# ------------------------------------------------------------------------------ # NAME # Fcm::Extract # # DESCRIPTION # This is the top level class for the FCM extract system. # # COPYRIGHT # (C) Crown copyright Met Office. All rights reserved. # For further details please refer to the file COPYRIGHT.txt # which you should have received as part of this distribution. # ------------------------------------------------------------------------------ package Fcm::Extract; @ISA = qw(Fcm::ConfigSystem); # Standard pragma use warnings; use strict; # Standard modules use File::Path; use File::Spec; # FCM component modules use Fcm::CfgFile; use Fcm::CfgLine; use Fcm::Config; use Fcm::ConfigSystem; use Fcm::Dest; use Fcm::ExtractFile; use Fcm::ExtractSrc; use Fcm::Keyword; use Fcm::ReposBranch; use Fcm::SrcDirLayer; use Fcm::Util; # List of scalar property methods for this class my @scalar_properties = ( 'bdeclare', # list of build declarations 'branches', # list of repository branches 'conflict', # conflict mode 'rdest' , # remote destination information ); # List of hash property methods for this class my @hash_properties = ( 'srcdirs' , # list of source directory extract info 'files', # list of files processed key=pkgname, value=Fcm::ExtractFile ); # ------------------------------------------------------------------------------ # SYNOPSIS # $obj = Fcm::Extract->new; # # DESCRIPTION # This method constructs a new instance of the Fcm::Extract class. # ------------------------------------------------------------------------------ sub new { my $this = shift; my %args = @_; my $class = ref $this || $this; my $self = Fcm::ConfigSystem->new (%args); $self->{$_} = undef for (@scalar_properties); $self->{$_} = {} for (@hash_properties); bless $self, $class; # List of sub-methods for parse_cfg push @{ $self->cfg_methods }, (qw/rdest bld conflict project/); # System type $self->type ('ext'); return $self; } # ------------------------------------------------------------------------------ # SYNOPSIS # $value = $obj->X; # $obj->X ($value); # # DESCRIPTION # Details of these properties are explained in @scalar_properties. # ------------------------------------------------------------------------------ for my $name (@scalar_properties) { no strict 'refs'; *$name = sub { my $self = shift; # Argument specified, set property to specified argument if (@_) { $self->{$name} = $_[0]; } # Default value for property if (not defined $self->{$name}) { if ($name eq 'bdeclare' or $name eq 'branches') { # Reference to an array $self->{$name} = []; } elsif ($name eq 'rdest') { # New extract destination local/remote $self->{$name} = Fcm::Dest->new (DEST0 => $self->dest(), TYPE => 'ext'); } elsif ($name eq 'conflict') { # Conflict mode, default to "merge" $self->{$name} = 'merge'; } } return $self->{$name}; } } # ------------------------------------------------------------------------------ # SYNOPSIS # %hash = %{ $obj->X () }; # $obj->X (\%hash); # # $value = $obj->X ($index); # $obj->X ($index, $value); # # DESCRIPTION # Details of these properties are explained in @hash_properties. # # If no argument is set, this method returns a hash containing a list of # objects. If an argument is set and it is a reference to a hash, the objects # are replaced by the the specified hash. # # If a scalar argument is specified, this method returns a reference to an # object, if the indexed object exists or undef if the indexed object does # not exist. If a second argument is set, the $index element of the hash will # be set to the value of the argument. # ------------------------------------------------------------------------------ for my $name (@hash_properties) { no strict 'refs'; *$name = sub { my ($self, $arg1, $arg2) = @_; # Ensure property is defined as a reference to a hash $self->{$name} = {} if not defined ($self->{$name}); # Argument 1 can be a reference to a hash or a scalar index my ($index, %hash); if (defined $arg1) { if (ref ($arg1) eq 'HASH') { %hash = %$arg1; } else { $index = $arg1; } } if (defined $index) { # A scalar index is defined, set and/or return the value of an element $self->{$name}{$index} = $arg2 if defined $arg2; return ( exists $self->{$name}{$index} ? $self->{$name}{$index} : undef ); } else { # A scalar index is not defined, set and/or return the hash $self->{$name} = \%hash if defined $arg1; return $self->{$name}; } } } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->check_lock_is_allowed ($lock); # # DESCRIPTION # This method returns true if it is OK for $lock to exist in the destination. # ------------------------------------------------------------------------------ sub check_lock_is_allowed { my ($self, $lock) = @_; # Allow existence of build lock in inherited extract return ($lock eq $self->dest->bldlock and @{ $self->inherited }); } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->invoke_extract (); # # DESCRIPTION # This method invokes the extract stage of the extract system. It returns # true on success. # ------------------------------------------------------------------------------ sub invoke_extract { my $self = shift; my $rc = 1; my @methods = ( 'expand_cfg', # expand URL, revision keywords, relative path, etc 'create_dir_stack', # analyse the branches to create an extract sequence 'extract_src', # use the sequence to extract source to destination 'write_cfg', # generate final configuration file 'write_cfg_bld', # generate build configuration file ); for my $method (@methods) { $rc = $self->$method if $rc; } return $rc; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->invoke_mirror (); # # DESCRIPTION # This method invokes the mirror stage of the extract system. It returns # true on success. # ------------------------------------------------------------------------------ sub invoke_mirror { my $self = shift; return $self->rdest->mirror ([qw/bldcfg extcfg srcdir/]); } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->invoke_system (); # # DESCRIPTION # This method invokes the extract system. It returns true on success. # ------------------------------------------------------------------------------ sub invoke_system { my $self = shift; my $rc = 1; $rc = $self->invoke_stage ('Extract', 'invoke_extract'); $rc = $self->invoke_stage ('Mirror', 'invoke_mirror') if $rc and $self->rdest->rootdir; return $rc; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->parse_cfg_rdest(\@cfg_lines); # # DESCRIPTION # This method parses the remote destination settings in the @cfg_lines. # ------------------------------------------------------------------------------ sub parse_cfg_rdest { my ($self, $cfg_lines_ref) = @_; # RDEST declarations # ---------------------------------------------------------------------------- for my $line (grep {$_->slabel_starts_with_cfg('RDEST')} @{$cfg_lines_ref}) { my ($d, $method) = map {lc($_)} $line->slabel_fields(); $method ||= 'rootdir'; if ($self->rdest()->can($method)) { $self->rdest()->$method(expand_tilde($line->value())); $line->parsed(1); } } # MIRROR declaration, deprecated = RDEST::MIRROR_CMD # ---------------------------------------------------------------------------- for my $line (grep {$_->slabel_starts_with_cfg('MIRROR')} @{$cfg_lines_ref}) { $self->rdest()->mirror_cmd($line->value()); $line->parsed(1); } return 1; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->parse_cfg_bld (\@cfg_lines); # # DESCRIPTION # This method parses the build configurations in the @cfg_lines. # ------------------------------------------------------------------------------ sub parse_cfg_bld { my ($self, $cfg_lines) = @_; # BLD declarations # ---------------------------------------------------------------------------- for my $line (grep {$_->slabel_starts_with_cfg ('BDECLARE')} @$cfg_lines) { # Remove BLD from label my @words = $line->slabel_fields; # Check that a declaration follows BLD next if @words <= 1; push @{ $self->bdeclare }, Fcm::CfgLine->new ( LABEL => join ($Fcm::Config::DELIMITER, @words), PREFIX => $self->cfglabel ('BDECLARE'), VALUE => $line->value, ); $line->parsed (1); } return 1; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->parse_cfg_conflict (\@cfg_lines); # # DESCRIPTION # This method parses the conflict settings in the @cfg_lines. # ------------------------------------------------------------------------------ sub parse_cfg_conflict { my ($self, $cfg_lines) = @_; # Deprecated: Override mode setting # ---------------------------------------------------------------------------- for my $line (grep {$_->slabel_starts_with_cfg ('OVERRIDE')} @$cfg_lines) { next if ($line->slabel_fields) > 1; $self->conflict ($line->bvalue ? 