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Actions.pm
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Actions.pm
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class NQP::Actions is HLL::Actions {
sub xblock_immediate($xblock) {
$xblock[1] := block_immediate($xblock[1]);
$xblock;
}
sub block_immediate($block) {
$block.blocktype('immediate');
unless $block.symtable() || $block.handlers() {
my $stmts := PAST::Stmts.new( :node($block) );
for $block.list { $stmts.push($_); }
$block := $stmts;
}
$block;
}
sub vivitype($sigil) {
$sigil eq '%'
?? PAST::Op.new(:inline(" %r = root_new ['parrot';'Hash']"))
!! ($sigil eq '@'
?? PAST::Op.new(:inline(" %r = root_new ['parrot';'ResizablePMCArray']"))
!! 'Undef');
}
method TOP($/) { make $<comp_unit>.ast; }
method deflongname($/) {
make $<colonpair>
?? ~$<identifier> ~ ':' ~ $<colonpair>[0].ast.named
~ '<' ~ colonpair_str($<colonpair>[0].ast) ~ '>'
!! ~$/;
# make $<sym> ?? ~$<identifier> ~ ':sym<' ~ ~$<sym>[0] ~ '>' !! ~$/;
}
sub colonpair_str($ast) {
PAST::Op.ACCEPTS($ast)
?? pir::join(' ', $ast.list)
!! $ast.value;
}
method comp_unit($/) {
my $mainline := $<statementlist>.ast;
my $unit := $*W.pop_lexpad();
# Unit needs to have a load-init holding the deserialization or
# fixup code for this compilation unit.
$unit.loadinit().push($*W.to_past());
# We'll install our view of GLOBAL as the main one; any other
# compilation unit that is using this one will then replace it
# with its view later (or be in a position to restore it).
$unit.loadinit().push(PAST::Op.new(
:pasttype('bind_6model'),
PAST::Var.new( :name('GLOBAL'), :namespace([]), :scope('package') ),
$*W.get_slot_past_for_object($*PACKAGE)
));
# If our caller wants to know the mainline ctx, provide it here.
# (CTXSAVE is inherited from HLL::Actions.) Don't do this when
# there was an explicit {YOU_ARE_HERE}.
unless $*HAS_YOU_ARE_HERE {
$unit.push( self.CTXSAVE() );
}
# Detect if we're the main unit by if we were given any args. If so,
# register the mainline as a module (so trying to use ourself in the
# program will not explode). If we have a MAIN sub, call it at end of
# mainline.
$unit.unshift(PAST::Var.new( :scope('parameter'), :name('@ARGS'), :slurpy(1),
:directaccess(1) ));
my $main_tasks := PAST::Stmts.new(
PAST::Op.new( :pirop('load_bytecode vs'), 'ModuleLoader.pbc' ),
PAST::Op.new(
:pasttype('callmethod'), :name('set_mainline_module'),
PAST::Var.new( :name('ModuleLoader'), :namespace([]), :scope('package') ),
PAST::Var.new( :scope('keyed'), PAST::Op.new( :pirop('getinterp P') ), 'context' )
)
);
if $*MAIN_SUB {
$main_tasks.push(PAST::Op.new(
:pasttype('call'), PAST::Val.new( :value($*MAIN_SUB) ),
PAST::Var.new( :scope('lexical'), :name('@ARGS'), :flat(1) )
));
}
$mainline.push(PAST::Op.new(
:pasttype('if'),
PAST::Var.new( :scope('lexical'), :name('@ARGS') ),
$main_tasks
));
# We force a return here, because we have other
# :load/:init blocks to execute that we don't want
# to include as part of the mainline.
$unit.push(
PAST::Op.new( :pirop<return>, $mainline )
);
# If this code is loaded via load_bytecode, we want the unit mainline
# to be executed after all other loadinits have taken place.
$unit.push(
PAST::Block.new(
:pirflags(':load'), :lexical(0), :namespace(''),
PAST::Op.new( :pasttype<call>, PAST::Val.new( :value($unit) ) )
)
);
$unit.node($/);
