author | A.M. Thurnherr <athurnherr@yahoo.com> |
Thu, 16 Mar 2017 11:50:17 -0400 | |
changeset 31 | a93075e0b008 |
parent 30 | 1a1a12d5edc1 |
child 32 | 4c6434bb5124 |
permissions | -rw-r--r-- |
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#====================================================================== |
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# L I B V E C . P L |
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# doc: Sat Mar 20 12:50:32 1999 |
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# dlm: Sun Aug 7 22:06:57 2016 |
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# (c) 1999 A.M. Thurnherr |
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# uE-Info: 137 37 NIL 0 0 70 2 2 4 NIL ofnI |
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#====================================================================== |
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||
9 |
# HISTORY: |
|
10 |
# Mar 20, 1999: - created for ANTS_2.1 (no more c-code) |
|
11 |
# May 27, 1999: - added polar/cartesian conversions |
|
12 |
# Sep 18, 1999: - argument typechecking |
|
13 |
# Dec 10, 1999: - vel_u(), vel_v(), vel_dir(), vel_mag() |
|
14 |
# Mar 07, 2000: - proj(), deg(), rad() |
|
15 |
# Apr 18, 2002: - area() |
|
16 |
# Jan 6, 2003: - changed dist() output to meters |
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17 |
# Jan 16, 2003: - renamed vel_vel() to vel_speed() |
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# Sep 3, 2003: - dir_bias() |
|
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# May 13, 2004: - BUG: had fogotten to adapt area() to new dist() |
|
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# May 21, 2004: - forced zero distance on &dist() if lat/lon does |
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# not change (avoid roundoff error) |
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# Jun 22, 2004: - added GMTdeg(), dir() |
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# Nov 11, 2004: - BUG: roundoff test in dist() was done before |
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# conversion to numbers |
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# Jul 1, 2006: - Version 3.3 [HISTORY] |
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# Jul 24, 2006: - modified to use equal() |
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# Nov 16, 2006: - added degmin() |
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# Dec 19, 2007: - addapted vel_speed(), vel_dir() to new &antsFunUsage() |
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# - same routines now return nan on nan input |
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# Jan 15, 2007: - BUG: vel_dir() was broken |
|
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# Jun 14, 2009: - added p_vel() |
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# Nov 5, 2009: - added angle(); vel_bias() => angle_diff() |
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# Apr 22, 2010: - added angle_ts() |
|
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# Jun 5, 2012: - added &closestPointOnStraightLine() |
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# Jun 11, 2012: - addeed $t output to &closestPointOnStraightLine() |
5 | 36 |
# Nov 27, 2013: - added &angle_pos(), mag_heading() |
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# Mar 3, 2014: - made deg(), rad() handle nans |
38 |
# Mar 4, 2014: - made some angle funs handle nans |
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29
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
39 |
# Jul 29, 2016: - BUG: mag_heading was inconsistent with ADCP headings |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
40 |
# (previous version only used for 2014 CLIVAR P06 |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
41 |
# processing with IMP data with confused coord |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
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diff
changeset
|
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# system) |
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# Aug 7, 2016: - made vel_u and vel_v deal with nans |
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require "$ANTS/libPOSIX.pl"; # acos() |
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46 |
||
47 |
#---------------------------------------------------------------------- |
|
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# &rad() calc radians |
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# °() calc degrees |
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#---------------------------------------------------------------------- |
