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594f84dc2c
fpc/compiler/symconst.pas
svenbarth 594f84dc2c Merge branch 'unique-syms' 
Conflicts:
	compiler/pdecl.pas
	compiler/pexpr.pas
	compiler/pgenutil.pas
	compiler/ptype.pas

The original log messages as git was a bit forgetting here :( (newest at the top):

commit 7ef252de8023494ee6d39910e289f9e31658d47b
Author: Sven Barth <pascaldragon@minerva>
Date:   Mon Nov 21 17:13:36 2011 +0100

    Fix the compilation of inline specializations of which the generic is derived from another generic.
    
    pgenutil.pas, generate_specialization:
    * Set the "block_type" to "bt_type" when parsing the type parameters, so that the nodes are returned as "ttypenode" instead of e.g. "tloadvmtaddrnode" in case of classes outside of type sections.
    * Set the "block_type" to "bt_type" before calling "read_name_type", so that no unexpected sideeffects happen, because types like classes normally only are declared inside type sections (e.g. for the case a generic class is derived from another generic class a classrefdef for the specialized parent class will be created inside the derived specialized class if the block type is not a type one).

commit 1041a8f7a3a41f4fdf2975ce40055c698281ce71
Author: Sven Barth <pascaldragon@minerva>
Date:   Fri Nov 18 19:03:50 2011 +0100

    Improve inline specializations a bit, so now expressions like "TSomeGeneric<TSomeType>.SomeClassProc OP SomeNonGeneric" is possible. Using another class function of a generic as the right side is not yet working (that still needs some thinking).
    
    To achive this the generalization code must basically continue directly after the "factor" call, so that the operator and the right side are correctly parsed when walking up the call stack. This is done by jumping from the end of the specialization code in the "<"-case to the start of "sub_expr". The freshly generated node (in the above example a callnode) will be passed down the callstack through a new parameter "factornode". If that is set (currently only in the case of a specialization on the left side) "factor" won't be called and the right side will be parsed with the "factornode" as the left side. If it is not set (which is the case for all other calls to "sub_expr" in the unit) then the usual call to "factor" will be done and the result will be used as the left side.

commit a01ccd265f8d6cc5a2f3e88e23afbcd3d5960afb
Author: Sven Barth <pascaldragon@minerva>
Date:   Fri Nov 18 18:37:04 2011 +0100

    Fix compilation of ppudump.
    
    symconst.pas:
    * Remove sto_has_generic, which was the last remainer of my "overloaded type symbols" approach.
    * Remove df_methods_specialized, as it isn't needed anymore with the recent "temporary symtable" solution.
    
    psub.pas, specialize_objectdefs, process_abstractrecorddef:
    Remove the checks for/inclusion of df_methods_specialized.
    
    utils/ppudump.pp:
    Add "sp_generic_dummy" to the symbol options.

commit d16deac060e65d4b53e8fe9c27fe7e1f6d00a416
Author: Sven Barth <pascaldragon@minerva>
Date:   Wed Nov 16 16:34:51 2011 +0100

    Fix compilation of "gset.pp" from fcl-stl.
    
    nld.pas:
    Extend ttypenode by a reference to the type symbol. Normally this is simply the typesym of the given def, but for specializations in type sections of generics this is not the case, because generate_specialization will return a reference to the generic definition and not the new one (thus the symbol will be wrong).
    
    ppu.pas:
    Increase PPU version because of the extension of ttypenode.
    
    pexpr.pas:
    * handle_factor_typenode: Extend the function by a "sym" parameter which will normally be "nil". In that case it is set to the def's typesym. The "typesym" field of the created type node is then set to this sym.
    * For now pass nearly always "nil" for the above mentioned sym except inside factor_read_id when we've encountered a typesym.
    
    ptype.pas, read_named_type, expr_type:
    Exchange the "is_owned_by" check with a "sym_is_owned_by" check so that we can correctly detect that we are using a specialized type declaration inside a generic (once nested generic are allowed this condition needs to be checked).

