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fpc/compiler/aasmtai.pas
peter edf553a223 * string constants are now array of char until 
they are converted to a specific string type

git-svn-id: trunk@1254 -
2005-10-02 11:08:58 +00:00

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{
Copyright (c) 1998-2002 by Florian Klaempfl
This unit implements an abstract asmoutput class for all processor types
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.
****************************************************************************
}
{ @abstract(This unit implements an abstract asm output class for all processor types)
This unit implements an abstract assembler output class for all processors, these
are then overriden for each assembler writer to actually write the data in these
classes to an assembler file.
}
unit aasmtai;
{$i fpcdefs.inc}
interface
uses
cutils,cclasses,
globtype,globals,systems,
cpuinfo,cpubase,
cgbase,cgutils,
symtype,
aasmbase;
type
taitype = (
ait_none,
ait_align,
ait_section,
ait_comment,
ait_string,
ait_instruction,
ait_datablock,
ait_symbol,
ait_symbol_end, { needed to calc the size of a symbol }
ait_directive,
ait_label,
{ the const_xx must be below each other so it can be used as
array index }
ait_const_128bit,
ait_const_64bit,
ait_const_32bit,
ait_const_16bit,
ait_const_8bit,
ait_const_sleb128bit,
ait_const_uleb128bit,
ait_const_rva_symbol, { win32 only }
ait_const_indirect_symbol, { darwin only }
ait_real_32bit,
ait_real_64bit,
ait_real_80bit,
ait_comp_64bit,
ait_real_128bit,
ait_stab,
ait_force_line,
ait_function_name,
{$ifdef alpha}
{ the follow is for the DEC Alpha }
ait_frame,
ait_ent,
{$endif alpha}
{$ifdef ia64}
ait_bundle,
ait_stop,
{$endif ia64}
{$ifdef m68k}
ait_labeled_instruction,
{$endif m68k}
{ used to split into tiny assembler files }
ait_cutobject,
ait_regalloc,
ait_tempalloc,
{ used to mark assembler blocks and inlined functions }
ait_marker
);
const
{$ifdef cpu64bit}
ait_const_aint = ait_const_64bit;
ait_const_ptr = ait_const_64bit;
{$else cpu64bit}
ait_const_aint = ait_const_32bit;
ait_const_ptr = ait_const_32bit;
{$endif cpu64bit}
taitypestr : array[taitype] of string[24] = (
'<none>',
'align',
'section',
'comment',
'string',
'instruction',
'datablock',
'symbol',
'symbol_end',
'symbol_directive',
'label',
'const_128bit',
'const_64bit',
'const_32bit',
'const_16bit',
'const_8bit',
'const_sleb128bit',
'const_uleb128bit',
'const_rva_symbol',
'const_indirect_symbol',
'real_32bit',
'real_64bit',
'real_80bit',
'comp_64bit',
'real_128bit',
'stab',
'force_line',
'function_name',
{$ifdef alpha}
{ the follow is for the DEC Alpha }
'frame',
'ent',
{$endif alpha}
{$ifdef ia64}
'bundle',
'stop',
{$endif ia64}
{$ifdef m68k}
'labeled_instr',
{$endif m68k}
'cut',
'regalloc',
'tempalloc',
'marker'
);
type
{ Types of operand }
toptype=(top_none,top_reg,top_ref,top_const,top_bool,top_local
{$ifdef arm}
{ ARM only }
,top_regset
,top_shifterop
{$endif arm}
{$ifdef m68k}
{ m68k only }
,top_regset
{$endif m68k}
{ i386 only});
{ kinds of operations that an instruction can perform on an operand }
topertype = (operand_read,operand_write,operand_readwrite);
tlocaloper = record
localsym : pointer;
localsymderef : tderef;
localsymofs : longint;
localindexreg : tregister;
localscale : byte;
localgetoffset,
localforceref : boolean
end;
plocaloper = ^tlocaloper;
{ please keep the size of this record <=12 bytes and keep it properly aligned }
toper = record
ot : longint;
case typ : toptype of
top_none : ();
top_reg : (reg:tregister);
top_ref : (ref:preference);
top_const : (val:aint);
top_bool : (b:boolean);
{ local varsym that will be inserted in pass_2 }
top_local : (localoper:plocaloper);
{$ifdef arm}
top_regset : (regset:^tcpuregisterset);
top_shifterop : (shifterop : pshifterop);
{$endif arm}
{$ifdef m68k}
top_regset : (regset:^tcpuregisterset);
{$endif m68k}
end;
poper=^toper;
{ ait_* types which don't result in executable code or which don't influence }
{ the way the program runs/behaves, but which may be encountered by the }
{ optimizer (= if it's sometimes added to the exprasm list). Update if you add }
{ a new ait type! }
const
SkipInstr = [ait_comment, ait_symbol,ait_section
,ait_stab, ait_function_name, ait_force_line
,ait_regalloc, ait_tempalloc, ait_symbol_end, ait_directive];
{ ait_* types which do not have line information (and hence which are of type
tai, otherwise, they are of type tailineinfo }
SkipLineInfo =[ait_label,
ait_regalloc,ait_tempalloc,
ait_stab,ait_function_name,
ait_cutobject,ait_marker,ait_align,ait_section,ait_comment,
ait_const_8bit,ait_const_16bit,ait_const_32bit,ait_const_64bit,ait_const_128bit,
ait_const_sleb128bit,ait_const_uleb128bit,
ait_const_rva_symbol,ait_const_indirect_symbol,
ait_real_32bit,ait_real_64bit,ait_real_80bit,ait_comp_64bit,ait_real_128bit
];
type
{ cut type, required for alphanumeric ordering of the assembler filenames }
TCutPlace=(cut_normal,cut_begin,cut_end);
TRegAllocType = (ra_alloc,ra_dealloc,ra_sync,ra_resize);
TMarker = (NoPropInfoStart,NoPropInfoEnd,
AsmBlockStart,AsmBlockEnd,
InlineStart,InlineEnd,marker_blockstart,
marker_position);
{ Buffer type used for alignment }
tfillbuffer = array[0..63] of char;
Tspill_temp_list=array[tsuperregister] of Treference;
{ abstract assembler item }
tai = class(TLinkedListItem)
{$ifndef NOOPT}
{ pointer to record with optimizer info about this tai object }
optinfo : pointer;
{$endif NOOPT}
typ : taitype;
constructor Create;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);virtual;
procedure ppuwrite(ppufile:tcompilerppufile);virtual;
procedure buildderefimpl;virtual;
procedure derefimpl;virtual;
end;
{ abstract assembler item with line information }
tailineinfo = class(tai)
fileinfo : tfileposinfo;
constructor Create;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
tai_simple = class(tai)
constructor create(_typ : taitype);
end;
taiclass = class of tai;
taiclassarray = array[taitype] of taiclass;
{ Generates an assembler string }
tai_string = class(tailineinfo)
str : pchar;
{ extra len so the string can contain an \0 }
len : longint;
constructor Create(const _str : string);
constructor Create_pchar(_str : pchar;length : longint);
destructor Destroy;override;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
function getcopy:tlinkedlistitem;override;
end;
{ Generates a common label }
