epsilon()) &&
(fabs(myTh - other.myTh) < ArMath::epsilon()));
}
virtual bool operator!=(const ArPose& other) const
{
return ((fabs(myX - other.myX) > ArMath::epsilon()) ||
(fabs(myY - other.myY) > ArMath::epsilon()) ||
(fabs(myTh - other.myTh) > ArMath::epsilon()));
}
/// Less than operator (for sets)
virtual bool operator<(const ArPose& other) const
{
if (fabs(myX - other.myX) > ArMath::epsilon()) {
return myX < other.myX;
}
else if (fabs(myY - other.myY) > ArMath::epsilon()) {
return myY < other.myY;
}
else if (fabs(myTh - other.myTh) > ArMath::epsilon()) {
return myTh < other.myTh;
}
// Otherwise... x, y, and th are equal
return false;
} // end operator <
/// Finds the distance between two poses (static function, uses no
/// data from any instance and shouldn't be able to be called on an
/// instance)
/**
@param pose1 the first coords
@param pose2 the second coords
@return the distance between the poses
**/
static double distanceBetween(ArPose pose1, ArPose pose2)
{ return ArMath::distanceBetween(pose1.getX(), pose1.getY(),
pose2.getX(), pose2.getY()); }
protected:
double myX;
double myY;
double myTh;
};
/// A class for time readings and measuring durations
/**
This class is for timing durations or time between events.
The time values it stores are relative to an abritrary starting time; it
does not correspond to "real world" or "wall clock" time in any way,
so DON'T use this for keeping track of what time it is,
just for timestamps and relative timing (e.g. "this loop needs to sleep another 100 ms").
The recommended methods to use are setToNow() to reset the time,
mSecSince() to obtain the number of milliseconds elapsed since it was
last reset (or secSince() if you don't need millisecond precision), and
mSecSince(ArTime) or secSince(ArTime) to find the difference between
two ArTime objects.
On systems where it is supported this will use a monotonic clock,
this is an ever increasing system that is not dependent on what
the time of day is set to. Normally for linux gettimeofday is
used, but if the time is changed forwards or backwards then bad
things can happen. Windows uses a time since bootup, which
functions the same as the monotonic clock anyways. You can use
ArTime::usingMonotonicClock() to see if this is being used. Note
that an ArTime will have had to have been set to for this to be a
good value... Aria::init does this however, so that should not be
an issue. It looks like the monotonic clocks won't work on linux
kernels before 2.6.
@ingroup UtilityClasses
*/
class ArTime
{
public:
/// Constructor. Time is initialized to the current time.
ArTime() { setToNow(); }
/// Copy constructor
//
ArTime(const ArTime &other) :
mySec(other.mySec),
myMSec(other.myMSec)
{}
/// Assignment operator
ArTime &operator=(const ArTime &other)
{
if (this != &other) {
mySec = other.mySec;
myMSec = other.myMSec;
}
return *this;
}
//
/// Destructor
~ArTime() {}
/// Gets the number of milliseconds since the given timestamp to this one
long mSecSince(ArTime since) const
{
long long ret = mSecSinceLL(since);
if (ret > INT_MAX)
return INT_MAX;
if (ret < -INT_MAX)
return -INT_MAX;
return ret;
/* The old way that had problems with wrapping
long long timeSince, timeThis;
timeSince = since.getSec() * 1000 + since.getMSec();
timeThis = mySec * 1000 + myMSec;
return timeSince - timeThis;
*/
}
/// Gets the number of milliseconds since the given timestamp to this one
long long mSecSinceLL(ArTime since) const
{
long long timeSince, timeThis;
timeSince = since.getSecLL() * 1000 + since.getMSecLL();
timeThis = mySec * 1000 + myMSec;
return timeSince - timeThis;
}
/// Gets the number of seconds since the given timestamp to this one
long secSince(ArTime since) const
{
return mSecSince(since)/1000;
}
/// Gets the number of seconds since the given timestamp to this one
long long secSinceLL(ArTime since) const
{
return mSecSinceLL(since)/1000;
}
/// Finds the number of millisecs from when this timestamp is set to to now (the inverse of mSecSince())
long mSecTo(void) const
{
ArTime now;
now.setToNow();
return -mSecSince(now);
}
/// Finds the number of millisecs from when this timestamp is set to to now (the inverse of mSecSince())
long long mSecToLL(void) const
{
ArTime now;
now.setToNow();
return -mSecSinceLL(now);
}
/// Finds the number of seconds from when this timestamp is set to to now (the inverse of secSince())
long secTo(void) const
{
return mSecTo()/1000;
}
/// Finds the number of seconds from when this timestamp is set to to now (the inverse of secSince())
long long secToLL(void) const
{
return mSecToLL()/1000;
}
/// Finds the number of milliseconds from this timestamp to now
long mSecSince(void) const
{
ArTime now;
now.setToNow();
return mSecSince(now);
}
/// Finds the number of milliseconds from this timestamp to now
long long mSecSinceLL(void) const
{
ArTime now;
now.setToNow();
return mSecSinceLL(now);
}
/// Finds the number of seconds from when this timestamp was set to now
long secSince(void) const
{
return mSecSince()/1000;
}
/// Finds the number of seconds from when this timestamp was set to now
long long secSinceLL(void) const
{
return mSecSinceLL()/1000;
}
/// returns whether the given time is before this one or not
bool isBefore(ArTime testTime) const
{
