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fpc/compiler/blockutl.pas
Jonas Maebe 2cea723a0d * only write the parts of the unit localsymtables that are actually needed: 
the defs and syms (recursively) referred by inline routines and by the WPO
    info
   o defs and syms are no longer added immediately to the module's deflist/
     symlist, even if they are created as "registered". Instead,
     "doregister=true" simply means "add it to the symbol table at the
     top of the symtable stack"
   o normally only when a sym/def is deref'ed, it gets added to the module
     symlist/deflist and defid/symid gets a (unique) value
   o in cases where we use(d) the defid to construct unique names within the
     current module, you now have to call call the tdef.new unique_id_str()
     method. If the def was not yet registered, we will reserve room for it
     in the deflist (to get a unique id), but the defid gets set to a
     negative value computed from its position in the deflist. Should it
     have to be written to the ppu file later on, the defid will be
     modified to the actual position in the deflist. For both values,
     new unique_id_str() will return the same result so that references
     to this def before and after actual registrations are the same (needed
     for the JVM backend, but also a good principle in general)

   Overall: don't directly use symid/defid anymore to get unique identifiers,
     but use tdef.new unique_id_str() instead (if necessary, a similar routine
     for tsym can be added)

   The result is the ppu file size gets reduced significantly after its big
   increase as a result of the high level typed constant builder (which creates
   a lot of defs). The result is even more efficient than before, as other
   unneeded defs/syms from the localsymtables don't get saved/restored anymore
   either.

git-svn-id: trunk@32153 -
2015-10-25 19:22:00 +00:00

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{
Copyright (c) 2014 by Jonas Maebe, Member of the Free Pascal
development team.
This unit implements helper routines for "blocks" support
(http://en.wikipedia.org/wiki/Blocks_(C_language_extension) )
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 of the License, 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, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
****************************************************************************
}
unit blockutl;
{$i fpcdefs.inc}
interface
uses
node,nld,ncnv,
symtype,symdef;
{ accepts a loadnode for a procdef
returns a node representing the converted code to implement this
conversion (this node is valid both for typed constant declarations and
in function bodies). The node is not reused }
function generate_block_for_procaddr(procloadnode: tloadnode): tnode;
{ for a procdef, return a recorddef representing a block literal for this
procdef
for a procvardef, return a basic recorddef representing a block literal
with enough info to call this procvardef }
function get_block_literal_type_for_proc(pd: tabstractprocdef): trecorddef;
implementation
uses
verbose,globtype,globals,cutils,constexp,
pass_1,pparautl,fmodule,
aasmdata,
nbas,ncon,nmem,nutils,
symbase,symconst,symtable,symsym,symcreat,objcutil,objcdef,defutil,
paramgr;
function get_block_literal_type_for_proc(pd: tabstractprocdef): trecorddef;
begin
if pd.typ=procvardef then
result:=trecorddef(search_named_unit_globaltype('BLOCKRTL','FPC_BLOCK_LITERAL_BASE',true).typedef)
else if pd.is_addressonly then
result:=trecorddef(search_named_unit_globaltype('BLOCKRTL','FPC_BLOCK_LITERAL_STATIC',true).typedef)
{ todo: nested functions and Objective-C methods }
else if not is_nested_pd(pd) and
not is_objcclass(tdef(pd.owner.defowner)) then