tai_symbol = class(tailineinfo)
is_global : boolean;
sym : tasmsymbol;
size : longint;
constructor Create(_sym:tasmsymbol;siz:longint);
constructor Create_Global(_sym:tasmsymbol;siz:longint);
constructor Createname(const _name : string;_symtyp:Tasmsymtype;siz:longint);
constructor Createname_global(const _name : string;_symtyp:Tasmsymtype;siz:longint);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure derefimpl;override;
end;
tai_symbol_end = class(tailineinfo)
sym : tasmsymbol;
constructor Create(_sym:tasmsymbol);
constructor Createname(const _name : string);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure derefimpl;override;
end;
tasmdirective=(asd_non_lazy_symbol_pointer,asd_indirect_symbol,asd_lazy_symbol_pointer,
asd_extern,asd_nasm_import);
tai_directive = class(tailineinfo)
name : pstring;
directive : tasmdirective;
constructor Create(_directive:tasmdirective;const _name:string);
destructor Destroy;override;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
{ Generates an assembler label }
tai_label = class(tai)
is_global : boolean;
l : tasmlabel;
constructor Create(_l : tasmlabel);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure derefimpl;override;
end;
{ Generates an assembler comment }
tai_comment = class(tai)
str : pchar;
constructor Create(_str : pchar);
destructor Destroy; override;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
function getcopy:tlinkedlistitem;override;
end;
{ Generates a section / segment directive }
tai_section = class(tai)
sectype : TAsmSectionType;
secalign : byte;
name : pstring;
sec : TAsmSection; { used in binary writer }
constructor Create(Asectype:TAsmSectionType;Aname:string;Aalign:byte);
destructor Destroy;override;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
{ Generates an uninitializised data block }
tai_datablock = class(tailineinfo)
is_global : boolean;
sym : tasmsymbol;
size : longint;
constructor Create(const _name : string;_size : longint);
constructor Create_global(const _name : string;_size : longint);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure derefimpl;override;
end;
{ Generates an integer const }
tai_const = class(tai)
sym,
endsym : tasmsymbol;
value : int64;
{ we use for the 128bit int64/qword for now because I can't imagine a
case where we need 128 bit now (FK) }
constructor Create(_typ:taitype;_value : int64);
constructor Create_128bit(_value : int64);
constructor Create_64bit(_value : int64);
constructor Create_32bit(_value : longint);
constructor Create_16bit(_value : word);
constructor Create_8bit(_value : byte);
constructor Create_sleb128bit(_value : int64);
constructor Create_uleb128bit(_value : qword);
constructor Create_aint(_value : aint);
constructor Create_sym(_sym:tasmsymbol);
constructor Create_sym_offset(_sym:tasmsymbol;ofs:aint);
constructor Create_rel_sym(_typ:taitype;_sym,_endsym:tasmsymbol);
constructor Create_rva_sym(_sym:tasmsymbol);
constructor Create_indirect_sym(_sym:tasmsymbol);
constructor Createname(const name:string;_symtyp:Tasmsymtype;ofs:aint);
constructor Createname_rva(const name:string);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure derefimpl;override;
function getcopy:tlinkedlistitem;override;
function size:longint;
end;
{ Generates a single float (32 bit real) }
tai_real_32bit = class(tai)
value : ts32real;
constructor Create(_value : ts32real);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
tformatoptions = (fo_none,fo_hiloswapped);
{ Generates a double float (64 bit real) }
tai_real_64bit = class(tai)
value : ts64real;
{$ifdef ARM}
formatoptions : tformatoptions;
constructor Create_hiloswapped(_value : ts64real);
{$endif ARM}
constructor Create(_value : ts64real);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
{ Generates an extended float (80 bit real) }
tai_real_80bit = class(tai)
value : ts80real;
constructor Create(_value : ts80real);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
{ Generates an float128 (128 bit real) }
tai_real_128bit = class(tai)
value : ts128real;
constructor Create(_value : ts128real);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
{ Generates a comp int (integer over 64 bits)
This is Intel 80x86 specific, and is not
really supported on other processors.
}
tai_comp_64bit = class(tai)
value : ts64comp;
constructor Create(_value : ts64comp);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
tstabtype = (stab_stabs,stab_stabn,stab_stabd);
tai_stab = class(tai)
str : pchar;
stabtype : tstabtype;
constructor Create(_stabtype:tstabtype;_str : pchar);
constructor Create_str(_stabtype:tstabtype;const s:string);
destructor Destroy;override;
end;
tai_force_line = class(tailineinfo)
constructor Create;
end;
tai_function_name = class(tai)
funcname : pstring;
constructor create(const s:string);
destructor destroy;override;
end;
{ Insert a cut to split assembler into several smaller files }
tai_cutobject = class(tai)
place : tcutplace;
constructor Create;
constructor Create_begin;
constructor Create_end;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
{ Insert a marker for assembler and inline blocks }
tai_marker = class(tai)
Kind: TMarker;
Constructor Create(_Kind: TMarker);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
tai_tempalloc = class(tai)
allocation : boolean;
{$ifdef EXTDEBUG}
problem : pstring;
{$endif EXTDEBUG}
temppos,
tempsize : longint;
constructor alloc(pos,size:longint);
constructor dealloc(pos,size:longint);
{$ifdef EXTDEBUG}
constructor allocinfo(pos,size:longint;const st:string);
{$endif EXTDEBUG}
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
destructor destroy;override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
tai_regalloc = class(tai)
reg : tregister;
ratype : TRegAllocType;
{ reg(de)alloc belongs to this instruction, this
is only used for automatic inserted (de)alloc for
imaginary register and required for spilling code }
instr : tai;
constructor alloc(r : tregister;ainstr:tai);
constructor dealloc(r : tregister;ainstr:tai);
constructor sync(r : tregister);
constructor resize(r : tregister);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
end;
Taasmoutput=class;
tadd_reg_instruction_proc=procedure(instr:Tai;r:tregister) of object;
Trggetproc=procedure(list:Taasmoutput;position:Tai;subreg:Tsubregister;var result:Tregister) of object;