if (mSecSince(testTime) < 0)
return true;
else
return false;
}
/// returns whether the given time is equal to this time or not
bool isAt(ArTime testTime) const
{
if (mSecSince(testTime) == 0)
return true;
else
return false;
}
/// returns whether the given time is after this one or not
bool isAfter(ArTime testTime) const
{
if (mSecSince(testTime) > 0)
return true;
else
return false;
}
/// Resets the time
AREXPORT void setToNow(void);
/// Add some milliseconds (can be negative) to this time
bool addMSec(long ms)
{
//unsigned long timeThis;
long long timeThis;
timeThis = mySec * 1000 + myMSec;
//if (ms < 0 && (unsigned)abs(ms) > timeThis)
if (ms < 0 && -ms > timeThis)
{
ArLog::log(ArLog::Terse, "ArTime::addMSec: tried to subtract too many milliseconds, would result in a negative time.");
mySec = 0;
myMSec = 0;
return false;
}
else
{
timeThis += ms;
mySec = timeThis / 1000;
myMSec = timeThis % 1000;
}
return true;
} // end method addMSec
/// Add some milliseconds (can be negative) to this time
bool addMSecLL(long long ms)
{
//unsigned long timeThis;
long long timeThis;
timeThis = mySec * 1000 + myMSec;
//if (ms < 0 && (unsigned)abs(ms) > timeThis)
if (ms < 0 && -ms > timeThis)
{
ArLog::log(ArLog::Terse, "ArTime::addMSec: tried to subtract too many milliseconds, would result in a negative time.");
mySec = 0;
myMSec = 0;
return false;
}
else
{
timeThis += ms;
mySec = timeThis / 1000;
myMSec = timeThis % 1000;
}
return true;
} // end method addMSec
/// Sets the seconds value (since the arbitrary starting time)
void setSec(unsigned long sec) { mySec = sec; }
/// Sets the milliseconds value (occuring after the seconds value)
void setMSec(unsigned long msec) { myMSec = msec; }
/// Gets the seconds value (since the arbitrary starting time)
unsigned long getSec(void) const { return mySec; }
/// Gets the milliseconds value (occuring after the seconds value)
unsigned long getMSec(void) const { return myMSec; }
/// Sets the seconds value (since the arbitrary starting time)
void setSecLL(unsigned long long sec) { mySec = sec; }
/// Sets the milliseconds value (occuring after the seconds value)
void setMSecLL(unsigned long long msec) { myMSec = msec; }
/// Gets the seconds value (since the arbitrary starting time)
unsigned long long getSecLL(void) const { return mySec; }
/// Gets the milliseconds value (occuring after the seconds value)
unsigned long long getMSecLL(void) const { return myMSec; }
/// Logs the time
void log(const char *prefix = NULL) const
{ ArLog::log(ArLog::Terse,
"%sTime: %lld.%lld",
((prefix != NULL) ? prefix : ""),
mySec,
myMSec); }
/// Gets if we're using a monotonic (ever increasing) clock
static bool usingMonotonicClock()
{
#if defined(_POSIX_TIMERS) && defined(_POSIX_MONOTONIC_CLOCK)
return ourMonotonicClock;
#endif
#ifdef WIN32
return true;
#endif
return false;
}
/// Equality operator (for sets)
bool operator==(const ArTime& other) const
{
return isAt(other);
}
bool operator!=(const ArTime& other) const
{
return (!isAt(other));
}
// Less than operator for sets
bool operator<(const ArTime& other) const
{
return isBefore(other);
} // end operator <
protected:
unsigned long long mySec;
unsigned long long myMSec;
#if defined(_POSIX_TIMERS) && defined(_POSIX_MONOTONIC_CLOCK)
static bool ourMonotonicClock;
#endif
}; // end class ArTime
/// A subclass of ArPose that also stores a timestamp (ArTime)
/**
@ingroup UtilityClasses
*/
class ArPoseWithTime : public ArPose
{
public:
ArPoseWithTime(double x = 0, double y = 0, double th = 0,
ArTime thisTime = ArTime()) : ArPose(x, y, th)
{ myTime = thisTime; }
/// Copy Constructor
ArPoseWithTime(const ArPose &pose) : ArPose(pose) {}
virtual ~ArPoseWithTime() {}
void setTime(ArTime newTime) { myTime = newTime; }
void setTimeToNow(void) { myTime.setToNow(); }
ArTime getTime(void) const { return myTime; }
protected:
ArTime myTime;
};
/// A class for keeping track of if a complete revolution has been attained
/**
This class can be used to keep track of if a complete revolution has been
done, it is used by doing doing a clearQuadrants when you want to stat
the revolution. Then at each point doing an updateQuadrant with the current
heading of the robot. When didAllQuadrants returns true, then all the
quadrants have been done.
@ingroup UtilityClasses
*/
class ArSectors
{
public:
/// Constructor
ArSectors(int numSectors = 8)
{
mySectorSize = 360/numSectors;
mySectors = new int[numSectors];
myNumSectors = numSectors;
clear();
}
/// Destructor
virtual ~ArSectors() { delete mySectors; }
/// Clears all quadrants
void clear(void)
{
int i;
for (i = 0; i < myNumSectors; i++)
mySectors[i] = false;
}
/// Updates the appropriate quadrant for the given angle
void update(double angle)
{
int angleInt;
angleInt = ArMath::roundInt(ArMath::fixAngle(angle) + 180);
mySectors[angleInt / mySectorSize] = true;
}
/// Returns true if the all of the quadrants have been gone through
bool didAll(void) const
{
int i;
for (i = 0; i < myNumSectors; i++)
if (mySectors[i] == false)
return false;
return true;
}
protected:
int *mySectors;
int myNumSectors;
int mySectorSize;
};
/// Represents geometry of a line in two-dimensional space.
/**
Note this the theoretical line, i.e. it goes infinitely.
For a line segment with endpoints, use ArLineSegment.