result:=trecorddef(search_named_unit_globaltype('BLOCKRTL','FPC_BLOCK_LITERAL_COMPLEX_PROCVAR',true).typedef)
else
internalerror(2014071304);
end;
function get_block_literal_isa(orgpd: tprocdef): tstaticvarsym;
var
srsym: tsym;
srsymtable: tsymtable;
name: tidstring;
begin
if orgpd.is_addressonly then
name:='_NSCONCRETEGLOBALBLOCK'
else
name:='_NSCONCRETESTACKBLOCK';
if not searchsym_in_named_module('BLOCKRTL',name,srsym,srsymtable) or
(srsym.typ<>staticvarsym) then
internalerror(2014071501);
result:=tstaticvarsym(srsym);
end;
function get_block_literal_flags(orgpd, invokepd: tprocdef): longint;
{ BlockLiteralFlags }
const
BLOCK_HAS_COPY_DISPOSE = 1 shl 25;
BLOCK_HAS_CXX_OBJ = 1 shl 26;
BLOCK_IS_GLOBAL = 1 shl 28;
BLOCK_USE_STRET = 1 shl 29;
BLOCK_HAS_SIGNATURE = 1 shl 30;
BLOCK_HAS_EXTENDED_LAYOUT = 1 shl 31;
begin
result:=0;
{ BLOCK_HAS_COPY_DISPOSE :
copy/dispose will be necessary once we support nested procedures, in
case they capture reference counted types, Objective-C class instances
or block-type variables
}
{ BLOCK_HAS_CXX_OBJ:
we don't support C++ (stack-based) class instances yet
}
{ BLOCK_IS_GLOBAL:
set in case the block does not capture any local state; used for
global functions and in theory also possible for nested functions that
do not access any variables from their parentfp context
}
if orgpd.is_addressonly then
result:=result or BLOCK_IS_GLOBAL;
{ BLOCK_USE_STRET:
set in case the invoke function returns its result via a hidden
parameter
}
if paramanager.ret_in_param(invokepd.returndef,orgpd) then
result:=result or BLOCK_USE_STRET;
{ BLOCK_HAS_SIGNATURE:
only if this bit is set, the above bit will actually be taken into
account (for backward compatibility). We need it so that our invoke
function isn't called as a variadic function, but on the downside this
requires Mac OS X 10.7 or later
}
result:=result or BLOCK_HAS_SIGNATURE;
{ BLOCK_HAS_EXTENDED_LAYOUT:
no documentation about what this means or what it's good for (clang
adds it for Objective-C 1 platforms in case garbage collection is
switched off, but then you also have to actually generate this layout)
}
end;
function get_block_literal_descriptor(invokepd: tprocdef; block_literal_size: tcgint): tstaticvarsym;
var
descriptordef: tdef;
descriptor: tstaticvarsym;
name: tsymstr;
srsym: tsym;
srsymtable: tsymtable;
begin
(*
FPC_Block_descriptor_simple = record
reserved: culong;
Block_size: culong;
{ signatures are only for the "ABI.2010.3.16" version, but that's all
we support because otherwise the callback has to be a C-style
variadic function, which we cannot (yet?) generate }
signature: pchar;
end;
*)
{ must be a valid Pascal identifier, because we will reference it when
constructing the block initialiser }
{ we don't have to include the moduleid in this mangledname, because
the invokepd is a local procedure in the current unit -> unique_id_str
by itself is unique }
name:='__FPC_BLOCK_DESCRIPTOR_SIMPLE_'+invokepd.unique_id_str;
{ already exists -> return }
if searchsym(name,srsym,srsymtable) then
begin
if srsym.typ<>staticvarsym then
internalerror(2014071402);
result:=tstaticvarsym(srsym);
exit;
end;
{ find the type of the descriptor structure }
descriptordef:=search_named_unit_globaltype('BLOCKRTL','FPC_BLOCK_DESCRIPTOR_SIMPLE',true).typedef;
{ create new static variable }
descriptor:=cstaticvarsym.create(name,vs_value,descriptordef,[]);
symtablestack.top.insert(descriptor);
include(descriptor.symoptions,sp_internal);
{ create typed constant for the descriptor }
str_parse_typedconst(current_asmdata.AsmLists[al_const],
'(reserved: 0; Block_size: '+tostr(block_literal_size)+
'; signature: '''+objcencodemethod(invokepd)+''');',descriptor);
result:=descriptor;
end;
