- fix a comment
- the created undefineddef must not be freed, as the count of the list the def is contained in, is used to find other defs again
git-svn-id: branches/svenbarth/generics@19428 -
Reasons for the "unique symbol" approach:
- no special search operations for cross unit search needed (which is supported by Delphi) => less performance impact
- no special care needed to really find the correct generic => less increase of parser complexity
Currently all generic tests except tgeneric29.pp compile and inline specializations work as well.
The changes in detail:
* pdecl.pas/types_dec:
- The variables used to hold the final name of the symbol are now prefixed with "gen". In case of non-generics the prefixed ones are equal to the non-prefixed ones (e.g. orgtypename=genorgtypename). In case of a generic symbol the "gen"-variants contain the type parameter count suffix (e.g. '$1' in case of 'TTest<T>') as well.
- The unmodified pattern is used to insert and detect a dummy symbol with that name, so that type declarations and - more important - inline specializations can find that symbol.
- In non-Delphi modes this symbol is also used to detect whether we have a type redefinition which is not allowed currently; its typedef points to the generic def.
- In mode Delphi the def of that dummy symbol (which contains an undefineddef) is modified when a corresponding non-generic type is parsed, so that it contains the def of the real type.
* pdecsub.pas/parse_proc_head
- consume_generic_type_parameter now only parses the type parameters and picks the generic with the correct amount of parameters. The verification of the order and names of the parameters needs to be added again.
- it also does not use "def" anymore, but it sets "srsym"
- in parse_proc_head the symbol (srsym) is only searched if the symbol isn't assigned already; in case of a generic in mode FPC it will find the dummy symbol that points to the generic def
* pexpr.pas
- in factor_read_id there are three cases to handle:
+ the symbol is not assigned => error
+ a possible generic symbol (either an undefined def or the non-generic variant) => no error and no hints
+ a non-generic symbol => hints
Point 1 is handled correctly, point 2 and 3 aren't currently and also they might be needed to be moved somewhere else
- sub_expr:
+ a node can be a tloadvmtaddrnode as well if the non-generic variant of a generic symbol is a class
+ we can only check afterwards whether the specialization was successful
* pgenutil.pas/generate_specialization
using the count of the parsed types the correct symbol can be found easily
git-svn-id: branches/svenbarth/generics@19424 -
- don't parse '(' token after the type declaration inside the type block
- replace parse of "string<codepage>" to "type AnsiString(codepage)" for delphi compatibility
- fix tests to use "type AnsiString(codepage)"
git-svn-id: trunk@19148 -
(make_field_static() ) and replaced semi-duplicates of that
code with calls to this routine
* made the handling of static fields for the JVM target more
similar to that on the other targets, so that class properties
now also work there (-> updated JVM-specific code in several
places to deal with this new handling)
git-svn-id: branches/jvmbackend@18723 -
o sets of enums are handled as JUEnumSet instances, others as JUBitSet
derivatives (both smallsets and varsets, to make interoperability with
Java easier)
o special handling of set constants: these have to be constructed at run
time. In case of constants in the code, create an internal constsym to
represent them. These and regular constsyms are then aliased by an
another internal staticvarsym that is used to initialise them in the
unit initialisation code.
