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07ebc51b6c
fpc/compiler/pgenutil.pas
Jonas Maebe 07ebc51b6c * always store generics token streams in little endian, so we don't have to 
keep a separate field for each tstoreddef that records whether the
    endianness needs to be swapped

git-svn-id: trunk@21914 -
2012-07-15 16:09:14 +00:00

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{
Copyright (c) 2011
Contains different functions that are used in the context of
parsing generics.
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 pgenutil;
{$i fpcdefs.inc}
interface
uses
{ common }
cclasses,
{ global }
globtype,
{ symtable }
symtype,symdef,symbase;
procedure generate_specialization(var tt:tdef;parse_class_parent:boolean;_prettyname:string;parsedtype:tdef;symname:string);
function parse_generic_parameters:TFPObjectList;
function parse_generic_specialization_types(genericdeflist:tfpobjectlist;out prettyname,specializename:ansistring;parsedtype:tdef):boolean;
procedure insert_generic_parameter_types(def:tstoreddef;genericdef:tstoreddef;genericlist:TFPObjectList);
procedure maybe_insert_generic_rename_symbol(const name:tidstring;genericlist:tfpobjectlist);
function generate_generic_name(const name:tidstring;specializename:ansistring):tidstring;
type
tspecializationstate = record
oldsymtablestack : tsymtablestack;
oldextendeddefs : TFPHashObjectList;
end;
procedure specialization_init(genericdef:tdef;var state:tspecializationstate);
procedure specialization_done(var state:tspecializationstate);
implementation
uses
{ common }
cutils,fpccrc,
{ global }
globals,tokens,verbose,
{ symtable }
symconst,symsym,symtable,
{ modules }
fmodule,
{ pass 1 }
htypechk,
node,nobj,nmem,
{ parser }
scanner,
pbase,pexpr,pdecsub,ptype;
procedure generate_specialization(var tt:tdef;parse_class_parent:boolean;_prettyname:string;parsedtype:tdef;symname:string);
var
st : TSymtable;
srsym : tsym;
pt2 : tnode;
found,
first,
err : boolean;
i,
gencount : longint;
crc : cardinal;
genericdef,def : tstoreddef;
generictype : ttypesym;
genericdeflist : TFPObjectList;
generictypelist : TFPObjectList;
prettyname,specializename : ansistring;
ufinalspecializename,
countstr,genname,ugenname,finalspecializename : string;
vmtbuilder : TVMTBuilder;
specializest : tsymtable;
item : tobject;
old_current_structdef : tabstractrecorddef;
old_current_genericdef,old_current_specializedef : tstoreddef;
tempst : tglobalsymtable;
old_block_type: tblock_type;
hashedid: thashedidstring;
state : tspecializationstate;
hmodule : tmodule;
oldcurrent_filepos : tfileposinfo;
begin
{ retrieve generic def that we are going to replace }
genericdef:=tstoreddef(tt);
tt:=nil;
{ either symname must be given or genericdef needs to be valid }
if (symname='') and
(not assigned(genericdef) or
not assigned(genericdef.typesym) or
(genericdef.typesym.typ<>typesym)) then
internalerror(2011042701);
{ Only parse the parameters for recovery or
for recording in genericbuf }
if parse_generic then
begin
first:=assigned(parsedtype);
if not first and not try_to_consume(_LT) then
consume(_LSHARPBRACKET);
gencount:=0;
repeat
if not first then
begin
pt2:=factor(false,true);
pt2.free;
end;
first:=false;
inc(gencount);
until not try_to_consume(_COMMA);
if not try_to_consume(_GT) then
consume(_RSHARPBRACKET);
{ we need to return a def that can later pass some checks like
whether it's an interface or not }
if not assigned(tt) or (tt.typ=undefineddef) then
begin
if (symname='') and (df_generic in genericdef.defoptions) then
{ this happens in non-Delphi modes }
tt:=genericdef
else
begin
{ find the corresponding generic symbol so that any checks
done on the returned def will be handled correctly }
str(gencount,countstr);
if symname='' then
genname:=ttypesym(genericdef.typesym).realname
else
genname:=symname;
genname:=genname+'$'+countstr;
ugenname:=upper(genname);
{ first check whether the found name is the same as that of