|
51 |
||
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$PI = 3.14159265358979; |
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||
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sub rad(@) |
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{ |
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my($d) = &antsFunUsage(1,".","<deg>",@_); |
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return numberp($d) ? $d/180 * $PI : nan; |
|
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} |
59 |
||
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sub deg(@) |
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{ |
|
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my($r) = &antsFunUsage(1,".","<rad>",@_); |
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return numberp($r) ? $r/$PI * 180 : nan; |
|
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} |
65 |
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66 |
||
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#---------------------------------------------------------------------- |
|
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# &proj(from_x,from_y,onto_unit_x,onto_unit_y) |
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# project vector onto another |
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#---------------------------------------------------------------------- |
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71 |
||
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# to transform CM velocity components u/v to along/across mean l/c: |
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# - mean dir d = &vel_dir(<u>,<v>); with <.> indicating ensemble avg |
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# - l = proj(u,v,sin(rad(d)),cos(rad(d))); NEW: l = p_vel(d[,u,v]) |
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# - c = -proj(u,v,-cos(rad(d)),sin(rad(d))); |
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||
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sub proj(@) |
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{ |
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my($fx,$fy,$oux,$ouy) = |
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&antsFunUsage(4,"ffff","<from_x> <from_y> " . |
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"<onto_unit_x> <onto_unit_y>",@_); |
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return $fx*$oux + $fy*$ouy; |
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} |
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||
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{ my(@fc); |
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sub p_vel(@) |
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{ |
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my($u,$v,$d) = &antsFunUsage(3,'..f','[u, v,] dir',\@fc,'u','v',undef,@_); |
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return nan unless numbersp($d,$u,$v); |
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return proj($u,$v,sin(rad($d)),cos(rad($d))); |
|
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} |
|
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} |
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||
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#---------------------------------------------------------------------- |
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# &polar_r(x,y),&vel_vel(u,v) calc polar radius, velocity |
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# &polar_phi(x,y),&vel_dir(u,v) calc polar degrees cclockwise from |
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# horiz (phi) OR clockwise from N (dir) |
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# &cartesian_x(r,phi),&vel_u(m,dir) calc x and u from polar coords |
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# &cartesian_y(r,phi),&vel_v(m,dir) calc y and v from polar coords |
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#---------------------------------------------------------------------- |
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102 |
||
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sub polar_r(@) |
|
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{ |
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my($x,$y) = &antsFunUsage(2,"ff","<x> <y>",@_); |
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return sqrt($x*$x+$y*$y); |
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} |
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108 |
||
