# $NetBSD: varmod-match.mk,v 1.12 2022/08/24 21:03:57 rillig Exp $ # # Tests for the :M variable modifier, which filters words that match the # given pattern. # # See ApplyModifier_Match and ModifyWord_Match for the implementation. .MAKEFLAGS: -dc NUMBERS= One Two Three Four five six seven # Only keep words that start with an uppercase letter. .if ${NUMBERS:M[A-Z]*} != "One Two Three Four" . error .endif # Only keep words that start with a character other than an uppercase letter. .if ${NUMBERS:M[^A-Z]*} != "five six seven" . error .endif # Only keep words that don't start with s and at the same time end with # either of [ex]. # # This test case ensures that the negation from the first character class # does not propagate to the second character class. .if ${NUMBERS:M[^s]*[ex]} != "One Three five" . error .endif # Before 2020-06-13, this expression called Str_Match 601,080,390 times. # Since 2020-06-13, this expression calls Str_Match 1 time. .if ${:U****************:M****************b} .endif # As of 2022-06-11, this expression calls Str_Match 5,242,223 times. # Adding another '*?' to the pattern calls Str_Match 41,261,143 times. .if ${:U..................................................b:M*?*?*?*?*?a} .endif # To match a dollar sign in a word, double it. # # This is different from the :S and :C variable modifiers, where a '$' # has to be escaped as '\$'. .if ${:Ua \$ sign:M*$$*} != "\$" . error .endif # In the :M modifier, '\$' does not escape a dollar. Instead it is # interpreted as a backslash followed by whatever expression the # '$' starts. # # This differs from the :S, :C and several other variable modifiers. ${:U*}= asterisk .if ${:Ua \$ sign any-asterisk:M*\$*} != "any-asterisk" . error .endif # TODO: ${VAR:M(((}}}} # TODO: ${VAR:M{{{)))} # TODO: ${VAR:M${UNBALANCED}} # TODO: ${VAR:M${:U(((\}\}\}}} .MAKEFLAGS: -d0 # Special characters: # * matches 0 or more arbitrary characters # ? matches a single arbitrary character # \ starts an escape sequence, only outside ranges # [ starts a set for matching a single character # ] ends a set for matching a single character # - in a set, forms a range of characters # ^ as the first character in a set, negates the set # ( during parsing of the pattern, starts a nesting level # ) during parsing of the pattern, ends a nesting level # { during parsing of the pattern, starts a nesting level # } during parsing of the pattern, ends a nesting level # : during parsing of the pattern, finishes the pattern # $ during parsing of the pattern, starts a nested expression # # in a line except a shell command, starts a comment # # Pattern parts: # * matches 0 or more arbitrary characters # ? matches exactly 1 arbitrary character # \x matches exactly the character 'x' # [...] matches exactly 1 character from the set # [^...] matches exactly 1 character outside the set # [a-z] matches exactly 1 character from the range 'a' to 'z' # # [] matches never .if ${ ab a[]b a[b a b :L:M[]} != "" . error .endif # a[]b matches never .if ${ ab a[]b a[b a b [ ] :L:Ma[]b} != "" . error .endif # [^] matches exactly 1 arbitrary character .if ${ ab a[]b a[b a b [ ] :L:M[^]} != "a b [ ]" . error .endif # a[^]b matches 'a', then exactly 1 arbitrary character, then 'b' .if ${ ab a[]b a[b a b :L:Ma[^]b} != "a[b" . error .endif # [Nn0] matches exactly 1 character from the set 'N', 'n', '0' .if ${ a b N n 0 Nn0 [ ] :L:M[Nn0]} != "N n 0" . error .endif # [a-c] matches exactly 1 character from the range 'a' to 'c' .if ${ A B C a b c d [a-c] [a] :L:M[a-c]} != "a b c" . error .endif # [c-a] matches the same as [a-c] .if ${ A B C a b c d [a-c] [a] :L:M[c-a]} != "a b c" . error .endif # [^a-c67] # matches a single character, except for 'a', 'b', 'c', '6' or # '7' .if ${ A B C a b c d 5 6 7 8 [a-c] [a] :L:M[^a-c67]} != "A B C d 5 8" . error .endif # [\] matches a single backslash WORDS= a\b a[\]b ab .if ${WORDS:Ma[\]b} != "a\\b" . error .endif # : terminates the pattern .if ${ A * :L:M:} != "" . error .endif # \: matches a colon .if ${ ${:U\: \:\:} :L:M\:} != ":" . error .endif # ${:U\:} matches a colon .if ${ ${:U\:} ${:U\:\:} :L:M${:U\:}} != ":" . error .endif # [:] matches never since the ':' starts the next modifier # expect+2: Unknown modifier "]" # expect+1: Malformed conditional (${ ${:U\:} ${:U\:\:} :L:M[:]} != ":") .if ${ ${:U\:} ${:U\:\:} :L:M[:]} != ":" . error .else . error .endif # [\] matches exactly a backslash; no escaping takes place in # character ranges # Without the 'a' in the below words, the backslash would end a word and thus # influence how the string is split into words. WORDS= 1\a 2\\a .if ${WORDS:M?[\]a} != "1\\a" . error .endif # [[-]] May look like it would match a single '[', '\' or ']', but # the inner ']' has two roles: it is the upper bound of the # character range as well as the closing character of the # character list. The outer ']' is just a regular character. WORDS= [ ] [] \] ]] .if ${WORDS:M[[-]]} != "[] \\] ]]" . error .endif # [b[-]a] # Same as for '[[-]]': the character list stops at the first # ']', and the 'a]' is treated as a literal string. WORDS= [a \a ]a []a \]a ]]a [a] \a] ]a] ba] .if ${WORDS:M[b[-]a]} != "[a] \\a] ]a] ba]" . error .endif # [-] Matches a single '-' since the '-' only becomes part of a # character range if it is preceded and followed by another # character. WORDS= - -] .if ${WORDS:M[-]} != "-" . error .endif # [ Incomplete empty character list, never matches. WORDS= a a[ .if ${WORDS:Ma[} != "" . error .endif # [^ Incomplete negated empty character list, matches any single # character. WORDS= a a[ aX .if ${WORDS:Ma[^} != "a[ aX" . error .endif # [-x1-3 Incomplete character list, matches those elements that can be # parsed without lookahead. WORDS= - + x xx 0 1 2 3 4 [x1-3 .if ${WORDS:M[-x1-3} != "- x 1 2 3" . error .endif # [^-x1-3 # Incomplete negated character list, matches any character # except those elements that can be parsed without lookahead. WORDS= - + x xx 0 1 2 3 4 [x1-3 .if ${WORDS:M[^-x1-3} != "+ 0 4" . error .endif # [\ Incomplete character list containing a single '\'. # # A word can only end with a backslash if the preceding # character is a backslash as well; in all other cases the final # backslash would escape the following space, making the space # part of the word. Only the very last word of a string can be # '\', as there is no following space that could be escaped. WORDS= \\ \a ${:Ux\\} .if ${WORDS:M?[\]} != "\\\\ x\\" . error .endif # [x- Incomplete character list containing an incomplete character # range, matches only the 'x'. WORDS= [x- x x- y .if ${WORDS:M[x-} != "x" . error .endif # [^x- Incomplete negated character list containing an incomplete # character range; matches each word that does not have an 'x' # at the position of the character list. # # XXX: Even matches strings that are longer than a single # character. WORDS= [x- x x- y yyyyy .if ${WORDS:M[^x-} != "[x- y yyyyy" . error .endif # The modifier ':tW' prevents splitting at whitespace. Even leading and # trailing whitespace is preserved. .if ${ plain string :L:tW:M*} != " plain string " . error .endif # Without the modifier ':tW', the string is split into words. All whitespace # around and between the words is normalized to a single space. .if ${ plain string :L:M*} != "plain string" . error .endif # The pattern can come from a variable expression. For single-letter # variables, either the short form or the long form can be used, just as # everywhere else. PRIMES= 2 3 5 7 11 n= 2 .if ${PRIMES:M$n} != "2" . error .endif .if ${PRIMES:M${n}} != "2" . error .endif .if ${PRIMES:M${:U2}} != "2" . error .endif # Before var.c 1.1031 from 2022-08-24, the following expressions caused an # out-of-bounds read beyond the indirect ':M' modifiers. .if ${:U:${:UM\\}} # The ':M' pattern need not be unescaped, the . error # resulting pattern is '\', it never matches .endif # anything. .if ${:U:${:UM\\\:\\}} # The ':M' pattern must be unescaped, the . error # resulting pattern is ':\', it never matches .endif # anything.