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# Copyright (C) 2003-2013 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2, or (at your option) # any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # You should have received a copy of the GNU General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. package Automake::Variable; use 5.006; use strict; use Carp; use Automake::Channels; use Automake::ChannelDefs; use Automake::Configure_ac; use Automake::Item; use Automake::VarDef; use Automake::Condition qw (TRUE FALSE); use Automake::DisjConditions; use Automake::General 'uniq'; use Automake::Wrap 'makefile_wrap'; require Exporter; use vars '@ISA', '@EXPORT', '@EXPORT_OK'; @ISA = qw/Automake::Item Exporter/; @EXPORT = qw (err_var msg_var msg_cond_var reject_var var rvar vardef rvardef variables scan_variable_expansions check_variable_expansions variable_delete variables_dump set_seen require_variables variable_value output_variables transform_variable_recursively); =head1 NAME Automake::Variable - support for variable definitions =head1 SYNOPSIS use Automake::Variable; use Automake::VarDef; # Defining a variable. Automake::Variable::define($varname, $owner, $type, $cond, $value, $comment, $where, $pretty) # Looking up a variable. my $var = var $varname; if ($var) { ... } # Looking up a variable that is assumed to exist. my $var = rvar $varname; # The list of conditions where $var has been defined. # ($var->conditions is an Automake::DisjConditions, # $var->conditions->conds is a list of Automake::Condition.) my @conds = $var->conditions->conds # Access to the definition in Condition $cond. # $def is an Automake::VarDef. my $def = $var->def ($cond); if ($def) { ... } # When the conditional definition is assumed to exist, use my $def = $var->rdef ($cond); =head1 DESCRIPTION This package provides support for Makefile variable definitions. An C<Automake::Variable> is a variable name associated to possibly many conditional definitions. These definitions are instances of C<Automake::VarDef>. Therefore obtaining the value of a variable under a given condition involves two lookups. One to look up the variable, and one to look up the conditional definition: my $var = var $name; if ($var) { my $def = $var->def ($cond); if ($def) { return $def->value; } ... } ... When it is known that the variable and the definition being looked up exist, the above can be simplified to return var ($name)->def ($cond)->value; # Do not write this. but is better written return rvar ($name)->rdef ($cond)->value; or even return rvardef ($name, $cond)->value; The I<r> variants of the C<var>, C<def>, and C<vardef> methods add an extra test to ensure that the lookup succeeded, and will diagnose failures as internal errors (with a message which is much more informative than Perl's warning about calling a method on a non-object). =cut my $_VARIABLE_CHARACTERS = '[.A-Za-z0-9_@]+'; my $_VARIABLE_PATTERN = '^' . $_VARIABLE_CHARACTERS . "\$"; my $_VARIABLE_RECURSIVE_PATTERN = '^([.A-Za-z0-9_@]|\$[({]' . $_VARIABLE_CHARACTERS . '[})]?)+' . "\$"; # The order in which variables should be output. (May contain # duplicates -- only the first occurrence matters.) my @_var_order; # This keeps track of all variables defined by &_gen_varname. # $_gen_varname{$base} is a hash for all variables defined with # prefix '$base'. Values stored in this hash are the variable names. # Keys have the form "(COND1)VAL1(COND2)VAL2..." where VAL1 and VAL2 # are the values of the variable for condition COND1 and COND2. my %_gen_varname = (); # $_gen_varname_n{$base} is the number of variables generated by # _gen_varname() for $base. This is not the same as keys # %{$_gen_varname{$base}} because %_gen_varname may also contain # variables not generated by _gen_varname. my %_gen_varname_n = (); # Declare the macros that define known variables, so we can # hint the user if she try to use one of these variables. # Macros accessible via aclocal. my %_am_macro_for_var = ( CCAS => 'AM_PROG_AS', CCASFLAGS => 'AM_PROG_AS', EMACS => 'AM_PATH_LISPDIR', GCJ => 'AM_PROG_GCJ', LEX => 'AM_PROG_LEX', LIBTOOL => 'LT_INIT', lispdir => 'AM_PATH_LISPDIR', pkgpyexecdir => 'AM_PATH_PYTHON', pkgpythondir => 'AM_PATH_PYTHON', pyexecdir => 'AM_PATH_PYTHON', PYTHON => 'AM_PATH_PYTHON', pythondir => 'AM_PATH_PYTHON', ); # Macros shipped with Autoconf. my %_ac_macro_for_var = ( ALLOCA => 'AC_FUNC_ALLOCA', CC => 'AC_PROG_CC', CFLAGS => 'AC_PROG_CC', CXX => 'AC_PROG_CXX', CXXFLAGS => 'AC_PROG_CXX', F77 => 'AC_PROG_F77', FFLAGS => 'AC_PROG_F77', FC => 'AC_PROG_FC', FCFLAGS => 'AC_PROG_FC', OBJC => 'AC_PROG_OBJC', OBJCFLAGS => 'AC_PROG_OBJC', OBJCXX => 'AC_PROG_OBJCXX', OBJCXXFLAGS => 'AC_PROG_OBJCXX', RANLIB => 'AC_PROG_RANLIB', UPC => 'AM_PROG_UPC', UPCFLAGS => 'AM_PROG_UPC', YACC => 'AC_PROG_YACC', ); # The name of the configure.ac file. my $configure_ac; # Variables that can be overridden without complaint from -Woverride my %_silent_variable_override = (AM_MAKEINFOHTMLFLAGS => 1, AR => 1, ARFLAGS => 1, DEJATOOL => 1, JAVAC => 1, JAVAROOT => 1); # Count of helper variables used to implement conditional '+='. my $_appendvar; # Each call to C<Automake::Variable::traverse_recursively> gets an # unique