'override' : 'fail'); $line->parsed (1); $line->warning($line->slabel . ' is deprecated. Use ' . $line->cfglabel('CONFLICT') . ' override|merge|fail.'); } # Conflict mode setting # ---------------------------------------------------------------------------- my @conflict_modes = qw/fail merge override/; my $conflict_modes_pattern = join ('|', @conflict_modes); for my $line (grep {$_->slabel_starts_with_cfg ('CONFLICT')} @$cfg_lines) { if ($line->value =~ /$conflict_modes_pattern/i) { $self->conflict (lc ($line->value)); $line->parsed (1); } elsif ($line->value =~ /^[012]$/) { $self->conflict ($conflict_modes[$line->value]); $line->parsed (1); } else { $line->error ($line->value, ': invalid value'); } } return 1; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->parse_cfg_project (\@cfg_lines); # # DESCRIPTION # This method parses the project settings in the @cfg_lines. # ------------------------------------------------------------------------------ sub parse_cfg_project { my ($self, $cfg_lines) = @_; # Flag to indicate that a declared branch revision must match with its changed # revision # ---------------------------------------------------------------------------- for my $line (grep {$_->slabel_starts_with_cfg ('REVMATCH')} @$cfg_lines) { next if ($line->slabel_fields) > 1; $self->setting ([qw/EXT_REVMATCH/], $line->bvalue); $line->parsed (1); } # Repository, revision and source directories # ---------------------------------------------------------------------------- for my $name (qw/repos revision dirs expdirs/) { my @lines = grep { $_->slabel_starts_with_cfg (uc ($name)) or $name eq 'revision' and $_->slabel_starts_with_cfg ('VERSION'); } @$cfg_lines; for my $line (@lines) { my @names = $line->slabel_fields; shift @names; # Detemine package and tag my $tag = pop @names; my $pckroot = $names[0]; my $pck = join ($Fcm::Config::DELIMITER, @names); # Check that $tag and $pckroot are defined next unless $tag and $pckroot; # Check if branch already exists. # If so, set $branch to point to existing branch my $branch = undef; for (@{ $self->branches }) { next unless $_->package eq $pckroot and $_->tag eq $tag; $branch = $_; last; } # Otherwise, create a new branch if (not $branch) { $branch = Fcm::ReposBranch->new (PACKAGE => $pckroot, TAG => $tag,); push @{ $self->branches }, $branch; } if ($name eq 'repos' or $name eq 'revision') { # Branch location or revision $branch->$name ($line->value); } else { # $name eq 'dirs' or $name eq 'expdirs' # Source directory or expandable source directory if ($pck eq $pckroot and $line->value !~ m#^/#) { # Sub-package name not set and source directory quoted as a relative # path, determine package name from path name $pck = join ( $Fcm::Config::DELIMITER, ($pckroot, File::Spec->splitdir ($line->value)), ); } # A "/" is equivalent to the top (empty) package my $value = ($line->value =~ m#^/+$#) ? '' : $line->value; $branch->$name ($pck, $value); } $line->parsed (1); } } return 1; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $obj->expand_cfg (); # # DESCRIPTION # This method expands the settings of the extract configuration. # ------------------------------------------------------------------------------ sub expand_cfg { my $self = shift; my $rc = 1; for my $use (@{ $self->inherit }) { $rc = $use->expand_cfg if $rc; } return $rc unless $rc; # Establish a set of source directories from the "base repository" my %base_branches = (); # Inherit "base" set of source directories from re-used extracts for my $use (@{ $self->inherit }) { my @branches = @{ $use->branches }; for my $branch (@branches) { my $package = $branch->package; $base_branches{$package} = $branch unless exists $base_branches{$package}; } } for my $branch (@{ $self->branches }) { # Expand URL keywords if necessary if ($branch->repos) { my $repos = Fcm::Util::tidy_url(Fcm::Keyword::expand($branch->repos())); $branch->repos ($repos) if $repos ne $branch->repos; } # Check that repository type and revision are set if ($branch->repos