Trgungetproc=procedure(list:Taasmoutput;position:Tai;r:Tregister) of object;
{ Class template for assembler instructions
}
tai_cpu_abstract = class(tailineinfo)
protected
procedure ppuloadoper(ppufile:tcompilerppufile;var o:toper);virtual;abstract;
procedure ppuwriteoper(ppufile:tcompilerppufile;const o:toper);virtual;abstract;
procedure ppubuildderefimploper(var o:toper);virtual;abstract;
procedure ppuderefoper(var o:toper);virtual;abstract;
public
{ Condition flags for instruction }
condition : TAsmCond;
{ Number of operands to instruction }
ops : byte;
{ Number of allocate oper structures }
opercnt : byte;
{ Operands of instruction }
oper : array[0..max_operands-1] of poper;
{ Actual opcode of instruction }
opcode : tasmop;
{$ifdef x86}
segprefix : tregister;
{$endif x86}
{ true if instruction is a jmp }
is_jmp : boolean; { is this instruction a jump? (needed for optimizer) }
Constructor Create(op : tasmop);virtual;
Destructor Destroy;override;
function getcopy:TLinkedListItem;override;
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
procedure buildderefimpl;override;
procedure derefimpl;override;
procedure SetCondition(const c:TAsmCond);
procedure allocate_oper(opers:longint);
procedure loadconst(opidx:longint;l:aint);
procedure loadsymbol(opidx:longint;s:tasmsymbol;sofs:longint);
procedure loadlocal(opidx:longint;s:pointer;sofs:longint;indexreg:tregister;scale:byte;getoffset,forceref:boolean);
procedure loadref(opidx:longint;const r:treference);
procedure loadreg(opidx:longint;r:tregister);
procedure loadoper(opidx:longint;o:toper);
procedure clearop(opidx:longint);
{ register allocator }
function is_same_reg_move(regtype: Tregistertype):boolean;virtual;
function spilling_get_operation_type(opnr: longint): topertype;virtual;
function spilling_get_operation_type_ref(opnr: longint; reg: tregister): topertype;virtual;
function Pass1(offset:longint):longint;virtual;abstract;
procedure Pass2(objdata:TAsmObjectdata);virtual;abstract;
end;
tai_cpu_class = class of tai_cpu_abstract;
{ alignment for operator }
tai_align_abstract = class(tai)
aligntype : byte; { 1 = no align, 2 = word align, 4 = dword align }
fillsize : byte; { real size to fill }
fillop : byte; { value to fill with - optional }
use_op : boolean;
constructor Create(b:byte);virtual;
constructor Create_op(b: byte; _op: byte);virtual;
constructor Create_zeros(b:byte);
constructor ppuload(t:taitype;ppufile:tcompilerppufile);override;
procedure ppuwrite(ppufile:tcompilerppufile);override;
function calculatefillbuf(var buf : tfillbuffer):pchar;virtual;
end;
tai_align_class = class of tai_align_abstract;
taasmoutput = class(tlinkedlist)
constructor create;
function empty : boolean;
function getlasttaifilepos : pfileposinfo;
procedure InsertAfter(Item,Loc : TLinkedListItem);override;
end;
{ Type of asmlists. The order is important for the layout of the
information in the .o file. The stabs for the types must be defined
before they can be referenced and therefor they need to be written
first (PFV) }
Tasmlist=(al_debugstart,
al_debugtypes,
al_procedures,
al_globals,
al_const,
al_typedconsts,
al_rotypedconsts,
al_threadvars,
al_withdebug,
al_imports,
al_exports,
al_resources,
al_rtti,
al_dwarf,
al_picdata,
al_resourcestrings,
al_debugend);
const
TasmlistStr : array[tasmlist] of string[24] =(
'al_debugstart',
'al_debugtypes',
'al_procedures',
'al_globals',
'al_const',
'al_typedconsts',
'al_rotypedconsts',
'al_threadvars',
'al_withdebug',
'al_imports',
'al_exports',
'al_resources',
'al_rtti',
'al_dwarf',
'al_picdata',
'al_resourcestrings',
'al_debugend');
regallocstr : array[tregalloctype] of string[10]=('allocated','released','sync','resized');
tempallocstr : array[boolean] of string[10]=('released','allocated');
stabtypestr : array[tstabtype] of string[5]=('stabs','stabn','stabd');
directivestr : array[tasmdirective] of string[24]=(
'non_lazy_symbol_pointer','indirect_symbol','lazy_symbol_pointer',
'extern','nasm_import'
);
var
{ array with all class types for tais }
aiclass : taiclassarray;
{ Current expression list }
exprasmlist : taasmoutput;
{ labels for BREAK and CONTINUE }
aktbreaklabel,aktcontinuelabel : tasmlabel;
{ label when the result is true or false }
truelabel,falselabel : tasmlabel;
{ hook to notify uses of registers }
add_reg_instruction_hook : tadd_reg_instruction_proc;
asmlist:array[Tasmlist] of Taasmoutput;
cai_align : tai_align_class;
cai_cpu : tai_cpu_class;
function use_smartlink_section:boolean;
function maybe_smartlink_symbol:boolean;
procedure maybe_new_object_file(list:taasmoutput);
procedure new_section(list:taasmoutput;Asectype:TAsmSectionType;Aname:string;Aalign:byte);
procedure section_symbol_start(list:taasmoutput;const Aname:string;Asymtyp:Tasmsymtype;
Aglobal:boolean;Asectype:TAsmSectionType;Aalign:byte);
procedure section_symbol_end(list:taasmoutput;const Aname:string);
function ppuloadai(ppufile:tcompilerppufile):tai;
procedure ppuwriteai(ppufile:tcompilerppufile;n:tai);
implementation
uses
strings,
verbose;
const
pputaimarker = 254;
{****************************************************************************
Helpers
****************************************************************************}
function ppuloadai(ppufile:tcompilerppufile):tai;
var
b : byte;
t : taitype;
begin
{ marker }
b:=ppufile.getbyte;
if b<>pputaimarker then
internalerror(200208181);
{ load nodetype }
t:=taitype(ppufile.getbyte);
if t<>ait_none then
begin
if t>high(taitype) then
internalerror(200208182);
if not assigned(aiclass[t]) then
internalerror(200208183);
{writeln('taiload: ',taitypestr[t]);}
{ generate tai of the correct class }
ppuloadai:=aiclass[t].ppuload(t,ppufile);
end
else
ppuloadai:=nil;
end;
procedure ppuwriteai(ppufile:tcompilerppufile;n:tai);
begin
{ marker, read by ppuloadnode }
ppufile.putbyte(pputaimarker);
if assigned(n) then
begin
{ type, read by ppuloadnode }
ppufile.putbyte(byte(n.typ));
{writeln('taiwrite: ',taitypestr[n.typ]);}
n.ppuwrite(ppufile);
end
else
ppufile.putbyte(byte(ait_none));
end;
function use_smartlink_section:boolean;
begin
result:=(af_smartlink_sections in target_asm.flags) and
(tf_smartlink_sections in target_info.flags);
end;
function maybe_smartlink_symbol:boolean;
begin
result:=(cs_create_smart in aktmoduleswitches) or
use_smartlink_section;
end;
procedure maybe_new_object_file(list:taasmoutput);
begin