{ creates a wrapper function for pd with the C calling convention and an
extra first parameter pointing to the block "self" pointer. This wrapper is
what will be assigned to the "invoke" field of the block }
function get_invoke_wrapper(orgpd: tprocdef; orgpv: tprocvardef): tprocdef;
var
wrappername: TIDString;
srsym: tsym;
srsymtable: tsymtable;
begin
{ the copy() is to ensure we don't overflow the maximum identifier length;
the combination of owner.moduleid and defid will make the name unique }
wrappername:='__FPC_BLOCK_INVOKE_'+upper(copy(orgpd.procsym.realname,1,60))+'_'+tostr(orgpd.owner.moduleid)+'_'+orgpd.unique_id_str;
{ already an invoke wrapper for this procsym -> reuse }
if searchsym(wrappername,srsym,srsymtable) then
begin
if (srsym.typ<>procsym) or
(tprocsym(srsym).procdeflist.count<>1) then
internalerror(2014071503);
result:=tprocdef(tprocsym(srsym).procdeflist[0]);
exit;
end;
{ bare copy, so that self etc are not inserted }
result:=tprocdef(orgpd.getcopyas(procdef,pc_bareproc));
{ will be called accoding to the ABI conventions }
result.proccalloption:=pocall_cdecl;
{ add po_is_block so that a block "self" pointer gets added (of the type
returned by get_block_literal_type_for_proc()) }
include(result.procoptions,po_is_block);
{ now insert self/vmt/funcret according to the newly set calling
convention }
insert_self_and_vmt_para(result);
insert_funcret_para(result);
finish_copied_procdef(result,wrappername,current_module.localsymtable,nil);
if orgpd.is_addressonly then
begin
result.synthetickind:=tsk_callthrough;
result.skpara:=orgpd;
end
else
begin
{ alias for the type to invoke the procvar, used in the symcreat
handling of tsk_block_invoke_procvar }
result.localst.insert(ctypesym.create('__FPC_BLOCK_INVOKE_PV_TYPE',orgpv,true));
result.synthetickind:=tsk_block_invoke_procvar;
end;
end;
{ compose a block literal for a static block (one without context) }
function get_global_proc_literal_sym(blockliteraldef: tdef; blockisasym: tstaticvarsym; blockflags: longint; invokepd: tprocdef; descriptor: tstaticvarsym): tstaticvarsym;
var
literalname: TIDString;
srsym: tsym;
srsymtable: tsymtable;
begin
literalname:='block_literal_for_'+invokepd.procsym.realname;
{ already exists -> return }
if searchsym(literalname,srsym,srsymtable) then
begin
if srsym.typ<>staticvarsym then
internalerror(2014071506);
result:=tstaticvarsym(srsym);
exit;
end;
{ create new block literal symbol }
result:=cstaticvarsym.create(
'$'+literalname,
vs_value,
blockliteraldef,[]);
include(result.symoptions,sp_internal);
symtablestack.top.insert(result);
{ initialise it }
str_parse_typedconst(current_asmdata.AsmLists[al_const],
'(base: (isa : @'+blockisasym.realname+
'; flags : '+tostr(blockflags)+
'; reserved : 0'+
'; invoke : @'+invokepd.procsym.realname+
'; descriptor: @'+descriptor.realname+
'));',
result);
end;
{ compose an on-stack block literal for a "procedure of object" }
function get_pascal_method_literal(blockliteraldef: tdef; blockisasym: tstaticvarsym; blockflags: longint; procvarnode: tnode; invokepd: tprocdef; orgpv: tprocvardef; descriptor: tstaticvarsym): tnode;
var
statement: tstatementnode;
literaltemp: ttempcreatenode;
begin
result:=internalstatements(statement);
{ create new block literal structure }
literaltemp:=ctempcreatenode.create(blockliteraldef,blockliteraldef.size,tt_persistent,false);
addstatement(statement,literaltemp);
{ temp.base.isa:=@blockisasym }
addstatement(statement,cassignmentnode.create(
genloadfield(genloadfield(ctemprefnode.create(literaltemp),'BASE'),'ISA'),
caddrnode.create(cloadnode.create(blockisasym,blockisasym.owner))));
{ temp.base.flags:=blockflags }
addstatement(statement,cassignmentnode.create(
genloadfield(genloadfield(ctemprefnode.create(literaltemp),'BASE'),'FLAGS'),
