BASH: how to pass in arguments to an alias: CANNOT USE A FUNCTION - syntax of Bash conditionals

问题

This question differs in that the classic "use a function" answer WILL NOT work. Adding a note to an existing Alias question is equivalent to sending a suggestion e-mail to Yahoo.

I am trying to write macros to get around BASH's horrendous IF syntax. You know, the [, [[, ((...BASH: the PHP of flow control...just add another bracket. I'm still waiting for the "(((((((" form. Not quite sure why BASH didn't repurpose "(", as "(" has no real semantics at the if statement.

The idea is to have named aliases for [, [[ and (( , as each one of these durned test-ish functions has a frustratingly different syntax. I honestly can never remember which is which (how COULD you? It's completely ad hoc!), and good luck trying to google "[[".

I would then use the names as a mnemonic, and the alias to get rid of the completely awful differences in spacing requirements. Examples: "whatdoyoucallthisIf" for "((", "shif" (for shell if), "mysterydoublesquarebacketif" for that awful [[ thing which seems to mostly do the same thing as [, only it doesn't.

Thus, I MUST have something of the form:

alias IFREPLACEMENT="if [ \$@ ]; then"

But obviously not \$@, which would just cement in the current argument list to the shell running the alias.

Functions will not work in this case, as the function:

function IFREPLACEMENT {
    if [ $@ ]; then
}

is illegal.

In CSH, you could say alias abc blah blah !* !1, etc. Is there ANYTHING in BASH that is similar (no, !* doesn't work in BASH)?

Or am [ "I just out of luck" ]; ?

As an aside, here are some of the frustrating differences involving test-ish functions in BASH that I am trying to avoid by using well-defined aliases that people would have to use instead of picking the wrong "[[", "[" or "((":

• "((" is really creepy...if a variable contains the name of another variable, it's derferenced for as many levels as necessary)
• "((" doesn't require a spaces like '[' and '[['
• "((" doesn't require "$" for variables to be dereferenced
• ['s "-gt" is numeric or die. [[ seems to have arbitrary restrictions.
• '[' and '[[' use ">" (etc) as LEXICAL comparison operators, but they have frustratingly different rules that make it LOOK like they're doing numeric comparisons when they really aren't.
• for a variable: a="" (empty value), [ $a == 123 ] is a syntax error, but (( a == 123 )) isn't.

回答1:

Sure, functions will work, but not like a macro:

function IFREPLACEMENT {
     [[ "$@" ]]
}

IFREPLACEMENT "$x" = "$y" && { 
    echo "the same
}

---

FWIW, here's a brutal way to pass arguments to an alias.

$ alias enumerate='bash -c '\''for ((i=0; i<=$#; i++)); do arg=${!i}; echo $i $arg; done'\'
$ enumerate foo bar baz
0 foo
1 bar
2 baz

Clearly, because a new bash shell is spawned, whatever you do won't have any effect on the current shell.

回答2:

Update: Based on feedback from @konsolebox, the recommendation is now to always use [[...]] for both simplicity and performance (the original answer recommended ((...)) for numerical/Boolean tests).

---

@Oliver Charlesworth, in a comment on the question, makes the case for not trying to hide the underlying bash syntax - and I agree.

You can simplify things with the following rules:

• Always use [[ ... ]] for tests.
  • Only use [ ... ] if POSIX compatibility is a must. If available, [[ ... ]] is always the better choice (fewer surprises, more features, and almost twice as fast^[1]).
  • Use double-quoted, $-prefixed variable references - for robustness and simplicity (you do pay a slight performance penalty for double-quoting, though¹) - e.g., "$var"; see the exceptions re the RHS of == and =~ below.
• Whitespace rules:
  • ALWAYS put a space after the initial delimiter and before the closing delimiter of conditionals (whether [[ / (( or ]] / )))
  • NEVER put spaces around = in variable assignments.

These rules are more restrictive than they need to be - in the interest of simplification.