and &is_url ($branch->repos)) { $branch->type ('svn') unless $branch->type; $branch->revision ('head') unless $branch->revision; } else { $branch->type ('user') unless $branch->type; $branch->revision ('user') unless $branch->revision; } $rc = $branch->expand_revision if $rc; # Get revision number from keywords $rc = $branch->expand_path if $rc; # Expand relative path to full path $rc = $branch->expand_all if $rc; # Search sub-directories last unless $rc; my $package = $branch->package; if (exists $base_branches{$package}) { # A base branch for this package exists # If current branch has no source directory, use the set provided by the # base branch my %dirs = %{ $branch->dirs }; $branch->add_base_dirs ($base_branches{$package}) unless keys %dirs; } else { # This package does not yet have a base branch, set this branch as base $base_branches{$package} = $branch; } } return $rc; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $obj->create_dir_stack (); # # DESCRIPTION # This method creates a hash of source directories to be processed. If the # flag INHERITED is set to true, the source directories are assumed processed # and extracted. # ------------------------------------------------------------------------------ sub create_dir_stack { my $self = shift; my %args = @_; # Inherit from USE ext cfg for my $use (@{ $self->inherit }) { $use->create_dir_stack () or return 0; my %use_srcdirs = %{ $use->srcdirs }; while (my ($key, $value) = each %use_srcdirs) { $self->srcdirs ($key, $value); # Re-set destination to current destination my @path = split (/$Fcm::Config::DELIMITER/, $key); $self->srcdirs ($key)->{DEST} = File::Spec->catfile ( $self->dest->srcdir, @path, ); } } # Build stack from current ext cfg for my $branch (@{ $self->branches }) { my %branch_dirs = %{ $branch->dirs }; for my $dir (keys %branch_dirs) { # Check whether source directory is already in the list if (not $self->srcdirs ($dir)) { # if not, create it $self->srcdirs ($dir, { DEST => File::Spec->catfile ( $self->dest->srcdir, split (/$Fcm::Config::DELIMITER/, $dir) ), STACK => [], FILES => {}, }); } my $stack = $self->srcdirs ($dir)->{STACK}; # copy reference # Create a new layer in the input stack my $layer = Fcm::SrcDirLayer->new ( NAME => $dir, PACKAGE => $branch->package, TAG => $branch->tag, LOCATION => $branch->dirs ($dir), REPOSROOT => $branch->repos, REVISION => $branch->revision, TYPE => $branch->type, EXTRACTED => @{ $self->inherited } ? $self->srcdirs ($dir)->{DEST} : undef, ); # Check whether layer is already in the stack my $exist = grep { $_->location eq $layer->location and $_->revision eq $layer->revision; } @{ $stack }; if (not $exist) { # If not already exist, put layer into stack # Note: user stack always comes last if (! $layer->user and exists $stack->[-1] and $stack->[-1]->user) { my $lastlayer = pop @{ $stack }; push @{ $stack }, $layer; $layer = $lastlayer; } push @{ $stack }, $layer; } elsif ($layer->user) { # User layer already exists, overwrite it $stack->[-1] = $layer; } } } # Use the cache to sort the source directory layer hash return $self->compare_setting (METHOD_LIST => ['sort_dir_stack']); } # ------------------------------------------------------------------------------ # SYNOPSIS # ($rc, \@new_lines) = $self->sort_dir_stack ($old_lines); # # DESCRIPTION # This method sorts thesource directories hash to be processed. # ------------------------------------------------------------------------------ sub sort_dir_stack { my ($self, $old_lines) = @_; my $rc = 0; my %old = (); if ($old_lines) { for my $line (@$old_lines) { $old{$line->label} = $line->value; } } my %new; # Compare each layer to base layer, discard unnecessary layers DIR: for my $srcdir (keys %{ $self->srcdirs }) { my @stack = (); while (my $layer = shift @{ $self->srcdirs ($srcdir)->{STACK} }) { if ($layer->user) { # Local file system branch, check that the declared location exists if (-d $layer->location) { # Local file system branch always takes precedence push @stack, $layer; } else { w_report 'ERROR: ', $layer->location, ': declared source directory ', 'does not exists '; $rc = undef; last DIR; } } else { my $key = join ($Fcm::Config::DELIMITER, ( $srcdir, $layer->location, $layer->revision )); unless ($layer->extracted and $layer->commit) { # See if commit revision information is cached if (keys %old and exists $old{$key}) { $layer->commit ($old{$key}); } else { $layer->get_commit; $rc = 1; } # Check source directory for commit revision, if necessary if (not $layer->commit) { w_report 'Error: cannot determine the last changed revision of ', $layer->location; $rc = undef; last DIR; } # Set cache directory for layer my $tag_ver = $layer->tag . '__' . $layer->commit; $layer->cachedir (File::Spec->catfile ( $self->dest->cachedir, split (/$Fcm::Config::DELIMITER/, $srcdir), $tag_ver, )); } # New line in cache config file $new{$key} = $layer->commit; # Push this layer in the stack: # 1. it has a different revision compared to the top layer # 2. it is the top layer (base line code) if (@stack > 0) { push @stack, $layer if $layer->commit != $stack[0]->commit; } else { push @stack, $layer; } } } $self->srcdirs ($srcdir)->{STACK} = \@stack; } # Write "commit cache" file my @new_lines; if (defined ($rc)) { for my $key (sort keys %new) { push @new_lines, Fcm::CfgLine->new (label => $key, value => $new{$key}); } } return ($rc, \@new_lines); } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->extract_src (); # # DESCRIPTION # This internal method performs the extract of the source directories and # files if necessary. # ------------------------------------------------------------------------------ sub extract_src { my $self = shift; my $rc = 1; # Ensure destinations exist and are directories for my $srcdir (values %{ $self->srcdirs }) { last if not $rc; if (-f $srcdir->{DEST}) { w_report $srcdir->{DEST}, ': destination exists and is not a directory, abort.'; $rc = 0; } } # Retrieve previous/record current extract configuration for each file. $rc = $self->compare_setting ( CACHEBASE => $self->setting ('CACHE_FILE_SRC'), METHOD_LIST => ['compare_setting_srcfiles'], ) if $rc; return $rc; } # ------------------------------------------------------------------------------ # SYNOPSIS # ($rc, \@new_lines) = $self->compare_setting_srcfiles ($old_lines); # # DESCRIPTION # For each file to be extracted, this method creates an instance of an # Fcm::ExtractFile object. It then compares its file's sources to determine # if they have changed. If so, it will allow the Fcm::ExtractFile to # "re-extract" the file to the destination. Otherwise, it will set # Fcm::ExtractFile->dest_status to a null string to denote an "unchanged" # dest_status. # # SEE ALSO # Fcm::ConfigSystem->compare_setting. # ------------------------------------------------------------------------------ sub compare_setting_srcfiles { my ($self, $old_lines) = @_; my $rc = 1; # Retrieve previous extract configuration for each file # ---------------------------------------------------------------------------- my %old = (); if ($old_lines) { for my $line (@$old_lines) { $old{$line->label} = $line->value; } } # Build up a sequence using a Fcm::ExtractFile object for each file # ---------------------------------------------------------------------------- for my $srcdir (values %{ $self->srcdirs }) { my %pkgnames0; # (to be) list of package names in the base layer for my $i (0 .. @{ $srcdir->{STACK} } - 1) { my $layer = $srcdir->{STACK}->[$i]; # Update the cache for each layer of the stack if necessary $layer->update_cache unless $layer->extracted or -d $layer->localdir; # Get list of files in the cache or local directory my %pkgnames; for my $file (($layer->get_files)) { my $pkgname = join ( '/', split (/$Fcm::Config::DELIMITER/, $layer->name), $file ); $pkgnames0{$pkgname} = 1 if $i == 0; # store package name in base layer $pkgnames{$pkgname} = 1; # store package name in the current layer if (not $self->files ($pkgname)) { $self->files ($pkgname, Fcm::ExtractFile->new ( conflict => $self->conflict, dest => $self->dest->srcpath, pkgname => $pkgname, )); # Base is empty $self->files ($pkgname)->src->[0] = Fcm::ExtractSrc->new ( id => $layer->tag, pkgname => $pkgname, ) if $i > 0; } my $cache = File::Spec->catfile ($layer->localdir, $file); push @{ $self->files ($pkgname)->src }, Fcm::ExtractSrc->new ( cache => $cache, id => $layer->tag, pkgname => $pkgname, rev => ($layer->user ? (stat ($cache))[9] : $layer->commit), uri => join ('/', $layer->location, $file), ); } # List of removed files in this layer (relative to base layer) if ($i > 0) { for my $pkgname (keys %pkgnames0) { push @{ $self->files ($pkgname)->src }, Fcm::ExtractSrc->new ( id => $layer->tag, pkgname => $pkgname, ) if not exists $pkgnames{$pkgname} } } } } # Compare with old settings # ---------------------------------------------------------------------------- my %new = (); for my $key (sort keys %{ $self->files }) { # Set up value for cache my @sources = (); for my $src (@{ $self->files ($key)->src }) { push @sources, (defined ($src->uri) ? ($src->uri . '@' . $src->rev) : ''); } my $value = join ($Fcm::Config::DELIMITER, @sources); # Set Fcm::ExtractFile->dest_status to "unchanged" if value is unchanged $self->files ($key)->dest_status ('') if exists $old{$key} and $old{$key} eq $value; # Write current settings $new{$key} = $value; } # Delete those that exist in previous extract but not in current # ---------------------------------------------------------------------------- for my $key (sort keys %old) { next if exists $new{$key}; $self->files ($key, Fcm::ExtractFile->new ( dest => $self->dest->srcpath, pkgname => $key, )); } # Extract each file, if necessary # ---------------------------------------------------------------------------- for my $key (sort keys %{ $self->files }) { $rc = $self->files ($key)->run if defined ($rc); last if not defined ($rc); } # Report status # ---------------------------------------------------------------------------- if (defined ($rc) and $self->verbose) { my %src_status_count = (); my %dest_status_count = (); for my $key (sort keys %{ $self->files }) { # Report changes in destination in verbose 1 or above my $dest_status = $self->files ($key)->dest_status; my $src_status = $self->files ($key)->src_status; next unless $self->verbose and $dest_status; if ($dest_status and $dest_status ne '?') { if (exists $dest_status_count{$dest_status}) { $dest_status_count{$dest_status}++; } else { $dest_status_count{$dest_status} = 1; } } if ($src_status and $src_status ne '?') { if (exists $src_status_count{$src_status}) { $src_status_count{$src_status}++; } else { $src_status_count{$src_status} = 1; } } # Destination status in column 1, source status in column 2 if ($self->verbose > 1) { my @srcs = @{$self->files ($key)->src_actual}; print ($dest_status ? $dest_status : ' '); print ($src_status ? $src_status : ' '); print ' ' x 5, $key; print ' (', join (', ', map {$_->id} @srcs), ')' if @srcs; print "\n"; } } # Report number of files in each dest_status category if (%dest_status_count) { print 'Column 1: ' if $self->verbose > 1; print 'Destination status summary:', "\n"; for my $key (sort keys %Fcm::ExtractFile::DEST_STATUS_CODE) { next unless $key; next if not exists ($dest_status_count{$key}); print ' No of files '; print '[', $key, '] ' if $self->verbose > 1; print $Fcm::ExtractFile::DEST_STATUS_CODE{$key}, ': ', $dest_status_count{$key}, "\n"; } } # Report number of files in each dest_status category if (%src_status_count) { print 'Column 2: ' if $self->verbose > 1; print 'Source status summary:', "\n"; for my $key (sort keys %Fcm::ExtractFile::SRC_STATUS_CODE) { next unless $key; next if not exists ($src_status_count{$key}); print ' No of files '; print '[', $key, '] ' if $self->verbose > 1; print $Fcm::ExtractFile::SRC_STATUS_CODE{$key}, ': ', $src_status_count{$key}, "\n"; } } } # Record configuration of current extract for each file # ---------------------------------------------------------------------------- my @new_lines; if (defined ($rc)) { for my $key (sort keys %new) { push @new_lines, Fcm::CfgLine->new (label => $key, value => $new{$key}); } } return ($rc, \@new_lines); } # ------------------------------------------------------------------------------ # SYNOPSIS # @array = $self->sort_bdeclare (); # # DESCRIPTION # This method returns sorted build declarations, filtering out repeated # entries, where possible. # ------------------------------------------------------------------------------ sub sort_bdeclare { my $self = shift; # Get list of build configuration labels that can be declared multiple