mirror of
https://github.com/moparisthebest/Simba
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313 lines
10 KiB
PHP
313 lines
10 KiB
PHP
{ implementation of the arm procedure call standard for function calls in pascal script
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Copyright (c) 2008 by Henry Vermaak (henry.vermaak@gmail.com)
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todo: add eabi (define FPC_ABI_EABI) and wince support
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notes:
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most arm cpus don't allow unaligned access. by default (?) the linux kernel
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is set up to try and correct unaligned access, which can lead to strange behaviour.
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to turn this off, try (as root):
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echo 4 > /proc/cpu/alignment
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if you have an alignment problem, you will now get a crash with a backtrace like this:
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(make sure you compile with -O- -gl)
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An unhandled exception occurred at $0006C014 :
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EBusError : Bus error or misaligned data access
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$0006C014 PROCESSREPEAT, line 9670 of upscompiler.pas
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$00068AAC TPSPASCALCOMPILER__PROCESSSUB, line 10459 of upscompiler.pas
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$0007D0B4 TPSPASCALCOMPILER__COMPILE, line 11704 of upscompiler.pas
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you can fix this by using the "unaligned" keyword around the pointer operation.
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search for occurances of "unaligned" to see how this is done,
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(use $ifdef FPC_REQUIRES_PROPER_ALIGNMENT).
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for more information, visit:
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http://www.aleph1.co.uk/oldsite/armlinux/book/afaq.html
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}
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const
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rtINT = 0;
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rtINT64 = 1;
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rtFLOAT = 2;
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type
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Trint = array[1..4] of dword;
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Trfloat = array[1..4] of double;
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{$goto on}
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{ define labels }
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label
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stack_loop,
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load_regs,
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asmcall_end,
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int_result,
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int64_result,
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float_result;
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{ call a function from a pointer }
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{ resulttype: 0 = int, 1 = int64, 2 = float }
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function armasmcall(rint: Trint; rfloat: Trfloat; proc, stack: pointer; stacksize, resulttype: integer): pointer; assembler; nostackframe;
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asm
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mov r12, r13
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stmfd r13!, {r4, r5, r6, r7, r8, r9, r10, r11, r12, r14, r15}
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sub r11, r12, #4
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mov r4, #80 (* space for preserved registers and parameters *)
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ldr r5, [r11, #4] (* stacksize we need for subroutine *)
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add r4, r4, r5
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sub r13, r13, r4 (* create stack space *)
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(* store parameters on stack *)
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str r0, [r11, #-44] (* rint *)
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str r1, [r11, #-48] (* rfloat *)
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str r2, [r11, #-52] (* proc *)
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str r3, [r11, #-56] (* stack *)
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ldr r0, [r11, #4]
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str r0, [r11, #-60] (* stacksize *)
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ldr r0, [r11, #8]
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str r0, [r11, #-64] (* resulttype *)
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(* store params for sub-routine that don't fit into r0-r3 at start of stack *)
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ldr r0, [r11, #-60] (* stacksize *)
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cmp r0, #0
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beq load_regs (* skip if no stack *)
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mov r1, r13 (* this points to the bottom now *)
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ldr r2, [r11, #-56] (* stack pointer *)
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stack_loop:
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ldmia r2!, {r4} (* get stack + update pos *)
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stmia r1!, {r4} (* store stack + update pos *)
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subs r0, r0, #4
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bne stack_loop
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load_regs:
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(* load general regs *)
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ldr r4, [r11, #-44] (* rint *)
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ldr r0, [r4]
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ldr r1, [r4, #4]
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ldr r2, [r4, #8]
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ldr r3, [r4, #12]
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{$ifdef FPUFPA}
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(* load float regs *)
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ldr r4, [r11, #-48] (* rfloat *)
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ldfd f0, [r4]
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ldfd f1, [r4, #8]
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ldfd f2, [r4, #16]
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ldfd f3, [r4, #24]
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{$endif}
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(* branch to the proc pointer *)
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ldr r4, [r11, #-52]
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mov r14, r15
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mov r15, r4
