diff options
Diffstat (limited to 'Doc')
-rw-r--r-- | Doc/Zsh/expn.yo | 20 | ||||
-rw-r--r-- | Doc/Zsh/params.yo | 319 |
2 files changed, 262 insertions, 77 deletions
diff --git a/Doc/Zsh/expn.yo b/Doc/Zsh/expn.yo index e49fa06cb..d7376de62 100644 --- a/Doc/Zsh/expn.yo +++ b/Doc/Zsh/expn.yo @@ -556,11 +556,15 @@ possible to perform nested operations: tt(${${foo#head}%tail}) substitutes the value of tt($foo) with both `tt(head)' and `tt(tail)' deleted. The form with tt($LPAR())...tt(RPAR()) is often useful in combination with the flags described next; see the examples below. +Each var(name) or nested tt(${)...tt(}) in a parameter expansion may +also be followed by a subscript expression as described in +ifzman(em(Array Parameters) in zmanref(zshparam))\ +ifnzman(noderef(Array Parameters)). -Note that double quotes may appear around nested substitutions, in which +Note that double quotes may appear around nested expressions, in which case only the part inside is treated as quoted; for example, tt(${(f)"$(foo)"}) quotes the result of tt($(foo)), but the flag `tt((f))' -(see below) is applied using the rules for unquoted substitutions. Note +(see below) is applied using the rules for unquoted expansions. Note further that quotes are themselves nested in this context; for example, in tt("${(@f)"$(foo)"}"), there are two sets of quotes, one surrounding the whole expression, the other (redundant) surrounding the tt($(foo)) as @@ -579,19 +583,19 @@ in place of the colon as delimiters. The following flags are supported: startitem() item(tt(A))( -Create an array parameter with tt(${)...tt(=)...tt(}), -tt(${)...tt(:=)...tt(}) or tt(${)...tt(::=)...tt(}). -If this flag is repeated (as in tt(AA)), create an associative +Create an array parameter with `tt(${)...tt(=)...tt(})', +`tt(${)...tt(:=)...tt(})' or `tt(${)...tt(::=)...tt(})'. +If this flag is repeated (as in `tt(AA)'), create an associative array parameter. Assignment is made before sorting or padding. The var(name) part may be a subscripted range for ordinary arrays; the var(word) part em(must) be converted to an array, for -example by using tt(${(AA)=)var(name)tt(=)...tt(}) to activate word +example by using `tt(${(AA)=)var(name)tt(=)...tt(})' to activate word splitting, when creating an associative array. ) item(tt(@))( In double quotes, array elements are put into separate words. -E.g., tt("${(@)foo}") is equivalent to tt("${foo[@]}") and -tt("${(@)foo[1,2]}") is the same as tt("$foo[1]" "$foo[2]"). +E.g., `tt("${(@)foo}")' is equivalent to `tt("${foo[@]}")' and +`tt("${(@)foo[1,2]}")' is the same as `tt("$foo[1]" "$foo[2]")'. ) item(tt(e))( Perform em(parameter expansion), em(command substitution) and diff --git a/Doc/Zsh/params.yo b/Doc/Zsh/params.yo index c8823a442..1ed1e2a0f 100644 --- a/Doc/Zsh/params.yo +++ b/Doc/Zsh/params.yo @@ -8,13 +8,14 @@ characters and underscores, or the single characters `tt(*)', `tt(@)', `tt(#)', `tt(?)', `tt(-)', `tt($)', or `tt(!)'. The value may be a em(scalar) (a string), an integer, an array (indexed numerically), or an em(associative) -array (an unordered set of name-value pairs, indexed by name). -To assign a scalar or integer value to a parameter, -use the tt(typeset) builtin. +array (an unordered set of name-value pairs, indexed by name). To declare +the type of a parameter, or to assign a scalar or integer value to a +parameter, use the tt(typeset) builtin. findex(typeset, use of) -To assign an array value, use `tt(set -A) var(name) var(value) ...'. -findex(set, use of) -The value of a parameter may also be assigned by writing: + +The value of a scalar or integer parameter may also be assigned by +writing: +cindex(assignment) indent(var(name)tt(=)var(value)) @@ -22,6 +23,12 @@ If the integer attribute, tt(-i), is set for var(name), the var(value) is subject to arithmetic evaluation. See noderef(Array Parameters) for additional forms of assignment. +To refer to the value of a parameter, write `tt($)var(name)' or +`tt(${)var(name)tt(})'. See +ifzman(em(Parameter Expansion) in zmanref(zshexpn))\ +ifnzman(noderef(Parameter Expansion)) +for complete details. + In the parameter lists that follow, the mark `<S>' indicates that the parameter is special. Special parameters cannot have their type changed, and they stay special even @@ -36,40 +43,74 @@ menu(Parameters Used By The Shell) endmenu() texinode(Array Parameters)(Positional Parameters)()(Parameters) sect(Array