label. This is used to detect recursively defined variables. my $_traversal = 0; =head2 Error reporting functions In these functions, C<$var> can be either a variable name, or an instance of C<Automake::Variable>. =over 4 =item C<err_var ($var, $message, [%options])> Uncategorized errors about variables. =cut sub err_var ($$;%) { msg_var ('error', @_); } =item C<msg_cond_var ($channel, $cond, $var, $message, [%options])> Messages about conditional variable. =cut sub msg_cond_var ($$$$;%) { my ($channel, $cond, $var, $msg, %opts) = @_; my $v = ref ($var) ? $var : rvar ($var); msg $channel, $v->rdef ($cond)->location, $msg, %opts; } =item C<msg_var ($channel, $var, $message, [%options])> Messages about variables. =cut sub msg_var ($$$;%) { my ($channel, $var, $msg, %opts) = @_; my $v = ref ($var) ? $var : rvar ($var); # Don't know which condition is concerned. Pick any. my $cond = $v->conditions->one_cond; msg_cond_var $channel, $cond, $v, $msg, %opts; } =item C<$bool = reject_var ($varname, $error_msg)> Bail out with C<$error_msg> if a variable with name C<$varname> has been defined. Return true iff C<$varname> is defined. =cut sub reject_var ($$) { my ($var, $msg) = @_; my $v = var ($var); if ($v) { err_var $v, $msg; return 1; } return 0; } =back =head2 Administrative functions =over 4 =item C<Automake::Variable::hook ($varname, $fun)> Declare a function to be called whenever a variable named C<$varname> is defined or redefined. C<$fun> should take two arguments: C<$type> and C<$value>. When type is C<''> or <':'>, C<$value> is the value being assigned to C<$varname>. When C<$type> is C<'+'>, C<$value> is the value being appended to C<$varname>. =cut use vars '%_hooks'; sub hook ($$) { my ($var, $fun) = @_; $_hooks{$var} = $fun; } =item C<variables ([$suffix])> Returns the list of all L<Automake::Variable> instances. (I.e., all variables defined so far.) If C<$suffix> is supplied, return only the L<Automake::Variable> instances that ends with C<_$suffix>. =cut use vars '%_variable_dict', '%_primary_dict'; sub variables (;$) { my ($suffix) = @_; if ($suffix) { if (exists $_primary_dict{$suffix}) { return values %{$_primary_dict{$suffix}}; } else { return (); } } else { return values %_variable_dict; } } =item C<Automake::Variable::reset> The I<forget all> function. Clears all know variables and reset some other internal data. =cut sub reset () { %_variable_dict = (); %_primary_dict = (); $_appendvar = 0; @_var_order = (); %_gen_varname = (); %_gen_varname_n = (); $_traversal = 0; } =item C<var ($varname)> Return the C<Automake::Variable> object for the variable named C<$varname> if defined. Return 0 otherwise. =cut sub var ($) { my ($name) = @_; return $_variable_dict{$name} if exists $_variable_dict{$name}; return 0; } =item C<vardef ($varname, $cond)> Return the C<Automake::VarDef> object for the variable named C<$varname> if defined in condition C<$cond>. Return false if the condition or the variable does not exist. =cut sub vardef ($$) { my ($name, $cond) = @_; my $var = var $name; return $var && $var->def ($cond); } # Create the variable if it does not exist. # This is used only by other functions in this package. sub _cvar ($) { my ($name) = @_; my $v = var $name; return $v if $v; return _new Automake::Variable $name; } =item C<rvar ($varname)> Return the C<Automake::Variable> object for the variable named C<$varname>. Abort with an internal error if the variable was not defined. The I<r> in front of C<var> stands for I<required>. One should call C<rvar> to assert the variable's existence. =cut sub rvar ($) { my ($name) = @_; my $v = var $name; prog_error ("undefined variable $name\n" . &variables_dump) unless $v; return $v; } =item C<rvardef ($varname, $cond)> Return the C<Automake::VarDef> object for the variable named C<$varname> if defined in condition C<$cond>. Abort with an internal error if the condition or the variable does not exist. =cut sub rvardef ($$) { my ($name, $cond) = @_; return rvar ($name)->rdef ($cond); } =back =head2 Methods C<Automake::Variable> is a subclass of C<Automake::Item>. See that package for inherited methods. Here are the methods specific to the C<Automake::Variable> instances. Use the C<define> function, described latter, to create such objects. =over 4 =cut # Create Automake::Variable objects. This is used # only in this file. Other users should use # the "define" function. sub _new ($$) { my ($class, $name) = @_; my $self = Automake::Item::new ($class, $name); $self->{'scanned'} = 0; $self->{'last-append'} = []; # helper variable for last conditional append. $_variable_dict{$name} = $self; if ($name =~ /_([[:alnum:]]+)$/) { $_primary_dict{$1}{$name} = $self; } return $self; } # _check_ambiguous_condition ($SELF, $COND, $WHERE) # ------------------------------------------------- # Check for an ambiguous conditional. This is called when a variable # is being defined conditionally. If we already know about a # definition that is true under the same conditions, then we have an # ambiguity. sub _check_ambiguous_condition ($$$) { my ($self, $cond, $where) = @_; my $var = $self->name; my ($message, $ambig_cond) = $self->conditions->ambiguous_p ($var, $cond); # We allow silent variables to be overridden silently, # by either silent or non-silent variables. my $def = $self->def ($ambig_cond); if ($message && $def->pretty != VAR_SILENT) { msg 'syntax', $where, "$message ...", partial => 1; msg_var ('syntax', $var, "... '$var' previously defined here"); verb ($self->dump); } } =item C<$bool = $var-E<gt>check_defined_unconditionally ([$parent, $parent_cond])> Warn if the variable is conditionally defined. C<$parent> is the name of the parent variable, and C<$parent_cond> the condition of the parent definition. These two variables are used to display diagnostics. =cut sub check_defined_unconditionally ($;$$) { my ($self, $parent, $parent_cond) = @_; if (!