the current def or one of its (generic) surrounding defs;
this is necessary as the symbol of the generic can not yet
be used for lookup as it still contains a reference to an
errordef) }
def:=current_genericdef;
repeat
if def.typ in [objectdef,recorddef] then
if tabstractrecorddef(def).objname^=ugenname then
begin
tt:=def;
break;
end;
def:=tstoreddef(def.owner.defowner);
until not assigned(def) or not (df_generic in def.defoptions);
{ it's not part of the current object hierarchy, so search
for the symbol }
if not assigned(tt) then
begin
if not searchsym(ugenname,srsym,st) or
(srsym.typ<>typesym) then
begin
identifier_not_found(genname);
exit;
end;
tt:=ttypesym(srsym).typedef;
{ this happens in non-Delphi modes if we encounter a
specialization of the generic class or record we're
currently parsing }
if (tt.typ=errordef) and assigned(current_structdef) and
(current_structdef.objname^=ugenname) then
tt:=current_structdef;
end;
end;
end;
exit;
end;
if not assigned(parsedtype) and not try_to_consume(_LT) then
consume(_LSHARPBRACKET);
generictypelist:=TFPObjectList.create(false);
genericdeflist:=TFPObjectList.Create(false);
{ Parse type parameters }
err:=not parse_generic_specialization_types(genericdeflist,prettyname,specializename,parsedtype);
if err then
begin
try_to_consume(_RSHARPBRACKET);
exit;
end;
{ search a generic with the given count of params }
countstr:='';
str(genericdeflist.Count,countstr);
{ use the name of the symbol as procvars return a user friendly version
of the name }
if symname='' then
genname:=ttypesym(genericdef.typesym).realname
else
genname:=symname;
{ in case of non-Delphi mode the type name could already be a generic
def (but maybe the wrong one) }
if assigned(genericdef) and
([df_generic,df_specialization]*genericdef.defoptions<>[]) then
begin
{ remove the type count suffix from the generic's name }
for i:=Length(genname) downto 1 do
if genname[i]='$' then
begin
genname:=copy(genname,1,i-1);
break;
end;
{ in case of a specialization we've only reached the specialization
checksum yet }
if df_specialization in genericdef.defoptions then
for i:=length(genname) downto 1 do
if genname[i]='$' then
begin
genname:=copy(genname,1,i-1);
break;
end;
end;
genname:=genname+'$'+countstr;
ugenname:=upper(genname);
if assigned(genericdef) and (genericdef.owner.symtabletype in [objectsymtable,recordsymtable]) then
begin
if genericdef.owner.symtabletype = objectsymtable then
found:=searchsym_in_class(tobjectdef(genericdef.owner.defowner),tobjectdef(genericdef.owner.defowner),ugenname,srsym,st,false)
else
found:=searchsym_in_record(tabstractrecorddef(genericdef.owner.defowner),ugenname,srsym,st);
end
else
found:=searchsym(ugenname,srsym,st);
if not found or (srsym.typ<>typesym) then
begin
identifier_not_found(genname);
genericdeflist.Free;
generictypelist.Free;
exit;
end;
{ we've found the correct def }
genericdef:=tstoreddef(ttypesym(srsym).typedef);
{ build the new type's name }
finalspecializename:=generate_generic_name(genname,specializename);
ufinalspecializename:=upper(finalspecializename);
prettyname:=genericdef.typesym.prettyname+'<'+prettyname+'>';
{ select the symtable containing the params }
case genericdef.typ of
procdef:
st:=genericdef.GetSymtable(gs_para);
objectdef,
recorddef:
st:=genericdef.GetSymtable(gs_record);
arraydef:
st:=tarraydef(genericdef).symtable;
procvardef:
st:=genericdef.GetSymtable(gs_para);
else
internalerror(200511182);
end;
{ build the list containing the types for the generic params }
gencount:=0;
for i:=0 to st.SymList.Count-1 do
begin
srsym:=tsym(st.SymList[i]);
if sp_generic_para in srsym.symoptions then
begin
if gencount=genericdeflist.Count then
internalerror(2011042702);
generictype:=ttypesym.create(srsym.realname,tdef(genericdeflist[gencount]));
generictypelist.add(generictype);
inc(gencount);
end;
end;
{ Special case if we are referencing the current defined object }
if assigned(current_structdef) and