Parameters) -The value of an array parameter may be assigned by writing: +To assign an array value, write one of: +findex(set, use of) +cindex(array assignment) +indent(tt(set -A) var(name) var(value) ...) indent(var(name)tt(=LPAR())var(value) ...tt(RPAR())) If no parameter var(name) exists, an ordinary array parameter is created. -Associative arrays must be declared first, by `tt(typeset -A) var(name)'. -When var(name) refers to an associative array, the parenthesized list is -interpreted as alternating keys and values: +If the parameter var(name) exists and is a scalar, it is replaced by a new +array. Ordinary array parameters may also be explicitly declared with: +findex(typeset, use of) + +indent(tt(typeset -a) var(name)) +Associative arrays em(must) be declared before assignment, by using: + +indent(tt(typeset -A) var(name)) + +When var(name) refers to an associative array, the list in an assignment +is interpreted as alternating keys and values: + +indent(set -A var(name) var(key) var(value) ...) indent(var(name)tt(=LPAR())var(key) var(value) ...tt(RPAR())) -Every var(key) must have a var(value) in this case. To create an empty -array or associative array, use: +Every var(key) must have a var(value) in this case. Note that this +assigns to the entire array, deleting any elements that do not appear +in the list. +To create an empty array (including associative arrays), use one of: + +indent(tt(set -A) var(name)) indent(var(name)tt(=LPAR()RPAR())) -Individual elements of an array may be selected using a -subscript. A subscript of the form `tt([)var(exp)tt(])' -selects the single element var(exp), where var(exp) is -an arithmetic expression which will be subject to arithmetic -expansion as if it were surrounded by `tt($LPAR()LPAR())...tt(RPAR()RPAR())'. -The elements are numbered beginning with 1 unless the -tt(KSH_ARRAYS) option is set when they are numbered from zero. +subsect(Array Subscripts) cindex(subscripts) + +Individual elements of an array may be selected using a subscript. A +subscript of the form `tt([)var(exp)tt(])' selects the single element +var(exp), where var(exp) is an arithmetic expression which will be subject +to arithmetic expansion as if it were surrounded by +`tt($LPAR()LPAR())...tt(RPAR()RPAR())'. The elements are numbered +beginning with 1, unless the tt(KSH_ARRAYS) option is set in which case +they are numbered from zero. pindex(KSH_ARRAYS, use of) -The same subscripting syntax is used for associative arrays, -except that no arithmetic expansion is applied to var(exp). +Subscripts may be used inside braces used to delimit a parameter name, thus +`tt(${foo[2]})' is equivalent to `tt($foo[2])'. If the tt(KSH_ARRAYS) +option is set, the braced form is the only one that works, as bracketed +expressions otherwise are not treated as subscripts. + +The same subscripting syntax is used for associative arrays, except that +no arithmetic expansion is applied to var(exp). However, the parsing +rules for arithmetic expressions still apply, which affects the way that +certain special characters must be protected from interpretation. See +em(Subscript Parsing) below for details. -A subscript of the form `tt([*])' or `tt([@])' evaluates to all -elements of an array; there is no difference between the two -except when they appear within double quotes. -`tt("$foo[*]")' evaluates to `tt("$foo[1] $foo[2] )...tt(")', while -`tt("$foo[@]")' evaluates to `tt("$foo[1]" "$foo[2]")', etc. +A subscript of the form `tt([*])' or `tt([@])' evaluates to all elements +of an array; there is no difference between the two except when they +appear within double quotes. +`tt("$foo[*]")' evaluates to `tt("$foo[1] $foo[2] )...tt(")', whereas +`tt("$foo[@]")' evaluates to `tt("$foo[1]" "$foo[2]" )...'