o until they are constructed at run time, set constants are encoded as
constant Java strings (with the characters containing the set bits)
o hlcgobj conversion of tcginnode.pass_generate_code() for the genjumps
part (that's the only part of the generic code that's used by the JVM
target)
o as far as explicit typecasting support is concerned, currently the
following ones are supported (both from/to setdefs): ordinal types,
enums, any other set types (whose size is the same on native targets)
o enum setdefs also emit signatures
o overloading routines for different ordinal set types, or for different
enum set types, is not supported on the JVM target
git-svn-id: branches/jvmbackend@18662 -
JDK class-style enums rather than plain ordinals like in Pascal
o for Pascal code, nothing changes, except that for the JVM target
you can always typecast any enum into a class instance (to interface
with the JDK)
o to Java programs, FPC enums look exactly like Java enum types
git-svn-id: branches/jvmbackend@18620 -
assignment-nodes. For global typed constants and typed constants/
local variable initialisers in regular functions/procedurs, the
assignments are performed in the unit initialisation code. For
those in object/record definitions and their methods, it's done
in the class constructor. Since we may not yet have parsed all
method implementations when the class constructor is parsed, part
of these may be initialised in a helper routine called from the
class constructor. The ones known when the class constructor is
parsed are inited there, because the ones marked as "final" and
declared as static class fields must be initialised in the class
constructor for Java
o new set systems_typed_constants_node_init in systems unit that
indicates that a target uses node trees to initialise typed consts
instead of an initialised data section
o mark typed constants in {$j-} mode as "final" for JVM
o mangle the name of staticvarsyms inside localtables a bit to avoid
name clashes (only with procedure names for now, no parameters yet
so can still cause problems with overloaded routines)
o after a routine has been parsed, it is now processed by
cnodeutils.wrap_proc_body(), which can add extra nodes before code
generation (used for injected the typed constant node trees)
git-svn-id: branches/jvmbackend@18475 -
and initialise global variables that are wrapped (records, arrays)
in those sections
o check whether pd.localst is assigned in dbgjasm, because it's
not for the unit initialisation routine
o moved insertbssdata() from ncgutil to ngenutil and override it
njvmutil (it does nothing in the latter, since global variables
are added as fields to the class representing the unit; the
initialisation is done in gen_initialize_code() in thlcgjvm)
o added force_init() and force_final() methods to ngenutil, so
that targets can force init/final routines separate from the
regular managed types infrastructure (used by JVM for forcing
an init section in case of records/arrays)
git-svn-id: branches/jvmbackend@18460 -
via {$modeswitch finalfields} (on by default on the JVM target). The
meaning is the same as in Java: a final (class) field can only be set
in a (class) constructor of the class it's defined in, and can only be
written once there (and *must* be set there). They are currently only
supported for external classes since that basically turns them into
constants, since for non-external classes we need full dataflow analysis
o refactored pdecobj.parse_object_members() a bit in the process to reduce
the amount of repetition (which would have been further increased for
the support for final fields)
o made error message about "wrong use of absolute" for fields etc generic,
so it gives a proper error depending on which token was used (it had
to be made generic for "final" support, but already was used for other
things that were wrongly reported as "absolute" misusages)
git-svn-id: branches/jvmbackend@18398 -
o support formal external definitions (like for objcclass)
o allow specifying an "import_dll" for external Java classes, which can
be used to specify the Java package name (like the dll for cppclass)
o take the package name into account when mangling the Java class name
o several messages that were specific to Objective-Pascal classes have
been generalised because they also apply to Java classes, same for
several compiler function names
o disabled some proccall directives for Java, but more needs to happen
(Java methods are always either instance-virtual or class-static)
git-svn-id: branches/jvmbackend@18319 -
+ it_interfacejava type (not explicitly selectable via -SI nor
{$interfaces xxx}, but default for jvm target)
* disable it_interfacecom/corba for jvm target
+ init_settings for jvm that select it_interfacejava as default interface
type
+ default_class_type constant (in symconst) that is odt_javaclass for the jvm
target and odt_class for other targets (used to determine the meaning of
"type x = class" declarations)
git-svn-id: branches/jvmbackend@18286 -
pobjdec.pas (object_dec) / ptype.pas (record_dec, array_dec, procvar_dec):
- enable "parse_generic" if a nested type is parsed and we're already inside a generic (this prevents code to be generated for the nested type's methods)
- set the "df_specialization" flag so that the code for generating the methods (and thus resolving the forwards declarations) is called for this symbol
pexpr.pas:
add "post_comp_expr_gendef" which basically calls "handle_factor_typenode" and "postfixoperators" as those aren't exported from the unit themselves
ptype.pas, read_named_type.expr_type:
- use "post_comp_expr_gendef" to parse the use of nested types (e.g. "var t: TTest<T>.TTestSub")
psub.pas, specialize_objectdefs:
implement the generation of the method bodies for nested structures (resolves the forward declarations)
pdecl.pas, types_dec:
when we encounter a nested structure inside a specialization of a structure, we need to find the corresponding generic definition so that the generic can be correctly parsed later on.
git-svn-id: branches/svenbarth/generics@18002 -
Reasons for the "unique symbol" approach:
- no special search operations for cross unit search needed (which is supported by Delphi) => less performance impact
- no special care needed to really find the correct generic => less increase of parser complexity
Currently all generic tests except tgeneric29.pp compile and inline specializations work as well.