@sa ArLineSegment
@ingroup UtilityClasses
**/
class ArLine
{
public:
///// Empty constructor
ArLine() {}
/// Constructor with parameters
ArLine(double a, double b, double c) { newParameters(a, b, c); }
/// Constructor with endpoints
ArLine(double x1, double y1, double x2, double y2)
{ newParametersFromEndpoints(x1, y1, x2, y2); }
/// Destructor
virtual ~ArLine() {}
/// Sets the line parameters (make it not a segment)
void newParameters(double a, double b, double c)
{ myA = a; myB = b; myC = c; }
/// Sets the line parameters from endpoints, but makes it not a segment
void newParametersFromEndpoints(double x1, double y1, double x2, double y2)
{ myA = y1 - y2; myB = x2 - x1; myC = (y2 *x1) - (x2 * y1); }
/// Gets the A line parameter
double getA(void) const { return myA; }
/// Gets the B line parameter
double getB(void) const { return myB; }
/// Gets the C line parameter
double getC(void) const { return myC; }
/// finds the intersection of this line with another line
/**
@param line the line to check if it intersects with this line
@param pose if the lines intersect, the pose is set to the location
@return true if they intersect, false if they do not
**/
bool intersects(const ArLine *line, ArPose *pose) const
{
double x, y;
double n;
n = (line->getB() * getA()) - (line->getA() * getB());
// if this is 0 the lines are parallel
if (fabs(n) < .0000000000001)
{
return false;
}
// they weren't parallel so see where the intersection is
x = ((line->getC() * getB()) - (line->getB() * getC())) / n;
y = ((getC() * line->getA()) - (getA() * line->getC())) / n;
pose->setPose(x, y);
return true;
}
/// Makes the given line perpendicular to this one through the given pose
void makeLinePerp(const ArPose *pose, ArLine *line) const
{
line->newParameters(getB(), -getA(),
(getA() * pose->getY()) - (getB() * pose->getX()));
}
/// Calculate the distance from the given point to (its projection on) this line segment
/**
@param pose the the pose to find the perp point of
@return if the pose does not intersect line it will return < 0
if the pose intersects the segment it will return the distance to
the intersection
**/
virtual double getPerpDist(const ArPose &pose) const
{
ArPose perpPose;
ArLine perpLine;
makeLinePerp(&pose, &perpLine);
if (!intersects(&perpLine, &perpPose))
return -1;
return (perpPose.findDistanceTo(pose));
}
/// Calculate the squared distance from the given point to (its projection on) this line segment
/**
@param pose the the pose to find the perp point of
@return if the pose does not intersect line it will return < 0
if the pose intersects the segment it will return the distance to
the intersection
**/
virtual double getPerpSquaredDist(const ArPose &pose) const
{
ArPose perpPose;
ArLine perpLine;
makeLinePerp(&pose, &perpLine);
if (!intersects(&perpLine, &perpPose))
return -1;
return (perpPose.squaredFindDistanceTo(pose));
}
/// Determine the intersection point between this line segment, and a perpendicular line passing through the given pose (i.e. projects the given pose onto this line segment.)
/**
* If there is no intersection, false is returned.
@param pose The X and Y components of this pose object indicate the point to project onto this line segment.
@param perpPoint The X and Y components of this pose object are set to indicate the intersection point
@return true if an intersection was found and perpPoint was modified, false otherwise.
@swigomit
**/
bool getPerpPoint(const ArPose &pose, ArPose *perpPoint) const
{
ArLine perpLine;
makeLinePerp(&pose, &perpLine);
return intersects(&perpLine, perpPoint);
}
/// Equality operator
virtual bool operator==(const ArLine &other) const
{
return ((fabs(myA - other.myA) <= ArMath::epsilon()) &&
(fabs(myB - other.myB) <= ArMath::epsilon()) &&
(fabs(myC - other.myC) <= ArMath::epsilon()));
}
/// Inequality operator
virtual bool operator!=(const ArLine &other) const
{
return ((fabs(myA - other.myA) > ArMath::epsilon()) ||
(fabs(myB - other.myB) > ArMath::epsilon()) ||
(fabs(myC - other.myC) > ArMath::epsilon()));
}
protected:
double myA, myB, myC;
};
/// Represents a line segment in two-dimensional space.
/** The segment is defined by the coordinates of each endpoint.
@ingroup UtilityClasses
*/
class ArLineSegment
{
public:
#ifndef SWIG
/** @swigomit */
ArLineSegment() {}
/** @brief Constructor with endpoints
* @swigomit
*/
ArLineSegment(double x1, double y1, double x2, double y2)
{ newEndPoints(x1, y1, x2, y2); }
#endif // SWIG
/// Constructor with endpoints as ArPose objects. Only X and Y components of the poses will be used.
ArLineSegment(ArPose pose1, ArPose pose2)
{ newEndPoints(pose1.getX(), pose1.getY(), pose2.getX(), pose2.getY()); }
virtual ~ArLineSegment() {}
/// Set new end points for this line segment
void newEndPoints(double x1, double y1, double x2, double y2)
{
myX1 = x1; myY1 = y1; myX2 = x2; myY2 = y2;
myLine.newParametersFromEndpoints(myX1, myY1, myX2, myY2);
}
/// Set new end points for this line segment
void newEndPoints(const ArPose& pt1, const ArPose& pt2)
{
newEndPoints(pt1.getX(), pt1.getY(), pt2.getX(), pt2.getY());
}
/// Get the first endpoint (X1, Y1)
ArPose getEndPoint1(void) const { return ArPose(myX1, myY1); }
/// Get the second endpoint of (X2, Y2)
ArPose getEndPoint2(void) const { return ArPose(myX2, myY2); }
/// Determine where a line intersects this line segment
/**
@param line Line to check for intersection against this line segment.
@param pose if the lines intersect, the X and Y components of this pose are set to the point of intersection.