if (cs_create_smart in aktmoduleswitches) and
(not use_smartlink_section) then
list.concat(tai_cutobject.create);
end;
procedure new_section(list:taasmoutput;Asectype:TAsmSectionType;Aname:string;Aalign:byte);
begin
list.concat(tai_section.create(Asectype,Aname,Aalign));
list.concat(cai_align.create(Aalign));
end;
procedure section_symbol_start(list:taasmoutput;const Aname:string;Asymtyp:Tasmsymtype;
Aglobal:boolean;Asectype:TAsmSectionType;Aalign:byte);
begin
maybe_new_object_file(list);
list.concat(tai_section.create(Asectype,Aname,Aalign));
list.concat(cai_align.create(Aalign));
if Aglobal or
maybe_smartlink_symbol then
list.concat(tai_symbol.createname_global(Aname,Asymtyp,0))
else
list.concat(tai_symbol.createname(Aname,Asymtyp,0));
end;
procedure section_symbol_end(list:taasmoutput;const Aname:string);
begin
list.concat(tai_symbol_end.createname(Aname));
end;
{****************************************************************************
TAI
****************************************************************************}
constructor tai.Create;
begin
{$ifndef NOOPT}
optinfo:=nil;
{$endif NOOPT}
end;
constructor tai.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
typ:=t;
{$ifndef NOOPT}
optinfo:=nil;
{$endif}
end;
procedure tai.ppuwrite(ppufile:tcompilerppufile);
begin
end;
procedure tai.buildderefimpl;
begin
end;
procedure tai.derefimpl;
begin
end;
{****************************************************************************
TAILINEINFO
****************************************************************************}
constructor tailineinfo.create;
begin
inherited create;
if not(inlining_procedure and
(cs_gdb_valgrind in aktglobalswitches)) then
fileinfo:=aktfilepos;
end;
constructor tailineinfo.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
ppufile.getposinfo(fileinfo);
end;
procedure tailineinfo.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putposinfo(fileinfo);
end;
{****************************************************************************
TAI_SIMPLE
****************************************************************************}
constructor tai_simple.create(_typ : taitype);
begin
inherited create;
typ:=_typ;
end;
{****************************************************************************
TAI_SECTION
****************************************************************************}
constructor tai_section.Create(Asectype:TAsmSectionType;Aname:string;Aalign:byte);
begin
inherited Create;
typ:=ait_section;
sectype:=asectype;
secalign:=Aalign;
name:=stringdup(Aname);
sec:=nil;
end;
constructor tai_section.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
sectype:=tasmsectiontype(ppufile.getbyte);
secalign:=ppufile.getbyte;
name:=stringdup(ppufile.getstring);
sec:=nil;
end;
destructor tai_section.Destroy;
begin
stringdispose(name);
end;
procedure tai_section.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putbyte(byte(sectype));
ppufile.putbyte(secalign);
ppufile.putstring(name^);
end;
{****************************************************************************
TAI_DATABLOCK
****************************************************************************}
constructor tai_datablock.Create(const _name : string;_size : longint);
begin
inherited Create;
typ:=ait_datablock;
sym:=objectlibrary.newasmsymbol(_name,AB_LOCAL,AT_DATA);
{ keep things aligned }
if _size<=0 then
_size:=4;
size:=_size;
is_global:=false;
end;
constructor tai_datablock.Create_global(const _name : string;_size : longint);
begin
inherited Create;
typ:=ait_datablock;
sym:=objectlibrary.newasmsymbol(_name,AB_GLOBAL,AT_DATA);
{ keep things aligned }
if _size<=0 then
_size:=4;
size:=_size;
is_global:=true;
end;
constructor tai_datablock.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited Create;
sym:=ppufile.getasmsymbol;
size:=ppufile.getlongint;
is_global:=boolean(ppufile.getbyte);
end;
procedure tai_datablock.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putasmsymbol(sym);
ppufile.putlongint(size);
ppufile.putbyte(byte(is_global));
end;
procedure tai_datablock.derefimpl;
begin
objectlibrary.DerefAsmsymbol(sym);
end;
{****************************************************************************
TAI_SYMBOL
****************************************************************************}
constructor tai_symbol.Create(_sym:tasmsymbol;siz:longint);
begin
inherited Create;
typ:=ait_symbol;
sym:=_sym;
size:=siz;
sym.defbind:=AB_LOCAL;
is_global:=false;
end;
constructor tai_symbol.Create_global(_sym:tasmsymbol;siz:longint);
begin
inherited Create;
typ:=ait_symbol;
sym:=_sym;
size:=siz;
sym.defbind:=AB_GLOBAL;
is_global:=true;
end;
constructor tai_symbol.Createname(const _name : string;_symtyp:Tasmsymtype;siz:longint);
begin
inherited Create;
typ:=ait_symbol;
sym:=objectlibrary.newasmsymbol(_name,AB_LOCAL,_symtyp);
size:=siz;
is_global:=false;
end;
constructor tai_symbol.Createname_global(const _name : string;_symtyp:Tasmsymtype;siz:longint);
begin
inherited Create;
typ:=ait_symbol;
sym:=objectlibrary.newasmsymbol(_name,AB_GLOBAL,_symtyp);
size:=siz;
is_global:=true;
end;
constructor tai_symbol.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
sym:=ppufile.getasmsymbol;
size:=ppufile.getlongint;
is_global:=boolean(ppufile.getbyte);
end;
procedure tai_symbol.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putasmsymbol(sym);
ppufile.putlongint(size);
ppufile.putbyte(byte(is_global));
end;
procedure tai_symbol.derefimpl;
begin
objectlibrary.DerefAsmsymbol(sym);
end;
{****************************************************************************
TAI_SYMBOL_END
****************************************************************************}
constructor tai_symbol_end.Create(_sym:tasmsymbol);
begin
inherited Create;
typ:=ait_symbol_end;
sym:=_sym;
end;
constructor tai_symbol_end.Createname(const _name : string);
begin
inherited Create;
typ:=ait_symbol_end;
sym:=objectlibrary.newasmsymbol(_name,AB_GLOBAL,AT_NONE);
end;
constructor tai_symbol_end.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
sym:=ppufile.getasmsymbol;
end;
procedure tai_symbol_end.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putasmsymbol(sym);
end;
procedure tai_symbol_end.derefimpl;
begin
objectlibrary.DerefAsmsymbol(sym);
end;
{****************************************************************************
TAI_SYMBOL_END