# Set NQP defaults.
$*W.set_nqp_language_defaults($unit);
make $unit;
}
method statementlist($/) {
my $past := PAST::Stmts.new( :node($/) );
if $<statement> {
for $<statement> {
my $ast := $_.ast;
$ast := $ast<sink> if pir::defined($ast<sink>);
if $ast<bareblock> { $ast := block_immediate($ast); }
$ast := PAST::Stmt.new($ast) if $ast ~~ PAST::Node;
$past.push( $ast );
}
}
make $past;
}
method statement($/, $key?) {
my $past;
if $<EXPR> {
my $mc := $<statement_mod_cond>[0];
my $ml := $<statement_mod_loop>[0];
$past := $<EXPR>.ast;
if $mc {
$past := PAST::Op.new($mc<cond>.ast, $past, :pasttype(~$mc<sym>), :node($/) );
}
if $ml {
if ~$ml<sym> eq 'for' {
$past := PAST::Block.new( :blocktype('immediate'),
PAST::Var.new( :name('$_'), :scope('parameter'), :isdecl(1) ),
$past);
$past.symbol('$_', :scope('lexical') );
$past.arity(1);
$past := PAST::Op.new($ml<cond>.ast, $past, :pasttype(~$ml<sym>), :node($/) );
}
else {
$past := PAST::Op.new($ml<cond>.ast, $past, :pasttype(~$ml<sym>), :node($/) );
}
}
}
elsif $<statement_control> { $past := $<statement_control>.ast; }
else { $past := 0; }
make $past;
}
method xblock($/) {
make PAST::Op.new( $<EXPR>.ast, $<pblock>.ast, :pasttype('if'), :node($/) );
}
method pblock($/) {
make $<blockoid>.ast;
}
method block($/) {
make $<blockoid>.ast;
}
method blockoid($/) {
my $BLOCK := $*W.pop_lexpad();
if $<statementlist> {
my $past := $<statementlist>.ast;
$BLOCK.push($past);
$BLOCK.node($/);
$BLOCK.closure(1);
make $BLOCK;
}
else {
if $*HAS_YOU_ARE_HERE {
$/.CURSOR.panic('{YOU_ARE_HERE} may only appear once in a setting');
}
$*HAS_YOU_ARE_HERE := 1;
make $<you_are_here>.ast;
}
}
method newpad($/) {
$*W.push_lexpad($/)
}
method outerctx($/) {
unless pir::defined(%*COMPILING<%?OPTIONS><outer_ctx>) {
# We haven't got a specified outer context already, so load a
# setting.
my $SETTING := $*W.load_setting(%*COMPILING<%?OPTIONS><setting> // 'NQPCORE');
# If it exports HOWs, grab them. Also, if we're loading the
# setting, also by default load Regex library (we can't load
# this in the setting as Regex depends on the setting).
unless %*COMPILING<%?OPTIONS><setting> eq 'NULL' {
import_HOW_exports($SETTING);
$*W.load_module('NQPRegex', $*GLOBALish);
}
}
self.SET_BLOCK_OUTER_CTX($*W.cur_lexpad());
}
sub import_HOW_exports($UNIT) {
# See if we've exported any HOWs.
if pir::exists($UNIT, 'EXPORTHOW') {
for $UNIT<EXPORTHOW>.WHO {
%*HOW{$_.key} := $_.value;
}
}
}
method GLOBALish($/) {
# Create GLOBALish - the current GLOBAL view, created cleanly
# for each compilation unit so we get separate compilation.
# XXX Uses KnowHOW for now; want something lighter really.
$*GLOBALish := $*W.pkg_create_mo(%*HOW<knowhow>, :name('GLOBALish'));
$*GLOBALish.HOW.compose($*GLOBALish);
$*W.install_lexical_symbol($*W.cur_lexpad(), 'GLOBALish', $*GLOBALish);