$self->conditions->true) { if ($parent) { msg_cond_var ('unsupported', $parent_cond, $parent, "automake does not support conditional definition of " . $self->name . " in $parent"); } else { msg_var ('unsupported', $self, "automake does not support " . $self->name . " being defined conditionally"); } } } =item C<$str = $var-E<gt>output ([@conds])> Format all the definitions of C<$var> if C<@cond> is not specified, else only that corresponding to C<@cond>. =cut sub output ($@) { my ($self, @conds) = @_; @conds = $self->conditions->conds unless @conds; my $res = ''; my $name = $self->name; foreach my $cond (@conds) { my $def = $self->def ($cond); prog_error ("unknown condition '" . $cond->human . "' for '" . $self->name . "'") unless $def; next if $def->pretty == VAR_SILENT; $res .= $def->comment; my $val = $def->raw_value; my $equals = $def->type eq ':' ? ':=' : '='; my $str = $cond->subst_string; if ($def->pretty == VAR_ASIS) { my $output_var = "$name $equals $val"; $output_var =~ s/^/$str/meg; $res .= "$output_var\n"; } elsif ($def->pretty == VAR_PRETTY) { # Suppress escaped new lines. &makefile_wrap will # add them back, maybe at other places. $val =~ s/\\$//mg; my $wrap = makefile_wrap ("$str$name $equals", "$str\t", split (' ', $val)); # If the last line of the definition is made only of # @substitutions@, append an empty variable to make sure it # cannot be substituted as a blank line (that would confuse # HP-UX Make). $wrap = makefile_wrap ("$str$name $equals", "$str\t", split (' ', $val), '$(am__empty)') if $wrap =~ /\n(\s*@\w+@)+\s*$/; $res .= $wrap; } else # ($def->pretty == VAR_SORTED) { # Suppress escaped new lines. &makefile_wrap will # add them back, maybe at other places. $val =~ s/\\$//mg; $res .= makefile_wrap ("$str$name $equals", "$str\t", sort (split (' ' , $val))); } } return $res; } =item C<@values = $var-E<gt>value_as_list ($cond, [$parent, $parent_cond])> Get the value of C<$var> as a list, given a specified condition, without recursing through any subvariables. C<$cond> is the condition of interest. C<$var> does not need to be defined for condition C<$cond> exactly, but it needs to be defined for at most one condition implied by C<$cond>. C<$parent> and C<$parent_cond> designate the name and the condition of the parent variable, i.e., the variable in which C<$var> is being expanded. These are used in diagnostics. For example, if C<A> is defined as "C<foo $(B) bar>" in condition C<TRUE>, calling C<rvar ('A')->value_as_list (TRUE)> will return C<("foo", "$(B)", "bar")>. =cut sub value_as_list ($$;$$) { my ($self, $cond, $parent, $parent_cond) = @_; my @result; # Get value for given condition my $onceflag; foreach my $vcond ($self->conditions->conds) { if ($vcond->true_when ($cond)) { # If there is more than one definitions of $var matching # $cond then we are in trouble: tell the user we need a # paddle. Continue by merging results from all conditions, # although it doesn't make much sense. $self->check_defined_unconditionally ($parent, $parent_cond) if $onceflag; $onceflag = 1; my $val = $self->rdef ($vcond)->value; push @result, split (' ', $val); } } return @result; } =item C<@values = $var-E<gt>value_as_list_recursive ([%options])> Return the contents of C<$var> as a list, split on whitespace. This will recursively follow C<$(...)> and C<${...}> inclusions. It preserves C<@...@> substitutions. C<%options> is a list of option for C<Variable::traverse_recursively> (see this method). The most useful is C<cond_filter>: $var->value_as_list_recursive (cond_filter => $cond) will return the contents of C<$var> and any subvariable in all conditions implied by C<$cond>. C<%options> can also carry options specific to C<value_as_list_recursive>. Presently, the only such option is C<location =E<gt> 1> which instructs C<value_as_list_recursive> to return a list of C<[$location, @values]> pairs. =cut sub value_as_list_recursive ($;%) { my ($var, %options) = @_; return $var->traverse_recursively (# Construct [$location, $value] pairs if requested. sub { my ($var, $val, $cond, $full_cond) = @_; return [$var->rdef ($cond)->location, $val] if $options{'location'}; return $val; }, # Collect results. sub { my ($var, $parent_cond, @allresults) = @_; return map { my ($cond, @vals) = @$_; @vals } @allresults; }, %options); } =item C<$bool = $var-E<gt>has_conditional_contents> Return 1 if C<$var> or one of its subvariable was conditionally defined. Return 0 otherwise. =cut sub has_conditional_contents ($) { my ($self) = @_; # Traverse the variable recursively until we # find a variable defined conditionally. # Use 'die' to abort the traversal, and pass it '$full_cond' # to we can find easily whether the 'eval' block aborted # because we found a condition, or for some other error. eval { $self->traverse_recursively (sub { my ($subvar, $val, $cond, $full_cond) = @_; die $full_cond if ! $full_cond->true; return (); }, sub { return (); }); }; if ($@) { return 1 if ref ($@) && $@->isa ("Automake::Condition"); # Propagate other errors. die; } return 0; } =item C<$string = $var-E<gt>dump> Return a string describing all we know about C<$var>. For debugging. =cut sub dump ($) { my ($self) = @_; my $text = $self->name . ": \n {\n"; foreach my $vcond ($self->conditions->conds) { $text .