@return true if they intersect, false if they do not
**/
bool intersects(const ArLine *line, ArPose *pose) const
{
ArPose intersection;
// see if it intersects, then make sure its in the coords of this line
if (myLine.intersects(line, &intersection) &&
linePointIsInSegment(&intersection))
{
pose->setPose(intersection);
return true;
}
else
return false;
}
/** @copydoc intersects(const ArLine *line, ArPose *pose) const */
bool intersects(ArLineSegment *line, ArPose *pose) const
{
ArPose intersection;
// see if it intersects, then make sure its in the coords of this line
if (myLine.intersects(line->getLine(), &intersection) &&
linePointIsInSegment(&intersection) &&
line->linePointIsInSegment(&intersection))
{
pose->setPose(intersection);
return true;
}
else
return false;
}
#ifndef SWIG
/// Determine the intersection point between this line segment, and a perpendicular line passing through the given pose (i.e. projects the given pose onto this line segment.)
/**
* If there is no intersection, false is returned.
@param pose The X and Y components of this pose object indicate the point to project onto this line segment.
@param perpPoint The X and Y components of this pose object are set to indicate the intersection point
@return true if an intersection was found and perpPoint was modified, false otherwise.
@swigomit
**/
bool getPerpPoint(const ArPose &pose, ArPose *perpPoint) const
{
ArLine perpLine;
myLine.makeLinePerp(&pose, &perpLine);
return intersects(&perpLine, perpPoint);
}
#endif
/** @copydoc getPerpPoint(const ArPose&, ArPose*)
* (This version simply allows you to pass the first pose as a pointer, in
* time-critical situations where a full copy of the object would impact
* performance.)
*/
bool getPerpPoint(const ArPose *pose, ArPose *perpPoint) const
{
ArLine perpLine;
myLine.makeLinePerp(pose, &perpLine);
return intersects(&perpLine, perpPoint);
}
/// Calculate the distance from the given point to (its projection on) this line segment
/**
@param pose the the pose to find the perp point of
@return if the pose does not intersect segment it will return < 0
if the pose intersects the segment it will return the distance to
the intersection
**/
virtual double getPerpDist(const ArPose &pose) const
{
ArPose perpPose;
ArLine perpLine;
myLine.makeLinePerp(&pose, &perpLine);
if (!intersects(&perpLine, &perpPose))
return -1;
return (perpPose.findDistanceTo(pose));
}
/// Calculate the squared distance from the given point to (its projection on) this line segment
/**
@param pose the the pose to find the perp point of
@return if the pose does not intersect segment it will return < 0
if the pose intersects the segment it will return the distance to
the intersection
**/
virtual double getPerpSquaredDist(const ArPose &pose) const
{
ArPose perpPose;
ArLine perpLine;
myLine.makeLinePerp(&pose, &perpLine);
if (!intersects(&perpLine, &perpPose))
return -1;
return (perpPose.squaredFindDistanceTo(pose));
}
/// Gets the distance from this line segment to a point.
/**
* If the point can be projected onto this line segment (i.e. a
* perpendicular line can be drawn through the point), then
* return that distance. Otherwise, return the distance to the closest
* endpoint.
@param pose the pointer of the pose to find the distance to
**/
double getDistToLine(const ArPose &pose) const
{
ArPose perpPose;
ArLine perpLine;
myLine.makeLinePerp(&pose, &perpLine);
if (!intersects(&perpLine, &perpPose))
{
return ArUtil::findMin(
ArMath::roundInt(getEndPoint1().findDistanceTo(pose)),
ArMath::roundInt(getEndPoint2().findDistanceTo(pose)));
}
return (perpPose.findDistanceTo(pose));
}
/// Determines the length of the line segment
double getLengthOf() const
{
return ArMath::distanceBetween(myX1, myY1, myX2, myY2);
}
/// Determines the mid point of the line segment
ArPose getMidPoint() const
{
return ArPose(((myX1 + myX2) / 2.0),
((myY1 + myY2) / 2.0));
}
/// Gets the x coordinate of the first endpoint
double getX1(void) const { return myX1; }
/// Gets the y coordinate of the first endpoint
double getY1(void) const { return myY1; }
/// Gets the x coordinate of the second endpoint
double getX2(void) const { return myX2; }
/// Gets the y coordinate of the second endpoint
double getY2(void) const { return myY2; }
/// Gets the A line parameter (see ArLine)
double getA(void) const { return myLine.getA(); }
/// Gets the B line parameter (see ArLine)
double getB(void) const { return myLine.getB(); }
/// Gets the C line parameter (see ArLine)
double getC(void) const { return myLine.getC(); }
/// Internal function for seeing if a point on our line is within our segment
bool linePointIsInSegment(ArPose *pose) const
{
bool isVertical = (ArMath::fabs(myX1 - myX2) < ArMath::epsilon());
bool isHorizontal = (ArMath::fabs(myY1 - myY2) < ArMath::epsilon());
if (!isVertical || !isHorizontal) {
return (((isVertical) ||
(pose->getX() >= myX1 && pose->getX() <= myX2) ||
(pose->getX() <= myX1 && pose->getX() >= myX2)) &&
((isHorizontal) ||
(pose->getY() >= myY1 && pose->getY() <= myY2) ||
(pose->getY() <= myY1 && pose->getY() >= myY2)));
}
else { // single point segment
return ((ArMath::fabs(myX1 - pose->getX()) < ArMath::epsilon()) &&
(ArMath::fabs(myY1 - pose->getY()) < ArMath::epsilon()));
} // end else single point segment
}
const ArLine *getLine(void) const { return &myLine; }
/// Equality operator (for sets)
virtual bool operator==(const ArLineSegment& other) const
{
return ((fabs(myX1 - other.myX1) < ArMath::epsilon()) &&
(fabs(myY1 - other.myY1) < ArMath::epsilon()) &&
(fabs(myX2 - other.myX2) < ArMath::epsilon()) &&
(fabs(myY2 - other.myY2) < ArMath::epsilon()));
}
virtual bool operator!=(const ArLineSegment& other) const
{
return ((fabs(myX1 - other.myX1) > ArMath::epsilon()) ||
(fabs(myY1 - other.myY1) > ArMath::epsilon()) ||
(fabs(myX2 - other.myX2) > ArMath::epsilon()) ||
(fabs(myY2 - other.myY2) > ArMath::epsilon()));
}
/// Less than operator (for sets)
virtual bool operator<(const ArLineSegment& other) const
{
if (fabs(myX1 - other.myX1) > ArMath::epsilon()) {
return myX1 < other.myX1;
}
else if (fabs(myY1 - other.myY1) > ArMath::epsilon()) {
return myY1 < other.myY1;
}
if (fabs(myX2 - other.myX2) > ArMath::epsilon()) {
return myX2 < other.myX2;
}
else if (fabs(myY2 - other.myY2) > ArMath::epsilon()) {
return myY2 < other.myY2;
}
// Otherwise... all coords are equal
return false;
}
protected:
double myX1, myY1, myX2, myY2;
ArLine myLine;
};
/**
@brief Use for computing a running average of a number of elements
@ingroup UtilityClasses
*/
class ArRunningAverage
{
public:
/// Constructor, give it the number of elements to store to compute the average
AREXPORT ArRunningAverage(size_t numToAverage);
/// Destructor
AREXPORT ~ArRunningAverage();
/// Gets the average
AREXPORT double getAverage(void) const;
/// Adds a value to the average. An old value is discarded if the number of elements to average has been reached.