# This is also the starting package.
$*PACKAGE := $*GLOBALish;
$*W.install_lexical_symbol($*W.cur_lexpad(), '$?PACKAGE', $*PACKAGE);
}
method you_are_here($/) {
make self.CTXSAVE();
}
## Statement control
method statement_control:sym<use>($/) {
my $module := $*W.load_module(~$<name>, $*GLOBALish);
if pir::defined($module) {
import_HOW_exports($module);
}
make PAST::Stmts.new();
}
method statement_control:sym<if>($/) {
my $count := +$<xblock> - 1;
my $past := xblock_immediate( $<xblock>[$count].ast );
if $<else> {
$past.push( block_immediate( $<else>[0].ast ) );
}
# build if/then/elsif structure
while $count > 0 {
$count--;
my $else := $past;
$past := xblock_immediate( $<xblock>[$count].ast );
$past.push($else);
}
make $past;
}
method statement_control:sym<unless>($/) {
my $past := xblock_immediate( $<xblock>.ast );
$past.pasttype('unless');
make $past;
}
method statement_control:sym<while>($/) {
my $past := xblock_immediate( $<xblock>.ast );
$past.pasttype(~$<sym>);
make $past;
}
method statement_control:sym<repeat>($/) {
my $pasttype := 'repeat_' ~ ~$<wu>;
my $past;
if $<xblock> {
$past := xblock_immediate( $<xblock>.ast );
$past.pasttype($pasttype);
}
else {
$past := PAST::Op.new( $<EXPR>.ast, block_immediate( $<pblock>.ast ),
:pasttype($pasttype), :node($/) );
}
make $past;
}
method statement_control:sym<for>($/) {
my $past := $<xblock>.ast;
$past.pasttype('for');
my $block := $past[1];
unless $block.arity {
$block[0].push( PAST::Var.new( :name('$_'), :scope('parameter') ) );
$block.symbol('$_', :scope('lexical') );
$block.arity(1);
}
$block.blocktype('immediate');
make $past;
}
method statement_control:sym<CATCH>($/) {
my $block := $<block>.ast;
push_block_handler($/, $block);
$*W.cur_lexpad().handlers()[0].handle_types_except('CONTROL');
make PAST::Stmts.new(:node($/));
}
method statement_control:sym<CONTROL>($/) {
my $block := $<block>.ast;
push_block_handler($/, $block);
$*W.cur_lexpad().handlers()[0].handle_types('CONTROL');
make PAST::Stmts.new(:node($/));
}
sub push_block_handler($/, $block) {
my $BLOCK := $*W.cur_lexpad();
unless $BLOCK.handlers() {
$BLOCK.handlers([]);
}
unless $block.arity {
$block.unshift(
PAST::Op.new( :pasttype('bind_6model'),
PAST::Var.new( :scope('lexical'), :name('$!'), :isdecl(1) ),
PAST::Var.new( :scope('lexical'), :name('$_')),
),
);
$block.unshift( PAST::Var.new( :name('$_'), :scope('parameter') ) );
$block.symbol('$_', :scope('lexical') );
$block.symbol('$!', :scope('lexical') );
$block.arity(1);
}
$block.blocktype('declaration');
$BLOCK.handlers.unshift(
PAST::Control.new(
:node($/),
PAST::Stmts.new(
PAST::Op.new( :pasttype('call'),
$block,
PAST::Var.new( :scope('register'), :name('exception')),
),
PAST::Op.new( :pasttype('bind_6model'),
PAST::Var.new( :scope('keyed'),
PAST::Var.new( :scope('register'), :name('exception')),
'handled'
),
1
)
),
)
);
}
method statement_prefix:sym<BEGIN>($/) {
make $*W.run_begin_block($<blorst>.ast);
}
method statement_prefix:sym<INIT>($/) {
$*W.cur_lexpad().push($<blorst>.ast);
make PAST::Stmts.new();
}
method statement_prefix:sym<try>($/) {
my $past := $<blorst>.ast;
unless $past ~~ PAST::Block {
$past := PAST::Block.new($past, :blocktype('immediate'), :node($/));
}
unless $past.handlers() {
