Crates.io | sumcol |
lib.rs | sumcol |
version | 0.1.3 |
source | src |
created_at | 2023-11-10 21:30:58.813438 |
updated_at | 2023-12-18 21:11:21.382019 |
description | A command-line tool to sum a column of numbers. |
homepage | |
repository | https://github.com/devjgm/sumcol |
max_upload_size | |
id | 1031470 |
size | 41,211 |
sumcol
sumcol
is a simple unix-style command-line tool for summing numbers from a
column of text. It's a replacement for the tried and true Unix-isms, like awk '{s += $3} END {print s}'
(prints the sum of the numbers in the third
whitespace delimited column), without all the verbosity.
$ cargo install sumcol
NOTE: If you don't have sumcol
installed in your path, you can run the
following commands directly out of this repo by replacing sumcol
with cargo run -q --
.
$ sumcol -h
A command-line tool to sum a column of numbers.
Usage: sumcol [OPTIONS] [FILES]...
Arguments:
[FILES]... Files to read input from, otherwise uses stdin
Options:
-f, --field <FIELD> The field to sum. If not specified, uses the full line [default: 0]
-x, --hex Treat all numbers as hex, not just those with a leading 0x
-d, --delimiter <DELIMITER> The regex on which to split fields [default: \s+]
-v, --verbose Print each number that's being summed, along with some metadata
-h, --help Print help
-V, --version Print version
Here we'll sum the sizes of all the files in my current directory:
$ ls -l
total 48
-rw-r--r-- 1 greg staff 14938 Nov 10 13:56 Cargo.lock
-rw-r--r-- 1 greg staff 399 Nov 10 15:06 Cargo.toml
-rw-r--r-- 1 greg staff 1871 Nov 10 15:16 README.md
drwxr-xr-x 3 greg staff 96 Nov 10 11:55 src
drwxr-xr-x@ 6 greg staff 192 Nov 10 11:59 target
drwxr-xr-x 3 greg staff 96 Nov 10 11:59 tests
The size is shown in column -- or field -- number 5 (starting from 1), so we can use sumcol
as follows:
$ ls -l | sumcol -f5
17469
Which is equivalent to (but shorter than) the classic awk incantation:
$ ls -l | awk '{s += $5} END {print s}'
17469
Sometimes you use other tools to extact a column of numbers, in which case you can still use sumcol with no arguments to simply sum all of the input. Using the file listing from above, we could do the following:
$ ls -l | awk '{print $5}' | sumcol
17469
Programmers are often dealing with numbers written in hex. Typically in forms
like 0x123abc
or even simply 0000abcd
. When sumcol
sees a number starting
with 0x
it always assumes it's written in hex and parses it accordingly.
However, a hex number written without that prefix requires that we tell sumcol
to use hex.
For this example we'll sum the sizes of each section in the compiled sumcol
binary. We can see this information with the objdump
command.