commit 23668d2fc9070afc26b4288ed0db9a8eaf6f40e6
Author: Sven Barth <pascaldragon@minerva>
Date:   Wed Nov 16 07:51:12 2011 +0100

    psub.pas:
    * tcgprocinfo.parse_body: Methods of generic classes need to set "parse_generic" as well, so that variables for "stacked generics" (generic array => generic record) inside the method body are handled correctly.
    * specialize_objectdefs: Don't try to generate method bodies for abstract methods.
    
    pdecvar.pas, read_property_dec:
    Allow specializations for the return types of properties (should they be allowed for index types as well?).
    
    symtable.pas:
    Add a new class "tspecializesymtable" which is basically a globalsymtable but is always assuming to be the current unit. This symtable is used in "generate_specializations" (see below) and is needed to allow visibilty checks for "private", etc. to succeed.
    
    pgenutil.pas, generate_specializations:
    Instead of hackily pushing a symtable that may contain conflicting symbols onto the symtable stack for the specialization, a temporary global symtable using the above mentioned "tspecializesymtable" is created and pushed. After the specialization is done all symbols and defs that were added to the temporary symtable are moved to their final symtable (either the global- or localsymtable of the unit, depending on the current position of compilation). This way symbols are correctly added to a top level symtable, but without potential side effects like resolving the wrong symbol.