AREXPORT void add(double val);
/// Clears the average
AREXPORT void clear(void);
/// Gets the number of elements
AREXPORT size_t getNumToAverage(void) const;
/// Sets the number of elements
AREXPORT void setNumToAverage(size_t numToAverage);
/// Sets if this is using a the root mean square average or just the normal average
AREXPORT void setUseRootMeanSquare(bool useRootMeanSquare);
/// Gets if this is using a the root mean square average or just the normal average
AREXPORT bool getUseRootMeanSquare(void);
/// Gets the number of values currently averaged so far
AREXPORT size_t getCurrentNumAveraged(void);
protected:
size_t myNumToAverage;
double myTotal;
size_t myNum;
bool myUseRootMeanSquare;
std::list<double> myVals;
};
/// This is a class for computing a root mean square average of a number of elements
/// @ingroup UtilityClasses
class ArRootMeanSquareCalculator
{
public:
/// Constructor
AREXPORT ArRootMeanSquareCalculator();
/// Destructor
AREXPORT ~ArRootMeanSquareCalculator();
/// Gets the average
AREXPORT double getRootMeanSquare (void) const;
/// Adds a number
AREXPORT void add(int val);
/// Clears the average
AREXPORT void clear(void);
/// Sets the name
AREXPORT void setName(const char *name);
/// Gets the name
AREXPORT const char *getName(void);
/// Gets the num averaged
AREXPORT size_t getCurrentNumAveraged(void);
protected:
long long myTotal;
size_t myNum;
std::string myName;
};
//class ArStrCaseCmpOp : public std::binary_function <const std::string&, const std::string&, bool>
/// strcasecmp for sets
/// @ingroup UtilityClasses
struct ArStrCaseCmpOp
{
public:
bool operator() (const std::string &s1, const std::string &s2) const
{
return strcasecmp(s1.c_str(), s2.c_str()) < 0;
}
};
/// ArPose less than comparison for sets
/// @ingroup UtilityClasses
struct ArPoseCmpOp
{
public:
bool operator() (const ArPose &pose1, const ArPose &pose2) const
{
return (pose1 < pose2);
//return (pose1.getX() < pose2.getX() || pose1.getY() < pose2.getY() ||
// pose1.getTh() < pose2.getTh());
}
};
/// ArLineSegment less than comparison for sets
/// @ingroup UtilityClasses
struct ArLineSegmentCmpOp
{
public:
bool operator() (const ArLineSegment &line1,
const ArLineSegment &line2) const
{
return (line1 < line2);
//return (line1.getX1() < line2.getX1() || line1.getY1() < line2.getY1() ||
// line1.getX2() < line2.getX2() || line1.getY2() < line2.getY2());
}
};
#if !defined(WIN32) && !defined(SWIG)
/** @brief Switch to running the program as a background daemon (i.e. fork) (Only available in Linux)
@swigomit
@notwindows
@ingroup UtilityClasses
@ingroup OptionalClasses
*/
class ArDaemonizer
{
public:
/// Constructor that sets up for daemonizing if arg checking
AREXPORT ArDaemonizer(int *argc, char **argv, bool closeStdErrAndStdOut);
/// Destructor
AREXPORT ~ArDaemonizer();
/// Daemonizes if asked too by arguments
AREXPORT bool daemonize(void);
/// Daemonizes always
AREXPORT bool forceDaemonize(void);
/// Logs the options
AREXPORT void logOptions(void) const;
/// Returns if we're daemonized or not
bool isDaemonized(void) { return myIsDaemonized; }
protected:
ArArgumentParser myParser;
bool myIsDaemonized;
bool myCloseStdErrAndStdOut;
ArConstFunctorC<ArDaemonizer> myLogOptionsCB;
};
#endif // !win32 && !swig
/// Contains enumeration of four user-oriented priority levels (used primarily by ArConfig)
class ArPriority
{
public:
enum Priority
{
IMPORTANT, ///< Basic things that should be modified to suit
BASIC = IMPORTANT, ///< Basic things that should be modified to suit
FIRST_PRIORITY = IMPORTANT,
NORMAL, ///< Intermediate things that users may want to modify
INTERMEDIATE = NORMAL, ///< Intermediate things that users may want to modify
DETAILED, ///< Advanced items that probably shouldn't be modified
TRIVIAL = DETAILED, ///< Advanced items (alias for historic reasons)
ADVANCED = DETAILED, ///< Advanced items that probably shouldn't be modified
EXPERT, ///< Items that should be modified only by expert users or developers
FACTORY, ///< Items that should be modified at the factory, often apply to a robot model
CALIBRATION, ///< Items that apply to a particular hardware instance
LAST_PRIORITY = CALIBRATION ///< Last value in the enumeration
};
enum {
PRIORITY_COUNT = LAST_PRIORITY + 1 ///< Number of priority values
};
/// Returns the displayable text string for the given priority
AREXPORT static const char * getPriorityName(Priority priority);
/// Returns the priority value that corresponds to the given displayable text string