The changes in detail:
* pdecl.pas/types_dec:
- The variables used to hold the final name of the symbol are now prefixed with "gen". In case of non-generics the prefixed ones are equal to the non-prefixed ones (e.g. orgtypename=genorgtypename). In case of a generic symbol the "gen"-variants contain the type parameter count suffix (e.g. '$1' in case of 'TTest<T>') as well.
- The unmodified pattern is used to insert and detect a dummy symbol with that name, so that type declarations and - more important - inline specializations can find that symbol.
- In non-Delphi modes this symbol is also used to detect whether we have a type redefinition which is not allowed currently; its typedef points to the generic def.
- In mode Delphi the def of that dummy symbol (which contains an undefineddef) is modified when a corresponding non-generic type is parsed, so that it contains the def of the real type.
* pdecsub.pas/parse_proc_head
- consume_generic_type_parameter now only parses the type parameters and picks the generic with the correct amount of parameters. The verification of the order and names of the parameters needs to be added again.
- it also does not use "def" anymore, but it sets "srsym"
- in parse_proc_head the symbol (srsym) is only searched if the symbol isn't assigned already; in case of a generic in mode FPC it will find the dummy symbol that points to the generic def
* pexpr.pas
- in factor_read_id there are three cases to handle:
+ the symbol is not assigned => error
+ a possible generic symbol (either an undefined def or the non-generic variant) => no error and no hints
+ a non-generic symbol => hints
Point 1 is handled correctly, point 2 and 3 aren't currently and also they might be needed to be moved somewhere else
- sub_expr:
+ a node can be a tloadvmtaddrnode as well if the non-generic variant of a generic symbol is a class
+ we can only check afterwards whether the specialization was successful
* pgenutil.pas/generate_specialization
using the count of the parsed types the correct symbol can be found easily
git-svn-id: branches/svenbarth/generics@17535 -
*a check for overloads with the same count of arguments is not yet in place
*in non-Delphi modes overloads need to be checked for non-generics as well, e.g. "TTest<T>" is already defined and now a "TTest" is declared
*when a generic is encountered and the symbol does not yet exist, a new symbol with an undefineddef is added and the generic def is added as an overload; if the symbol already exists, the generic is just added
*if a non-generic is parsed and the symbol is already defined (but the typedef is still an undefineddef) then the typedef is updated
*the symtable tree (up to the unit symtable (global or local)) gets the "sto_has_generic" flag which will be used when searching generics with the same name, but different parameter counts in different units
State of generics:
broken, because the generic defs are not yet searched/found
git-svn-id: branches/svenbarth/generics@17393 -
forward-declared class, only search the current symtable rather than the
entire symtable stack (to prevent finding types in e.g. nested types)
git-svn-id: trunk@17128 -
* pdecl.pas: prohibit generic helper declarations
* pdecobj.pas: helpers extending generic types are not allowed (theoretically one could experiment with allowing this for Delphi style generics...)