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{ my(@fc); |
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sub vel_speed(@) |
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{ |
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my($u,$v) = &antsFunUsage(2,'..','[u, v]',\@fc,'u','v',@_); # . allows for nans |
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return nan unless numbersp($u,$v); |
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return sqrt($u*$u+$v*$v); |
|
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} |
|
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} |
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||
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sub polar_phi(@) |
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{ |
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my($x,$y) = &antsFunUsage(2,"ff","<x> <y>",@_); |
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return 180 / $PI * atan2($y,$x); |
|
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} |
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123 |
||
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||
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{ my(@fc); |
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sub vel_dir(@) |
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{ |
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my($u,$v) = &antsFunUsage(2,'..','[u, v]',\@fc,'u','v',@_); # . allows for nans |
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return nan unless numbersp($u,$v); |
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my($dir) = 180 / $PI * atan2($u,$v); |
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return ($dir >= 0) ? $dir : $dir+360; |
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} |
|
133 |
} |
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||
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sub cartesian_x(@) |
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{ |
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my($r,$phi) = &antsFunUsage(2,"..","<r> <phi>",@_); |
138 |
return nan unless numbersp($r,$phi); |
|
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return $r * cos($PI*$phi/180); |
140 |
} |
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141 |
||
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sub vel_u(@) { return &cartesian_x($_[0],90-$_[1]); } |
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||
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sub cartesian_y(@) |
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{ |
|
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my($r,$phi) = &antsFunUsage(2,"..","<r> <phi>",@_); |
147 |
return nan unless numbersp($r,$phi); |
|
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return $r * sin($PI*$phi/180); |
149 |
} |
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150 |
||
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sub vel_v(@) { return &cartesian_y($_[0],90-$_[1]); } |
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||
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#---------------------------------------------------------------------- |
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11
56799f01321a
bug fix in libvec.pl; version given to Kanae Komaki, July 16, 2014
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
6
diff
changeset
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154 |
# magnetic heading from magnetometers |
56799f01321a
bug fix in libvec.pl; version given to Kanae Komaki, July 16, 2014
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
6
diff
changeset
|
155 |
# - atan2 handles all the singularities |
29
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
156 |
# - the current version (7/29/2016) was verified with ECOGIG EN586 |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
157 |
# data, where the IMP Mk.3 rev 2 (i.e. with coordinate mapping |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
158 |
# in the sensor board) on profiles 1-15 was accidentally installed |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
159 |
# in a consistent orientation with the DL (very similar pitch/roll |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
160 |
# measured by both instruments) => heading is directly comparable |
5 | 161 |
#---------------------------------------------------------------------- |
162 |
||
163 |
sub mag_heading($$) |
|
164 |
{ |
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f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
165 |