git-svn-id: branches/svenbarth/generics@19671 -
2011-11-23 17:25:09 +00:00

664 lines
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{
Copyright (c) 1998-2002 by Florian Klaempfl, Pierre Muller
Symbol table constants
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 symconst;
{$i fpcdefs.inc}
interface
uses
globtype;
const
def_alignment = 4;
C_alignment = -1;
bit_alignment = -2;
mac68k_alignment = -3;
{ if you change one of the following contants, }
{ you have also to change the typinfo unit}
{ and the rtl/i386,template/rttip.inc files }
tkUnknown = 0;
tkInteger = 1;
tkChar = 2;
tkEnumeration = 3;
tkFloat = 4;
tkSet = 5;
tkMethod = 6;
tkSString = 7;
tkString = tkSString;
tkLString = 8;
tkAString = 9;
tkWString = 10;
tkVariant = 11;
tkArray = 12;
tkRecord = 13;
tkInterface= 14;
tkClass = 15;
tkObject = 16;
tkWChar = 17;
tkBool = 18;
tkInt64 = 19;
tkQWord = 20;
tkDynArray = 21;
tkInterfaceCorba = 22;
tkProcVar = 23;
tkUString = 24;
tkUChar = 25;
tkHelper = 26;
tkFile = 27;
otSByte = 0;
otUByte = 1;
otSWord = 2;
otUWord = 3;
otSLong = 4;
otULong = 5;
otSLongLong = 6;
otULongLong = 7;
ftSingle = 0;
ftDouble = 1;
ftExtended = 2;
ftComp = 3;
ftCurr = 4;
ftFloat128 = 5;
mkProcedure = 0;
mkFunction = 1;
mkConstructor = 2;
mkDestructor = 3;
mkClassProcedure = 4;
mkClassFunction = 5;
mkClassConstructor = 6;
mkClassDestructor = 7;
mkOperatorOverload = 8;
// delphi has the next too:
//mkSafeProcedure = 9;
//mkSafeFunction = 10;
pfvar = 1;
pfConst = 2;
pfArray = 4;
pfAddress = 8;
pfReference= 16;
pfOut = 32;
pfConstRef = 64;
unknown_level = 0;
main_program_level = 1;
normal_function_level = 2;
{ implicit parameter positions, normal parameters start at 10
and will increase with 10 for each parameter. The high parameters
will be inserted with n+1 }
paranr_parentfp = 1;
paranr_parentfp_delphi_cc_leftright = 1;
paranr_self = 2;
paranr_result = 3;
paranr_vmt = 4;
{ the implicit parameters for Objective-C methods need to come
after the hidden result parameter }
paranr_objc_self = 4;
paranr_objc_cmd = 5;
{ Required to support variations of syscalls on MorphOS }
paranr_syscall_basesysv = 9;
paranr_syscall_sysvbase = high(word)-5;
paranr_syscall_r12base = high(word)-4;
paranr_syscall_legacy = high(word)-3;
paranr_result_leftright = high(word)-2;
paranr_parentfp_delphi_cc = high(word)-1;
{ prefix for names of class helper procsyms added to regular symtables }
class_helper_prefix = 'CH$';
type
{ keep this in sync with TIntfFlag in rtl/objpas/typinfo.pp }
TCompilerIntfFlag = (ifHasGuid,ifDispInterface,ifDispatch,ifHasStrGUID);
{ Deref entry options }
tdereftype = (deref_nil,
deref_unit,
deref_symid,
deref_defid
);
{ symbol visibility }
tvisibility=(
vis_hidden,
vis_strictprivate,
vis_private,
vis_strictprotected,
vis_protected,
vis_public,
vis_published
);
{ symbol options }
tsymoption=(sp_none,
sp_static, { static symbol in class/object/record }
sp_hint_deprecated,
sp_hint_platform,
sp_hint_library,
sp_hint_unimplemented,
sp_has_overloaded,
sp_internal, { internal symbol, not reported as unused }
sp_implicitrename,
sp_hint_experimental,
sp_generic_para,
sp_has_deprecated_msg,
sp_generic_dummy { this is used for symbols that are generated when a
generic is encountered to ease inline
specializations, etc; those symbols can be
"overridden" with a completely different symbol }
);
tsymoptions=set of tsymoption;
{ flags for a definition }
tdefoption=(df_none,
{ type is unique, i.e. declared with type = type <tdef>; }
df_unique,
{ type is a generic }
df_generic,
{ type is a specialization of a generic type }
df_specialization,
{ def has been copied from another def so symtable is not owned }
df_copied_def,
{ this flag is set when the methods for a spezialization where already
generated; this is for example needed in case of the enumerator in the
generic lists of fgl.pp: the enumerator is specialized as part of the
surrounding class and if the class and the enumerator are used in the
same unit the methods of the enumerator are generated twice, once as part
of the class and once as part of the temporary variable that holds the
enumerator }
df_methods_specialized
);
tdefoptions=set of tdefoption;
tdefstate=(ds_none,
ds_vmt_written,
ds_rtti_table_used,
ds_init_table_used,
ds_rtti_table_written,
ds_init_table_written,
