I have this script :
use strict;
use warnings;
use diagnostics;
use Math::Vector::Real;
use constant DEG_PER_RAD => 45 / atan2(1, 1);
my ( $source, $out ) = qw/ OUT4 OUTABA12 /;
open my $in_fh, '<', $source or die qq{Unable to open "$source" for input: $!\n};
open my $out_fh, '>', $out or die qq{Unable to open "$out" for output: $!\n};
my @data;
push @data, V(split) while <$in_fh>;
my @aoa;
for my $i ( 0 .. $#data ) {
for my $j ( 0 .. $#data ) {
my $val1 = $data[$i];
my $val2 = $data[$j];
if ($val1 != $val2) {
my $math = sqrt(($val1->[0] - $val2->[0])**2 +
($val1->[1] - $val2->[1])**2 +
($val1->[2] - $val2->[2])**2);
if ($math < 2.2) {
push @aoa, [@$val1, @$val2, $math];
}
}
}
}
for my $k ( 0 .. $#aoa-1 ) {
my $aoadata1 = $aoa[$k];
my $aoadata2 = $aoa[$k+1];
my $vect1 = [ @{ $aoa[$k] }[0..2] ];
my $vect2 = [ @{ $aoa[$k+1] }[0..2] ];
my $vect3 = [ @{ $aoa[$k] }[3..5] ];
my $vect4 = [ @{ $aoa[$k+1] }[3..5] ];
my $math1 = [ @{ $aoa[$k] }[6] ];
my $math2 = [ @{ $aoa[$k+1] }[6] ];
my @matha = @$math1;
my @mathb = @$math2;
my @vecta = @$vect1;
my @vectb = @$vect2;
my @vectc = @$vect3;
my @vectd = @$vect4;
if ( @vecta != @vectb ) {
print "180\n";
}
}
Which starts with this input file, a list of coordinates :
18.474525 20.161419 20.33903
21.999333 20.220667 19.786734
18.333228 21.649157 21.125111
20.371077 19.675844 19.77649
17.04323 19.3106 20.148842
22.941106 19.105412 19.069893
which then produces this intermediate array :
18.474525 20.161419 20.33903 18.333228 21.649157 21.125111 1.68856523042908
18.474525 20.161419 20.33903 20.371077 19.675844 19.77649 2.03694472701863
18.474525 20.161419 20.33903 17.04323 19.3106 20.148842 1.67590865596249
21.999333 20.220667 19.786734 20.371077 19.675844 19.77649 1.71701911532778
21.999333 20.220667 19.786734 22.941106 19.105412 19.069893 1.62621988606553
18.333228 21.649157 21.125111 18.474525 20.161419 20.33903 1.68856523042908
20.371077 19.675844 19.77649 18.474525 20.161419 20.33903 2.03694472701863
20.371077 19.675844 19.77649 21.999333 20.220667 19.786734 1.71701911532778
17.04323 19.3106 20.148842 18.474525 20.161419 20.33903 1.67590865596249
22.941106 19.105412 19.069893 21.999333 20.220667 19.786734 1.62621988606553
which is a pair of coordinates, followed by another pair of coordinates from that list, followed by the distance between them.
What I've been trying to do is to get to the second half of the program to work - but I've no idea on how to work through the array like i need to.