* symtable.pas:
- is_visible_for_object: helpers can access (strict) protected fields of extended types
- searchsym_in_helper: use the correct contextclass and the correct search function
- search_default_property: search for default properties in helpers first
* symsym.pas: added a global variable that allows to track whether we are parsing inside a special system function
* pexpr.pas:
- statement_syssym: track the current syssym
- factor.factor_read_id: helper types are allowed inside "sizeof", "bitsizeof" and "typeinfo"
git-svn-id: branches/svenbarth/classhelpers@17097 -
This change became necessary of the following reasons:
- Records don't support inheritance, thus for "record helpers" some creativity would have been necessary to implement them; with the new implementation this is more easily
- the new approach allows for easy checks regarding virtual methods and their overrides which would have been more complicated in the old variant
- if someone feels the need the types of helpers (object, interface) can be added rather easily
- unnecessary things like VMT generation can be disabled now
details:
- msg*:
* moved some messages from parser to type
* adjusted a message ("class helper" => "helper")
- symdef.pas:
* renamed "helperparent" to "extendeddef" and changed its type from "tobjectdef" to "tabstractrecorddef", so records can be extended as well (somewhen in the near future)
* removed "finish_class_helper" method as it isn't necessary (luckily I haven't yet adjusted the ObjC variant)
* changed name of "is_objectpascal_classhelper" to "is_objectpascal_helper" to reflect that this function applies to all helper types
* tobjectdef.create: ImplementedInterfaces isn't created for odt_helper anymore
* tobjectdef.alignment: for helpers it's the same as for classes although this shouldn't be used anywhere...
* tobjectdef.vmtmethodoffset: set to 0 for helpers to be sure...
* tobjectdef.needs_inittable: not needed for helpers (no fields allowed)
* is_objectpascal_helper: only needs check for "odt_helper" object type
- symconst.pas:
* changed odt_classhelper to more general odt_helper
* added new type "thelpertype" which is used to check that "(record|class) helper" corresponds with the given extended type (as Delphi XE checks this as well this strict solution can be kept for modes Delphi and ObjFPC)
- symtable.pas:
* extended "searchsym_in_class" with the possibility to disable the search for helper methods (needed for inherited) => this implies changing all occurences of "searchsym_in_class" with a "true" except some special locations
* renamed "search_objectpascal_classhelper" to "search_objectpascal_helper"
* searchsym_in_class:
** when an extended method is defined with "overload" it can be that a same named method of the extended class might be called (sadly this means that this search was unnecessary...)
** contextclassh is the def of the helper in the case of an inherited call inside the helper's implementation
** when methods inside a helper are searched, it must be searched in the extended type first
- ptype.pas:
* single_type is used to parse the parent of a helper as well, so allow a helper if the stoParseClassParent is given (needs check in pdecobj.pas/parse_class_parents for normal classes)
* read_named_type: currently the only case when something <> ht_none is passed to the modified parse_objdec (see below) is when the combination "class helper" is encountered ("record helper" will be another one)
- pinline.pas: adjustment for extended "searchsym_in_class"
- pexpr.pas:
* adjustments regarding "searchsym_in_class" and "is_objectpascal_helper"
* factor/factor_read_id: moved the check for "TSomeClassType.SomeMethod" outside of the "is_class" check
* factor:
** in case of an inherited we need to search inside the extended type first (Note: this needs to be extended to find methods in the helper parent if no method is found in the extended type)
** we also need to disable the search for helper methods when searching for an inherited method (Note: it might be better to introduce a enum to decide whether a helper method should search before or after the methods of the extended type or even never)
- pdecsub.pas:
* insert_self_and_vmt_para: in a helper the type of Self is of the extended type
* pd_abstract, pd_final: more nice error message
* pd_override, pd_message, pd_reintroduce: adjusted checks because now "is_class" is no longer true for helpers
* proc_direcdata: allowed "abstract" for helpers (only to produce a more nice error message)
* parse_proc_direc: adjustment because of "is_objectpascal_helper"
- pdecobj.pas:
* adjustments regarding "is_objectpascal_helper"
* adjusted object_dec to take the type of the helper (class, record) as a parameter to be able to check whether the correct extended type was given
* struct_property_dec: properties are allowed in helpers
* parse_object_options: nothing to be parsed for helpers (at least I hope so ^^)
* parse_parent_classes:
** the parent of a helper is now parsed as a normal parent, the extended type is parsed in an extra procedure
** check for "sealed" no longer needed
** added check that the parsed parent of a helper is indeed a helper
** allow to parse the closing ")" of the helper's parent
* parse_extended_class:
** new procedure that parses the type which is extended
** it checks that the extended type is a class for "class helper" and a record for "record helper"
** it checks that a helper extends the same class or a subclass for class helpers
** it checks that a helper extends the same record for record helpers
* parse_object_members:
** "type", "const", "var" is allowed in helpers
** don't exclude flags regarding virtual methods, they are needed for the checks in mode Delphi (this implies that VMT loading must be disabled for helpers)
* object_dec:
** don't change "odt_helper" to "odt_class", but still include the "oo_is_classhelper" flag
** allow the parsing of object options (there are none)
** parse the extended type for helpers
- pdecl.pas
* adjustment because of extension of object_dec
* types_dec: remove the call to finish_classhelper
- objcdef.pas
* objcaddencodedtype, objcdochecktype: add references to helpers as implicit pointers although that should not be used in any way...