= " " . $vcond->human . " => " . $self->rdef ($vcond)->dump; } $text .= " }\n"; return $text; } =back =head2 Utility functions =over 4 =item C<@list = scan_variable_expansions ($text)> Return the list of variable names expanded in C<$text>. Note that unlike some other functions, C<$text> is not split on spaces before we check for subvariables. =cut sub scan_variable_expansions ($) { my ($text) = @_; my @result = (); # Strip comments. $text =~ s/#.*$//; # Record each use of ${stuff} or $(stuff) that does not follow a $. while ($text =~ /(?<!\$)\$(?:\{([^\}]*)\}|\(([^\)]*)\))/g) { my $var = $1 || $2; # The occurrence may look like $(string1[:subst1=[subst2]]) but # we want only 'string1'. $var =~ s/:[^:=]*=[^=]*$//; push @result, $var; } return @result; } =item C<check_variable_expansions ($text, $where)> Check variable expansions in C<$text> and warn about any name that does not conform to POSIX. C<$where> is the location of C<$text> for the error message. =cut sub check_variable_expansions ($$) { my ($text, $where) = @_; # Catch expansion of variables whose name does not conform to POSIX. foreach my $var (scan_variable_expansions ($text)) { if ($var !~ /$_VARIABLE_PATTERN/o) { # If the variable name contains a space, it's likely # to be a GNU make extension (such as $(addsuffix ...)). # Mention this in the diagnostic. my $gnuext = ""; $gnuext = "\n(probably a GNU make extension)" if $var =~ / /; # Accept recursive variable expansions if so desired # (we hope they are rather portable in practice). if ($var =~ /$_VARIABLE_RECURSIVE_PATTERN/o) { msg ('portability-recursive', $where, "$var: non-POSIX recursive variable expansion$gnuext"); } else { msg ('portability', $where, "$var: non-POSIX variable name$gnuext"); } } } } =item C<Automake::Variable::define($varname, $owner, $type, $cond, $value, $comment, $where, $pretty)> Define or append to a new variable. C<$varname>: the name of the variable being defined. C<$owner>: owner of the variable (one of C<VAR_MAKEFILE>, C<VAR_CONFIGURE>, or C<VAR_AUTOMAKE>, defined by L<Automake::VarDef>). Variables can be overridden, provided the new owner is not weaker (C<VAR_AUTOMAKE> < C<VAR_CONFIGURE> < C<VAR_MAKEFILE>). C<$type>: the type of the assignment (C<''> for C<FOO = bar>, C<':'> for C<FOO := bar>, and C<'+'> for C<'FOO += bar'>). C<$cond>: the C<Condition> in which C<$var> is being defined. C<$value>: the value assigned to C<$var> in condition C<$cond>. C<$comment>: any comment (C<'# bla.'>) associated with the assignment. Comments from C<+=> assignments stack with comments from the last C<=> assignment. C<$where>: the C<Location> of the assignment. C<$pretty>: whether C<$value> should be pretty printed (one of C<VAR_ASIS>, C<VAR_PRETTY>, C<VAR_SILENT>, or C<VAR_SORTED>, defined by by L<Automake::VarDef>). C<$pretty> applies only to real assignments. I.e., it does not apply to a C<+=> assignment (except when part of it is being done as a conditional C<=> assignment). This function will all run any hook registered with the C<hook> function. =cut sub define ($$$$$$$$) { my ($var, $owner, $type, $cond, $value, $comment, $where, $pretty) = @_; prog_error "$cond is not a reference" unless ref $cond; prog_error "$where is not a reference" unless ref $where; prog_error "pretty argument missing" unless defined $pretty && ($pretty == VAR_ASIS || $pretty == VAR_PRETTY || $pretty == VAR_SILENT || $pretty == VAR_SORTED); error $where, "bad characters in variable name '$var'" if $var !~ /$_VARIABLE_PATTERN/o; # ':='-style assignments are not acknowledged by POSIX. Moreover it # has multiple meanings. In GNU make or BSD make it means "assign # with immediate expansion", while in OSF make it is used for # conditional assignments. msg ('portability', $where, "':='-style assignments are not portable") if $type eq ':'; check_variable_expansions ($value, $where); # If there's a comment, make sure it is \n-terminated. if ($comment) { chomp $comment; $comment .= "\n"; } else { $comment = ''; } my $self = _cvar $var; my $def = $self->def ($cond); my $new_var = $def ? 