****************************************************************************}
constructor tai_directive.Create(_directive:tasmdirective;const _name:string);
begin
inherited Create;
typ:=ait_directive;
name:=stringdup(_name);
directive:=_directive;
end;
destructor tai_directive.Destroy;
begin
stringdispose(name);
end;
constructor tai_directive.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
name:=stringdup(ppufile.getstring);
directive:=tasmdirective(ppufile.getbyte);
end;
procedure tai_directive.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putstring(name^);
ppufile.putbyte(byte(directive));
end;
{****************************************************************************
TAI_CONST
****************************************************************************}
constructor tai_const.Create(_typ:taitype;_value : int64);
begin
inherited Create;
typ:=_typ;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_128bit(_value : int64);
begin
inherited Create;
typ:=ait_const_128bit;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_64bit(_value : int64);
begin
inherited Create;
typ:=ait_const_64bit;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_32bit(_value : longint);
begin
inherited Create;
typ:=ait_const_32bit;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_16bit(_value : word);
begin
inherited Create;
typ:=ait_const_16bit;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_8bit(_value : byte);
begin
inherited Create;
typ:=ait_const_8bit;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_sleb128bit(_value : int64);
begin
inherited Create;
typ:=ait_const_sleb128bit;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_uleb128bit(_value : qword);
begin
inherited Create;
typ:=ait_const_uleb128bit;
value:=int64(_value);
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_aint(_value : aint);
begin
inherited Create;
typ:=ait_const_aint;
value:=_value;
sym:=nil;
endsym:=nil;
end;
constructor tai_const.Create_sym(_sym:tasmsymbol);
begin
inherited Create;
typ:=ait_const_ptr;
{ sym is allowed to be nil, this is used to write nil pointers }
sym:=_sym;
endsym:=nil;
value:=0;
{ update sym info }
if assigned(sym) then
sym.increfs;
end;
constructor tai_const.Create_sym_offset(_sym:tasmsymbol;ofs:aint);
begin
inherited Create;
typ:=ait_const_ptr;
if not assigned(_sym) then
internalerror(200404121);
sym:=_sym;
endsym:=nil;
value:=ofs;
{ update sym info }
sym.increfs;
end;
constructor tai_const.Create_rel_sym(_typ:taitype;_sym,_endsym:tasmsymbol);
begin
inherited Create;
typ:=_typ;
sym:=_sym;
endsym:=_endsym;
value:=0;
{ update sym info }
sym.increfs;
endsym.increfs;
end;
constructor tai_const.Create_rva_sym(_sym:tasmsymbol);
begin
inherited Create;
typ:=ait_const_rva_symbol;
sym:=_sym;
endsym:=nil;
value:=0;
{ update sym info }
sym.increfs;
end;
constructor tai_const.Create_indirect_sym(_sym:tasmsymbol);
begin
inherited Create;
typ:=ait_const_indirect_symbol;
sym:=_sym;
endsym:=nil;
value:=0;
{ update sym info }
sym.increfs;
end;
constructor tai_const.Createname(const name:string;_symtyp:Tasmsymtype;ofs:aint);
begin
inherited Create;
typ:=ait_const_ptr;
sym:=objectlibrary.newasmsymbol(name,AB_EXTERNAL,_symtyp);
endsym:=nil;
value:=ofs;
{ update sym info }
sym.increfs;
end;
constructor tai_const.Createname_rva(const name:string);
begin
inherited Create;
typ:=ait_const_rva_symbol;
sym:=objectlibrary.newasmsymbol(name,AB_EXTERNAL,AT_FUNCTION);
endsym:=nil;
value:=0;
{ update sym info }
sym.increfs;
end;
constructor tai_const.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
sym:=ppufile.getasmsymbol;
endsym:=ppufile.getasmsymbol;
value:=ppufile.getint64;
end;
procedure tai_const.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putasmsymbol(sym);
ppufile.putasmsymbol(endsym);
ppufile.putint64(value);
end;
procedure tai_const.derefimpl;
begin
objectlibrary.DerefAsmsymbol(sym);
objectlibrary.DerefAsmsymbol(endsym);
end;
function tai_const.getcopy:tlinkedlistitem;
begin
getcopy:=inherited getcopy;
{ we need to increase the reference number }
sym.increfs;
if assigned(endsym) then
endsym.increfs;
end;
function tai_const.size:longint;
begin
case typ of
ait_const_8bit :
result:=1;
ait_const_16bit :
result:=2;
ait_const_32bit :
result:=4;
ait_const_64bit :
result:=8;
ait_const_indirect_symbol,
ait_const_rva_symbol :
result:=sizeof(aint);
end;
end;
{****************************************************************************
TAI_real_32bit
****************************************************************************}
constructor tai_real_32bit.Create(_value : ts32real);
begin
inherited Create;
typ:=ait_real_32bit;
value:=_value;
end;
constructor tai_real_32bit.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
value:=ppufile.getreal;
end;
procedure tai_real_32bit.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putreal(value);
end;
{****************************************************************************
TAI_real_64bit
****************************************************************************}
constructor tai_real_64bit.Create(_value : ts64real);
begin
inherited Create;
typ:=ait_real_64bit;
value:=_value;
end;
{$ifdef ARM}
constructor tai_real_64bit.Create_hiloswapped(_value : ts64real);
begin
inherited Create;
typ:=ait_real_64bit;
value:=_value;
formatoptions:=fo_hiloswapped;
end;
{$endif ARM}
constructor tai_real_64bit.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
value:=ppufile.getreal;
{$ifdef ARM}
formatoptions:=tformatoptions(ppufile.getbyte);
{$endif ARM}
end;
procedure tai_real_64bit.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putreal(value);
{$ifdef ARM}
ppufile.putbyte(byte(formatoptions));
{$endif ARM}
end;
{****************************************************************************
TAI_real_80bit
****************************************************************************}
constructor tai_real_80bit.Create(_value : ts80real);
begin
inherited Create;
typ:=ait_real_80bit;
value:=_value;
end;
constructor tai_real_80bit.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
value:=ppufile.getreal;
end;
procedure tai_real_80bit.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putreal(value);
end;
{****************************************************************************
TAI_real_80bit
****************************************************************************}
constructor tai_real_128bit.Create(_value : ts128real);