AREXPORT static Priority getPriorityFromName(const char *text);
protected:
/// Whether the map of priorities to display text has been initialized
static bool ourStringsInited;
/// Map of priorities to displayable text
static std::map<Priority, std::string> ourPriorityNames;
/// Map of displayable text to priorities
static std::map<std::string, ArPriority::Priority> ourNameToPriorityMap;
/// Display text used when a priority's displayable text has not been defined
static std::string ourUnknownPriorityName;
};
/// holds information about ArStringInfo component strings (it's a helper class for other things)
/**
This class holds information for about different strings that are available
**/
class ArStringInfoHolder
{
public:
/// Constructor
ArStringInfoHolder(const char *name, ArTypes::UByte2 maxLength,
ArFunctor2<char *, ArTypes::UByte2> *functor)
{ myName = name; myMaxLength = maxLength; myFunctor = functor; }
/// Destructor
virtual ~ArStringInfoHolder() {}
/// Gets the name of this piece of info
const char *getName(void) { return myName.c_str(); }
/// Gets the maximum length of this piece of info
ArTypes::UByte2 getMaxLength(void) { return myMaxLength; }
/// Gets the function that will fill in this piece of info
ArFunctor2<char *, ArTypes::UByte2> *getFunctor(void) { return myFunctor; }
protected:
std::string myName;
ArTypes::UByte2 myMaxLength;
ArFunctor2<char *, ArTypes::UByte2> *myFunctor;
};
/// This class just holds some helper functions for the ArStringInfoHolder
class ArStringInfoHolderFunctions
{
public:
static void intWrapper(char * buffer, ArTypes::UByte2 bufferLen,
ArRetFunctor<int> *functor, const char *format)
{ snprintf(buffer, bufferLen - 1, format, functor->invokeR());
buffer[bufferLen-1] = '\0'; }
static void doubleWrapper(char * buffer, ArTypes::UByte2 bufferLen,
ArRetFunctor<double> *functor, const char *format)
{ snprintf(buffer, bufferLen - 1, format, functor->invokeR());
buffer[bufferLen-1] = '\0'; }
static void boolWrapper(char * buffer, ArTypes::UByte2 bufferLen,
ArRetFunctor<bool> *functor, const char *format)
{ snprintf(buffer, bufferLen - 1, format,
ArUtil::convertBool(functor->invokeR()));
buffer[bufferLen-1] = '\0'; }
static void stringWrapper(char * buffer, ArTypes::UByte2 bufferLen,
ArRetFunctor<const char *> *functor,
const char *format)
{ snprintf(buffer, bufferLen - 1, format, functor->invokeR());
buffer[bufferLen-1] = '\0'; }
static void unsignedLongWrapper(char * buffer, ArTypes::UByte2 bufferLen,
ArRetFunctor<unsigned long> *functor, const char *format)
{ snprintf(buffer, bufferLen - 1, format, functor->invokeR());
buffer[bufferLen-1] = '\0'; }
static void longWrapper(char * buffer, ArTypes::UByte2 bufferLen,
ArRetFunctor<long> *functor, const char *format)
{ snprintf(buffer, bufferLen - 1, format, functor->invokeR());
buffer[bufferLen-1] = '\0'; }
};
/** A class to hold a list of callbacks to call
GenericFunctor must be a pointer to an ArFunctor or subclass.
e.g. declare like this:
@code
ArGenericCallbackList< ArFunctorC<MyClass> * > callbackList;
@endcode
then invoke it like this:
@code
callbackList.invoke();
@endcode
To pass an argument to the callbacks, use ArCallbackList1 instead.
@ingroup UtilityClasses
**/
template<class GenericFunctor>
class ArGenericCallbackList
{
public:
/// Constructor
ArGenericCallbackList(const char *name = "",
ArLog::LogLevel logLevel = ArLog::Verbose,
bool singleShot = false)
{
myName = name;
mySingleShot = singleShot;
setLogLevel(logLevel);
std::string mutexName;
mutexName = "ArGenericCallbackList::";
mutexName += name;
mutexName += "::myDataMutex";
myDataMutex.setLogName(mutexName.c_str());
myLogging = true;
}
/// Destructor
virtual ~ArGenericCallbackList()
{
}
/// Adds a callback
void addCallback(GenericFunctor functor, int position = 50)
{
myDataMutex.lock();
myList.insert(
std::pair<int, GenericFunctor>(-position,
functor));
myDataMutex.unlock();
}
/// Removes a callback
void remCallback(GenericFunctor functor)
{
myDataMutex.lock();
typename std::multimap<int, GenericFunctor>::iterator it;
for (it = myList.begin(); it != myList.end(); it++)
{
if ((*it).second == functor)
{
myList.erase(it);
myDataMutex.unlock();
remCallback(functor);
return;
}
}
myDataMutex.unlock();
}
/// Sets the name
void setName(const char *name)
{
myDataMutex.lock();
myName = name;
myDataMutex.unlock();
}
#ifndef SWIG
/// Sets the name with formatting
/** @swigomit use setName() */
void setNameVar(const char *name, ...)