. For +associative arrays, `tt([*])' or `tt([@])' evaluate to all the values (not +the keys, but see em(Subscript Flags) below), in no particular order. +When an array parameter is referenced as `tt($)var(name)' (with no +subscript) it evaluates to `tt($)var(name)tt([*])', unless the tt(KSH_ARRAYS) +option is set in which case it evaluates to `tt(${)var(name)tt([0]})' (for +an associative array, this means the value of the key `tt(0)', which may +not exist even if there are values for other keys). A subscript of the form `tt([)var(exp1)tt(,)var(exp2)tt(])' selects all elements in the range var(exp1) to var(exp2), @@ -85,26 +126,44 @@ case the subscripts specify a substring to be extracted. For example, if tt(FOO) is set to `tt(foobar)', then `tt(echo $FOO[2,5])' prints `tt(ooba)'. -Subscripts may be used inside braces used to delimit a parameter name, thus -`tt(${foo[2]})' is equivalent to `tt($foo[2])'. If the tt(KSH_ARRAYS) -option is set, the braced form is the only one that will -work, the subscript otherwise not being treated specially. +subsect(Array Element Assignment) + +A subscript may be used on the left side of an assignment like so: + +indent(var(name)tt([)var(exp)tt(]=)var(value)) -If a subscript is used on the left side of an assignment the selected -element or range is replaced by the expression on the right side. An -array (but not an associative array) may be created by assignment to a -range or element. Arrays do not nest, so assigning a parenthesized list -of values to an element or range changes the number of elements in the -array, shifting the other elements to accommodate the new values. (This -is not supported for associative arrays.) +In this form of assignment the element or range specified by var(exp) +is replaced by the expression on the right side. An array (but not an +associative array) may be created by assignment to a range or element. +Arrays do not nest, so assigning a parenthesized list of values to an +element or range changes the number of elements in the array, shifting the +other elements to accommodate the new values. (This is not supported for +associative arrays.) + +This syntax also works as an argument to the tt(typeset) command: + +indent(tt(typeset) tt(")var(name)tt([)var(exp)tt(]"=)var(value)) + +The var(value) may em(not) be a parenthesized list in this case; only +single-element assignments may be made with tt(typeset). Note that quotes +are necessary in this case to prevent the brackets from being interpreted +as filename generation operators. The tt(noglob) precommand modifier +could be used instead. To delete an element of an ordinary array, assign `tt(LPAR()RPAR())' to -that element. -To delete an element of an associative array, use the tt(unset) command. +that element. To delete an element of an associative array, use the +tt(unset) command: -If the opening bracket or the comma is directly followed by an opening -parentheses the string up to the matching closing one is considered to -be a list of flags. The flags currently understood are: +indent(tt(unset) tt(")var(name)tt([)var(exp)tt(]")) + +subsect(Subscript Flags) +cindex(subscript flags) + +If the opening bracket, or the comma in a range, in any subscript +expression is directly followed by an opening parenthesis, the string up +to the matching closing one is considered to be a list of flags, as in +`var(name)tt([LPAR())var(flags)tt(RPAR())var(exp)tt(])'. The flags +currently understood are: startitem() item(tt(w))( @@ -126,54 +185,176 @@ subscripting work on lines instead of characters, i.e. with elements separated by newlines. This is a shorthand for `tt(pws:\n:)'. ) item(tt(r))( -Reverse subscripting: if this flag is given, the var(exp) is taken as a -pattern and the result is the first matching array element, substring or -word (if the parameter is an array, if it is a scalar, or if it is a scalar -and the `tt(w)' flag is given, respectively). The subscript used is the -number of the matching element, so that pairs of subscripts such as -`tt($foo[(r))var(??)tt(,3])' and `tt($foo[(r))var(??)tt(,(r)f*])' -are possible. If the parameter is an associative array, only the value part -of each pair is compared to the pattern. +Reverse subscripting: if this flag is given, the var(exp) is taken as a +pattern and the result is the first matching array element, substring or +word (if the parameter is an array, if it is a scalar, or if it is a +scalar and the `tt(w)' flag is given, respectively). The subscript used +is the number of the matching element, so that pairs of subscripts such as +`tt($foo[(r))var(??)tt(,3])' and `tt($foo[(r))var(??)tt(,(r)f*])' are +possible. If the parameter is an associative array, only the value part +of each pair is compared to the pattern, and the result is that value. +Reverse subscripts may be used for assigning to ordinary array elements, +but not for assigning to associative arrays. ) item(tt(R))( Like `tt(r)', but gives the last match. For associative arrays, gives all possible matches. ) -item(tt(k))( -If used in a subscript on a parameter