$ objdump -h target/release/sumcol
target/release/sumcol: file format mach-o-arm64
Sections:
Idx Name Size VMA LMA File off Algn
0 .text 0014c350 0000000100000c0c 0000000100000c0c 00000c0c 2**2
CONTENTS, ALLOC, LOAD, CODE
1 __TEXT.__stubs 000003b4 000000010014cf5c 000000010014cf5c 0014cf5c 2**2
CONTENTS, ALLOC, LOAD, READONLY, CODE
2 .const 0004f458 000000010014d310 000000010014d310 0014d310 2**4
CONTENTS, ALLOC, LOAD, READONLY, DATA
3 __TEXT.__gcc_except_tab 0000cae8 000000010019c768 000000010019c768 0019c768 2**2
CONTENTS, ALLOC, LOAD, READONLY, CODE
4 __TEXT.__unwind_info 000087c8 00000001001a9250 00000001001a9250 001a9250 2**2
CONTENTS, ALLOC, LOAD, READONLY, CODE
5 .eh_frame 0002e5e0 00000001001b1a18 00000001001b1a18 001b1a18 2**3
CONTENTS, ALLOC, LOAD, READONLY, DATA
6 __DATA_CONST.__got 00000280 00000001001e0000 00000001001e0000 001e0000 2**3
CONTENTS, ALLOC, LOAD, DATA
7 __DATA_CONST.__const 0002c9c0 00000001001e0280 00000001001e0280 001e0280 2**3
CONTENTS, ALLOC, LOAD, DATA
8 .data 00000028 0000000100210000 0000000100210000 00210000 2**3
CONTENTS, ALLOC, LOAD, DATA
9 __DATA.__thread_vars 00000108 0000000100210028 0000000100210028 00210028 2**3
CONTENTS, ALLOC, LOAD, DATA
10 __DATA.__thread_data 00000040 0000000100210130 0000000100210130 00210130 2**3
CONTENTS, ALLOC, LOAD, DATA
11 __DATA.__thread_bss 00000090 0000000100210170 0000000100210170 00210170 2**3
CONTENTS, ALLOC, LOAD, DATA
12 __DATA.__common 00000038 0000000100210200 0000000100210200 00000000 2**3
ALLOC
13 .bss 00000148 0000000100210238 0000000100210238 00000000 2**3
ALLOC
We see here that the size is in field three and it's written in hex without a leading 0x
. Let's look at field three:
$ objdump -h target/release/sumcol | awk '{print $3}'
format
Size
0014c350
LOAD,
000003b4
LOAD,
0004f458
LOAD,
0000cae8
LOAD,
000087c8
LOAD,
0002e5e0
LOAD,
00000280
LOAD,
0002c9c0
LOAD,
00000028
LOAD,
00000108
LOAD,
00000040
LOAD,
00000090
LOAD,
00000038
00000148
Yuck. That has numbers, and non-numbers. Luckily, sumcol
will easily handle
this! It quietly ignores non-numbers treating them as if they're a 0
. So
let's see what answer we get:
$ objdump -h target/release/sumcol | sumcol -f3
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "0014c350". Consider using -x
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "000003b4". Consider using -x
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "0004f458". Consider using -x
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "0000cae8". Consider using -x
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "000087c8". Consider using -x
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "0002e5e0". Consider using -x
[2023-11-10T21:02:06Z WARN sumcol] Failed to parse "0002c9c0". Consider using -x
732
Interesting. Sumcol quietly ignores non-numbers like LOAD
in the above
example, but here it's warning us that it's seeing strings that look like hex
numbers but we didn't tell it to parse the numbers as hex. Let's try again
following the recommendation to use -x
.
$ objdump -h target/release/sumcol | sumcol -f3 -x
0x20C3AC
NOTE: If the hex numbers started with a leading '0x
, sumcol
would have
silently parsed them correctly and omitted the warning.
If sumcol
doesn't seem to be working right, feel free to look at the code on
github (it's pretty straight forward), or run it with the -v
or --verbose
flag, or even enable the RUST_LOG=debug
environment variable set. For
example:
$ printf "1\n2.5\nOOPS\n3" | sumcol -v
1 # n=Integer(1) sum=Integer(1) cnt=1 radix=10 raw_str="1"
2.5 # n=Float(2.5) sum=Float(3.5) cnt=2 radix=10 raw_str="2.5"
0 # n=Integer(0) sum=Float(3.5) cnt=2 radix=10 raw_str="OOPS" err="ParseFloatError { kind: Invalid }"
3 # n=Integer(3) sum=Float(6.5) cnt=3 radix=10 raw_str="3"
==
6.5
The metadata that's displayed on each line is
Name | Description |
---|---|
n |
The parsed numeric value |
sum |
The running sum up to and including the current n |
cnt |
The running count of successfully parsed numbers. If a number fails to parse and 0 is used instead, it will not be included in cnt |
radix |
The radix used when trying to parse the number as an integer |
raw_str |
The raw string data that was parsed |
err |
If present, this shows the error from trying to parse the string into a number |
This should be enough to help you debug the problem you're seeing. However, if
that's not enough, give it a try with RUST_LOG=debug
.