0 : 1; # Additional checks for Automake definitions. if ($owner == VAR_AUTOMAKE && ! $new_var) { # An Automake variable must be consistently defined with the same # sign by Automake. if ($def->type ne $type && $def->owner == VAR_AUTOMAKE) { error ($def->location, "Automake variable '$var' was set with '" . $def->type . "=' here ...", partial => 1); error ($where, "... and is now set with '$type=' here."); prog_error ("Automake variable assignments should be consistently\n" . "defined with the same sign"); } # If Automake tries to override a value specified by the user, # just don't let it do. if ($def->owner != VAR_AUTOMAKE) { if (! exists $_silent_variable_override{$var}) { my $condmsg = ($cond == TRUE ? '' : (" in condition '" . $cond->human . "'")); msg_cond_var ('override', $cond, $var, "user variable '$var' defined here$condmsg ...", partial => 1); msg ('override', $where, "... overrides Automake variable '$var' defined here"); } verb ("refusing to override the user definition of:\n" . $self->dump ."with '" . $cond->human . "' => '$value'"); return; } } # Differentiate assignment types. # 1. append (+=) to a variable defined for current condition if ($type eq '+' && ! $new_var) { $def->append ($value, $comment); $self->{'last-append'} = []; # Only increase owners. A VAR_CONFIGURE variable augmented in a # Makefile.am becomes a VAR_MAKEFILE variable. $def->set_owner ($owner, $where->clone) if $owner > $def->owner; } # 2. append (+=) to a variable defined for *another* condition elsif ($type eq '+' && ! $self->conditions->false) { # * Generally, $cond is not TRUE. For instance: # FOO = foo # if COND # FOO += bar # endif # In this case, we declare an helper variable conditionally, # and append it to FOO: # FOO = foo $(am__append_1) # @COND_TRUE@am__append_1 = bar # Of course if FOO is defined under several conditions, we add # $(am__append_1) to each definitions. # # * If $cond is TRUE, we don't need the helper variable. E.g., in # if COND1 # FOO = foo1 # else # FOO = foo2 # endif # FOO += bar # we can add bar directly to all definition of FOO, and output # @COND_TRUE@FOO = foo1 bar # @COND_FALSE@FOO = foo2 bar my $lastappend = []; # Do we need an helper variable? if ($cond != TRUE) { # Can we reuse the helper variable created for the previous # append? (We cannot reuse older helper variables because # we must preserve the order of items appended to the # variable.) my $condstr = $cond->string; my $key = "$var:$condstr"; my ($appendvar, $appendvarcond) = @{$self->{'last-append'}}; if ($appendvar && $condstr eq $appendvarcond) { # Yes, let's simply append to it. $var = $appendvar; $owner = VAR_AUTOMAKE; $self = var ($var); $def = $self->rdef ($cond); $new_var = 0; } else { # No, create it. my $num = ++$_appendvar; my $hvar = "am__append_$num"; $lastappend = [$hvar, $condstr]; &define ($hvar, VAR_AUTOMAKE, '+', $cond, $value, $comment, $where, $pretty); # Now HVAR is to be added to VAR. $comment = ''; $value = "\$($hvar)"; } } # Add VALUE to all definitions of SELF. foreach my $vcond ($self->conditions->conds) { # We have a bit of error detection to do here. # This: # if COND1 # X = Y # endif # X += Z # should be rejected because X is not defined for all conditions # where '+=' applies. my $undef_cond = $self->not_always_defined_in_cond ($cond); if (! $undef_cond->false) { error ($where, "cannot apply '+=' because '$var' is not defined " . "in\nthe following conditions:\n " . join ("\n ", map { $_->human } $undef_cond->conds) . "\neither define '$var' in these conditions," . " or use\n'+=' in the same conditions as" . " the definitions."); } else { &define ($var, $owner, '+', $vcond, $value, $comment, $where, $pretty); } } $self->{'last-append'} = $lastappend; } # 3. first assignment (=, :=, or +=) else { # There must be no previous value unless the user is redefining # an Automake variable or an AC_SUBST variable for an existing # condition. _check_ambiguous_condition ($self, $cond, $where) unless (!$new_var && (($def->owner == VAR_AUTOMAKE && $owner != VAR_AUTOMAKE) || $def->owner == VAR_CONFIGURE)); # Never decrease an owner. $owner = $def->owner if ! $new_var && $owner < $def->owner; # Assignments to a macro set its location. We don't adjust # locations for '+='. Ideally I suppose we would associate # line numbers with random bits of text. $def = new Automake::VarDef ($var, $value, $comment, $where->clone, $type, $owner, $pretty); $self->set ($cond, $def); push @_var_order, $var; } # Call any defined hook. This helps to update some internal state # *while* parsing the file. For instance the handling of SUFFIXES # requires this (see var_SUFFIXES_trigger). &{$_hooks{$var}}($type, $value) if exists $_hooks{$var}; } =item C<variable_delete ($varname, [@conds])> Forget about C<$varname> under the conditions C<@conds>, or completely if C<@conds> is empty. =cut sub variable_delete ($@) { my ($var, @conds) = @_; if (!@conds) { delete $_variable_dict{$var}; } else { for my $cond (@conds) { delete $_variable_dict{$var}{'defs'}{$cond}; } } if ($var =~ /_([[:alnum:]]+)$/) { delete $_primary_dict{$1}{$var}; } } =item C<$str = variables_dump> Return a string describing all we know about all variables. For debugging. =cut sub variables_dump () { my $text = "all variables:\n{\n"; foreach my $var (sort { $a->name cmp $b->name } variables) { $text .= $var->dump; } $text .