begin
inherited Create;
typ:=ait_real_128bit;
value:=_value;
end;
constructor tai_real_128bit.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
value:=ppufile.getreal;
end;
procedure tai_real_128bit.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putreal(value);
end;
{****************************************************************************
Tai_comp_64bit
****************************************************************************}
constructor tai_comp_64bit.Create(_value : ts64comp);
begin
inherited Create;
typ:=ait_comp_64bit;
value:=_value;
end;
constructor tai_comp_64bit.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
ppufile.putdata(value,sizeof(value));
end;
procedure tai_comp_64bit.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.getdata(value,sizeof(value));
end;
{****************************************************************************
TAI_STRING
****************************************************************************}
constructor tai_string.Create(const _str : string);
begin
inherited Create;
typ:=ait_string;
len:=length(_str);
getmem(str,len+1);
strpcopy(str,_str);
end;
constructor tai_string.Create_pchar(_str : pchar;length : longint);
begin
inherited Create;
typ:=ait_string;
str:=_str;
len:=length;
end;
destructor tai_string.destroy;
begin
if str<>nil then
freemem(str);
inherited Destroy;
end;
constructor tai_string.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
len:=ppufile.getlongint;
getmem(str,len);
ppufile.getdata(str^,len);
end;
procedure tai_string.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putlongint(len);
ppufile.putdata(str^,len);
end;
function tai_string.getcopy : tlinkedlistitem;
var
p : tlinkedlistitem;
begin
p:=inherited getcopy;
getmem(tai_string(p).str,len);
move(str^,tai_string(p).str^,len);
getcopy:=p;
end;
{****************************************************************************
TAI_LABEL
****************************************************************************}
constructor tai_label.create(_l : tasmlabel);
begin
inherited Create;
typ:=ait_label;
l:=_l;
l.is_set:=true;
is_global:=(l.defbind=AB_GLOBAL);
end;
constructor tai_label.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
l:=tasmlabel(ppufile.getasmsymbol);
is_global:=boolean(ppufile.getbyte);
end;
procedure tai_label.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putasmsymbol(l);
ppufile.putbyte(byte(is_global));
end;
procedure tai_label.derefimpl;
begin
objectlibrary.DerefAsmsymbol(tasmsymbol(l));
l.is_set:=true;
end;
{****************************************************************************
tai_comment comment to be inserted in the assembler file
****************************************************************************}
constructor tai_comment.Create(_str : pchar);
begin
inherited Create;
typ:=ait_comment;
str:=_str;
end;
destructor tai_comment.destroy;
begin
strdispose(str);
inherited Destroy;
end;
constructor tai_comment.ppuload(t:taitype;ppufile:tcompilerppufile);
var
len : longint;
begin
inherited ppuload(t,ppufile);
len:=ppufile.getlongint;
getmem(str,len+1);
ppufile.getdata(str^,len);
str[len]:=#0;
end;
procedure tai_comment.ppuwrite(ppufile:tcompilerppufile);
var
len : longint;
begin
inherited ppuwrite(ppufile);
len:=strlen(str);
ppufile.putlongint(len);
ppufile.putdata(str^,len);
end;
function tai_comment.getcopy : tlinkedlistitem;
var
p : tlinkedlistitem;
begin
p:=inherited getcopy;
getmem(tai_comment(p).str,strlen(str)+1);
move(str^,tai_comment(p).str^,strlen(str)+1);
getcopy:=p;
end;
{****************************************************************************
TAI_STABS
****************************************************************************}
constructor tai_stab.create(_stabtype:tstabtype;_str : pchar);
begin
inherited create;
typ:=ait_stab;
str:=_str;
stabtype:=_stabtype;
end;
constructor tai_stab.create_str(_stabtype:tstabtype;const s:string);
begin
self.create(_stabtype,strpnew(s));
end;
destructor tai_stab.destroy;
begin
strdispose(str);
inherited destroy;
end;
{****************************************************************************
TAI_FORCE_LINE
****************************************************************************}
constructor tai_force_line.create;
begin
inherited create;
typ:=ait_force_line;
end;
{****************************************************************************
TAI_FUNCTION_NAME
****************************************************************************}
constructor tai_function_name.create(const s:string);
begin
inherited create;
typ:=ait_function_name;
funcname:=stringdup(s);
end;
destructor tai_function_name.destroy;
begin
stringdispose(funcname);
inherited destroy;
end;
{****************************************************************************
TAI_CUTOBJECT
****************************************************************************}
constructor tai_cutobject.Create;
begin
inherited Create;
typ:=ait_cutobject;
place:=cut_normal;
end;
constructor tai_cutobject.Create_begin;
begin
inherited Create;
typ:=ait_cutobject;
place:=cut_begin;
end;
constructor tai_cutobject.Create_end;
begin
inherited Create;
typ:=ait_cutobject;
place:=cut_end;
end;
constructor tai_cutobject.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
place:=TCutPlace(ppufile.getbyte);
end;
procedure tai_cutobject.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putbyte(byte(place));
end;
{****************************************************************************
Tai_Marker
****************************************************************************}
constructor Tai_Marker.Create(_Kind: TMarker);
begin
Inherited Create;
typ := ait_marker;
Kind := _Kind;
end;
constructor Tai_Marker.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
kind:=TMarker(ppufile.getbyte);
end;
procedure Tai_Marker.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putbyte(byte(kind));
end;
{*****************************************************************************
tai_tempalloc
*****************************************************************************}
constructor tai_tempalloc.alloc(pos,size:longint);
begin
inherited Create;
typ:=ait_tempalloc;
allocation:=true;
temppos:=pos;
tempsize:=size;
{$ifdef EXTDEBUG}
problem:=nil;
{$endif EXTDEBUG}
end;
destructor tai_tempalloc.destroy;
begin