that is not an associative -array, this behaves like `tt(r)', but if used on an association, it -makes the keys be interpreted as patterns and returns the first value -whose key matches the var(exp). -) -item(tt(K))( -On an association this is like `tt(k)' but returns all values whose -keys match the var(exp). On other types of parameters this has the -same effect as `tt(R)'. -) item(tt(i))( -like `tt(r)', but gives the index of the match instead; this may not -be combined with a second argument. For associative arrays, the key -part of each pair is compared to the pattern, and the first matching -key found is used. +Like `tt(r)', but gives the index of the match instead; this may not be +combined with a second argument. On the left side of an assignment, +behaves like `tt(r)'. For associative arrays, the key part of each pair +is compared to the pattern, and the first matching key found is the +result. ) item(tt(I))( -like `tt(i)', but gives the index of the last match, or all possible +Like `tt(i)', but gives the index of the last match, or all possible matching keys in an associative array. ) +item(tt(k))( +If used in a subscript on an associative array, this flag causes the keys +to be interpreted as patterns, and returns the value for the first key +found where var(exp) is matched by the key. This flag does not work on +the left side of an assignment to an associative array element. If used +on another type of parameter, this behaves like `tt(r)'. +) +item(tt(K))( +On an associative array this is like `tt(k)' but returns all values where +var(exp) is matched by the keys. On other types of parameters this has +the same effect as `tt(R)'. +) item(tt(n:)var(expr)tt(:))( -if combined with `tt(r)', `tt(R)', `tt(i)' or `tt(I)', makes them give +If combined with `tt(r)', `tt(R)', `tt(i)' or `tt(I)', makes them give the var(n)th or var(n)th last match (if var(expr) evaluates to var(n)). This flag is ignored when the array is associative. ) item(tt(b:)var(expr)tt(:))( -if combined with `tt(r)', `tt(R)', `tt(i)' or `tt(I)', makes them begin +If combined with `tt(r)', `tt(R)', `tt(i)' or `tt(I)', makes them begin at the var(n)th or var(n)th last element, word, or character (if var(expr) evaluates to var(n)). This flag is ignored when the array is associative. ) item(tt(e))( -This option has no effect and retained for backward compatibility only. +This flag has no effect and for ordinary arrays is retained for backward +compatibility only. For associative arrays, this flag can be used to +force tt(*) or tt(@) to be interpreted as a single key rather than as a +reference to all values. This flag may be used on the left side of an +assignment. ) enditem() + +See em(Parameter Expansion Flags) (\ +ifzman(zmanref(zshexpn))\ +ifnzman(noderef(Parameter Expansion))\ +) for additional ways to manipulate the results of array subscripting. + +subsect(Subscript Parsing) + +This discussion applies mainly to associative array key strings and to +patterns used for reverse subscripting (the `tt(r)', `tt(R)', `tt(i)', +etc. flags), but it may also affect parameter substitutions that appear +as part of an arithmetic expression in an ordinary subscript. + +The basic rule to remember when writing a subscript expression is that all +text between the opening `tt([)' and the closing `tt(])' is interpreted +em(as if) it were in double quotes (\ +ifzman(see zmanref(zshmisc))\ +ifnzman(noderef(Quoting))\ +). However, unlike double quotes which normally cannot nest, subscript +expressions may appear inside double-quoted strings or inside other +subscript expressions (or both!), so the rules have two important +differences. + +The first difference is that brackets (`tt([)' and `tt(])') must appear as +balanced pairs in a subscript expression unless they are preceded by a +backslash (`tt(\)'). Therefore, within a subscript expression (and unlike +true double-quoting) the sequence `tt(\[)' becomes `tt([)', and similarly +`tt(\])' becomes `tt(])'. This applies even in cases where a backslash is +not normally required; for example, the pattern `tt([^[])' (to match any +character other than an open bracket) should be written `tt([^\[])' in a +reverse-subscript pattern. However, note that `tt(\[^\[\])' and even +`tt(\[^[])' mean the em(same) thing, because backslashes are always +stripped when they appear before brackets! + +The same rule applies to parentheses (`tt(LPAR())' and `tt(RPAR())') and +braces (`tt({)' and `tt(})'): they must appear either in balanced pairs or +preceded by a backslash, and backslashes that protect parentheses or +braces are removed during parsing. This is because parameter expansions +may be surrounded balanced braces, and subscript flags are introduced by +balanced parens. + +The second difference is that a double-quote (`tt(")') may appear as part +of a subscript expression without being preceded by a backslash, and +therefore that the two characters `tt(\")' remain as two characters in the +subscript (in true double-quoting, `tt(\")' becomes `tt(")'). However, +because of the standard shell quoting rules, any double-quotes that appear +must occur in balanced pairs unless preceded by a backslash. This makes +it more difficult to write a subscript expression that contains an odd +number of double-quote characters, but the reason for this difference is +so that when a subscript expression appears inside true double-quotes, one +can still write `tt(\")' (rather than `tt(\\\")') for `tt(")'. + +To use an odd number of double quotes as a key in an assignment, use the +tt(typeset) builtin and an enclosing pair of double quotes; to refer to +the value of that key, again use double quotes: + +example(typeset -A aa +typeset "aa[one\"two\"three\"quotes]"=QQQ +print "$aa[one\"two\"three\"quotes]") + +It is important to note that the quoting rules do not change when a +parameter expansion with a subscript is nested inside another subscript +expression. That is, it is not necessary to use additional backslashes +within the inner subscript expression; they are removed only once, from +the innermost subscript outwards. Parameters are also expanded from the +innermost subscript first, as each expansion is encountered left to right +in the outer expression. + +A further complication arises from a way in which subscript parsing is +em(not) different from double quote parsing. As in true double-quoting, +the sequences `tt(\*)', and `tt(\@)' remain as two characters when they +appear in a subscript expression. To use a literal `tt(*)' or `tt(@)' as +an associative array key, the `tt(e)' flag must be used: + +example(typeset -A aa +aa[(e)*]=star +print $aa[(e)*]) + +A last detail must be considered when reverse subscripting is performed. +Parameters appearing in the subscript expression are first expanded and +then the complete expression is interpreted as a pattern. This has two +effects: first, parameters behave as if tt(GLOB_SUBST) were on (and it +cannot be turned off); second, backslashes are interpreted twice, once +when parsing the array subscript and again when parsing the pattern. In a +reverse subscript, it's necessary to use em(four) backslashes to cause a +single backslash to match literally in the pattern. For complex patterns, +it is often easiest to assign the desired pattern to a parameter and then +refer to that parameter in the subscript, because then the backslashes, +brackets, parentheses, etc., are seen only when the complete expression is +converted to a pattern. To match the value of a parameter literally in a +reverse subscript, rather than as a pattern, +use `tt(${LPAR()q)tt(RPAR())var(name)tt(})' (\ +ifzman(see zmanref(zshexpn))\ +ifnzman(noderef(Parameter Expansion))\ +) to quote the expanded value. + +Note that the `tt(k)' and `tt(K)' flags are reverse subscripting for an +ordinary array, but are em(not) reverse subscripting for an associative +array! (For an associative array, the keys in the array itself are +interpreted as patterns by those flags; the subscript is a plain string +in that case.) + +One final note, not directly related to subscripting: the numeric names +of positional parameters (\ +ifzman(described below)\ +ifnzman(noderef(Positional Parameters))\ +) are parsed specially, so for example `tt($2foo)' is equivalent to +`tt(${2}foo)'. Therefore, to use subscript syntax to extract a substring +from a positional parameter, the expansion must be surrounded by braces; +for example, `tt(${2[3,5]})' evaluates to the third through fifth +characters of the second positional parameter, but `tt($2[3,5])' is the +entire second parameter concatenated with the filename generation pattern +`tt([3,5])'. + texinode(Positional Parameters)(Local Parameters)(Array Parameters)(Parameters) sect(Positional Parameters) The positional parameters provide access to the command-line arguments |