- nld.pas
* tloadnode.pass_typecheck: self is a reference to the extended type
- nflw.pas
* create_for_in_loop: adjustment because of changed procedure and inheritance type
- ncgrtti.pas
* TRTTIWriter.write_rtti_data: disable for helpers for now (I need to check what Delphi does here)
- ncgld.pas
* tcgloadnode.pass_generate_code: virtual methods of helpers are treated as normal methods
- ncgcal.pas
* tcgcallnode.pass_generate_code: virtual methods of helpers are treated as normal methods
- ncal.pas
* tcallnode.pass_typecheck: adjust for extension of tcallcandidates constructor
- htypechk.pas
* tcallcandidates declaration: extend some methods to (dis)allow the search for helper methods (needed for inherited)
* tcallcandidates.collect_overloads_in_struct:
** search first in helpers for methods and stop if none carries the "overload" flag
** move the addition of the procsyms to an extra nested procedure because it's used for helper methods and normal struct methods
git-svn-id: branches/svenbarth/classhelpers@16947 -
- add stoAllowSpecialization to TSingleTypeOption enum to differentiate between any new type definition and only generic specialization
- allow only specializations for class parents (not any other type definition)
- allow specialization for method arguments and return types (maybe this must be allowed only in delphi mode but in this case tgeneric11 must fail)
git-svn-id: trunk@16738 -
- tokens: added support for "helper" token
- symconst.tobjecttyp: added a new entry "odt_classhelper"
- symdef: added two functions to check whether a "tdef" instance is a class helper in general ("is_classhelper") or an Object Pascal class helper in particular ("is_objectpascal_classhelper")
- symdef.tobjectdef: added a new method "finish_classhelper" which calls "create_class_helper_for_procdef" for every method (maybe this can be used for Objective-C categories as well)
- symdef.tobjectdef.create: "ImplementedInterfaces" must be created for class helpers as well
- symtable.searchsym_in_class: class helper methods must be searched for Object Pascal classes as well (this is currently wrong, as those must be searched before the class symbols, but for a first test it's sufficient)
- ptype.read_named_type: "helper for" currently indicates a class helper ("for" should be checked inside "object_dec" though, as after "helper" there might be a parent class helper)
- pdecobj.parse_parent_classes: parse the name of the extended class and disable sealed check for those
- pdecobj.object_dec: "odt_classhelper" are changed to "odt_class" and "oo_is_classhelper" is added to the object options
- pdecl.types_dec: create class helper symbols by using "finish_classhelper"
git-svn-id: branches/svenbarth/classhelpers@16729 -
- store type parameter in parasymtable, push it to the symtablestack before parsing arguments and return type
- move procedure/function declaration parsing to procvar_dec subroutine
- don't skip parasymtable while searching types because they store type parameters now
- add TParaSymTable.ReadOnly field to prevent adding defs into symtable. Add defs to the parent symtable in this case (we are adding this symtable to stack to read type parameters only, add defs should go to parent in this case as it was before)
git-svn-id: trunk@16719 -
change is that it is now also allowed to specify an external name for
formal external class definitions, but if they are later mixed with
regular class definitions the external names have to match.
