hi i am trying to perform some calculations with awk and arrays. i have this so far:
awk 'NR==FNR{ for(i=1; i<=NF; i++) {array+=$i} tot++;next}
{for(i=1; i<=NF; i++) {avg=array/tot} {diff=(array - avg)}} {for(i=1; i<=NF; i++) {printf("%5.8f\n",diff)}}' "$count".txt "$count".ttt >... (4 Replies)
I'm at wits end with this issue and my troubleshooting leads me to believe it is a problem with the file formatting of the array referenced by my script:
awk -F, '{if (NR==FNR) {a=$4","$3","$2}\
else {print a "," $0}}' WBTSassignments1.txt RNCalarms.tmp
On the WBTSassignments1.txt file... (2 Replies)
Dear All,
I am facing problem to get right output through awk program
I have file in which “B” value is appearing multiple time and I need to capture all these values.
My script is
BEGIN { FS=" " }
{
if ( substr($1,1,5) == "START" )
{
i =... (2 Replies)
Hi all,
i have a data array as follows.
array=ertfgj2345
array=456ttygkd
.
.
.
array=errdjt3235
so number or elements in the array can varies depending on how big the data input is.
now i have a variable, and it is $1 (there are $2, $3 and so on, i am only interested in $1).
... (9 Replies)
Hi,
I rather have a very complicated awk problem here, at least to me. I have two files.
File 1:
607 687 174 0 0 chr1 3000001 3000156 -194195276 - L1_Mur2 LINE L1 -4310 1567 1413 1
607 917 214 114 45 chr1 3000237 ... (19 Replies)
I am trying to map values in the input file, where 2nd column depends on the specific value in the 1st column. When 1st column is A place 1 into 2nd column, when it is B, place 2, when C place 3, otherwise no change.
My input:
U |100|MAIN ST |CLMN1|1
A |200|GREEN LN |CLMN2|2
1 |12... (4 Replies)
Hello experts,
I'm stuck with this script for three days now. Here's what i need.
I need to split a large delimited (,) file into 2 files based on the value present in the last field.
Samp: Something.csv
bca,adc,asdf,123,12C
bca,adc,asdf,123,13C
def,adc,asdf,123,12A
I need this split... (6 Replies)
Hi, I have a problem with awk array when iam trying to use awk in solaris box as below..Iam unable to figure out the problem..
Need your help. is there any alternative to make it in arrays from variable values
nawk 'BEGIN {SUBSEP=" ";
split("101880|110045 101887|110045 101896|110045... (9 Replies)
Hello All,
Can you please help me with the below.
#!/bin/bash
ARR="No Differences In Stage Between HASH_TOTALS & HASH_TOTALS_COMP For UNINUM:0722075 PROVIDER:5 EXTRACT_DT:30-SEP-12 VER_NUM:1"
ARR="No Differences In Stage Between HASH_TOTALS & HASH_TOTALS_COMP For UNINUM:0722075 PROVIDER:5... (14 Replies)
I am trying to reformat the table by filling any missing rows. The final table will have consecutive IDs in the first column. My problem is the index of the associate array in the awk script.
infile:
S01 36407 53706 88540
S02 69343 87098 87316
S03 50133 59721 107923... (4 Replies)
Discussion started by: yifangt
4 Replies
LEARN ABOUT DEBIAN
output
OUTPUT(5) File Formats Manual OUTPUT(5)NAME
output - output data file formats
DESCRIPTION
This manual page describes the output formats of the files created by the Yagi-Uda project's output program. The files are ASCII file, so
can be analysed with any graph plotting program.
Example of a .dat File
Below is a typical .dat file, for a 4ele 144-146MHz beam, optimised for a huge (and useless) FB.
# Driven=1 parasitic=3 total-elements=4 design=145.000MHz
# Checked from 144.000MHz to 146.000MHz.
f(MHz) E(deg) H(deg) R jX VSWR Gain(dBi) FB(dB) SideLobes(dB)
144.000 54.7 71.5 44.47 -2.35 1.136 9.386 21.944 16.650
144.500 54.0 70.1 41.34 -0.75 1.210 9.553 27.244 17.153
145.000 53.2 68.4 37.55 1.61 1.335 9.742 103.055 17.777
145.500 52.3 66.6 33.26 5.00 1.530 9.947 25.734 18.547
146.000 51.3 64.6 28.77 9.63 1.832 10.149 18.919 18.919
What is what in the .dat file
The f(MHz) column is the frequency (MHz) at which the data is evaluated at.