{
char arg[2048];
va_list ptr;
va_start(ptr, name);
vsnprintf(arg, sizeof(arg), name, ptr);
arg[sizeof(arg) - 1] = '\0';
va_end(ptr);
return setName(arg);
}
#endif
/// Sets the log level
void setLogLevel(ArLog::LogLevel logLevel)
{
myDataMutex.lock();
myLogLevel = logLevel;
myDataMutex.unlock();
}
/// Sets if its single shot
void setSingleShot(bool singleShot)
{
myDataMutex.lock();
mySingleShot = singleShot;
myDataMutex.unlock();
}
/// Enable or disable logging when invoking the list. Logging is enabled by default at the log level given in the constructor.
void setLogging(bool on) {
myLogging = on;
}
protected:
ArMutex myDataMutex;
ArLog::LogLevel myLogLevel;
std::string myName;
std::multimap<int, GenericFunctor> myList;
bool mySingleShot;
bool myLogging;
};
/** A class to hold a list of callbacks to call sequentially.
@ingroup UtilityClasses
*/
class ArCallbackList : public ArGenericCallbackList<ArFunctor *>
{
public:
/// Constructor
ArCallbackList(const char *name = "",
ArLog::LogLevel logLevel = ArLog::Verbose,
bool singleShot = false) :
ArGenericCallbackList<ArFunctor *>(name, logLevel, singleShot)
{
}
/// Destructor
virtual ~ArCallbackList()
{
}
/// Calls the callback list
void invoke(void)
{
myDataMutex.lock();
std::multimap<int, ArFunctor *>::iterator it;
ArFunctor *functor;
if(myLogging)
ArLog::log(myLogLevel, "%s: Starting calls", myName.c_str());
for (it = myList.begin();
it != myList.end();
it++)
{
functor = (*it).second;
if (functor == NULL)
continue;
if(myLogging)
{
if (functor->getName() != NULL && functor->getName()[0] != '\0')
ArLog::log(myLogLevel, "%s: Calling functor '%s' at %d",
myName.c_str(), functor->getName(), -(*it).first);
else
ArLog::log(myLogLevel, "%s: Calling unnamed functor at %d",
myName.c_str(), -(*it).first);
}
functor->invoke();
}
if(myLogging)
ArLog::log(myLogLevel, "%s: Ended calls", myName.c_str());
if (mySingleShot)
{
if(myLogging)
ArLog::log(myLogLevel, "%s: Clearing callbacks", myName.c_str());
myList.clear();
}
myDataMutex.unlock();
}
protected:
};
/** A class to hold a list of callbacks to call with an argument of type P1
The functors added to the list must be pointers to a subclass of ArFunctor1<P1>.
Declare like this:
@code
ArCallbackList1<int> callbackList;
@endcode
then add a functor like this:
@code
ArFunctor1C<MyClass, int> func;
...
callbackList.addCallback(&func);
@endcode
then invoke it like this:
@code
callbackList.invoke(23);
@endcode
@ingroup UtilityClasses
**/
template<class P1>
class ArCallbackList1 : public ArGenericCallbackList<ArFunctor1<P1> *>
{
public:
/// Constructor
ArCallbackList1(const char *name = "",
ArLog::LogLevel logLevel = ArLog::Verbose,
bool singleShot = false) :
ArGenericCallbackList<ArFunctor1<P1> *>(name, logLevel, singleShot)
{
}
/// Destructor
virtual ~ArCallbackList1()
{
}
/// Calls the callback list
void invoke(P1 p1)
{
ArGenericCallbackList<ArFunctor1<P1> *>::myDataMutex.lock();
typename std::multimap<int, ArFunctor1<P1> *>::iterator it;
ArFunctor1<P1> *functor;
if(ArGenericCallbackList<ArFunctor1<P1> *>::myLogging)
ArLog::log(
ArGenericCallbackList<ArFunctor1<P1> *>::myLogLevel,
"%s: Starting calls1",
ArGenericCallbackList<ArFunctor1<P1> *>::myName.c_str());
for (it = ArGenericCallbackList<ArFunctor1<P1> *>::myList.begin();
it != ArGenericCallbackList<ArFunctor1<P1> *>::myList.end();
it++)
{
functor = (*it).second;
if (functor == NULL)
continue;
if(ArGenericCallbackList<ArFunctor1<P1> *>::myLogging)
{
if (functor->getName() != NULL && functor->getName()[0] != '\0')
ArLog::log(ArGenericCallbackList<ArFunctor1<P1> *>::myLogLevel,
"%s: Calling functor '%s' at %d",
ArGenericCallbackList<ArFunctor1<P1> *>::myName.c_str(),
functor->getName(), -(*it).first);
else
ArLog::log(ArGenericCallbackList<ArFunctor1<P1> *>::myLogLevel,
"%s: Calling unnamed functor at %d",
ArGenericCallbackList<ArFunctor1<P1> *>::myName.c_str(),
-(*it).first);
}
functor->invoke(p1);
}
if(ArGenericCallbackList<ArFunctor1<P1> *>::myLogging)
ArLog::log(ArGenericCallbackList<ArFunctor1<P1> *>::myLogLevel, "%s: Ended calls", ArGenericCallbackList<ArFunctor1<P1> *>::myName.c_str());
if (ArGenericCallbackList<ArFunctor1<P1> *>::mySingleShot)
{
if(ArGenericCallbackList<ArFunctor1<P1> *>::myLogging)
ArLog::log(ArGenericCallbackList<ArFunctor1<P1> *>::myLogLevel,
"%s: Clearing callbacks",
ArGenericCallbackList<ArFunctor1<P1> *>::myName.c_str());
ArGenericCallbackList<ArFunctor1<P1> *>::myList.clear();
}
ArGenericCallbackList<ArFunctor1<P1> *>::myDataMutex.unlock();
}
protected:
};
#ifndef ARINTERFACE
#ifndef SWIG
/// @internal
class ArLaserCreatorHelper
{
public:
/// Creates an ArLMS2xx
static ArLaser *createLMS2xx(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArLMS2xx
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateLMS2xxCB(void);
/// Creates an ArUrg
static ArLaser *createUrg(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArUrg
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateUrgCB(void);
/// Creates an ArLMS1XX