o because the "external" status of methods is now set while parsing the
class rather than afterwards, some procdir compatibility checks had to
be inlined because they only have to be performed for
* also adapted the syntax for external cppclasses in the same way
* fixed return type of NSObject.retainCount and NSObject.hash
(NSUInteger instead of cint)
* moved "patches" directory from cocoaint/src to cocoaint/utils/cocoa-skel
so they are used by the conversion script when re-parsing the headers
* updated Objective-C header parser script to
o use the new external class syntax
o not write inheritance information for root classes (NSObject, NSProxy)
o use internal translation tables for some conflicting method names that
are named specially in objcbase.pp
and updated parsed headers
* fixed rtl/inc/objcbase.pp and tests to conform to the new external class
syntax
git-svn-id: trunk@16684 -
- add tarraysymtable to store generic type symbols
- process generic and specialize declarations similar to generic records and classes
- fix insert_generic_parameter_types to use def passed in argument instead of current_structdef because generic array type can't be assigned to the current_structdef variable
- increase ppu version because of arraydef changes
- tests
git-svn-id: trunk@16681 -
is_implicit_pointer_object_type() to better indicate the purpose of
that routine, and to avoid having to change its name every time
a new object type with this property is added
git-svn-id: trunk@16664 -
- don't use source pointeddef for copied tpointerdef,tclassrefdef if pointteddef is a forward def because in this case when forward def will be resolved copied def will point to garbage
- put copied def into list of defs awaiting resolve if it was copied from forward def
+ test
git-svn-id: trunk@16575 -
- rename tprocdef._class to tprocdef.struct and change the type from tobjectdef to tabstractrecorddef because methods can belong not to classes only now but to records too
- replace in many places use of current_objectdef to current_structdef with typcast where is needed
- add an argument to comp_expr, expr, factor, sub_expr to notify that we are searching type only symbol to solve the problem with records,objects,classes which contains fields with the same name as previosly declared type (like:
HWND = type Handle;
rec = record
hWnd: HWND;
end;)
- disable check in factor_read_id which was made for object that only static fields can be accessed as TObjectType.FieldName outside the object because it makes SizeOf(TObjectType.FieldName) imposible and since the same method was extended to handle records it also breaks a52 package compilation
- rename tcallcandidates.collect_overloads_in_class to tcallcandidates.collect_overloads_in_struct and addapt the code to handle overloads in records too
- fix searchsym_type to search also in object ancestors if we found an object symtable
- add pd_record, pd_notrecord flags to mark procedure modifies which can or can't be used with records. Disallow the next modifiers for records: abstract, dynamic, export, external, far, far16, final, forward, internconst, internproc, interrupt, message, near, override, public, reintroduce, virtual, weakexternal,
Allow the next modifiers for records: static
git-svn-id: branches/paul/extended_records@16526 -
- add parse_record_members function to parse record blocks based on parse_object_members code
- disable published section in records
- rename in_class argument in some functions to in_structure because the same code can work for records now which are not classes
git-svn-id: branches/paul/extended_records@16513 -
- fix type visibility (was always public)
- fix parsing of class sections after the type declaration
- allow nested classes declarations
+ tests
git-svn-id: trunk@14607 -
- implement class properties: properties which can access only static fields and static class methods
- tests
- fix a possibility to call an instance method from the class method
git-svn-id: trunk@14585 -
- compiler: allow message after the *deprecated* keyword
- compiler: raise an internal error if deprecated message is trying to set to a non clear string pointer
git-svn-id: trunk@13997 -
declarations (since even though they're not used in the Pascal code,
they probably are in the Objective-C code that actually implements them)
git-svn-id: branches/objc@13764 -
* don't allow "type x = type y" for objcclass/objcprotocol for now
(would require generating new rtti for the new name)
git-svn-id: branches/objc@13641 -
starting with a previous 2.3.1 or compiler built from the objc branch
+ added basic objcprotocol support (only for external protocols
currently)
o use in type declaration: "type xp = objcprotocol ... end;"
o when defining a root class that implements it:
"type yc = objcclass(xp) ... end" (note: no support yet
for something like "objcclass(id,xp)" or so)
o when defining a non-root class that implements a protocol:
"type zc = objcclass(nsobject,xp) ... end"
o includes support for "required" and "optional" sections
o no support yet for the objcprotocol(<protocol>) expression
that enables getting a class instance representing the
protocol (e.g., for use with "conformsToProtocol:")
o message names have to specified in protocol declarations,
but if an objcclass implements a protocol, the message names do
not have to be repeated (but if they are, they have to match;
the same goes when overriding inherited methods)
+ allow specifying the external name of Objective-C classes and
protocols, since classes and protocols can have the same name
(and you cannot use the same Pascal identifier in such caseq)
+ added NSObject protocol, and make the NSObject class use it
+ added missing NSObject class methods that have the same name
as instance methods (added "class" name prefix to avoid clashes)
* fixed several cases where the compiler did not treat Objective-C
classes/protocols the same as Object Pascal classes/interfaces
(a.o., forward declarations, alignment, regvars, several type
conversions, ...)