= "}\n"; return $text; } =item C<$var = set_seen ($varname)> =item C<$var = $var-E<gt>set_seen> Mark all definitions of this variable as examined, if the variable exists. See L<Automake::VarDef::set_seen>. Return the C<Variable> object if the variable exists, or 0 otherwise (i.e., as the C<var> function). =cut sub set_seen ($) { my ($self) = @_; $self = ref $self ? $self : var $self; return 0 unless $self; for my $c ($self->conditions->conds) { $self->rdef ($c)->set_seen; } return $self; } =item C<$count = require_variables ($where, $reason, $cond, @variables)> Make sure that each supplied variable is defined in C<$cond>. Otherwise, issue a warning showing C<$reason> (C<$reason> should be the reason why these variables are required, for instance C<'option foo used'>). If we know which macro can define this variable, hint the user. Return the number of undefined variables. =cut sub require_variables ($$$@) { my ($where, $reason, $cond, @vars) = @_; my $res = 0; $reason .= ' but ' unless $reason eq ''; $configure_ac = find_configure_ac unless defined $configure_ac; VARIABLE: foreach my $var (@vars) { # Nothing to do if the variable exists. next VARIABLE if vardef ($var, $cond); my $text = "$reason'$var' is undefined\n"; my $v = var $var; if ($v) { my $undef_cond = $v->not_always_defined_in_cond ($cond); next VARIABLE if $undef_cond->false; $text .= ("in the following conditions:\n " . join ("\n ", map { $_->human } $undef_cond->conds) . "\n"); } ++$res; if (exists $_am_macro_for_var{$var}) { my $mac = $_am_macro_for_var{$var}; $text .= " The usual way to define '$var' is to add " . "'$mac'\n to '$configure_ac' and run 'aclocal' and " . "'autoconf' again."; # aclocal will not warn about undefined macros unless it # starts with AM_. $text .= "\n If '$mac' is in '$configure_ac', make sure\n" . " its definition is in aclocal's search path." unless $mac =~ /^AM_/; } elsif (exists $_ac_macro_for_var{$var}) { $text .= " The usual way to define '$var' is to add " . "'$_ac_macro_for_var{$var}'\n to '$configure_ac' and " . "run 'autoconf' again."; } error $where, $text, uniq_scope => US_GLOBAL; } return $res; } =item C<$count = $var->requires_variables ($reason, @variables)> Same as C<require_variables>, but a method of Automake::Variable. C<@variables> should be defined in the same conditions as C<$var> is defined. =cut sub requires_variables ($$@) { my ($var, $reason, @args) = @_; my $res = 0; for my $cond ($var->conditions->conds) { $res += require_variables ($var->rdef ($cond)->location, $reason, $cond, @args); } return $res; } =item C<variable_value ($var)> Get the C<TRUE> value of a variable, warn if the variable is conditionally defined. C<$var> can be either a variable name or a C<Automake::Variable> instance (this allows calls such as C<$var-E<gt>variable_value>). =cut sub variable_value ($) { my ($var) = @_; my $v = ref ($var) ? $var : var ($var); return () unless $v; $v->check_defined_unconditionally; my $d = $v->def (TRUE); return $d ? $d->value : ""; } =item C<$str = output_variables> Format definitions for all variables. =cut sub output_variables () { my $res = ''; # We output variables it in the same order in which they were # defined (skipping duplicates). my @vars = uniq @_var_order; # Output all the Automake variables. If the user changed one, # then it is now marked as VAR_CONFIGURE or VAR_MAKEFILE. foreach my $var (@vars) { my $v = rvar $var; foreach my $cond ($v->conditions->conds) { $res .= $v->output ($cond) if $v->rdef ($cond)->owner == VAR_AUTOMAKE; } } # Now dump the user variables that were defined. foreach my $var (@vars) { my $v = rvar $var; foreach my $cond ($v->conditions->conds) { $res .= $v->output ($cond) if $v->rdef ($cond)->owner != VAR_AUTOMAKE; } } return $res; } =item C<$var-E<gt>traverse_recursively (&fun_item, &fun_collect, [cond_filter =E<gt> $cond_filter], [inner_expand =E<gt> 1], [skip_ac_subst =E<gt> 1])> Split the value of the Automake::Variable C<$var> on space, and traverse its components recursively. If C<$cond_filter> is an C<Automake::Condition>, process any conditions which are true when C<$cond_filter> is true. Otherwise, process all conditions. We distinguish two kinds of items in the content of C<$var>. Terms that look like C<$(foo)> or C<${foo}> are subvariables and cause recursion. Other terms are assumed to be filenames. Each time a filename is encountered, C<&fun_item> is called with the following arguments: ($var, -- the Automake::Variable we are currently traversing $val, -- the item (i.e., filename) to process $cond, -- the Condition for the $var definition we are examining (ignoring the recursion context) $full_cond) -- the full Condition, taking into account conditions inherited from parent variables during recursion If C<inner_expand> is set, variable references occurring in filename (as in C<$(BASE).ext>) are expanded before the filename is passed to C<&fun_item>. If C<skip_ac_subst> is set, Autoconf @substitutions@ will be skipped, i.e., C<&fun_item> will never be called for them. C<&fun_item> may return a list of items, they will be passed to C<&fun_store> later on. Define C<&fun_item> or @<&fun_store> as C<undef> when they serve no purpose. Once all items of a variable have been processed, the result (of the calls to C<&fun_items>, or of recursive traversals of subvariables) are passed to C<&fun_collect>. C<&fun_collect> receives three arguments: ($var, -- the variable being traversed $parent_cond, -- the Condition inherited