(current_structdef.objname^=ufinalspecializename) then
tt:=current_structdef;
{ decide in which symtable to put the specialization }
if current_module.is_unit and current_module.in_interface then
specializest:=current_module.globalsymtable
else
specializest:=current_module.localsymtable;
{ Can we reuse an already specialized type? }
{ for this first check whether we are currently specializing a nested
type of the current (main) specialization (this is necessary, because
during that time the symbol of the main specialization will still
contain a reference to an errordef) }
if not assigned(tt) and assigned(current_specializedef) then
begin
def:=current_specializedef;
repeat
if def.typ in [objectdef,recorddef] then
if tabstractrecorddef(def).objname^=ufinalspecializename then begin
tt:=def;
break;
end;
def:=tstoreddef(def.owner.defowner);
until not assigned(def) or not (df_specialization in def.defoptions);
end;
{ now check whether there is a specialization somewhere else }
if not assigned(tt) then
begin
hashedid.id:=ufinalspecializename;
srsym:=tsym(specializest.findwithhash(hashedid));
if assigned(srsym) then
begin
if srsym.typ<>typesym then
internalerror(200710171);
tt:=ttypesym(srsym).typedef;
end
else
{ the generic could have been specialized in the globalsymtable
already, so search there as well }
if (specializest<>current_module.globalsymtable) and assigned(current_module.globalsymtable) then
begin
srsym:=tsym(current_module.globalsymtable.findwithhash(hashedid));
if assigned(srsym) then
begin
if srsym.typ<>typesym then
internalerror(2011121101);
tt:=ttypesym(srsym).typedef;
end;
end;
end;
if not assigned(tt) then
begin
specialization_init(genericdef,state);
{ push a temporary global symtable so that the specialization is
added to the correct symtable; this symtable does not contain
any other symbols, so that the type resolution can not be
influenced by symbols in the current unit }
tempst:=tspecializesymtable.create(current_module.modulename^,current_module.moduleid);
symtablestack.push(tempst);
{ Reparse the original type definition }
if not err then
begin
if parse_class_parent then
begin
old_current_structdef:=current_structdef;
old_current_genericdef:=current_genericdef;
old_current_specializedef:=current_specializedef;
if genericdef.owner.symtabletype in [recordsymtable,objectsymtable] then
current_structdef:=tabstractrecorddef(genericdef.owner.defowner)
else
current_structdef:=nil;
current_genericdef:=nil;
current_specializedef:=nil;
end;
{ First a new typesym so we can reuse this specialization and
references to this specialization can be handled }
srsym:=ttypesym.create(finalspecializename,generrordef);
specializest.insert(srsym);
{ specializations are declarations as such it is the wisest to
declare set the blocktype to "type"; otherwise we'll
experience unexpected side effects like the addition of
classrefdefs if we have a generic that's derived from another
generic }
old_block_type:=block_type;
block_type:=bt_type;
if not assigned(genericdef.generictokenbuf) then
internalerror(200511171);
hmodule:=find_module_from_symtable(genericdef.owner);
if hmodule=nil then
internalerror(2012051202);
oldcurrent_filepos:=current_filepos;
{ use the index the module got from the current compilation process }
current_filepos.moduleindex:=hmodule.unit_index;
current_tokenpos:=current_filepos;
current_scanner.startreplaytokens(genericdef.generictokenbuf);
read_named_type(tt,srsym,genericdef,generictypelist,false);
current_filepos:=oldcurrent_filepos;
ttypesym(srsym).typedef:=tt;
tt.typesym:=srsym;
if _prettyname<>'' then
ttypesym(tt.typesym).fprettyname:=_prettyname
else
ttypesym(tt.typesym).fprettyname:=prettyname;
{ Note regarding hint directives:
There is no need to remove the flags for them from the
specialized generic symbol, because hint directives that
follow the specialization are handled by the code in
pdecl.types_dec and added to the type symbol.