ds_dwarf_dbg_info_used,
ds_dwarf_dbg_info_written
);
tdefstates=set of tdefstate;
{ tsymlist entry types }
tsltype = (sl_none,
sl_load,
sl_call,
sl_subscript,
sl_vec,
sl_typeconv,
sl_absolutetype
);
{ base types for orddef }
tordtype = (
uvoid,
u8bit,u16bit,u32bit,u64bit,
s8bit,s16bit,s32bit,s64bit,
pasbool8,pasbool16,pasbool32,pasbool64,
bool8bit,bool16bit,bool32bit,bool64bit,
uchar,uwidechar,scurrency
);
{ string types }
tstringtype = (
st_shortstring,
st_longstring,
st_ansistring,
st_widestring,
st_unicodestring
);
tvarianttype = (
vt_normalvariant,vt_olevariant
);
tcallercallee = (callnoside,callerside,calleeside,callbothsides);
{ basic type for tprocdef and tprocvardef }
tproctypeoption=(potype_none,
potype_proginit, { Program initialization }
potype_unitinit, { unit initialization }
potype_unitfinalize, { unit finalization }
potype_constructor, { Procedure is a constructor }
potype_destructor, { Procedure is a destructor }
potype_operator, { Procedure defines an operator }
potype_procedure,
potype_function,
potype_class_constructor, { class constructor }
potype_class_destructor, { class destructor }
potype_propgetter, { Dispinterface property accessors }
potype_propsetter
);
tproctypeoptions=set of tproctypeoption;
{ other options for tprocdef and tprocvardef }
tprocoption=(po_none,
po_classmethod, { class method }
po_virtualmethod, { Procedure is a virtual method }
po_abstractmethod, { Procedure is an abstract method }
po_finalmethod, { Procedure is a final method }
po_staticmethod, { static method }
po_overridingmethod, { method with override directive }
po_methodpointer, { method pointer, only in procvardef, also used for 'with object do' }
po_interrupt, { Procedure is an interrupt handler }
po_iocheck, { IO checking should be done after a call to the procedure }
po_assembler, { Procedure is written in assembler }
po_msgstr, { method for string message handling }
po_msgint, { method for int message handling }
po_exports, { Procedure has export directive (needed for OS/2) }
po_external, { Procedure is external (in other object or lib)}
po_overload, { procedure is declared with overload directive }
po_varargs, { printf like arguments }
po_internconst, { procedure has constant evaluator intern }
{ flag that only the address of a method is returned and not a full methodpointer }
po_addressonly,
{ procedure is exported }
po_public,
{ calling convention is specified explicitly }
po_hascallingconvention,
{ reintroduce flag }
po_reintroduce,
{ location of parameters is given explicitly as it is necessary for some syscall
conventions like that one of MorphOS }
po_explicitparaloc,
{ no stackframe will be generated, used by lowlevel assembler like get_frame }
po_nostackframe,
po_has_mangledname,
po_has_public_name,
po_forward,
po_global,
po_has_inlininginfo,
{ The different kind of syscalls on MorphOS }
po_syscall_legacy,
po_syscall_sysv,
po_syscall_basesysv,
po_syscall_sysvbase,
po_syscall_r12base,
{ Procedure can be inlined }
po_inline,
{ Procedure is used for internal compiler calls }
po_compilerproc,
{ importing }
po_has_importdll,
po_has_importname,
po_kylixlocal,
po_dispid,
{ weakly linked (i.e., may or may not exist at run time) }
po_weakexternal,
{ Objective-C method }
po_objc,
{ enumerator support }
po_enumerator_movenext,
{ optional Objective-C protocol method }
po_optional,
{ nested procedure that uses Delphi-style calling convention for passing
the frame pointer (pushed on the stack, always the last parameter,
removed by the caller). Required for nested procvar compatibility,
because such procvars can hold both regular and nested procedures
(when calling a regular procedure using the above convention, it will
simply not see the frame pointer parameter, and since the caller cleans
up the stack will also remain balanced) }
po_delphi_nested_cc
);
tprocoptions=set of tprocoption;
{ options for objects and classes }
tobjecttyp = (odt_none,
odt_class,
odt_object,
odt_interfacecom,
odt_interfacecom_property,
odt_interfacecom_function,
odt_interfacecorba,
odt_cppclass,
odt_dispinterface,
odt_objcclass,
odt_objcprotocol,
odt_objccategory, { note that these are changed into odt_class afterwards }
odt_helper
);
{ defines the type of the extended "structure"; only used for parsing }