from parent variables during recursion @condlist) -- a list of [$cond, @results] pairs where each $cond appear only once, and @result are all the results for this condition. Typically you should do C<$cond->merge ($parent_cond)> to recompute the C<$full_cond> associated to C<@result>. C<&fun_collect> may return a list of items, that will be used as the result of C<Automake::Variable::traverse_recursively> (the top-level, or its recursive calls). =cut # Contains a stack of 'from' and 'to' parts of variable # substitutions currently in force. my @_substfroms; my @_substtos; sub traverse_recursively ($&&;%) { ++$_traversal; @_substfroms = (); @_substtos = (); my ($var, $fun_item, $fun_collect, %options) = @_; my $cond_filter = $options{'cond_filter'}; my $inner_expand = $options{'inner_expand'}; my $skip_ac_subst = $options{'skip_ac_subst'}; return $var->_do_recursive_traversal ($var, $fun_item, $fun_collect, $cond_filter, TRUE, $inner_expand, $skip_ac_subst) } # The guts of Automake::Variable::traverse_recursively. sub _do_recursive_traversal ($$&&$$$$) { my ($var, $parent, $fun_item, $fun_collect, $cond_filter, $parent_cond, $inner_expand, $skip_ac_subst) = @_; $var->set_seen; if ($var->{'scanned'} == $_traversal) { err_var $var, "variable '" . $var->name() . "' recursively defined"; return (); } $var->{'scanned'} = $_traversal; my @allresults = (); my $cond_once = 0; foreach my $cond ($var->conditions->conds) { if (ref $cond_filter) { # Ignore conditions that don't match $cond_filter. next if ! $cond->true_when ($cond_filter); # If we found out several definitions of $var # match $cond_filter then we are in trouble. # Tell the user we don't support this. $var->check_defined_unconditionally ($parent, $parent_cond) if $cond_once; $cond_once = 1; } my @result = (); my $full_cond = $cond->merge ($parent_cond); my @to_process = $var->value_as_list ($cond, $parent, $parent_cond); while (@to_process) { my $val = shift @to_process; # If $val is a variable (i.e. ${foo} or $(bar), not a filename), # handle the sub variable recursively. # (Backslashes before '}' and ')' within brackets are here to # please Emacs's indentation.) if ($val =~ /^\$\{([^\}]*)\}$/ || $val =~ /^\$\(([^\)]*)\)$/) { my $subvarname = $1; # If the user uses a losing variable name, just ignore it. # This isn't ideal, but people have requested it. next if ($subvarname =~ /\@.*\@/); # See if the variable is actually a substitution reference my ($from, $to); # This handles substitution references like ${foo:.a=.b}. if ($subvarname =~ /^([^:]*):([^=]*)=(.*)$/o) { $subvarname = $1; $to = $3; $from = quotemeta $2; } my $subvar = var ($subvarname); # Don't recurse into undefined variables. next unless $subvar; push @_substfroms, $from; push @_substtos, $to; my @res = $subvar->_do_recursive_traversal ($parent, $fun_item, $fun_collect, $cond_filter, $full_cond, $inner_expand, $skip_ac_subst); push (@result, @res); pop @_substfroms; pop @_substtos; next; } # Try to expand variable references inside filenames such as # '$(NAME).txt'. We do not handle ':.foo=.bar' # substitutions, but it would make little sense to use this # here anyway. elsif ($inner_expand && ($val =~ /\$\{([^\}]*)\}/ || $val =~ /\$\(([^\)]*)\)/)) { my $subvarname = $1; my $subvar = var $subvarname; if ($subvar) { # Replace the reference by its value, and reschedule # for expansion. foreach my $c ($subvar->conditions->conds) { if (ref $cond_filter) { # Ignore conditions that don't match $cond_filter. next if ! $c->true_when ($cond_filter); # If we found out several definitions of $var # match $cond_filter then we are in trouble. # Tell the user we don't support this. $subvar->check_defined_unconditionally ($var, $full_cond) if $cond_once; $cond_once = 1; } my $subval = $subvar->rdef ($c)->value; $val =~ s/\$\{$subvarname\}/$subval/g; $val =~ s/\$\($subvarname\)/$subval/g; unshift @to_process, split (' ', $val); } next; } # We do not know any variable with this name. Fall through # to filename processing. } elsif ($skip_ac_subst && $val =~ /^\@.+\@$/) { next; } if ($fun_item) # $var is a filename we must process { my $substnum=$#_substfroms; while ($substnum >= 0) { $val =~ s/$_substfroms[$substnum]$/$_substtos[$substnum]/ if defined $_substfroms[$substnum]; $substnum -= 1; } # Make sure you update the doc of # Automake::Variable::traverse_recursively # if you change the prototype of &fun_item. my @transformed = &$fun_item ($var, $val, $cond, $full_cond); push (@result, @transformed); } } push (@allresults, [$cond, @result]) if @result; } # We only care about _recursive_ variable definitions. The user # is free to use the same variable several times in the same definition. $var->{'scanned'} = -1; return () unless $fun_collect; # Make sure you update the doc of Automake::Variable::traverse_recursively # if you change the prototype of &fun_collect. return &$fun_collect ($var, $parent_cond, @allresults); } # _hash_varname ($VAR) # -------------------- # Compute the key associated $VAR in %_gen_varname. # See _gen_varname() below. sub _hash_varname ($) { my ($var) = @_; my $key = ''; foreach my $cond ($var->conditions->conds) { my @values = $var->value_as_list ($cond); $key .