If there is a row in the intermediate array who's first set of coordinates is unique from all other rows, it should simply print the first coordinate set in that row and 180. Such as the last row in the array- running
print "@vecta 180\n";
Should return, for that line:
22.941106 19.105412 19.069893 180
Otherwise, for each row of the intermediate array, I would like to see if the first 3 coordinates of a line match the first three coordinates of the second line, and if they do I need to take the second set of coordinates from the two lines, subtract the first identical set of coordinates on each of the two lines from them, and then find the angle between the two secondary coordinates after the subtraction. Something akin to this:
my $varvec1 = V( @$vect3 );
my $varvec2 = V( @$vect4 );
my $varnorm = V( @$vect1 );
my $nvect1 = $varvec1 - $varnorm ;
my $nvect2 = $varvec2 - $varnorm ;
my $degrees = atan2($nvect1, $nvect2) * DEG_PER_RAD;
print "$varnorm $degrees\n";
Running that on the first 3 rows of the intermediate should return:
18.474525 20.161419 20.33903 *Some Value*
18.474525 20.161419 20.33903 *Some Value*
18.474525 20.161419 20.33903 *Some Value*
With the Some Value's being derived from the above angle calculation happening between the first line and the second line, the first line and the third line, and then the second line and the third line.
As a whole, the program would ideally give me:
18.474525 20.161419 20.33903 *Some Value*
18.474525 20.161419 20.33903 *Some Value*
18.474525 20.161419 20.33903 *Some Value*
21.999333 20.220667 19.786734 *Some Value*
21.999333 20.220667 19.786734 *Some Value*
18.333228 21.649157 21.125111 180
20.371077 19.675844 19.77649 *Some Value*
20.371077 19.675844 19.77649 *Some Value*
17.04323 19.3106 20.148842 180
22.941106 19.105412 19.069893 180
My main issue is running through the data correctly, I can set up the calculations and variable assignments. Can anyone help me out with this? Thanks in advance.
Edit - Response to Sobrique
When I implement the second part (Which I assume implements the first part as well) with the other suggestions you had as so:
my %seen;
for my $index ( 0 .. $#aoa ) {
my $coord_key = join( ":", @{ $aoa[$index] }[ 0 .. 2 ] );
if ( $seen{$coord_key} <= 1 ) {
print V( @{$aoa[$index]}[0..2] ) . " 180\n";
}
else {
last unless $aoa[ $index + 1 ]; #in case out of bounds
my $varvec1 = V( @{ $aoa[$index] }[ 3 .. 5 ] );
my $varvec2 = V( @{ $aoa[ $index + 1 ] }[ 3 .. 5 ] );
my $varnorm = V( @{ $aoa[$index] }[ 0 .. 2 ] );
my $nvect1 = $varvec1 - $varnorm;
my $nvect2 = $varvec2 - $varnorm;
my $degrees = atan2( $nvect1, $nvect2 ) * DEG_PER_RAD;
print "$varnorm $degrees\n";
}
I get:
Use of uninitialized value within %seen in numeric le (<=) at
/Users/a7c/exe/distscript.pl line 64, <$in_fh> line 6 (#1)
(W uninitialized) An undefined value was used as if it were already
defined. It was interpreted as a "" or a 0, but maybe it was a mistake.
To suppress this warning assign a defined value to your variables.
To help you figure out what was undefined, perl will try to tell you
the name of the variable (if any) that was undefined. In some cases
it cannot do this, so it also tells you what operation you used the
undefined value in. Note, however, that perl optimizes your program
anid the operation displayed in the warning may not necessarily appear
literally in your program. For example, "that $foo" is usually
optimized into "that " . $foo, and the warning will refer to the
concatenation (.) operator, even though there is no . in
your program.
{18.474525, 20.161419, 20.33903} 180
{18.474525, 20.161419, 20.33903} 180
{18.474525, 20.161419, 20.33903} 180
{21.999333, 20.220667, 19.786734} 180
{21.999333, 20.220667, 19.786734} 180
{18.333228, 21.649157, 21.125111} 180
{20.371077, 19.675844, 19.77649} 180
{20.371077, 19.675844, 19.77649} 180
{17.04323, 19.3106, 20.148842} 180
{22.941106, 19.105412, 19.069893} 180
Which you definitely interpreted correctly. I'm not quite sure how to remove the non-numeric LE issue though, and the bottom results seems to be messed up because of it.
perltidy
is good for that.my $vect1 = [ @{ $aoa[$k] }[0..2] ]; my @vecta = @$vect1;
?