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Version:
3.2.0 ▾
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{
Copyright (c) 20011 by Jonas Maebe
JVM version of some node tree helper routines
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 njvmutil;
{$i fpcdefs.inc}
interface
uses
cclasses,
node,nbas,
fmodule,ngenutil,
symtype,symconst,symsym,symdef;
type
tjvmnodeutils = class(tnodeutils)
class function initialize_data_node(p:tnode; force: boolean):tnode; override;
class function finalize_data_node(p:tnode):tnode; override;
class procedure append_struct_initfinis(u: tmodule; initfini: tstructinifinipotype; var stat: tstatementnode); override;
class function force_init: boolean; override;
class procedure insertbssdata(sym: tstaticvarsym); override;
class function create_main_procdef(const name: string; potype: tproctypeoption; ps: tprocsym): tdef; override;
class function check_insert_trashing(pd: tprocdef): boolean; override;
class function trashable_sym(p: tsym): boolean; override;
class procedure maybe_trash_variable(var stat: tstatementnode; p: tabstractnormalvarsym; trashn: tnode); override;
class procedure InsertThreadvarTablesTable; override;
class procedure InsertThreadvars; override;
class procedure InsertWideInitsTablesTable; override;
class procedure InsertWideInits; override;
class procedure InsertResourceTablesTable; override;
class procedure InsertResourceInfo(ResourcesUsed : boolean); override;
class procedure InsertResStrTablesTable; override;
class procedure InsertResStrInits; override;
class procedure InsertMemorySizes; override;
protected
class procedure insert_init_final_table(entries:tfplist); override;
strict protected
class procedure add_main_procdef_paras(pd: tdef); override;
end;
implementation
uses
verbose,cutils,globtype,globals,constexp,compinnr,
aasmdata,aasmtai,cpubase,aasmbase,aasmcpu,
symbase,symcpu,symtable,defutil,jvmdef,
ncnv,ncon,ninl,ncal,nld,nmem,
ppu,
pass_1;
class function tjvmnodeutils.initialize_data_node(p:tnode; force: boolean):tnode;
var
normaldim: longint;
temp: ttempcreatenode;
stat: tstatementnode;
def: tdef;
paras: tcallparanode;
proc: string;
begin
result:=nil;
proc:='';
temp:=nil;
if not assigned(p.resultdef) then
typecheckpass(p);
if ((p.resultdef.typ=stringdef) and
not is_shortstring(p.resultdef) and
not is_longstring(p.resultdef)) or
is_dynamic_array(p.resultdef) then
begin
{ Always initialise with empty string/array rather than nil. Java
makes a distinction between an empty string/array and a null
string/array, but we don't. We therefore have to pick which one we
use to represent empty strings/arrays. I've chosen empty rather than
null structures, because otherwise it becomes impossible to return
an empty string to Java code (it would return null).
On the consumer side, we do interpret both null and empty as the same
thing, so Java code can pass in null strings/arrays and we'll
interpret them correctly.