# return angle_pos(deg(-atan2($_[0],$_[1]))); # used for 2014 CLIVAR P06 IMP processing with confused coord systems |
f41d125405a6
version after ECOGIG EN586 cruise
A.M. Thurnherr <athurnherr@yahoo.com>
parents:
11
diff
changeset
|
166 |
return angle_pos(deg(atan2($_[1],$_[0]))); |
5 | 167 |
} |
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||
169 |
#---------------------------------------------------------------------- |
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# &angle(val) |
171 |
# return angle in range [-180,180] |
|
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# &angle_pos(val) |
173 |
# return angle in range [0,360] |
|
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# &angle_diff(ref_dir,dir) |
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# return rotation between two angles in range [-180,180] |
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# &rotation_ts(dir) |
177 |
# return time series of rotation |
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# &angle_ts(dir) |
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# return time series of angle without "wrap-around jumps" |
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180 |
#---------------------------------------------------------------------- |
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181 |
||
182 |
sub angle(@) |
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{ |
|
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my($val) = &antsFunUsage(1,".","<val>",@_); |
185 |
return nan unless numberp($val); |
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$val += 360 while ($val < -180); |
187 |
$val -= 360 while ($val > 180); |
|
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return $val; |
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189 |
} |
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190 |
||
5 | 191 |
sub angle_pos(@) |
192 |
{ |
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193 |
my($val) = angle(@_); |
|
6 | 194 |
return nan unless numberp($val); |
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return ($val < 0) ? 360+$val : $val; |
196 |
} |
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197 |
||
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sub angle_diff(@) |
199 |
{ |
|
6 | 200 |
my($m,$s) = &antsFunUsage(2,"..","<minuend> <subtrahend>",@_); |
201 |
return nan unless numbersp($m,$s); |
|
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return angle($m-$s); |
203 |
} |
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204 |
||
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{ my($last_in); |
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206 |
||
207 |
sub rotation_ts(@) |
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{ |
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209 |
my($a) = &antsFunUsage(1,"f","<angle>",@_); |
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210 |
||
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my($rot) = defined($last_in) ? angle_diff($a,$last_in) : nan; |
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$last_in = $a; |
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return $rot; |
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} |
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215 |
} |
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216 |
||
217 |
{ my($last_in,$last_out); |
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218 |
||
219 |
sub angle_ts(@) |
|
220 |
{ |
|
221 |
my($a) = &antsFunUsage(1,"f","<angle>",@_); |
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222 |
||
223 |
$last_out = $last_in = $a |
|
224 |
unless (defined($last_in)); |
|
225 |
||
226 |
$last_out += angle_diff($a,$last_in); |
|
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$last_in = $a; |
|
228 |
return $last_out; |
|
229 |
} |
|
230 |
} |
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231 |
||
232 |
#---------------------------------------------------------------------- |
|
233 |
# &ddeg(deg),&GMTdeg(deg) convert degree formats |
|
234 |
#---------------------------------------------------------------------- |
|
235 |
||
236 |
sub ddeg(@) |
|
237 |
{ |
|
238 |
my($deg) = &antsFunUsage(1,"","<degrees in GMT format>",@_); |
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239 |
my($d,$m,$s) = split(':',$deg); |
|
240 |
return ($d>=0) ? $d+$m/60+$s/3600 |
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: $d-$m/60-$s/3600; |
|
242 |
} |
|
243 |
||
244 |
# NB: without roundoff code, results are as follows: |
|
245 |
# abc -Lvec 'GMTdeg(ddeg("10:11"))' -> 10:11:8.52651e-13 |
|
246 |
# abc -Lvec 'GMTdeg(ddeg("10:10"))' -> 10:9:60 |
|