E.g.: TFoo = TBar<Blubb> deprecated;
Here the symbol TBar$1$Blubb will contain the
"sp_hint_deprecated" flag while the TFoo symbol won't.}
case tt.typ of
{ Build VMT indexes for classes and read hint directives }
objectdef:
begin
try_consume_hintdirective(srsym.symoptions,srsym.deprecatedmsg);
consume(_SEMICOLON);
vmtbuilder:=TVMTBuilder.Create(tobjectdef(tt));
vmtbuilder.generate_vmt;
vmtbuilder.free;
end;
{ handle params, calling convention, etc }
procvardef:
begin
if not check_proc_directive(true) then
begin
try_consume_hintdirective(ttypesym(srsym).symoptions,ttypesym(srsym).deprecatedmsg);
consume(_SEMICOLON);
end;
parse_var_proc_directives(ttypesym(srsym));
handle_calling_convention(tprocvardef(tt));
if try_consume_hintdirective(ttypesym(srsym).symoptions,ttypesym(srsym).deprecatedmsg) then
consume(_SEMICOLON);
end;
else
{ parse hint directives for records and arrays }
begin
try_consume_hintdirective(srsym.symoptions,srsym.deprecatedmsg);
consume(_SEMICOLON);
end;
end;
{ Consume the semicolon if it is also recorded }
try_to_consume(_SEMICOLON);
block_type:=old_block_type;
if parse_class_parent then
begin
current_structdef:=old_current_structdef;
current_genericdef:=old_current_genericdef;
current_specializedef:=old_current_specializedef;
end;
end;
{ extract all created symbols and defs from the temporary symtable
and add them to the specializest }
for i:=tempst.SymList.Count-1 downto 0 do
begin
item:=tempst.SymList.Items[i];
{ using changeowner the symbol is automatically added to the
new symtable }
tsym(item).ChangeOwner(specializest);
end;
for i:=tempst.DefList.Count-1 downto 0 do
begin
item:=tempst.DefList.Items[i];
{ using changeowner the def is automatically added to the new
symtable }
tdef(item).ChangeOwner(specializest);
end;
tempst.free;
specialization_done(state);
end;
if not (token in [_GT, _RSHARPBRACKET]) then
begin
consume(_RSHARPBRACKET);
exit;
end
else
consume(token);
genericdeflist.free;
generictypelist.free;
if assigned(genericdef) then
begin
{ check the hints of the found generic symbol }
srsym:=genericdef.typesym;
check_hints(srsym,srsym.symoptions,srsym.deprecatedmsg);
end;
end;
function parse_generic_parameters:TFPObjectList;
var
generictype : ttypesym;
begin
result:=TFPObjectList.Create(false);
repeat
if token=_ID then
begin
generictype:=ttypesym.create(orgpattern,cundefinedtype);
include(generictype.symoptions,sp_generic_para);
result.add(generictype);
end;
consume(_ID);
until not try_to_consume(_COMMA) ;
end;
function parse_generic_specialization_types(genericdeflist:tfpobjectlist;out prettyname,specializename:ansistring;parsedtype:tdef):boolean;
var
old_block_type : tblock_type;
first : boolean;
typeparam : tnode;
begin
result:=true;
if genericdeflist=nil then
internalerror(2012061401);
{ set the block type to type, so that the parsed type are returned as
ttypenode (e.g. classes are in non type-compatible blocks returned as
tloadvmtaddrnode) }
old_block_type:=block_type;
{ if parsedtype is set, then the first type identifer was already parsed
(happens in inline specializations) and thus we only need to parse
the remaining types and do as if the first one was already given }
first:=not assigned(parsedtype);
if assigned(parsedtype) then
begin
genericdeflist.Add(parsedtype);
specializename:='$'+parsedtype.typename;
prettyname:=parsedtype.typesym.prettyname;
end
else
begin
specializename:='';
prettyname:='';
end;
while not (token in [_GT,_RSHARPBRACKET]) do
begin
{ "first" is set to false at the end of the loop! }
if not first then
consume(_COMMA);
block_type:=bt_type;
typeparam:=factor(false,true);
if typeparam.nodetype=typen then
begin
if df_generic in typeparam.resultdef.defoptions then
Message(parser_e_no_generics_as_params);
genericdeflist.Add(typeparam.resultdef);
if not assigned(typeparam.resultdef.typesym) then
message(type_e_generics_cannot_reference_itself)
else
begin
specializename:=specializename+'$'+typeparam.resultdef.typename;
if first then
prettyname:=prettyname+typeparam.resultdef.typesym.prettyname
else
prettyname:=prettyname+','+typeparam.resultdef.typesym.prettyname;
end;
end
else
begin
Message(type_e_type_id_expected);
result:=false;
end;
typeparam.free;
first:=false;
end;
block_type:=old_block_type;
end;
procedure insert_generic_parameter_types(def:tstoreddef;genericdef:tstoreddef;genericlist:TFPObjectList);