times my %cfg_keyword = map { ($self->cfglabel ($_), 1) } split (/$Fcm::Config::DELIMITER_LIST/, $self->setting ('CFG_KEYWORD')); my @bdeclares = (); for my $d (reverse @{ $self->bdeclare }) { # Reconstruct array from bottom up # * always add declarations that can be declared multiple times # * otherwise add only if it is declared below unshift @bdeclares, $d if exists $cfg_keyword{uc (($d->slabel_fields)[0])} or not grep {$_->slabel eq $d->slabel} @bdeclares; } return (sort {$a->slabel cmp $b->slabel} @bdeclares); } # ------------------------------------------------------------------------------ # SYNOPSIS # @cfglines = $obj->to_cfglines (); # # DESCRIPTION # See description of Fcm::ConfigSystem->to_cfglines for further information. # ------------------------------------------------------------------------------ sub to_cfglines { my ($self) = @_; return ( Fcm::ConfigSystem::to_cfglines($self), $self->rdest->to_cfglines (), Fcm::CfgLine->new (), @{ $self->bdeclare } ? ( Fcm::CfgLine::comment_block ('Build declarations'), map { Fcm::CfgLine->new (label => $_->label, value => $_->value) } ($self->sort_bdeclare), Fcm::CfgLine->new (), ) : (), Fcm::CfgLine::comment_block ('Project and branches'), (map {($_->to_cfglines ())} @{ $self->branches }), ($self->conflict ne 'merge') ? ( Fcm::CfgLine->new ( label => $self->cfglabel ('CONFLICT'), value => $self->conflict, ), Fcm::CfgLine->new (), ) : (), ); } # ------------------------------------------------------------------------------ # SYNOPSIS # @cfglines = $obj->to_cfglines_bld (); # # DESCRIPTION # Returns a list of configuration lines of the current extract suitable for # feeding into the build system. # ------------------------------------------------------------------------------ sub to_cfglines_bld { my ($self) = @_; my $dest = $self->rdest->rootdir ? 'rdest' : 'dest'; my $root = File::Spec->catfile ('$HERE', '..'); my @inherits; my @no_inherits; if (@{ $self->inherit }) { # List of inherited builds for (@{ $self->inherit }) { push @inherits, Fcm::CfgLine->new ( label => $self->cfglabel ('USE'), value => $_->$dest->rootdir ); } # List of files that should not be inherited for my $key (sort keys %{ $self->files }) { next unless $self->files ($key)->dest_status eq 'd'; my $label = join ('::', ( $self->cfglabel ('INHERIT'), $self->cfglabel ('FILE'), split (m#/#, $self->files ($key)->pkgname), )); push @no_inherits, Fcm::CfgLine->new (label => $label, value => 'false'); } } return ( Fcm::CfgLine::comment_block ('File header'), (map {my ($lbl, $val) = @{$_}; Fcm::CfgLine->new(label => $lbl, value => $val)} ( [$self->cfglabel('CFGFILE') . $Fcm::Config::DELIMITER . 'TYPE' , 'bld'], [$self->cfglabel('CFGFILE') . $Fcm::Config::DELIMITER . 'VERSION', '1.0'], [], ) ), @{ $self->inherit } ? ( @inherits, @no_inherits, Fcm::CfgLine->new (), ) : (), Fcm::CfgLine::comment_block ('Destination'), Fcm::CfgLine->new (label => $self->cfglabel ('DEST'), value => $root), Fcm::CfgLine->new (), @{ $self->bdeclare } ? ( Fcm::CfgLine::comment_block ('Build declarations'), map { Fcm::CfgLine->new (label => $_->slabel, value => $_->value) } ($self->sort_bdeclare), Fcm::CfgLine->new (), ) : (), ); } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->write_cfg (); # # DESCRIPTION # This method writes the configuration file at the end of the run. It calls # $self->write_cfg_system ($cfg) to write any system specific settings. # ------------------------------------------------------------------------------ sub write_cfg { my $self = shift; my $cfg = Fcm::CfgFile->new (TYPE => $self->type); $cfg->lines ([$self->to_cfglines()]); $cfg->print_cfg ($self->dest->extcfg); return 1; } # ------------------------------------------------------------------------------ # SYNOPSIS # $rc = $self->write_cfg_bld (); # # DESCRIPTION # This internal method writes the build configuration file. # ------------------------------------------------------------------------------ sub write_cfg_bld { my $self = shift; my $cfg = Fcm::CfgFile->new (TYPE => 'bld'); $cfg->lines ([$self->to_cfglines_bld()]); $cfg->print_cfg ($self->dest->bldcfg); return 1; } # ------------------------------------------------------------------------------ 1; __END__