= "($cond)@values"; } return $key; } # _hash_values (@VALUES) # ---------------------- # Hash @VALUES for %_gen_varname. @VALUES should be a list # of pairs: ([$cond, @values], [$cond, @values], ...). # See _gen_varname() below. sub _hash_values (@) { my $key = ''; foreach my $pair (@_) { my ($cond, @values) = @$pair; $key .= "($cond)@values"; } return $key; } # ($VARNAME, $GENERATED) # _gen_varname ($BASE, @DEFINITIONS) # ---------------------------------- # Return a variable name starting with $BASE, that will be # used to store definitions @DEFINITIONS. # @DEFINITIONS is a list of pair [$COND, @OBJECTS]. # # If we already have a $BASE-variable containing @DEFINITIONS, reuse # it and set $GENERATED to 0. Otherwise construct a new name and set # $GENERATED to 1. # # This way, we avoid combinatorial explosion of the generated # variables. Especially, in a Makefile such as: # # | if FOO1 # | A1=1 # | endif # | # | if FOO2 # | A2=2 # | endif # | # | ... # | # | if FOON # | AN=N # | endif # | # | B=$(A1) $(A2) ... $(AN) # | # | c_SOURCES=$(B) # | d_SOURCES=$(B) # # The generated c_OBJECTS and d_OBJECTS will share the same variable # definitions. # # This setup can be the case of a testsuite containing lots (>100) of # small C programs, all testing the same set of source files. sub _gen_varname ($@) { my $base = shift; my $key = _hash_values @_; return ($_gen_varname{$base}{$key}, 0) if exists $_gen_varname{$base}{$key}; my $num = 1 + ($_gen_varname_n{$base} || 0); $_gen_varname_n{$base} = $num; my $name = "${base}_${num}"; $_gen_varname{$base}{$key} = $name; return ($name, 1); } =item C<$resvar = transform_variable_recursively ($var, $resvar, $base, $nodefine, $where, &fun_item, [%options])> =item C<$resvar = $var-E<gt>transform_variable_recursively ($resvar, $base, $nodefine, $where, &fun_item, [%options])> Traverse C<$var> recursively, and create a C<$resvar> variable in which each filename in C<$var> have been transformed using C<&fun_item>. (C<$var> may be a variable name in the first syntax. It must be an C<Automake::Variable> otherwise.) Helper variables (corresponding to sub-variables of C<$var>) are created as needed, using C<$base> as prefix. Arguments are: $var source variable to traverse $resvar resulting variable to define $base prefix to use when naming subvariables of $resvar $nodefine if true, traverse $var but do not define any variable (this assumes &fun_item has some useful side-effect) $where context into which variable definitions are done &fun_item a transformation function -- see the documentation of &fun_item in Automake::Variable::traverse_recursively. This returns the string C<"\$($RESVAR)">. C<%options> is a list of options to pass to C<Variable::traverse_recursively> (see this method). =cut sub transform_variable_recursively ($$$$$&;%) { my ($var, $resvar, $base, $nodefine, $where, $fun_item, %options) = @_; $var = ref $var ? $var : rvar $var; my $res = $var->traverse_recursively ($fun_item, # The code that defines the variable holding the result # of the recursive transformation of a subvariable. sub { my ($subvar, $parent_cond, @allresults) = @_; # If no definition is required, return anything: the result is # not expected to be used, only the side effect of $fun_item # should matter. return 'report-me' if $nodefine; # Cache $subvar, so that we reuse it if @allresults is the same. my $key = _hash_varname $subvar; $_gen_varname{$base}{$key} = $subvar->name; # Find a name for the variable, unless this is the top-variable # for which we want to use $resvar. my ($varname, $generated) = ($var != $subvar) ? _gen_varname ($base, @allresults) : ($resvar, 1); # Define the variable if we are not reusing a previously # defined variable. At the top-level, we can also avoid redefining # the variable if it already contains the same values. if ($generated && !($varname eq $var->name && $key eq _hash_values @allresults)) { # If the new variable is the source variable, we assume # we are trying to override a user variable. Delete # the old variable first. variable_delete ($varname) if $varname eq $var->name; # Define an empty variable in condition TRUE if there is no # result. @allresults = ([TRUE, '']) unless @allresults; # Define the rewritten variable in all conditions not # already covered by user definitions. foreach my $pair (@allresults) { my ($cond, @result) = @$pair; my $var = var $varname; my @conds = ($var ? $var->not_always_defined_in_cond ($cond)->conds : $cond); foreach (@conds) { define ($varname, VAR_AUTOMAKE, '', $_, "@result", '', $where, VAR_PRETTY); } } } set_seen $varname; return "\$($varname)"; }, %options); return $res; } =back =head1 SEE ALSO L<Automake::VarDef>, L<Automake::Condition>, L<Automake::DisjConditions>, L<Automake::Location>. =cut 1; ### Setup "GNU" style for perl-mode and cperl-mode. ## Local Variables: ## perl-indent-level: 2 ## perl-continued-statement-offset: 2 ## perl-continued-brace-offset: 0 ## perl-brace-offset: 0 ## perl-brace-imaginary-offset: 0 ## perl-label-offset: -2 ## cperl-indent-level: 2 ## cperl-brace-offset: 0 ## cperl-continued-brace-offset: 0 ## cperl-label-offset: -2 ## cperl-extra-newline-before-brace: t ## cperl-merge-trailing-else: nil ## cperl-continued-statement-offset: 2 ## End: