I have 2 data files: `file01`

and `file02`

. In both data sets fields are: (i) an identificator; (ii) a numeric reference; (iii) longitude; and (iv) latitude.
For each row in `file01`

, I want to seach the data in `file02`

with the same numeric reference and then, find the identificator in `file02`

which is nearest to the identificator in `file01`

.

I can get this if I pass manually the values from `file01`

to the awk program using the following code:

```
awk 'function acos(x) { return atan2(sqrt(1-x*x), x) }
BEGIN {pi=3.14159;
ndist=999999999.1;
date=1001;
lo1=-1.20; lg1=lo1*(pi/180);
la1=30.31; lt1=la1*(pi/180)
}
{if($2==date) {ws=$1;
lg2=$3*(pi/180);
lt2=$4*(pi/180);
dist= 6378.7 * acos( sin(lt1)*sin(lt2) + cos(lt1)*cos(lt2)*cos(lg2-lg1) );
if(dist < ndist) {ndist=dist; ws0=ws}}}
END {print(ws0,ndist)}' file02
```

As you see, `date`

, `lo1`

and `la1`

in the `BEGIN`

statement are the values in the 1st row of `file01`

(see below for data files). My question is if I could do that at once, so each time I read a row in `file01`

, I get the nearest identificator and the distance and append to the row data in `file01`

. I do not know if some shell command could achieve this in a easier way, maybe using a pipe.

An example of these two data files and the desired output are:

=== file01 ===

```
A 1001 -1.2 30.31
A 1002 -1.2 30.31
B 1002 -1.8 30.82
B 1003 -1.8 30.82
C 1001 -2.1 28.55
```

=== file02 ===

```
ws1 1000 -1.3 29.01
ws1 1001 -1.3 29.01
ws1 1002 -1.3 29.01
ws1 1003 -1.3 29.01
ws1 1004 -1.3 29.01
ws1 1005 -1.3 29.01
ws2 1000 -1.5 30.12
ws2 1002 -1.5 30.12
ws2 1003 -1.5 30.12
ws2 1004 -1.5 30.12
ws2 1005 -1.5 30.12
ws3 1000 -1.7 29.55
ws3 1001 -1.7 29.55
ws3 1002 -1.7 29.55
ws3 1003 -1.7 29.55
ws3 1004 -1.7 29.55
ws3 1005 -1.7 29.55
ws4 1000 -1.9 30.33
ws4 1001 -1.9 30.33
ws4 1002 -1.9 30.33
ws4 1003 -1.9 30.33
ws4 1004 -1.9 30.33
ws4 1005 -1.9 30.33
```

=== output file ===

```
A 1001 -1.2 30.31 ws4 67.308
A 1002 -1.2 30.31 ws2 35.783
B 1002 -1.8 30.82 ws4 55.387
B 1003 -1.8 30.82 ws4 55.387
C 1001 -2.1 28.55 ws1 85.369
```

**EDIT #1:** Considering the suggestion by @Eran, I wrote the following code:

```
join -j 2 < (sort -k 2,2 file01) < (sort -k 2,2 file02) |
awk 'function acos(x) { return atan2(sqrt(1-x*x), x) }
BEGIN {pi=3.14159}
{if (last != $1 $2)
{print NR, id,r,lon,lat,ws0,ndist;
last = $1 $2;
ndist=999999999.1
} else {
lg1=$3*(pi/180);
lt1=$4*(pi/180);
lg2=$6*(pi/180);
lt2=$7*(pi/180);
dist= 6378.7 * acos( sin(lt1)*sin(lt2) + cos(lt1)*cos(lt2)*cos(lg2-lg1) );
if(dist< ndist) {ndist=dist; ws0=$5}
id=$2;r=$1;lon=$3;lat=$4
}
}'
```

The output from this script is:

```
1
4 A 1001 -1.2 30.31 ws4 67.3078
7 C 1001 -2.0 28.55 ws3 115.094
11 A 1002 -1.2 30.31 ws2 35.7827
15 B 1002 -1.8 30.82 ws4 55.387
```

**EDIT #2**: Using athe suggestion of @Dennis (with some modifications) I have got the desired output. The awk script is as follows:

```
awk 'function acos(x) { return atan2(sqrt(1-x*x), x) }
BEGIN {pi=3.14159}
NR==FNR {c++; a1[c]=$1;a2[c]=$2;a3[c]=$3;a4[c]=$4; next}
{d++; b1[d]=$1;b2[d]=$2;b3[d]=$3;b4[d]=$4}
END {
for(k=1;k<=c;k++) {
lg1=a3[k]*(pi/180);
lt1=a4[k]*(pi/180);
ndist=999999999.1;
for(l=1;l<=d;l++) {
if(b2[l]==a2[k]) {kk=b2[l];
lg2=b3[l]*(pi/180);
lt2=b4[l]*(pi/180);
dist= 6378.7 * acos( sin(lt1)*sin(lt2) + cos(lt1)*cos(lt2)*cos(lg2-lg1) );
if(dist<ndist) {ndist=dist; ws0=b1[l]}
}
}
print a1[k],a2[k],a3[k],a4[k],ws0,ndist
}
}' file01 file02
```