$past.handlers([PAST::Control.new(
:handle_types_except('CONTROL'),
PAST::Stmts.new(
PAST::Op.new( :pasttype('bind_6model'),
PAST::Var.new( :scope('keyed'),
PAST::Var.new( :scope('register'), :name('exception')),
'handled'
),
1
)
)
)]
);
}
make $past;
}
method blorst($/) {
make $<block>
?? block_immediate($<block>.ast)
!! $<statement>.ast;
}
# Statement modifiers
method statement_mod_cond:sym<if>($/) { make $<cond>.ast; }
method statement_mod_cond:sym<unless>($/) { make $<cond>.ast; }
method statement_mod_loop:sym<while>($/) { make $<cond>.ast; }
method statement_mod_loop:sym<until>($/) { make $<cond>.ast; }
## Terms
method term:sym<fatarrow>($/) { make $<fatarrow>.ast; }
method term:sym<colonpair>($/) { make $<colonpair>.ast; }
method term:sym<variable>($/) { make $<variable>.ast; }
method term:sym<package_declarator>($/) { make $<package_declarator>.ast; }
method term:sym<scope_declarator>($/) { make $<scope_declarator>.ast; }
method term:sym<routine_declarator>($/) { make $<routine_declarator>.ast; }
method term:sym<regex_declarator>($/) { make $<regex_declarator>.ast; }
method term:sym<statement_prefix>($/) { make $<statement_prefix>.ast; }
method term:sym<lambda>($/) { make $<pblock>.ast; }
method fatarrow($/) {
my $past := $<val>.ast;
$past.named( $<key>.Str );
make $past;
}
method colonpair($/) {
if $<variable> {
$<variable>.ast.named(~$<variable><desigilname>);
make $<variable>.ast;
} else {
my $past := $<circumfix>
?? $<circumfix>[0].ast
!! PAST::Val.new( :value( !$<not> ) );
$past.named( ~$<identifier> );
make $past;
}
}
method variable($/) {
my $past;
if $<postcircumfix> {
$past := $<postcircumfix>.ast;
$past.unshift( PAST::Var.new( :name('$/') ) );
}
else {
my @name := NQP::Compiler.parse_name(~$/);
if +@name > 1 {
if $<twigil> {
$/.CURSOR.panic("Twigil not allowed on multi-part name");
}
$past := lexical_package_lookup(@name, $/);
$past.viviself( vivitype( $<sigil> ) );
}
elsif $<twigil>[0] eq '*' {
my $global_fallback := lexical_package_lookup(['GLOBAL', ~$<sigil> ~ $<desigilname>], $/);
$global_fallback.viviself(PAST::Op.new(
'Contextual ' ~ ~$/ ~ ' not found',
:pirop('die')
));
$past := PAST::Var.new(
:name(~@name.pop), :scope('contextual'),
:viviself($global_fallback)
);
}
elsif $<twigil>[0] eq '!' {
# Construct PAST.
my $name := ~@name.pop;
my $ch := $*PKGDECL eq 'role' ?? PAST::Var.new( :name('$?CLASS') ) !! $*W.get_ref($*PACKAGE);
$ch<has_compile_time_value> := 1;
$ch<compile_time_value> := $*PACKAGE;
$past := PAST::Var.new(
:name($name), :scope('attribute_6model'),
:viviself( vivitype( $<sigil> ) ),
PAST::Op.new( :pirop('nqp_decontainerize PP'), PAST::Var.new( :name('self') ) ),
$ch
);
# Make sure the attribute exists and add type info.
unless $*IN_DECL {
my $attr;
for $*PACKAGE.HOW.attributes($*PACKAGE, :local(1)) {
if $_.name eq $name {
$attr := $_;
last;
}
}
if pir::defined($attr) {
if pir::can($attr, 'type') {
$past.type($attr.type);
}
}
else {
$/.CURSOR.panic("Attribute '$name' not declared");
}
}
}
elsif $*W.is_package(~@name[0]) {
$past := lexical_package_lookup(@name, $/);
$past.viviself( vivitype( $<sigil> ) );
}
else {
$past := PAST::Var.new(
:name(~@name.pop), :viviself( vivitype( $<sigil> ) )
);
}
}
make $past;
}
method package_declarator:sym<module>($/) { make $<package_def>.ast }
method package_declarator:sym<knowhow>($/) { make $<package_def>.ast }
method package_declarator:sym<class>($/) { make $<package_def>.ast }
method package_declarator:sym<grammar>($/) { make $<package_def>.ast }
method package_declarator:sym<role>($/) { make $<package_def>.ast }
method package_declarator:sym<native>($/) { make $<package_def>.ast }
method package_declarator:sym<stub>($/) {
# Construct meta-object with specified metaclass, adding it to the
# serialization context for this compilation unit.
my $HOW := $*W.find_sym($<metaclass><identifier>);
my $PACKAGE := $*W.pkg_create_mo($HOW, :name(~$<name>));
# Install it in the current package or current lexpad as needed.
if $*SCOPE eq 'our' || $*SCOPE eq '' {
$*W.install_package_symbol($*OUTERPACKAGE, $<name><identifier>, $PACKAGE);
if +$<name><identifier> == 1 {
$*W.install_lexical_symbol($*W.cur_lexpad(), $<name><identifier>[0], $PACKAGE);
}
}
elsif $*SCOPE eq 'my' {
if +$<name><identifier> != 1 {
$<name>.CURSOR.panic("A my scoped package cannot have a multi-part name yet");
}
$*W.install_lexical_symbol($*W.cur_lexpad(), $<name><identifier>[0], $PACKAGE);
}
else {
$/.CURSOR.panic("$*SCOPE scoped packages are not supported");
}
make PAST::Stmts.new();
}
method package_def($/) {
# Get name and meta-object.
my @ns := pir::clone__PP($<name><identifier>);
my $name := ~@ns.pop;
my $how := %*HOW{$*PKGDECL};
# Get the body code.
my $past := $<block> ?? $<block>.ast !! $<comp_unit>.ast;
if $*SCOPE eq 'our' || $*SCOPE eq '' {
$past.namespace( $<name><identifier> );
}
# Evaluate everything in the package in-line unless this is a generic
# type in which case it needs delayed evaluation. Normally, $?CLASS is
# a fixed lexical, but for generic types it becomes a parameter. Also
# for parametric types, pass along the role body block.
if pir::can($how, 'parametric') && $how.parametric($how) {
$past.blocktype('declaration');
$past.unshift(PAST::Var.new( :name('$?CLASS'), :scope('parameter'),
:directaccess(1) ));
$past.symbol('$?CLASS', :scope('lexical'));
$*W.pkg_set_body_block($*PACKAGE, $past);
$*W.install_lexical_symbol($past, '$?PACKAGE', $*PACKAGE);
$*W.install_lexical_symbol($past, '$?ROLE', $*PACKAGE);
}
else {
$past.blocktype('immediate');
$*W.install_lexical_symbol($past, '$?PACKAGE', $*PACKAGE);
$*W.install_lexical_symbol($past, '$?CLASS', $*PACKAGE);
}
# Add parent, if we have one; otherwise set default.
if $<parent> {
my $parent;
my $parent_found;
try {
$parent := $*W.find_sym(pir::clone__PP($<parent>[0]<identifier>));
$parent_found := 1;
}
if $parent_found {
$*W.pkg_add_parent_or_role($*PACKAGE, "add_parent", $parent);
}
else {
$/.CURSOR.panic("Could not find parent class '" ~ ~$<parent>[0] ~ "'");
}
}
elsif pir::can($how, 'set_default_parent') {
my $default := $*PKGDECL eq 'grammar' ?? ['Regex', 'Cursor'] !! ['NQPMu'];
$*W.pkg_add_parent_or_role($*PACKAGE, "set_default_parent",
$*W.find_sym($default));
}
# Add any done roles.
if $<role> {
for $<role> {
my $role;
my $role_found;
try {
$role := $*W.find_sym(pir::clone__PP($_<identifier>));
$role_found := 1;
}
if $role_found {
$*W.pkg_add_parent_or_role($*PACKAGE, "add_role", $role);
}
else {
$/.CURSOR.panic("Could not find role '" ~ ~$_ ~ "'");
}
}
}
# Finally, compose.
$*W.pkg_compose($*PACKAGE);
make $past;
}
method scope_declarator:sym<my>($/) { make $<scoped>.ast; }
method scope_declarator:sym<our>($/) { make $<scoped>.ast; }
method scope_declarator:sym<has>($/) { make $<scoped>.ast; }
method scoped($/) {
make $<declarator> ?? $<declarator>.ast !!
$<multi_declarator> ?? $<multi_declarator>.ast !!
$<package_declarator>.ast;
}
method declarator($/) {
make $<routine_declarator>
?? $<routine_declarator>.ast
!! $<variable_declarator>.ast;
}
method multi_declarator:sym<multi>($/) { make $<declarator> ?? $<declarator>.ast !! $<routine_def>.ast }
method multi_declarator:sym<proto>($/) { make $<declarator> ?? $<declarator>.ast !! $<routine_def>.ast }
method multi_declarator:sym<null>($/) { make $<declarator>.ast }
method variable_declarator($/) {
my $past := $<variable>.ast;
my $sigil := $<variable><sigil>;
my $name := $past.name;
my $BLOCK := $*W.cur_lexpad();
if $name && $BLOCK.symbol($name) {
$/.CURSOR.panic("Redeclaration of symbol ", $name);
}
if $*SCOPE eq 'has' {
# Locate the type of meta-attribute we need.
unless pir::exists(%*HOW, $*PKGDECL ~ '-attr') {
$/.CURSOR.panic("$*PKGDECL packages do not support attributes");
}
# Set up arguments for meta-attribute instantiation.
my %lit_args;
my %obj_args;
%lit_args<name> := $name;
if $<typename> {
%obj_args<type> := $*W.find_sym([~$<typename>[0]]);
}
# Add it.
$*W.pkg_add_attribute($*PACKAGE, %*HOW{$*PKGDECL ~ '-attr'},
%lit_args, %obj_args);
$past := PAST::Stmts.new();
}
elsif $*SCOPE eq 'our' {
# Depending on if this was already considered our scoped,
# we may or may not have got a node in $var that's set up
# right already. We build it here just to be sure.
$name := ~$<variable>;
$past := lexical_package_lookup([$name], $/);
$past.viviself( vivitype($sigil) );
$BLOCK.symbol($name, :scope('package') );
}
else {
$BLOCK[0].push(PAST::Var.new(
:name($name), :scope('lexical'), :isdecl(1), :directaccess(1),
:lvalue(1), :viviself( vivitype($sigil) ),
:node($/)
));
$BLOCK.symbol($name, :scope('lexical') );
}
# Apply traits.
make $past;
if $<trait> {
for $<trait> { $_.ast()($/); }
}
}
method routine_declarator:sym<sub>($/) { make $<routine_def>.ast; }
method routine_declarator:sym<method>($/) { make $<method_def>.ast; }
method routine_def($/) {
# If it's just got * as a body, make a multi-dispatch enterer.
# Otherwise, need to build a sub.
my $past;
if $<onlystar> {
$past := only_star_block();
}
else {
$past := $<blockoid>.ast;
$past.blocktype('declaration');
if $*RETURN_USED {
$past.control('return_pir');
}
}
my $block := $past;
if $<deflongname> {
my $name := ~$<sigil>[0] ~ $<deflongname>[0].ast;
$past.name($name);
if $*SCOPE eq '' || $*SCOPE eq 'my' || $*SCOPE eq 'our' {
if $*MULTINESS eq 'multi' {
# Does the current block have a candidate holder in place?
if $*SCOPE eq 'our' { pir::die('our-scoped multis not yet implemented') }
my $cholder;
my %sym := $*W.cur_lexpad().symbol($name);
if %sym<cholder> {
$cholder := %sym<cholder>;
}
# Otherwise, no candidate holder, so add one.
else {
# Check we have a proto in scope.
if %sym<proto> {
# WTF, a proto is in this scope, but didn't set up a
# candidate holder?!
$/.CURSOR.panic('Internal Error: Current scope has a proto, but no candidate list holder was set up. (This should never happen.)');
}
my $found_proto;
for $*W.get_legacy_block_list() {
my %sym := $_.symbol($name);
if %sym<proto> || %sym<cholder> {
$found_proto := 1;
}
elsif %sym {
$/.CURSOR.panic("Cannot declare a multi when an only is already in scope.");
}
}
# If we didn't find a proto, error for now.
unless $found_proto {
$/.CURSOR.panic("Sorry, no proto sub in scope, and auto-generation of protos is not yet implemented.");
}
# Set up dispatch routine in this scope.
my $BLOCK := $*W.cur_lexpad();
$cholder := PAST::Op.new( :pasttype('list') );
my $dispatch_setup := PAST::Op.new(
:pirop('create_dispatch_and_add_candidates PPP'),
PAST::Var.new( :name($name), :scope('outer') ),
$cholder
);
$BLOCK[0].push(PAST::Var.new( :name($name), :isdecl(1), :directaccess(1),
:viviself($dispatch_setup), :scope('lexical') ) );
$BLOCK.symbol($name, :scope('lexical'), :cholder($cholder) );