247 |
sub GMTdeg(@) |
|
248 |
{ |
|
249 |
my($deg) = &antsFunUsage(1,"f","<degrees>",@_); |
|
250 |
my($sgn); if ($deg < 0) { $sgn = '-'; $deg *= -1; } |
|
251 |
my($min) = 60*($deg-int($deg)); |
|
252 |
my($sec) = 60*($min-int($min)); |
|
253 |
$sec=0,$min++ if equal($sec,60); |
|
254 |
$sec=0 if equal($sec,0); |
|
255 |
return sprintf("$sgn%d:%d:%g",int($deg),int($min),$sec); |
|
256 |
} |
|
257 |
||
258 |
sub degmin(@) |
|
259 |
{ |
|
260 |
my($deg) = &antsFunUsage(1,"f","<degrees>",@_); |
|
261 |
my($sgn); if ($deg < 0) { $sgn = '-'; $deg *= -1; } |
|
262 |
my($min) = 60*($deg-int($deg)); |
|
263 |
$min=0 if equal($min,0); |
|
264 |
return sprintf("$sgn%d:%04.1f",int($deg),$min); |
|
265 |
} |
|
266 |
||
267 |
#---------------------------------------------------------------------- |
|
268 |
# &dist(lat1,lon1,lat2,lon2) distance on globe (in m) |
|
269 |
# &dist12(...) ditto but with deg/min/sec separate |
|
270 |
# &dir(lat1,lon1,lat2,lon2) direction btw two points |
|
271 |
# &area(gmt_region) approximate area |
|
272 |
#---------------------------------------------------------------------- |
|
273 |
||
274 |
sub dist(@) |
|
275 |
{ |
|
276 |
my($lat1,$lon1,$lat2,$lon2) = |
|
277 |
&antsFunUsage(4,"","lat1 lon1 lat2 lon2",@_); |
|
278 |
||
279 |
$lat1 = &ddeg($lat1); |
|
280 |
$lat2 = &ddeg($lat2); |
|
281 |
$lon1 = &ddeg($lon1); |
|
282 |
$lon2 = &ddeg($lon2); |
|
283 |
||
284 |
return 0 if ($lat1 == $lat2 && $lon1 == $lon2); # avoid roundoff |
|
285 |
||
286 |
$radius = 6378139; # const |
|
287 |
$pi = 3.14159265358979; |
|
288 |
$d2r = $pi/180.0; |
|
289 |
||
290 |
$ct1 = cos($d2r*$lat1); |
|
291 |
$st1 = sin($d2r*$lat1); |
|
292 |
$cp1 = cos($d2r*$lon1); |
|
293 |
$sp1 = sin($d2r*$lon1); |
|
294 |
$ct2 = cos($d2r*$lat2); |
|
295 |
$st2 = sin($d2r*$lat2); |
|
296 |
$cp2 = cos($d2r*$lon2); |
|
297 |
$sp2 = sin($d2r*$lon2); |
|
298 |
||
299 |
$cosine = $ct1*$cp1*$ct2*$cp2 + $ct1*$sp1*$ct2*$sp2 + $st1*$st2; |
|
300 |
if ($cosine > 1.0) { $cosine = 1.0; } |
|
301 |
if ($cosine < -1.0) { $cosine = -1.0; } |
|
302 |
||
303 |
return $radius * acos($cosine); |
|
304 |
} |
|
305 |
||
306 |
sub dist12(@) |
|
307 |
{ |
|
308 |
my($la1d,$la1m,$la1s,$lo1d,$lo1m,$lo1s, |
|
309 |
$la2d,$la2m,$la2s,$lo2d,$lo2m,$lo2s) = |
|
310 |
&antsFunUsage(12,"ffffffffffff","lat1 m s lon1 m s lat2 m s lon2 m s",@_); |
|
311 |
return dist( |
|
312 |
($la1d>=0)?$la1d+$la1m/60+$la1s/3600 : $la1d-$la1m/60-$la1s/3600, |
|
313 |
($lo1d>=0)?$lo1d+$lo1m/60+$lo1s/3600 : $lo1d-$lo1m/60-$lo1s/3600, |
|
314 |
($la2d>=0)?$la2d+$la2m/60+$la2s/3600 : $la2d-$la2m/60-$la2s/3600, |
|
315 |
($lo2d>=0)?$lo2d+$lo2m/60+$lo2s/3600 : $lo2d-$lo2m/60-$lo2s/3600 |
|
316 |
); |
|
317 |
} |
|
318 |
||
319 |
sub dir(@) |
|
320 |
{ |
|
321 |
my($lat1,$lon1,$lat2,$lon2) = |
|
322 |
&antsFunUsage(4,"","lat1 lon1 lat2 lon2",@_); |
|
323 |
my($dx) = dist(($lat1+$lat2)/2,$lon1,($lat1+$lat2)/2,$lon2); |
|
324 |
$dx *= -1 if ($lon2 < $lon1); |
|
325 |
my($dy) = dist($lat1,($lon1+$lon2)/2,$lat2,($lon1+$lon2)/2); |
|
326 |
$dy *= -1 if ($lat2 < $lat1); |
|
327 |
return ($dx == 0 && $dy == 0) ? nan : vel_dir($dx,$dy); |
|
328 |
} |
|
329 |
||
330 |
sub area(@) |
|
331 |
{ |
|
332 |
my($R) = &antsFunUsage(1,"",'<"W/E/S/N">',@_); |
|
333 |
my($W,$E,$S,$N) = split('/',$R); |
|
334 |
||
335 |
return (&dist($S,$W,$S,$E) + &dist($N,$W,$N,$E)) / 2 * |
|
336 |
(&dist($S,$W,$N,$W) + &dist($S,$E,$N,$E)) / 2; |
|
337 |
} |
|
338 |
||
2 | 339 |
#---------------------------------------------------------------------- |
3 | 340 |
# ($lat,$lon,$t) = &closestPointOnStraightLine(lat,lon,lat1,lonA,lat2,lon2) |
2 | 341 |
# - determine point on line segment from <lat1,lonA> to <lat2,lon2> that |
342 |
# is closest to target point <lat,lon> |
|
3 | 343 |
# - $t [0-1] output indicates where along the line segment the closest |
344 |
# point lies |
|
2 | 345 |
# - http://stackoverflow.com/questions/3120357/get-closest-point-to-a-line |
346 |
# - NOT DONE IN PLANAR GEOMETRY => USE ONLY IN SMALL DOMAINS |
|
347 |
#---------------------------------------------------------------------- |
|
348 |
||
349 |
sub closestPointOnStraightLine(@) |
|
350 |
{ |
|
351 |
my($latP,$lonP,$latA,$lonA,$latB,$lonB) = |
|
352 |
&antsFunUsage(6,'ffffff','pnt_lat, pnt_lon, lne_latA, lne_lonA, lne_latB, lne_lonB',@_); |
|
353 |
||
354 |
my($ABlon) = $lonB - $lonA; my($ABlat) = $latB - $latA; |
|
355 |
my($APlon) = $lonP - $lonA; my($APlat) = $latP - $latA; |
|
356 |
my($t) = ($APlon*$ABlon + $APlat*$ABlat) / ($ABlon**2 + $ABlat**2); |
|
357 |
return (undef,undef) unless ($t>=0 && $t<=1); |
|
3 | 358 |
return ($latA + $t*$ABlat,$lonA + $t*$ABlon, $t); |
2 | 359 |
} |
360 |
||
0 | 361 |
1; |