}
result:=cinlinenode.create(in_setlength_x,false,
ccallparanode.create(genintconstnode(0),
ccallparanode.create(p,nil)));
end
else if force then
begin
{ an explicit call to initialize() }
if p.resultdef.typ=recorddef then
result:=ccallnode.createinternmethod(p,'FPCINITIALIZEREC',nil)
else if p.resultdef.typ=arraydef then
begin
stat:=nil;
{ in case it's an open array whose elements are regular arrays, put the
dimension of the regular arrays on the stack (otherwise pass 0) }
normaldim:=0;
def:=tarraydef(p.resultdef).elementdef;
while (def.typ=arraydef) and
not is_dynamic_array(def) do
begin
inc(normaldim);
def:=tarraydef(def).elementdef;
end;
if jvmimplicitpointertype(p.resultdef) then
begin
p:=caddrnode.create(p);
include(taddrnode(p).addrnodeflags,anf_typedaddr);
end;
paras:=ccallparanode.create(ctypeconvnode.create_explicit(p,
search_system_type('TJOBJECTARRAY').typedef),nil);
paras:=ccallparanode.create(genintconstnode(normaldim),paras);
if is_wide_or_unicode_string(def) then
proc:='fpc_initialize_array_unicodestring'
else if is_ansistring(def) then
proc:='fpc_initialize_array_ansistring'
else if is_dynamic_array(def) then
proc:='fpc_initialize_array_dynarr'
else if is_record(def) then
begin
result:=internalstatements(stat);
temp:=ctempcreatenode.create(def,def.size,tt_persistent,true);
addstatement(stat,temp);
paras:=ccallparanode.create(ctemprefnode.create(temp),paras);
proc:='fpc_initialize_array_record'
end;
if assigned(stat) then
begin
addstatement(stat,ccallnode.createintern(proc,paras));
addstatement(stat,ctempdeletenode.create(temp));
end
else
result:=ccallnode.createintern(proc,paras);
end
else
result:=cassignmentnode.create(p,cnilnode.create);
end
else
begin
p.free;
{ records/arrays/... are automatically initialised }
result:=cnothingnode.create;
end;
end;
class function tjvmnodeutils.finalize_data_node(p:tnode):tnode;
begin
// do nothing
p.free;
result:=cnothingnode.create;
end;
class procedure tjvmnodeutils.append_struct_initfinis(u: tmodule; initfini: tstructinifinipotype; var stat: tstatementnode);
begin
{ class constructors are implicitly called by the JVM runtime and cannot be called explicitly }
end;
class function tjvmnodeutils.force_init: boolean;
begin
{ we need an initialisation in case the al_globals list is not empty
(that's where the initialisation for global records etc is added) }
{ problem: some bss symbols are only registered while processing the main
program (e.g. constant sets) -> cannot predict whether or not we'll
need it in advance }
result:=true;
end;
class procedure tjvmnodeutils.insertbssdata(sym: tstaticvarsym);
var
enuminitsym,
vs: tstaticvarsym;
block: tblocknode;
stat: tstatementnode;
temp: ttempcreatenode;
initnode: tnode;
eledef: tdef;
ndim: longint;
initnodefinished: boolean;
begin
{ handled while generating the unit/program init code, or class
constructor; add something to al_globals to indicate that we need to
insert an init section though }
if current_asmdata.asmlists[al_globals].empty and
jvmimplicitpointertype(sym.vardef) then
current_asmdata.asmlists[al_globals].concat(cai_align.Create(1));
{ in case of a threadvar, allocate a separate sym that's a subtype of the
java.lang.ThreadLocal class which will wrap the actual variable value }
if vo_is_thread_var in sym.varoptions then
begin
vs:=cstaticvarsym.create(sym.realname+'$threadvar',sym.varspez,
jvmgetthreadvardef(sym.vardef),
sym.varoptions - [vo_is_thread_var]);
sym.owner.insert(vs);
{ make sure that the new sym does not get allocated (we will allocate
it when encountering the original sym, because only then we know
that it's a threadvar) }
include(vs.symoptions,sp_static);
{ switch around the mangled names of sym and vs, since the wrapper
should map to the declared name }
sym.set_mangledbasename(vs.realname);
vs.set_mangledbasename(sym.realname);
{ add initialization code for the wrapper }
block:=internalstatements(stat);
if assigned(current_module.tcinitcode) then