thelpertype=(ht_none,
ht_class,
ht_record
);
{ Variations in interfaces implementation }
{ Beware, this data is duplicated in the compiler and rtl. }
{ Do not change the order of the fields. }
tinterfaceentrytype = (etStandard,
etVirtualMethodResult,
etStaticMethodResult,
etFieldValue,
etVirtualMethodClass,
etStaticMethodClass,
etFieldValueClass
);
{ options for objects and classes }
tobjectoption=(oo_none,
oo_is_forward, { the class is only a forward declared yet }
oo_is_abstract, { the class is abstract - only descendants can be used }
oo_is_sealed, { the class is sealed - can't have descendants }
oo_has_virtual, { the object/class has virtual methods }
oo_has_private,
oo_has_protected,
oo_has_strictprivate,
oo_has_strictprotected,
oo_has_constructor, { the object/class has a constructor }
oo_has_destructor, { the object/class has a destructor }
oo_has_vmt, { the object/class has a vmt }
oo_has_msgstr,
oo_has_msgint,
oo_can_have_published,{ the class has rtti, i.e. you can publish properties }
oo_has_default_property,
oo_has_valid_guid,
oo_has_enumerator_movenext,
oo_has_enumerator_current,
oo_is_external, { the class is externally implemented (objcclass, cppclass) }
oo_is_formal, { the class is only formally defined in this module (x = objcclass; external [name 'x'];) }
oo_is_classhelper, { objcclasses that represent categories, and Delpi-style class helpers, are marked like this }
oo_has_class_constructor, { the object/class has a class constructor }
oo_has_class_destructor { the object/class has a class destructor }
);
tobjectoptions=set of tobjectoption;
tarraydefoption=(ado_none,
ado_IsConvertedPointer,
ado_IsDynamicArray,
ado_IsVariant,
ado_IsConstructor,
ado_IsArrayOfConst,
ado_IsConstString,
ado_IsBitPacked
);
tarraydefoptions=set of tarraydefoption;
{ options for properties }
tpropertyoption=(ppo_none,
ppo_indexed,
ppo_defaultproperty,
ppo_stored,
ppo_hasparameters,
ppo_implements,
ppo_enumerator_current,
ppo_dispid_read, { no longer used }
ppo_dispid_write { no longer used }
);
tpropertyoptions=set of tpropertyoption;
{ options for variables }
tvaroption=(vo_none,
vo_is_external,
vo_is_dll_var,
vo_is_thread_var,
vo_has_local_copy,
vo_is_const, { variable is declared as const (parameter) and can't be written to }
vo_is_public,
vo_is_high_para,
vo_is_funcret,
vo_is_self,
vo_is_vmt,
vo_is_result, { special result variable }
vo_is_parentfp,
vo_is_loop_counter, { used to detect assignments to loop counter }
vo_is_hidden_para,
vo_has_explicit_paraloc,
vo_is_syscall_lib,
vo_has_mangledname,
vo_is_typed_const,
vo_is_range_check,
vo_is_overflow_check,
vo_is_typinfo_para,
vo_is_weak_external,
{ Objective-C message selector parameter }
vo_is_msgsel,
{ first field of variant part of a record }
vo_is_first_field,
vo_volatile,
vo_has_section
);
tvaroptions=set of tvaroption;
{ register variable }
tvarregable=(vr_none,
vr_intreg,
vr_fpureg,
vr_mmreg,
{ does not mean "needs address register", but "if it's a parameter which is }
{ passed by reference, then its address can be put in a register }
vr_addr
);
{ types of the symtables }
TSymtabletype = (
abstractsymtable, { not a real symtable }
globalsymtable, { unit interface symtable }
staticsymtable, { unit implementation symtable }
ObjectSymtable, { object symtable }
recordsymtable, { record symtable }
localsymtable, { subroutine symtable }
parasymtable, { arguments symtable }
withsymtable, { with operator symtable }
stt_excepTSymtable, { try/except symtable }
exportedmacrosymtable, { }
localmacrosymtable, { }
enumsymtable, { symtable for enum members }
arraysymtable { used to store parameterised type
in array }
);
{ options for symtables }
tsymtableoption = (
sto_has_helper { contains at least one helper symbol }
);
tsymtableoptions = set of tsymtableoption;
{ definition contains the informations about a type }
tdeftyp = (abstractdef,
arraydef,recorddef,pointerdef,orddef,
stringdef,enumdef,procdef,objectdef,errordef,
filedef,formaldef,setdef,procvardef,floatdef,
classrefdef,forwarddef,variantdef,undefineddef
);
{ possible types for symtable entries }
tsymtyp = (abstractsym,
staticvarsym,localvarsym,paravarsym,fieldvarsym,
typesym,procsym,unitsym,constsym,enumsym,
errorsym,syssym,labelsym,absolutevarsym,propertysym,
macrosym
);