var
i: longint;
generictype: ttypesym;
st: tsymtable;
begin
def.genericdef:=genericdef;
if not assigned(genericlist) then
exit;
case def.typ of
recorddef,objectdef: st:=tabstractrecorddef(def).symtable;
arraydef: st:=tarraydef(def).symtable;
procvardef,procdef: st:=tabstractprocdef(def).parast;
else
internalerror(201101020);
end;
for i:=0 to genericlist.count-1 do
begin
generictype:=ttypesym(genericlist[i]);
if generictype.typedef.typ=undefineddef then
include(def.defoptions,df_generic)
else
include(def.defoptions,df_specialization);
st.insert(generictype);
end;
end;
procedure maybe_insert_generic_rename_symbol(const name:tidstring;genericlist:tfpobjectlist);
var
gensym : ttypesym;
begin
{ for generics in non-Delphi modes we insert a private type symbol
that has the same base name as the currently parsed generic and
that references this defs }
if not (m_delphi in current_settings.modeswitches) and
(
(
parse_generic and
assigned(genericlist) and
(genericlist.count>0)
) or
(
assigned(current_specializedef) and
assigned(current_structdef.genericdef) and
(current_structdef.genericdef.typ in [objectdef,recorddef]) and
(pos('$',name)>0)
)
) then
begin
{ we need to pass nil as def here, because the constructor wants
to set the typesym of the def which is not what we want }
gensym:=ttypesym.create(copy(name,1,pos('$',name)-1),nil);
gensym.typedef:=current_structdef;
include(gensym.symoptions,sp_internal);
{ the symbol should be only visible to the generic class
itself }
gensym.visibility:=vis_strictprivate;
symtablestack.top.insert(gensym);
end;
end;
function generate_generic_name(const name:tidstring;specializename:ansistring):tidstring;
var
crc : cardinal;
begin
if specializename='' then
internalerror(2012061901);
{ build the new type's name }
crc:=UpdateCrc32(0,specializename[1],length(specializename));
result:=name+'$crc'+hexstr(crc,8);
end;
procedure specialization_init(genericdef:tdef;var state: tspecializationstate);
var
pu : tused_unit;
hmodule : tmodule;
unitsyms : TFPHashObjectList;
sym : tsym;
i : Integer;
begin
if not assigned(genericdef) then
internalerror(200705151);
{ Setup symtablestack at definition time
to get types right, however this is not perfect, we should probably record
the resolved symbols }
state.oldsymtablestack:=symtablestack;
state.oldextendeddefs:=current_module.extendeddefs;
current_module.extendeddefs:=TFPHashObjectList.create(true);
symtablestack:=tdefawaresymtablestack.create;
hmodule:=find_module_from_symtable(genericdef.owner);
if hmodule=nil then
internalerror(200705152);
{ collect all unit syms in the generic's unit as we need to establish
their unitsym.module link again so that unit identifiers can be used }
unitsyms:=tfphashobjectlist.create(false);
if (hmodule<>current_module) and assigned(hmodule.globalsymtable) then
for i:=0 to hmodule.globalsymtable.symlist.count-1 do
begin
sym:=tsym(hmodule.globalsymtable.symlist[i]);
if sym.typ=unitsym then
unitsyms.add(upper(sym.realname),sym);
end;
{ add all units if we are specializing inside the current unit (as the
generic could have been declared in the implementation part), but load
only interface units, if we are in a different unit as then the generic
needs to be in the interface section }
pu:=tused_unit(hmodule.used_units.first);
while assigned(pu) do
begin
if (hmodule<>current_module) and not pu.in_interface then
begin
pu:=tused_unit(pu.next);
continue;
end;
if not assigned(pu.u.globalsymtable) then
internalerror(200705153);
symtablestack.push(pu.u.globalsymtable);
sym:=tsym(unitsyms.find(pu.u.modulename^));
if assigned(sym) and not assigned(tunitsym(sym).module) then
tunitsym(sym).module:=pu.u;
pu:=tused_unit(pu.next);
end;
unitsyms.free;
if assigned(hmodule.globalsymtable) then
symtablestack.push(hmodule.globalsymtable);
{ push the localsymtable if needed }
if (hmodule<>current_module) or not current_module.in_interface then
symtablestack.push(hmodule.localsymtable);
end;
procedure specialization_done(var state: tspecializationstate);
begin
{ Restore symtablestack }
current_module.extendeddefs.free;
current_module.extendeddefs:=state.oldextendeddefs;
symtablestack.free;
symtablestack:=state.oldsymtablestack;
{ clear the state record to be on the safe side }
fillchar(state, sizeof(state), 0);
end;
end.
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