The E(deg) column is the approximate 3dB E-plane bandwidth calculated to the nearest 0.1 degree.
The H(deg) column is the approximate 3dB H-plane bandwidth calculated to the nearest 0.1 degree.
The (R) column is the input resistance in Ohms.
The (jX) column is the input reactance in Ohms.
The (VSWR) column is the input VSWR, usually refered to a 50 Ohm input, but this may be changed.
The Gain (dBi) column is the gain at theta=90 degrees, which is the forward direction of the beam. It is possible that a higher gain occurs
at other than 90 degrees, but this is not taken into account. The antenna is seriously at fault if this occurs.
The FB(dB) column is the front to back ratio in dB.
The Sidelobes(dB) column is the minimum level in dB down from the peak gain of any sidelobe. This is not calculated unless the '-c' option
is used, and then only on some optimisation techniques.
Example of a .gai File
The following is a small section of the .gai file.
f(MHz) theta gain-E(dBi) G(E)-peak phi gain-H(dBi) G(H)-peak
144.0000 -90.0000-12.5584-21.9444 -180.0000 -12.5584-21.9444
144.0000 -45.0000-7.3507-16.7367 -135.0000 -3.5971-12.9830
144.0000 0.0000 -999.0000 -1008.3860 -90.0000-0.9010-10.2870
144.0000 45.0000 0.1848 -9.2012-45.0000 4.0261 -5.3599
144.0000 90.0000 9.3860 0.0000 0.0000 9.3860 0.0000
144.0000 135.0000 0.1848 -9.2012 45.0000 4.0261 -5.3599
144.0000 180.0000 -999.0000 -1008.3860 90.0000 -0.9010-10.2870
144.0000 225.0000 -7.3507-16.7367 135.0000 -3.5971-12.9830
144.0000 270.0000 -12.5584-21.9444 180.0000 -12.5584-21.9444
What is what in the .gai file
The f(MHz) column is the frequency in MHz.
The theta column is the angle theta, for which the next two columns refer.
The gain-E(dBi) is the gain at theta, relative to an isotropic radiator. This is the E-plane gain. Hence at the peak (theta), this gives
the peak forward gain.
The G(E)-peak is the gain at theta, relative to the peak gain. Hence at the peak (theta=90 degrees), this is zero.
The phi column has nothing to do with the previous 3 columns. It is the angle for which the next two columns refer.
The gain-H(dBi) is the gain at phi, relative to an isotropic radiator. This is the H-plane gain. Hence at the peak (phi=0), this gives the
peak forward gain.
The G(H)-peak is the gain at phi, relative to the peak gain. Hence at the peak (phi=0 degrees), this is zero.
Example of a .up File
The .up file list the improvements made by optimise to an antenna design. Starting from the original design, the file is appended each time
a new better design is found. Here is an example, where the final line is the performance of the 4ele beam with the .dat file shown ear-
lier.
1 7.57dBi, 16.93dB F/B, Z=(31.77-56.34j) Ohms, VSWR=3.95, SL=16.95 dB
84 7.58dBi, 16.93dB F/B, Z=(31.78-56.32j) Ohms, VSWR=3.95, SL=16.95 dB
623 7.58dBi, 16.93dB F/B, Z=(31.78-56.28j) Ohms, VSWR=3.95, SL=16.95 dB
89345 9.74dBi, 103.06dB F/B, Z=(37.55 +1.61j) Ohms, VSWR=1.33, SL=17.78 dB
What is what in the .up file
The first column is an integer specifying the iteration. The other columns, going from left to right are gain(dBi), FB, input impedance,
VSWR and level of the most significant sidelobe, in dB down on the peak gain.
SEE ALS0yagi(1), output(1), input(1), optimise(1), first(1) and yagi(5).
AUTHORS
Dr. David Kirkby G8WRB (david.kirkby@onetel.net), with help with converting to DOS from Dr. Joe Mack NA3T (mack@fcrfv2.ncifcrf.gov).
Version 1.16 24th October 2000 OUTPUT(5)