static ArLaser *createLMS1XX(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArLMS1XX
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateLMS1XXCB(void);
/// Creates an ArUrg using SCIP 2.0
static ArLaser *createUrg_2_0(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArUrg
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateUrg_2_0CB(void);
/// Creates an ArS3Series
static ArLaser *createS3Series(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArS3Series
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateS3SeriesCB(void);
/// Creates an ArLMS5XX
static ArLaser *createLMS5XX(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArLMS5XX
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateLMS5XXCB(void);
/// Creates an ArTiM3XX
static ArLaser *createTiM3XX(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArTiM3XX
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateTiM3XXCB(void);
/// Creates an ArSZSeries
static ArLaser *createSZSeries(int laserNumber, const char *logPrefix);
/// Gets functor for creating an ArSZSeries
static ArRetFunctor2<ArLaser *, int, const char *> *getCreateSZSeriesCB(void);
protected:
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourLMS2xxCB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourUrgCB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourLMS1XXCB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourUrg_2_0CB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourS3SeriesCB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourLMS5XXCB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourTiM3XXCB;
static ArGlobalRetFunctor2<ArLaser *, int, const char *> ourSZSeriesCB;
};
/// @internal
class ArBatteryMTXCreatorHelper
{
public:
/// Creates an ArBatteryMTX
static ArBatteryMTX *createBatteryMTX(int batteryNumber, const char *logPrefix);
/// Gets functor for creating an ArBatteryMTX
static ArRetFunctor2<ArBatteryMTX *, int, const char *> *getCreateBatteryMTXCB(void);
protected:
static ArGlobalRetFunctor2<ArBatteryMTX *, int, const char *> ourBatteryMTXCB;
};
/// @internal
class ArLCDMTXCreatorHelper
{
public:
/// Creates an ArLCDMTX
static ArLCDMTX *createLCDMTX(int lcdNumber, const char *logPrefix);
/// Gets functor for creating an ArLCDMTX
static ArRetFunctor2<ArLCDMTX *, int, const char *> *getCreateLCDMTXCB(void);
protected:
static ArGlobalRetFunctor2<ArLCDMTX *, int, const char *> ourLCDMTXCB;
};
/// @internal
class ArSonarMTXCreatorHelper
{
public:
/// Creates an ArSonarMTX
static ArSonarMTX *createSonarMTX(int sonarNumber, const char *logPrefix);
/// Gets functor for creating an ArSonarMTX
static ArRetFunctor2<ArSonarMTX *, int, const char *> *getCreateSonarMTXCB(void);
protected:
static ArGlobalRetFunctor2<ArSonarMTX *, int, const char *> ourSonarMTXCB;
};
#endif // SWIG
#endif // ARINTERFACE
#ifndef SWIG
/// @internal
class ArDeviceConnectionCreatorHelper
{
public:
/// Creates an ArSerialConnection
static ArDeviceConnection *createSerialConnection(
const char *port, const char *defaultInfo, const char *logPrefix);
/// Gets functor for creating an ArSerialConnection
static ArRetFunctor3<ArDeviceConnection *, const char *, const char *,
const char *> *getCreateSerialCB(void);
/// Creates an ArTcpConnection
static ArDeviceConnection *createTcpConnection(
const char *port, const char *defaultInfo, const char *logPrefix);
/// Gets functor for creating an ArTcpConnection
static ArRetFunctor3<ArDeviceConnection *, const char *, const char *,
const char *> *getCreateTcpCB(void);
/// Creates an ArSerialConnection for RS422
static ArDeviceConnection *createSerial422Connection(
const char *port, const char *defaultInfo, const char *logPrefix);
/// Gets functor for creating an ArSerialConnection
static ArRetFunctor3<ArDeviceConnection *, const char *, const char *,
const char *> *getCreateSerial422CB(void);
/// Sets the success log level
static void setSuccessLogLevel(ArLog::LogLevel successLogLevel);
/// Sets the success log level
static ArLog::LogLevel setSuccessLogLevel(void);
protected:
/// Internal Create ArSerialConnection
static ArDeviceConnection *internalCreateSerialConnection(
const char *port, const char *defaultInfo, const char *logPrefix, bool is422);
static ArGlobalRetFunctor3<ArDeviceConnection *, const char *, const char *,
const char *> ourSerialCB;
static ArGlobalRetFunctor3<ArDeviceConnection *, const char *, const char *,
const char *> ourTcpCB;
static ArGlobalRetFunctor3<ArDeviceConnection *, const char *, const char *,
const char *> ourSerial422CB;
static ArLog::LogLevel ourSuccessLogLevel;
};
#endif // SWIG
/// Class for finding robot bounds from the basic measurements
class ArPoseUtil
{
public:
static std::list<ArPose> findCornersFromRobotBounds(
double radius, double widthLeft, double widthRight,
double lengthFront, double lengthRear, bool fastButUnsafe);
static std::list<ArPose> breakUpDistanceEvenly(ArPose start, ArPose end,
int resolution);
};
#endif // ARIAUTIL_H
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