{$ifdef EXTDEBUG}
stringdispose(problem);
{$endif EXTDEBUG}
inherited destroy;
end;
constructor tai_tempalloc.dealloc(pos,size:longint);
begin
inherited Create;
typ:=ait_tempalloc;
allocation:=false;
temppos:=pos;
tempsize:=size;
{$ifdef EXTDEBUG}
problem:=nil;
{$endif EXTDEBUG}
end;
{$ifdef EXTDEBUG}
constructor tai_tempalloc.allocinfo(pos,size:longint;const st:string);
begin
inherited Create;
typ:=ait_tempalloc;
allocation:=false;
temppos:=pos;
tempsize:=size;
problem:=stringdup(st);
end;
{$endif EXTDEBUG}
constructor tai_tempalloc.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
temppos:=ppufile.getlongint;
tempsize:=ppufile.getlongint;
allocation:=boolean(ppufile.getbyte);
{$ifdef EXTDEBUG}
problem:=nil;
{$endif EXTDEBUG}
end;
procedure tai_tempalloc.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putlongint(temppos);
ppufile.putlongint(tempsize);
ppufile.putbyte(byte(allocation));
end;
{*****************************************************************************
tai_regalloc
*****************************************************************************}
constructor tai_regalloc.alloc(r : tregister;ainstr:tai);
begin
inherited create;
typ:=ait_regalloc;
ratype:=ra_alloc;
reg:=r;
{ ainstr must be an instruction }
if assigned(ainstr) and
(ainstr.typ<>ait_instruction) then
internalerror(200411011);
instr:=ainstr;
end;
constructor tai_regalloc.dealloc(r : tregister;ainstr:tai);
begin
inherited create;
typ:=ait_regalloc;
ratype:=ra_dealloc;
reg:=r;
{ ainstr must be an instruction }
if assigned(ainstr) and
(ainstr.typ<>ait_instruction) then
internalerror(200411012);
instr:=ainstr;
end;
constructor tai_regalloc.sync(r : tregister);
begin
inherited create;
typ:=ait_regalloc;
ratype:=ra_sync;
reg:=r;
end;
constructor tai_regalloc.resize(r : tregister);
begin
inherited create;
typ:=ait_regalloc;
ratype:=ra_resize;
reg:=r;
end;
constructor tai_regalloc.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
ppufile.getdata(reg,sizeof(Tregister));
ratype:=tregalloctype(ppufile.getbyte);
end;
procedure tai_regalloc.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putdata(reg,sizeof(Tregister));
ppufile.putbyte(byte(ratype));
end;
{*****************************************************************************
TaiInstruction
*****************************************************************************}
constructor tai_cpu_abstract.Create(op : tasmop);
begin
inherited create;
typ:=ait_instruction;
is_jmp:=false;
opcode:=op;
ops:=0;
fillchar(condition,sizeof(condition),0);
fillchar(oper,sizeof(oper),0);
end;
destructor tai_cpu_abstract.Destroy;
var
i : integer;
begin
for i:=0 to opercnt-1 do
begin
clearop(i);
dispose(oper[i]);
end;
inherited destroy;
end;
{ ---------------------------------------------------------------------
Loading of operands.
---------------------------------------------------------------------}
procedure tai_cpu_abstract.allocate_oper(opers:longint);
begin
while (opers>opercnt) do
begin
new(oper[opercnt]);
fillchar(oper[opercnt]^,sizeof(toper),0);
inc(opercnt);
end;
end;
procedure tai_cpu_abstract.loadconst(opidx:longint;l:aint);
begin
allocate_oper(opidx+1);
with oper[opidx]^ do
begin
if typ<>top_const then
clearop(opidx);
val:=l;
typ:=top_const;
end;
end;
procedure tai_cpu_abstract.loadsymbol(opidx:longint;s:tasmsymbol;sofs:longint);
var
r : treference;
begin
reference_reset_symbol(r,s,sofs);
r.refaddr:=addr_full;
loadref(opidx,r);
end;
procedure tai_cpu_abstract.loadlocal(opidx:longint;s:pointer;sofs:longint;indexreg:tregister;scale:byte;getoffset,forceref:boolean);
begin
if not assigned(s) then
internalerror(200204251);
allocate_oper(opidx+1);
with oper[opidx]^ do
begin
if typ<>top_local then
begin
clearop(opidx);
new(localoper);
end;
with oper[opidx]^.localoper^ do
begin
localsym:=s;
localsymofs:=sofs;
localindexreg:=indexreg;
localscale:=scale;
localgetoffset:=getoffset;
localforceref:=forceref;
end;
typ:=top_local;
end;
end;
procedure tai_cpu_abstract.loadref(opidx:longint;const r:treference);
begin
allocate_oper(opidx+1);
with oper[opidx]^ do
begin
if typ<>top_ref then
begin
clearop(opidx);
new(ref);
end;
ref^:=r;
{$ifdef x86}
{ We allow this exception for x86, since overloading this would be
too much of a a speed penalty}
if (ref^.segment<>NR_NO) and (ref^.segment<>NR_DS) then
segprefix:=ref^.segment;
{$endif}
{$ifdef extdebug}
if (cs_create_pic in aktmoduleswitches) and
assigned(r.symbol) and
(r.refaddr=addr_no) then
internalerror(200502052);
{$endif}
typ:=top_ref;
if assigned(add_reg_instruction_hook) then
begin
add_reg_instruction_hook(self,ref^.base);
add_reg_instruction_hook(self,ref^.index);
end;
{ mark symbol as used }
if assigned(ref^.symbol) then
ref^.symbol.increfs;
end;
end;
procedure tai_cpu_abstract.loadreg(opidx:longint;r:tregister);
begin
allocate_oper(opidx+1);
with oper[opidx]^ do
begin
if typ<>top_reg then
clearop(opidx);
reg:=r;
typ:=top_reg;
end;
if assigned(add_reg_instruction_hook) then
add_reg_instruction_hook(self,r);
{$ifdef ARM}
{ R15 is the PC on the ARM thus moves to R15 are jumps.
Due to speed considerations we don't use a virtual overridden method here.
Because the pc/r15 isn't handled by the reg. allocator this should never cause
problems with iregs getting r15.
}
is_jmp:=(opcode=A_MOV) and (opidx=0) and (r=NR_R15);
{$endif ARM}
end;
procedure tai_cpu_abstract.loadoper(opidx:longint;o:toper);
begin
allocate_oper(opidx+1);
clearop(opidx);
oper[opidx]^:=o;
{ copy also the reference }
with oper[opidx]^ do
begin
case typ of
top_reg:
begin
if assigned(add_reg_instruction_hook) then
add_reg_instruction_hook(self,reg);
end;
top_ref:
begin
new(ref);
ref^:=o.ref^;
if assigned(add_reg_instruction_hook) then
begin
add_reg_instruction_hook(self,ref^.base);
add_reg_instruction_hook(self,ref^.index);
end;
end;
{$ifdef ARM}
top_shifterop:
begin
new(shifterop);
shifterop^:=o.shifterop^;
if assigned(add_reg_instruction_hook) then
add_reg_instruction_hook(self,shifterop^.rs);
end;
{$endif ARM}
end;
end;
end;
procedure tai_cpu_abstract.clearop(opidx:longint);
begin
with oper[opidx]^ do
begin
case typ of
top_ref:
dispose(ref);
top_local:
dispose(localoper);
{$ifdef ARM}
top_shifterop:
dispose(shifterop);
top_regset:
dispose(regset);
{$endif ARM}
end;
typ:=top_none;
end;
end;
{ ---------------------------------------------------------------------
Miscellaneous methods.