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(* blx r4 *)
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ldr r4, [r11, #-64] (* get resulttype *)
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cmp r4, #1
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blt int_result
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beq int64_result
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bgt float_result
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int_result:
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str r0, [r11, #-72]
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b asmcall_end
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int64_result:
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str r0, [r11, #-72]
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str r1, [r11, #-68]
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b asmcall_end
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float_result:
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{$ifdef FPUFPA}
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stfd f0, [r11, #-72]
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{$else}
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b int64_result
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{$endif}
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b asmcall_end
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asmcall_end:
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sub r0, r11, #72 (* return pointer to result on stack *)
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ldmea r11,{r4,r5,r6,r7,r8,r9,r10,r11,r13,r15}
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end;
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function TPSExec.InnerfuseCall(_Self, Address: Pointer; CallingConv: TPSCallingConvention; Params: TPSList; res: PPSVariantIFC): Boolean;
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var
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rint: Trint; { registers r0 to r3 }
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rfloat: Trfloat; { registers f0 to f3 }
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st: packed array of byte; { stack }
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i, j, rindex, findex, stindex: integer;
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fvar: PPSVariantIFC;
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IsConstructor: Boolean;
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{ add a dword to stack }
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procedure addstackdword(value: dword);
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begin
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setlength(st, stindex+4);
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pdword(@st[stindex])^ := value;
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inc(stindex, 4);
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end;
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{ add a float to stack }
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procedure addstackfloat(value: pointer; size: integer);
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begin
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setlength(st, stindex + (size * 4));
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if size = 1
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then psingle(@st[stindex])^ := single(value^)
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else pdouble(@st[stindex])^ := double(value^);
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inc(stindex, size*4);
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end;
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{ add to the general registers or overflow to stack }
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procedure addgen(value: dword);
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begin
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if rindex <= 4
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then begin
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rint[rindex] := value;
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inc(rindex);
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end
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else begin
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addstackdword(value);
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end;
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end;
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{ add to the float registers or overflow to stack }
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{ size = 1 for single, 2 for double }
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procedure addfloat(value: pointer; size: integer);
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begin
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if findex <= 4
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then begin
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if size = 1
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then rfloat[findex] := single(value^)
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else rfloat[findex] := double(value^);
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inc(findex);
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end
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else begin
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addstackfloat(value, size);
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end;
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end;
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begin
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if (Integer(CallingConv) and 64) <> 0 then begin
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IsConstructor := true;
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CAllingConv := TPSCallingConvention(Integer(CallingConv) and not 64);
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end else IsConstructor := false;
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rindex := 1;
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findex := 1;
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stindex := 0;
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setlength(st, stindex);
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Result := False;
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{ the pointer of the result needs to be passed first in the case of some result types }
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if assigned(res)
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then begin
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case res.atype.basetype of
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btStaticArray, btRecord: addgen(dword(res.dta));
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end;
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end;
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{ process all parameters }
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for i := 0 to Params.Count-1 do begin
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if Params[i] = nil
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then Exit;
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fvar := Params[i];
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{ cook dynamic arrays - fpc stores size-1 at @array-4 }