{ State of the variable:
vs_declared: variable has been declared, not initialised
(e.g. normal variable, out parameter)
vs_initialised: variable has been declared and is valid
(e.g. typed constant, var/const parameter)
vs_read: variable has been read and the read was checked for validity
(so a warning has been given if necessary)
vs_read_not_warned: variable has been read, but we didn't warn about
whether or not the variable was valid
(e.g. read of global variable -> warn at end of compilation unit if
the state is vs_read_not_warned, since that means it's only read and
never written)
vs_referred_not_inited: variable has been used in length/low/high/@/...
expression, was not yet initialised and needn't be at that time
(e.g. length() of a statically allocated array, or sizeof(variable))
vs_written: variable has been assigned/written to, but not yet read
(e.g. assigning something to a variable/parameter)
vs_readwritten: variable has been written to and read from }
tvarstate=(vs_none,
vs_declared,vs_initialised,vs_read,vs_read_not_warned,
vs_referred_not_inited,vs_written,vs_readwritten
);
tvarspez = (vs_value,vs_const,vs_var,vs_out,vs_constref);
absolutetyp = (tovar,toasm,toaddr);
tconsttyp = (constnone,
constord,conststring,constreal,
constset,constpointer,constnil,
constresourcestring,constwstring,constguid
);
{ RTTI information to store }
trttitype = (
fullrtti,initrtti,
{ Objective-C }
objcmetartti,objcmetarortti,
objcclassrtti,objcclassrortti
);
{ The order is from low priority to high priority,
Note: the operators > and < are used on this list }
tequaltype = (
te_incompatible,
te_convert_operator,
te_convert_l5, { ad infinitum... }
te_convert_l4, { and yet even less preferred conversion }
te_convert_l3, { even less preferred conversion (possibly with loss of data) }
te_convert_l2, { compatible less preferred conversion }
te_convert_l1, { compatible conversion }
te_equal, { the definitions are equal }
te_exact
);
tvariantequaltype = (
tve_incompatible,
tve_chari64,
tve_ustring,
tve_wstring,
tve_astring,
tve_sstring,
tve_boolformal,
tve_extended,
tve_dblcurrency,
tve_single,
tve_cardinal,
tve_longint,
tve_smallint,
tve_word,
tve_shortint,
tve_byte
);
tvariantequaltypes = set of tvariantequaltype;
tdefdbgstatus = (
dbg_state_unused,
dbg_state_used,
dbg_state_writing,
dbg_state_written,
dbg_state_queued
);
var
clearstack_pocalls : tproccalloptions;
cdecl_pocalls : tproccalloptions;
const
inherited_objectoptions : tobjectoptions = [oo_has_virtual,oo_has_private,oo_has_protected,
oo_has_strictprotected,oo_has_strictprivate,oo_has_constructor,oo_has_destructor,
oo_can_have_published];
{$ifdef i386}
{ we only take this into account on i386, on other platforms we always
push in the same order
}
pushleftright_pocalls : tproccalloptions = [pocall_register,pocall_pascal];
{$endif}
SymTypeName : array[tsymtyp] of string[12] = (
'abstractsym','globalvar','localvar','paravar','fieldvar',
'type','proc','unit','const','enum',
'errorsym','system sym','label','absolutevar','property',
'macrosym'
);
typName : array[tdeftyp] of string[12] = (
'abstractdef','arraydef','recorddef','pointerdef','orddef',
'stringdef','enumdef','procdef','objectdef','errordef',
'filedef','formaldef','setdef','procvardef','floatdef',
'classrefdef','forwarddef','variantdef','undefineddef'
);
EqualTypeName : array[tequaltype] of string[16] = (
'incompatible','convert_operator','convert_l5','convert_l4','convert_l3','convert_l2',
'convert_l1','equal','exact'
);
visibilityName : array[tvisibility] of string[16] = (
'hidden','strict private','private','strict protected','protected',
'public','published'
);
{ !! Be sure to keep these in sync with ones in rtl/inc/varianth.inc }
varempty = 0;
varnull = 1;
varsmallint = 2;
varinteger = 3;
varsingle = 4;
vardouble = 5;
varcurrency = 6;
vardate = 7;
varolestr = 8;
vardispatch = 9;
varerror = 10;
varboolean = 11;
varvariant = 12;
varunknown = 13;
vardecimal = 14;
varshortint = 16;
varbyte = 17;
varword = 18;
varlongword = 19;
varint64 = 20;
varqword = 21;
varUndefined = -1;
varstrarg = $48;
varustrarg = $49;
varstring = $100;
varany = $101;
varustring = $102;
vardefmask = $fff;
vararray = $2000;
varbyref = $4000;
implementation
end.
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