}
# Add this candidate to the holder.
$cholder.push($past);
# Build a type signature object for the multi-dispatcher to use.
attach_multi_signature_to_parrot_sub($past);
}
elsif $*MULTINESS eq 'proto' {
# Create a candidate list holder for the dispatchees
# this proto will work over, and install them along
# with the proto.
if $*SCOPE eq 'our' { pir::die('our-scoped protos not yet implemented') }
my $cholder := PAST::Op.new( :pasttype('list') );
my $BLOCK := $*W.cur_lexpad();
$BLOCK[0].push(PAST::Var.new( :name($name), :isdecl(1), :directaccess(1),
:viviself($past), :scope('lexical') ) );
$BLOCK[0].push(PAST::Op.new(
:pirop('set_dispatchees 0PP'),
PAST::Var.new( :name($name) ),
$cholder
));
$BLOCK.symbol($name, :scope('lexical'), :proto(1), :cholder($cholder) );
# Need it to be a DispatcherSub.
$past.pirflags(':instanceof("DispatcherSub")');
}
else {
my $BLOCK := $*W.cur_lexpad();
$BLOCK[0].push(PAST::Var.new( :name($name), :isdecl(1), :directaccess(1),
:viviself($past), :scope('lexical') ) );
$BLOCK.symbol($name, :scope('lexical') );
if $*SCOPE eq 'our' {
# Need to install it at loadinit time but also re-bind
# it per invocation.
$*W.install_package_routine($*PACKAGE, $name, $past);
$BLOCK[0].push(PAST::Op.new(
:pasttype('bind_6model'),
lexical_package_lookup([$name], $/),
PAST::Var.new( :name($name), :scope('lexical') )
));
}
}
$past := PAST::Var.new( :name($name) );
}
else {
$/.CURSOR.panic("$*SCOPE scoped routines are not supported yet");
}
# Is it the MAIN sub?
if $name eq 'MAIN' && $*MULTINESS ne 'multi' {
$*MAIN_SUB := $block;
}
}
else {
if $*W.is_precompilation_mode() {
$*W.create_code($past, '<anon>', 0)
}
}
# Apply traits.
$past<block_past> := $block;
if $<trait> {
for $<trait> { $_.ast()($/); }
}
make $past;
}
method method_def($/) {
# If it's just got * as a body, make a multi-dispatch enterer.
# Otherwise, build method block PAST.
my $past;
if $<onlystar> {
$past := only_star_block();
}
else {
$past := $<blockoid>.ast;
$past.blocktype('declaration');
if $*RETURN_USED {
$past.control('return_pir');
}
}
# Always need an invocant.
unless $past<signature_has_invocant> {
$past[0].unshift(PAST::Var.new(
:name('self'), :scope('parameter'), :directaccess(1),
:multitype($*W.get_ref($*PACKAGE))
));
}
$past.symbol('self', :scope('lexical') );
# Install it where it should go (methods table / namespace).
if $<deflongname> {
# Set name.
my $name := ~$<private> ~ ~$<deflongname>[0].ast;
$past.name($name);
# Insert it into the method table.
my $meta_meth := $*MULTINESS eq 'multi' ?? 'add_multi_method' !! 'add_method';
my $is_dispatcher := $*MULTINESS eq 'proto';
my $code := $*W.create_code($past, $name, $is_dispatcher);
if $*MULTINESS eq 'multi' { attach_multi_signature($code, $past); }
$*W.pkg_add_method($*PACKAGE, $meta_meth, $name, $code);
# Install it in the package also if needed.
if $*SCOPE eq 'our' {
$*W.install_package_routine($*PACKAGE, $name, $past);
} else {
if $past.pirflags() {
$past.pirflags(~$past.pirflags() ~ ":anon");
} else {
$past.pirflags(":anon");