addstatement(stat,tnode(current_module.tcinitcode));
current_module.tcinitcode:=block;
{ create initialization value if necessary }
initnode:=nil;
initnodefinished:=false;
temp:=nil;
{ in case of enum type, initialize with enum(0) if it exists }
if sym.vardef.typ=enumdef then
begin
enuminitsym:=tstaticvarsym(tcpuenumdef(tenumdef(sym.vardef).getbasedef).classdef.symtable.Find('__FPC_ZERO_INITIALIZER'));
if assigned(enuminitsym) then
initnode:=cloadnode.create(enuminitsym,enuminitsym.owner);
end
{ normal array -> include dimensions and element type so we can
create a deep copy }
else if (sym.vardef.typ=arraydef) and
not is_dynamic_array(sym.vardef) then
begin
temp:=ctempcreatenode.create(sym.vardef,sym.vardef.size,tt_persistent,true);
addstatement(stat,temp);
initnode:=ccallparanode.create(
ctypeconvnode.create_explicit(
caddrnode.create_internal(ctemprefnode.create(temp)),
java_jlobject),
nil);
jvmgetarraydimdef(sym.vardef,eledef,ndim);
initnode:=ccallparanode.create(genintconstnode(ndim),initnode);
initnode:=ccallparanode.create(
cordconstnode.create(ord(jvmarrtype_setlength(eledef)),
cwidechartype,false),
initnode);
initnodefinished:=true;
end
{ implicitpointertype -> allocate (get temp and assign address) }
else if jvmimplicitpointertype(sym.vardef) then
begin
temp:=ctempcreatenode.create(sym.vardef,sym.vardef.size,tt_persistent,true);
addstatement(stat,temp);
initnode:=caddrnode.create_internal(ctemprefnode.create(temp));
end
{ unicodestring/ansistring -> empty string }
else if is_wide_or_unicode_string(sym.vardef) or
is_ansistring(sym.vardef) then
begin
temp:=ctempcreatenode.create(sym.vardef,sym.vardef.size,tt_persistent,true);
addstatement(stat,temp);
addstatement(stat,cassignmentnode.create(
ctemprefnode.create(temp),
cstringconstnode.createstr('')));
initnode:=ctemprefnode.create(temp);
end
{ dynamic array -> empty array }
else if is_dynamic_array(sym.vardef) then
begin
temp:=ctempcreatenode.create(sym.vardef,sym.vardef.size,tt_persistent,true);
addstatement(stat,temp);
addstatement(stat,cinlinenode.create(in_setlength_x,false,
ccallparanode.create(genintconstnode(0),
ccallparanode.create(ctemprefnode.create(temp),nil))
)
);
initnode:=ctemprefnode.create(temp);
end;
if assigned(initnode) and
not initnodefinished then
initnode:=ccallparanode.create(ctypeconvnode.create_explicit(initnode,java_jlobject),nil);
addstatement(stat,cassignmentnode.create(
cloadnode.create(vs,vs.owner),
ccallnode.createinternmethod(
cloadvmtaddrnode.create(ctypenode.create(vs.vardef)),
'CREATE',initnode)));
{ deallocate the temp if we allocated one }
if assigned(temp) then
addstatement(stat,ctempdeletenode.create(temp));
end;
end;
class function tjvmnodeutils.create_main_procdef(const name: string; potype: tproctypeoption; ps: tprocsym): tdef;
begin
if (potype=potype_proginit) then
begin
result:=inherited create_main_procdef('main', potype, ps);
include(tprocdef(result).procoptions,po_global);
tprocdef(result).visibility:=vis_public;
end
else
result:=inherited create_main_procdef(name, potype, ps);
end;
class function tjvmnodeutils.check_insert_trashing(pd: tprocdef): boolean;
begin
{ initialise locals with 0 }
if ts_init_locals in current_settings.targetswitches then
localvartrashing:=high(trashintvalues);
result:=inherited;
end;
class function tjvmnodeutils.trashable_sym(p: tsym): boolean;
begin
result:=
inherited and
not jvmimplicitpointertype(tabstractnormalvarsym(p).vardef);
end;
class procedure tjvmnodeutils.maybe_trash_variable(var stat: tstatementnode; p: tabstractnormalvarsym; trashn: tnode);
var
enumdef: tenumdef;
trashintval: int64;
trashenumval: longint;
trashable: boolean;
begin
trashable:=trashable_sym(p);
trashintval:=trashintvalues[localvartrashing];
{ widechar is a separate type in the JVM, can't cast left hand to integer
like in common code }
if trashable and
is_widechar(tabstractvarsym(p).vardef) then
trash_small(stat,trashn,
cordconstnode.create(word(trashintval),tabstractvarsym(p).vardef,false))