genintconstnode(blockflags)));
{ temp.base.reserved:=0 }
addstatement(statement,cassignmentnode.create(
genloadfield(genloadfield(ctemprefnode.create(literaltemp),'BASE'),'RESERVED'),
genintconstnode(0)));
{ temp.base.invoke:=tmethod(@invokepd) }
addstatement(statement,cassignmentnode.create(
genloadfield(genloadfield(ctemprefnode.create(literaltemp),'BASE'),'INVOKE'),
ctypeconvnode.create_proc_to_procvar(
cloadnode.create_procvar(invokepd.procsym,invokepd,invokepd.owner))));
{ temp.base.descriptor:=@descriptor }
addstatement(statement,cassignmentnode.create(
genloadfield(genloadfield(ctemprefnode.create(literaltemp),'BASE'),'DESCRIPTOR'),
caddrnode.create(cloadnode.create(descriptor,descriptor.owner))));
{ temp.pv:=tmethod(@orgpd) }
addstatement(statement,cassignmentnode.create(
ctypeconvnode.create_explicit(genloadfield(ctemprefnode.create(literaltemp),'PV'),orgpv),
procvarnode.getcopy));
{ and return the address of the temp }
addstatement(statement,caddrnode.create(ctemprefnode.create(literaltemp)));
{ typecheck this now, because the current source may be written in TP/
Delphi/MacPas mode and the above node tree has been constructed for
ObjFPC mode, which has been set by replace_scanner (in Delphi, the
assignment to invoke would be without the proc_to_procvar conversion) }
typecheckpass(result);
end;
function generate_block_for_procaddr(procloadnode: tloadnode): tnode;
var
procvarnode: tnode;
{ procvardef representing the original function we want to invoke }
orgpv: tprocvardef;
{ procdef of the original function we want to invoke }
orgpd,
{ procdef for the invoke-wrapper that we generated to call the original
function via a procvar }
invokepd: tprocdef;
blockliteraldef: tdef;
descriptor,
blockisasym,
blockliteralsym: tstaticvarsym;
blockflags: longint;
old_symtablestack: tsymtablestack;
sstate: tscannerstate;
begin
result:=nil;
{ supported? (should be caught earlier) }
if (procloadnode.resultdef.typ<>procdef) or
is_nested_pd(tprocdef(procloadnode.resultdef)) or
is_objcclass(tdef(procloadnode.resultdef.owner.defowner)) then
internalerror(2014071401);
{ add every symbol that we create here to the unit-level symbol table }
old_symtablestack:=symtablestack;
symtablestack:=old_symtablestack.getcopyuntil(current_module.localsymtable);
{ save scanner state }
replace_scanner('block literal creation',sstate);
{ def representing the original function }
orgpd:=tprocdef(procloadnode.resultdef);
{ def representing the corresponding procvar type }
procvarnode:=ctypeconvnode.create_proc_to_procvar(procloadnode.getcopy);
typecheckpass(procvarnode);
orgpv:=tprocvardef(procvarnode.resultdef);
{ get blockdef for this kind of procdef }
blockliteraldef:=get_block_literal_type_for_proc(orgpd);
{ get the invoke wrapper }
invokepd:=get_invoke_wrapper(orgpd,orgpv);
{ get the descriptor }
descriptor:=get_block_literal_descriptor(invokepd,blockliteraldef.size);
{ get the ISA pointer for the literal }
blockisasym:=get_block_literal_isa(orgpd);
{ get the flags for the block }
blockflags:=get_block_literal_flags(orgpd,invokepd);
{ global/simple procedure -> block literal is a typed constant }
if orgpd.is_addressonly then
begin
blockliteralsym:=get_global_proc_literal_sym(blockliteraldef,blockisasym,blockflags,invokepd,descriptor);
{ result: address of the block literal }
result:=caddrnode.create(cloadnode.create(blockliteralsym,blockliteralsym.owner));
end
else
begin
result:=get_pascal_method_literal(blockliteraldef,blockisasym,blockflags,procvarnode,invokepd,orgpv,descriptor)
end;
procvarnode.free;
{ restore scanner }
restore_scanner(sstate);
{ restore symtable stack }
symtablestack.free;
symtablestack:=old_symtablestack;
end;
end.
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