}
}
}
# Install AST node in match object, then apply traits.
make $past;
$past<block_past> := $past;
if $<trait> {
for $<trait> { $_.ast()($/); }
}
}
sub only_star_block() {
my $past := $*W.pop_lexpad();
$past.closure(1);
$past.push(PAST::Op.new(
:pirop('multi_dispatch_over_lexical_candidates P')
));
$past
}
sub attach_multi_signature($code_obj, $routine) {
my $types := nqp::list();
my $definednesses := nqp::list();
for @($routine[0]) {
if $_ ~~ PAST::Var && $_.scope eq 'parameter' {
$types.push($_.multitype ?? ($_.multitype())<compile_time_value> !! nqp::null() );
$definednesses.push($_<definedness> eq 'D' ?? 1 !!
$_<definedness> eq 'U' ?? 2 !! 0);
}
}
$*W.set_routine_signature($code_obj, $types, $definednesses);
}
sub attach_multi_signature_to_parrot_sub($routine) {
# Use set_sub_multisig op to set up a multi sig. Note that we stick
# it in the same slot Parrot multis use for their multi signature,
# this is just a bit more complex than what Parrot needs.
my $types := nqp::list();
my $definednesses := nqp::list();
for @($routine[0]) {
if $_ ~~ PAST::Var && $_.scope eq 'parameter' {
$types.push($_.multitype ?? ($_.multitype())<compile_time_value> !! nqp::null() );
$definednesses.push($_<definedness> eq 'D' ?? 1 !!
$_<definedness> eq 'U' ?? 2 !! 0);
}
}
$*W.set_routine_signature_on_parrot_sub($routine, $types, $definednesses);
}
method signature($/) {
my $BLOCK := $*W.cur_lexpad();
my $BLOCKINIT := $BLOCK[0];
if $<invocant> {
my $inv := $<invocant>[0].ast;
$BLOCKINIT.push($inv);
$BLOCKINIT.push(PAST::Var.new(
:name('self'), :scope('lexical'), :isdecl(1), :directaccess(1),
:viviself(PAST::Var.new( :scope('lexical'), :name($inv.name) ))
));
$BLOCK<signature_has_invocant> := 1
}
for $<parameter> { $BLOCKINIT.push($_.ast); }
}
method parameter($/) {
my $quant := $<quant>;
my $past;
if $<named_param> {
$past := $<named_param>.ast;
if $quant ne '!' {
$past.viviself( vivitype($<named_param><param_var><sigil>) );
}
}
else {
$past := $<param_var>.ast;
if $quant eq '*' {
$past.slurpy(1);
$past.named( $<param_var><sigil> eq '%' );
}
elsif $quant eq '?' {
$past.viviself( vivitype($<param_var><sigil>) );
}
}
if $<default_value> {
if $quant eq '*' {
$/.CURSOR.panic("Can't put default on slurpy parameter");
}
if $quant eq '!' {
$/.CURSOR.panic("Can't put default on required parameter");
}
$past.viviself( $<default_value>[0]<EXPR>.ast );
}
unless $past.viviself { $*W.cur_lexpad().arity( +$*W.cur_lexpad().arity + 1 ); }
# Note: this is hijacking multitype a bit here comapred to what it was
# originally used for (a textual name). But it's ignored
if $<typename> {
$past.multitype($<typename>[0].ast);
}
# Set definedness flag (XXX want a better way to do this).
if $<definedness> {
$past<definedness> := ~$<definedness>[0];
}
make $past;
}
method param_var($/) {
my $name := ~$/;
my $past := PAST::Var.new( :name($name), :scope('parameter'),
:isdecl(1), :directaccess(1), :node($/) );
$*W.cur_lexpad().symbol($name, :scope('lexical') );
make $past;
}
method named_param($/) {
my $past := $<param_var>.ast;
$past.named( ~$<param_var><name> );
make $past;
}
method typename($/) {
# Try to locate the symbol. We'll emit a lookup via the SC so
# the scope we emit code to do the symbol lookup in won't matter,
# and so we can complain about non-existent type names.
my @name := HLL::Compiler.parse_name(~$/);
my $found := 0;
try {
my $sym := $*W.find_sym(@name);
make $*W.get_ref($sym);
$found := 1;
}
unless $found {