* allow "override" directive in objcclass declarations, and print
a hint if it's forgotten in an external declaration (because it
doesn't really matter there, and may make automated header
conversion harder than necessary) and an error if will be used in
a non-external declaration (because it is not possible to start
a new vmt entry-tree in Objective-C, you can only override parent
methods)
* reject objcclasses/protocols as parameters to typeof()
* don't try to test VMT validity of objcclasses/protocols
git-svn-id: branches/objc@13375 -
o support for declaring external Objective-C classes (see
rtl/inc/objcbase.pas), including derived classes
o support for converting methods of objcclasses into selectors
(see tests/test/tobjc1.pp)
o support for loading from/storing to fields of objcclasses
o support for calling Objective-C methods using regular
Object Pascal syntax (see tests/test/tobjc1.pp)
o some things that are known to be not yet working:
o automatic conversion from ID to objcclasses and back
o declaring and implementing new objcclasses/methods in Pascal code
o debug information (objcclasses are currently plain pointers
as far as the debugger knows)
git-svn-id: branches/objc@13162 -
separate list, so that procsyms, constsym, varsyms etc are not checked
and so that every sym is checked only once (rather than at the end
of every type block). This makes parsing units with lots of declarations
much faster (e.g., compiling MacOSAll is now 2 to 3 times faster)
git-svn-id: trunk@11719 -
for programs. this allows speciailizations to be done in the interface
part of the unit
* support tobject.typemember.typemember nesting for generics
* fix generic parameter checking when a typemember was created with the
type of a parameter
* known issue is nested specializations don't work yet because the token
replay can't handled nested replays yet
git-svn-id: trunk@11404 -
* fixed some (harmless) ptrint warnings
- removed some commented code in agppcmpw
* added one missing field in a typed constant in cp1251
git-svn-id: trunk@8081 -
* fix rtti generation
* rtti is now written at the end of a module when all info is available,
this prevents some duplicate rtti entries cause by inheritance
git-svn-id: trunk@5363 -
* symtables based on TFPHashObjectList and TFPObjectList
* rename torddef.typ to torddef.ordtype
* rename tfloatdef.typ to tfloatdef.floattype
* rename tdef.deftype to tdef.typ
* remove obsolete browser code, browcol is kept so the ide
can still be compiled
git-svn-id: trunk@5192 -
getjumplabel and added type para to getlabel for specific types
* moved lineinfo generation from assemble and aggas to dbgstabs
git-svn-id: trunk@1120 -
* procinfo renamed to current_procinfo
* procinfo will now be stored in current_module so it can be
cleaned up properly
* gen_main_procsym changed to create_main_proc and release_main_proc
to also generate a tprocinfo structure
* fixed unit implicit initfinal
a new procdef declaration
* aktprocsym removed
* lexlevel removed, use symtable.symtablelevel instead
* implicit init/final code uses the normal genentry/genexit
* funcret state checking updated for new funcret handling
