# $NetBSD: cond-func-empty.mk,v 1.22 2023/08/11 05:01:12 rillig Exp $ # # Tests for the empty() function in .if conditions, which tests a variable # expression for emptiness. # # Note that the argument in the parentheses is a variable name, not a variable # expression. That name may be followed by ':...' modifiers. # .undef UNDEF EMPTY= # empty SPACE= ${:U } ZERO= 0 WORD= word # An undefined variable counts as empty. .if !empty(UNDEF) . error .endif # An undefined variable has the empty string as the value, and the :M # variable modifier does not change that. # .if !empty(UNDEF:M*) . error .endif # The :S modifier replaces the empty value with an actual word. After # applying the :S modifier to the expression, its value is 'empty', so it is # no longer empty, but it is still based on an undefined variable. There are # a few modifiers that turn an undefined expression into a defined expression, # among them :U and :D, but not :S. Therefore, at the end of evaluating the # expression, the expression is still undefined, so its final value becomes an # empty string. # # XXX: This is hard to explain to someone who doesn't know these # implementation details. # .if !empty(UNDEF:S,^$,value,W) . error .endif # The :U modifier changes the state of a previously undefined expression from # DEF_UNDEF to DEF_DEFINED. This marks the expression as "being interesting # enough to be further processed". # .if empty(UNDEF:S,^$,value,W:Ufallback) . error .endif # When an expression is based on an undefined variable, its modifiers interact # in sometimes surprising ways. Applying the :S modifier to the undefined # expression makes its value non-empty, but doesn't change that the expression # is based on an undefined variable. The :U modifier that follows only looks # at the definedness state to decide whether the variable is defined or not. # This kind of makes sense since the :U modifier tests the _variable_, not the # _expression_. # # Since the variable was undefined to begin with, the fallback value from the # :U modifier is used in this expression, instead of keeping the 'value' from # the :S modifier. # .if ${UNDEF:S,^$,value,W:Ufallback} != "fallback" . error .endif # The variable EMPTY is completely empty (0 characters). .if !empty(EMPTY) . error .endif # The variable SPACE has a single space, which counts as being empty. .if !empty(SPACE) . error .endif # The variable .newline has a single newline, which counts as being empty. .if !empty(.newline) . error .endif # The variable ZERO has the numeric value 0, but is not empty. This is a # subtle difference between using either 'empty(ZERO)' or the expression # '${ZERO}' in a condition. .if empty(ZERO) . error .elif ${ZERO} . error .elif ${ZERO} == "" . error .endif # The following example constructs an expression with the variable name "" # and the value " ". This expression counts as empty since the value contains # only whitespace. # # Contrary to the other functions in conditionals, the trailing space is not # stripped off, as can be seen in the -dv debug log. If the space had been # stripped, it wouldn't make a difference in this case, but in other cases. # .if !empty(:U ) . error .endif # Now the variable named " " gets a non-empty value, which demonstrates that # neither leading nor trailing spaces are trimmed in the argument of the # function. If the spaces were trimmed, the variable name would be "" and # that variable is indeed undefined. Since CondParser_FuncCallEmpty calls # Var_Parse without VARE_UNDEFERR, the value of the undefined variable "" # would be returned as an empty string. ${:U }= space .if empty( ) . error .endif # The value of the following expression is " word", which is not empty. To be # empty, _all_ characters in the expression value have to be whitespace, not # only the first. .if empty(:U word) . error .endif # The :L modifier creates a variable expression that has the same value as # its name, which both are "VAR" in this case. The value is therefore not # empty. .if empty(VAR:L) . error .endif # The variable WORD has the value "word", which does not count as empty. .if empty(WORD) . error .endif # The expression ${} for a variable with the empty name always evaluates # to an empty string (see Var_Parse, varUndefined). .if !empty() . error .endif # Ensure that variable expressions that appear as part of the function call # argument are properly parsed. Typical use cases for this are .for loops, # which are expanded to exactly these ${:U} expressions. # # The argument expands to "WORD", and that variable is defined at the # beginning of this file. The surrounding 'W' and 'D' ensure that # CondParser_FuncCallEmpty keeps track of the parsing position, both before # and after the call to Var_Parse. .if empty(W${:UOR}D) . error .endif # There may be spaces outside the parentheses. # Spaces inside the parentheses are interpreted as part of the variable name. .if ! empty ( WORD ) . error .endif ${:U WORD }= variable name with spaces # Now there is a variable named " WORD ", and it is not empty. .if empty ( WORD ) . error .endif # expect+2: Unclosed variable "WORD" # expect+1: Malformed conditional (empty(WORD) .if empty(WORD . error .else . error .endif # Since cond.c 1.76 from 2020-06-28 and before var.c 1.226 from 2020-07-02, # the following example generated a wrong error message "Variable VARNAME is # recursive". # # Since at least 1993, the manual page claimed that irrelevant parts of # conditions were not evaluated, but that was wrong for a long time. The # expressions in irrelevant parts of the condition were actually evaluated, # they just allowed undefined variables to be used in the conditions. These # unnecessary evaluations were fixed in several commits, starting with var.c # 1.226 from 2020-07-02. # # In this example, the variable "VARNAME2" is not defined, so evaluation of # the condition should have stopped at this point, and the rest of the # condition should have been processed in parse-only mode. The right-hand # side containing the '!empty' was evaluated though, as it had always been. # # When evaluating the !empty condition, the variable name was parsed as # "VARNAME${:U2}", but without expanding any nested variable expression, in # this case the ${:U2}. The expression '${:U2}' was replaced with an empty # string, the resulting variable name was thus "VARNAME". This conceptually # wrong variable name should have been discarded quickly after parsing it, to # prevent it from doing any harm. # # The variable expression was expanded though, and this was wrong. The # expansion was done without VARE_WANTRES (called VARF_WANTRES back then) # though. This had the effect that the ${:U1} from the value of VARNAME # expanded to an empty string. This in turn created the seemingly recursive # definition VARNAME=${VARNAME}, and that definition was never meant to be # expanded. # # This was fixed by expanding nested variable expressions in the variable name # only if the flag VARE_WANTRES is given. VARNAME= ${VARNAME${:U1}} .if defined(VARNAME${:U2}) && !empty(VARNAME${:U2}) .endif # If the word 'empty' is not followed by '(', it is not a function call but an # ordinary bare word. This bare word is interpreted as 'defined(empty)', and # since there is no variable named 'empty', the condition evaluates to false. .if empty . error .endif empty= # defined but empty .if empty .else . error .endif