---------------------------------------------------------------------}
procedure tai_cpu_abstract.SetCondition(const c:TAsmCond);
begin
condition:=c;
end;
Function tai_cpu_abstract.getcopy:TLinkedListItem;
var
i : longint;
p : tai_cpu_abstract;
begin
p:=tai_cpu_abstract(inherited getcopy);
{ make a copy of the references }
p.opercnt:=0;
p.allocate_oper(ops);
for i:=0 to ops-1 do
begin
p.oper[i]^:=oper[i]^;
case oper[i]^.typ of
top_local :
begin
new(p.oper[i]^.localoper);
p.oper[i]^.localoper^:=oper[i]^.localoper^;
end;
top_ref :
begin
new(p.oper[i]^.ref);
p.oper[i]^.ref^:=oper[i]^.ref^;
end;
{$ifdef ARM}
top_shifterop:
begin
new(p.oper[i]^.shifterop);
p.oper[i]^.shifterop^:=oper[i]^.shifterop^;
end;
{$endif ARM}
end;
end;
getcopy:=p;
end;
function tai_cpu_abstract.is_same_reg_move(regtype: Tregistertype):boolean;
begin
{ When the generic RA is used this needs to be overriden, we don't use
virtual;abstract; to prevent a lot of warnings of unimplemented abstract methods
when tai_cpu is created (PFV) }
internalerror(200404091);
result:=false;
end;
function tai_cpu_abstract.spilling_get_operation_type(opnr: longint): topertype;
begin
internalerror(200404091);
result:=operand_readwrite;
end;
function tai_cpu_abstract.spilling_get_operation_type_ref(opnr: longint; reg: tregister): topertype;
begin
result := operand_read;
end;
constructor tai_cpu_abstract.ppuload(t:taitype;ppufile:tcompilerppufile);
var
i : integer;
begin
inherited ppuload(t,ppufile);
{ hopefully, we don't get problems with big/litte endian here when cross compiling :/ }
ppufile.getdata(condition,sizeof(tasmcond));
allocate_oper(ppufile.getbyte);
for i:=0 to ops-1 do
ppuloadoper(ppufile,oper[i]^);
opcode:=tasmop(ppufile.getword);
{$ifdef x86}
ppufile.getdata(segprefix,sizeof(Tregister));
{$endif x86}
is_jmp:=boolean(ppufile.getbyte);
end;
procedure tai_cpu_abstract.ppuwrite(ppufile:tcompilerppufile);
var
i : integer;
begin
inherited ppuwrite(ppufile);
ppufile.putdata(condition,sizeof(tasmcond));
ppufile.putbyte(ops);
for i:=0 to ops-1 do
ppuwriteoper(ppufile,oper[i]^);
ppufile.putword(word(opcode));
{$ifdef x86}
ppufile.putdata(segprefix,sizeof(Tregister));
{$endif x86}
ppufile.putbyte(byte(is_jmp));
end;
procedure tai_cpu_abstract.buildderefimpl;
var
i : integer;
begin
for i:=0 to ops-1 do
ppubuildderefimploper(oper[i]^);
end;
procedure tai_cpu_abstract.derefimpl;
var
i : integer;
begin
for i:=0 to ops-1 do
ppuderefoper(oper[i]^);
end;
{****************************************************************************
tai_align_abstract
****************************************************************************}
constructor tai_align_abstract.Create(b: byte);
begin
inherited Create;
typ:=ait_align;
if b in [1,2,4,8,16,32] then
aligntype := b
else
aligntype := 1;
fillsize:=0;
fillop:=0;
use_op:=false;
end;
constructor tai_align_abstract.Create_op(b: byte; _op: byte);
begin
inherited Create;
typ:=ait_align;
if b in [1,2,4,8,16,32] then
aligntype := b
else
aligntype := 1;
fillsize:=0;
fillop:=_op;
use_op:=true;
end;
constructor tai_align_abstract.Create_zeros(b: byte);
begin
inherited Create;
typ:=ait_align;
if b in [1,2,4,8,16,32] then
aligntype := b
else
aligntype := 1;
use_op:=true;
fillsize:=0;
fillop:=0;
end;
function tai_align_abstract.calculatefillbuf(var buf : tfillbuffer):pchar;
begin
if fillsize>sizeof(buf) then
internalerror(200404293);
fillchar(buf,high(buf),fillop);
calculatefillbuf:=pchar(@buf);
end;
constructor tai_align_abstract.ppuload(t:taitype;ppufile:tcompilerppufile);
begin
inherited ppuload(t,ppufile);
aligntype:=ppufile.getbyte;
fillsize:=0;
fillop:=ppufile.getbyte;
use_op:=boolean(ppufile.getbyte);
end;
procedure tai_align_abstract.ppuwrite(ppufile:tcompilerppufile);
begin
inherited ppuwrite(ppufile);
ppufile.putbyte(aligntype);
ppufile.putbyte(fillop);
ppufile.putbyte(byte(use_op));
end;
{*****************************************************************************
TAAsmOutput
*****************************************************************************}
constructor taasmoutput.create;
begin
inherited create;
{ make sure the optimizer won't remove the first tai of this list}
insert(tai_marker.create(marker_blockstart));
end;
function taasmoutput.empty : boolean;
begin
{ there is always a marker_blockstart available,
see taasmoutput.create }
result:=(count<=1);
end;
function taasmoutput.getlasttaifilepos : pfileposinfo;
var
hp : tlinkedlistitem;
begin
getlasttaifilepos := nil;
if assigned(last) then
begin
{ find the last file information record }
if not (tai(last).typ in SkipLineInfo) then
getlasttaifilepos:=@tailineinfo(last).fileinfo
else
{ go through list backwards to find the first entry
with line information
}
begin
hp:=tai(last);
while assigned(hp) and (tai(hp).typ in SkipLineInfo) do
hp:=hp.Previous;
{ found entry }
if assigned(hp) then
getlasttaifilepos:=@tailineinfo(hp).fileinfo
end;
end;
end;
procedure Taasmoutput.InsertAfter(Item,Loc : TLinkedListItem);
begin
{ This is not possible because it is not sure that the
tai at Loc has taifileinfo as parent }
{if assigned(Loc) then
tailineinfo(Item).fileinfo:=tailineinfo(Loc).fileinfo;}
inherited InsertAfter(Item,Loc);
end;
begin
cai_cpu:=tai_cpu_abstract;
cai_align:=tai_align_abstract;
end.
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