Tips and pitfalls:

• Note that for numeric comparison with [[ ... ]], you must use -eq, -gt, -ge, -lt, -le, because ==, <, <=, >, >= are for lexical comparison.
  • [[ 110 -gt 2 ]] && echo YES
• If you want to use == with pattern matching (globbing), either specify the entire RHS as an unquoted string, or, at least leave the special globbing characters unquoted.
  • [[ 'abc' == 'a'* ]] && echo YES
• Similarly, performing regex matching with =~ requires that either the entire RHS be unquoted, or at least leave the special regex chars. unquoted - if you use a variable to store the regex - as you may have to in order to avoid bugs with respect to \-prefixed constructs on Linux - reference that variable unquoted.
  • [[ 'abc' =~ ^'a'.+$ ]] && echo YES
  • re='^a.+$'; [[ 'abc' =~ $re ]] && echo YES # *unquoted* use of var. $re

• An alternative to [[ ... ]], for purely numerical/Boolean tests, is to use arithmetic evaluation, ((...)), whose performance is comparable to [[ (about 15-20% slower¹); arithmetic evaluation (see section ARITHMETIC EVALUATION in man bash):

  • Allows C-style arithmetic (integer) operations such as +, -, *, /, **, %, ...
  • Supports assignments, including increment and decrement operations (++ / --).

  • No $ prefix required for variable references.

    • Caveat: You still need the $ in 2 scenarios:
      • If you want to specify a number base or perform up-front parameter expansion, such as removing a prefix:
        • var=010; (( 10#$var > 9 )) && echo YES # mandate number base 10
        • var=v10; (( ${var#v} > 9 )) && echo YES # strip initial 'v'
      • If you want to prevent recursive variable expansion.
        • ((...), curiously, expands a variable name without $ recursively, until its value is not the name of an existing variable anymore:
        • var1=10; var2=var1; (( var2 > 9 )) && echo YES
        • var2 expands to 10(!)

  • Has laxer whitespace rules.

  • Example: v1=0; ((v2 = 1 + ++v1)) && echo YES # -> $v1 == 1, $v2 == 2
  • Caveat: Since arithmetic evaluation behaves so differently from the rest of bash, you'll have to weigh its added features against having to remember an extra set of rules. You also pay a slight performance penalty¹.

  • You can even cram arithmetic expressions, including assignments, into [[ conditionals that are based on numeric operators, though that may get even more confusing; e.g.:

    v1=1 v2=3; [[ v1+=1 -eq --v2 ]] && echo TRUE # -> both $v1 and $v2 == 2
    

^{Note: In this context, by 'quoting' I mean single- or double-quoting an entire string, as opposed to \-escaping individual characters in a string not enclosed in either single- or double quotes.}

---

¹: The following code - adapted from code by @konsolebox - was used for performance measurements:

Note:

• The results can vary by platform - numbers are based on OS X 10.9.3 and Ubuntu 12.04.
• [[ being nearly twice as fast as [ (factor around 1.9) is based on:
  • using unquoted, $-prefixed variable references in [[ (using double-quoted variable references slows things down somewhat)
• (( is slower than [[ with unquoted, $-prefixed variable on both platforms: about 15-20% on OSX, around 30% on Ubuntu. On OSX, using double-quoted, $-prefixed variable references is actually slower, as is not using the $ prefix at all (works with numeric operators). By contrast, on Ubuntu, (( is slower than all ]] variants.

#!/usr/bin/env bash

headers=( 'test' '[' '[[/unquoted' '[[/quoted' '[[/arithmetic' '((' )
iterator=$(seq 100000)
{
time for i in $iterator; do test "$RANDOM" -eq "$RANDOM"; done
time for i in $iterator; do [ "$RANDOM" -eq "$RANDOM" ]; done
time for i in $iterator; do [[ $RANDOM -eq $RANDOM ]]; done
time for i in $iterator; do [[ "$RANDOM" -eq "$RANDOM" ]]; done
time for i in $iterator; do [[ RANDOM -eq RANDOM ]]; done
time for i in $iterator; do (( RANDOM == RANDOM )); done
} 2>&1 | fgrep 'real' | { i=0; while read -r line; do echo "${headers[i++]}: $line"; done; } | sort -bn -k3.3 | awk 'NR==1 { baseTime=substr($3,3) } { time=substr($3,3); printf "%s %s%%\n", $0, (time/baseTime)*100 }' | column -t

Outputs times from fastest to slowest, with slower times also expressed as a percentage of the fastest time.

来源：https://stackoverflow.com/questions/24193817/bash-how-to-pass-in-arguments-to-an-alias-cannot-use-a-function-syntax-of-ba