{ enums are class instances in the JVM -> create a valid instance }
else if trashable and
is_enum(tabstractvarsym(p).vardef) then
begin
enumdef:=tenumdef(tabstractvarsym(p).vardef);
trashenumval:=longint(trashintval);
if not assigned(enumdef.int2enumsym(trashenumval)) then
trashintval:=longint(enumdef.min);
trash_small(stat,trashn,
cordconstnode.create(trashintval,enumdef,false))
end
{ can't init pointers with arbitrary values; procvardef and objectdef are
always pointer-sized here because tjvmnodeutils.trashablesym returns
false for jvm implicit pointer types }
else if trashable and
(tabstractvarsym(p).vardef.typ in [pointerdef,classrefdef,objectdef,procvardef]) then
trash_small(stat,trashn,cnilnode.create)
else if trashable and
is_real(tabstractvarsym(p).vardef) then
trash_small(stat,trashn,crealconstnode.create(trashintval,tabstractvarsym(p).vardef))
{ don't use inherited routines because it typecasts left to the target
type, and that doesn't always work in the JVM }
else if trashable and
(is_integer(tabstractvarsym(p).vardef) or
is_cbool(tabstractvarsym(p).vardef) or
is_anychar(tabstractvarsym(p).vardef) or
is_currency(tabstractvarsym(p).vardef)) then
trash_small(stat,trashn,cordconstnode.create(trashintval,tabstractvarsym(p).vardef,false))
else if trashable and
is_pasbool(tabstractvarsym(p).vardef) then
trash_small(stat,trashn,cordconstnode.create(trashintval and 1,tabstractvarsym(p).vardef,false))
else
inherited;
end;
class procedure tjvmnodeutils.insert_init_final_table(entries:tfplist);
var
hp : tused_unit;
unitinits : TAsmList;
unitclassname: string;
mainpsym: tsym;
mainpd: tprocdef;
begin
{ JVM does not use the entries list }
unitinits:=TAsmList.Create;
hp:=tused_unit(usedunits.first);
while assigned(hp) do
begin
{ class constructors are automatically handled by the JVM }
{ call the unit init code and make it external }
if (hp.u.flags and (uf_init or uf_finalize))<>0 then
begin
{ trigger init code by referencing the class representing the
unit; if necessary, it will register the fini code to run on
exit}
unitclassname:='';
if assigned(hp.u.namespace) then
begin
unitclassname:=hp.u.namespace^+'/';
replace(unitclassname,'.','/');
end;
unitclassname:=unitclassname+hp.u.realmodulename^;
unitinits.concat(taicpu.op_sym(a_new,current_asmdata.RefAsmSymbol(unitclassname,AT_METADATA)));
unitinits.concat(taicpu.op_none(a_pop));
end;
hp:=tused_unit(hp.next);
end;
{ insert in main program routine }
mainpsym:=tsym(current_module.localsymtable.find(mainaliasname));
if not assigned(mainpsym) or
(mainpsym.typ<>procsym) then
internalerror(2011041901);
mainpd:=tprocsym(mainpsym).find_procdef_bytype(potype_proginit);
if not assigned(mainpd) then
internalerror(2011041902);
tcpuprocdef(mainpd).exprasmlist.insertList(unitinits);
unitinits.free;
end;
class procedure tjvmnodeutils.InsertThreadvarTablesTable;
begin
{ not yet supported }
end;
class procedure tjvmnodeutils.InsertThreadvars;
begin
{ not yet supported }
end;
class procedure tjvmnodeutils.InsertWideInitsTablesTable;
begin
{ not required }
end;
class procedure tjvmnodeutils.InsertWideInits;
begin
{ not required }
end;
class procedure tjvmnodeutils.InsertResourceTablesTable;
begin
{ not supported }
end;
class procedure tjvmnodeutils.InsertResourceInfo(ResourcesUsed: boolean);
begin
{ not supported }
end;
class procedure tjvmnodeutils.InsertResStrTablesTable;
begin
{ not supported }
end;
class procedure tjvmnodeutils.InsertResStrInits;
begin
{ not supported }
end;
class procedure tjvmnodeutils.InsertMemorySizes;
begin
{ not required }
end;
class procedure tjvmnodeutils.add_main_procdef_paras(pd: tdef);
var
pvs: tparavarsym;
begin
if (tprocdef(pd).proctypeoption=potype_proginit) then
begin
{ add the args parameter }
pvs:=cparavarsym.create('$args',1,vs_const,search_system_type('TJSTRINGARRAY').typedef,[]);
tprocdef(pd).parast.insert(pvs);
tprocdef(pd).calcparas;
end;
end;
begin
cnodeutils:=tjvmnodeutils;
end.