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if (fvar.aType.BaseType = btArray)
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then dec(pdword(pointer(fvar.dta^)-4)^);
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if fvar.varparam
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then begin { var param }
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case fvar.aType.BaseType of
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{ add var params here }
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btArray, btVariant, btSet, btStaticArray, btRecord, btInterface, btClass, {$IFNDEF PS_NOWIDESTRING} btUnicodeString, btWideString, btWideChar, {$ENDIF}
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btU8, btS8, btU16, btS16, btU32, btS32, btSingle, btDouble, btExtended, btString, btPChar, btChar, btCurrency
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{$IFNDEF PS_NOINT64}, bts64{$ENDIF}: addgen(dword(fvar.dta));
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else begin
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writeln(stderr, 'Parameter type not recognised!');
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Exit;
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end;
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end; { case }
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end else begin { not a var param }
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case fvar.aType.BaseType of
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// btArray, btVariant, btSet, btStaticArray, btRecord, btInterface, btClass, {$IFNDEF PS_NOWIDESTRING} btWideString, btWideChar, {$ENDIF}
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// btU8, btS8, btU16, btS16, btU32, btS32, btSingle, btDouble, btExtended, btString, btPChar, btChar, btCurrency
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// {$IFNDEF PS_NOINT64}, bts64{$ENDIF}: writeln('normal param');
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{ add normal params here }
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btString: addgen(dword(pstring(fvar.dta)^));
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btU8, btS8: addgen(dword(pbyte(fvar.dta)^));
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btU16, BtS16: addgen(dword(pword(fvar.dta)^));
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btU32, btS32: addgen(dword(pdword(fvar.dta)^));
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btSingle: {$ifdef FPUFPA}
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addfloat(fvar.dta, 1);
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{$else}
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addgen(dword(psingle(fvar.dta)^));
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{$endif}
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btDouble{, btExtended}: {$ifdef FPUFPA}
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addfloat(fvar.dta, 2);
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{$else}
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begin
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addgen(lo(qword(pdouble(fvar.dta)^)));
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addgen(hi(qword(pdouble(fvar.dta)^)));
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end;
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{$endif}
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btPChar: addgen(dword(ppchar(fvar.dta)^));
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btChar: addgen(dword(pchar(fvar.dta)^));
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{$IFNDEF PS_NOINT64}bts64:{$ENDIF} begin
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addgen(dword(pint64(fvar.dta)^ and $ffffffff));
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addgen(dword(pint64(fvar.dta)^ shr 32));
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end;
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btStaticArray: addgen(dword(fvar.dta));
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btRecord: for j := 0 to (fvar.atype.realsize div 4)-1 do
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addgen(pdword(fvar.dta + j*4)^);
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btArray: addstackdword(dword(fvar.dta^)); { this is a bit weird }
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{ btVariant, btSet, btInterface, btClass }
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else begin
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writeln(stderr, 'Parameter type not implemented!');
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Exit;
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end;
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end; { case }
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end; { else }
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end; { for }
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if not assigned(res)
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then begin
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armasmcall(rint, rfloat, address, st, stindex, rtINT); { ignore return }
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end
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else begin
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case res.atype.basetype of
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{ add result types here }
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btString: pstring(res.dta)^ := pstring(armasmcall(rint, rfloat, address, st, stindex, rtINT))^;
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btU8, btS8: pbyte(res.dta)^ := byte(pdword(armasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btU16, btS16: pword(res.dta)^ := word(pdword(armasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btU32, btS32: pdword(res.dta)^ := pdword(armasmcall(rint, rfloat, address, st, stindex, rtINT))^;
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btSingle: psingle(res.dta)^ := pdouble(armasmcall(rint, rfloat, address, st, stindex, rtFLOAT))^;
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btDouble{, btExtended}: pdouble(res.dta)^ := pdouble(armasmcall(rint, rfloat, address, st, stindex, rtFLOAT))^;
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btPChar: ppchar(res.dta)^ := pchar(pdword(armasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btChar: pchar(res.dta)^ := char(pdword(armasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btStaticArray, btRecord: armasmcall(rint, rfloat, address, st, stindex, rtINT);
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btArray: res.dta := armasmcall(rint, rfloat, address, st, stindex, rtINT);
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else begin
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writeln(stderr, 'Result type not implemented!');
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exit;
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end; { else }
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end; { case }
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end;
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{ cook dynamic arrays - fpc stores size-1 at @array-4 }
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for i := 0 to Params.Count-1 do begin
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fvar := Params[i];
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if (fvar.aType.BaseType = btArray)
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then inc(pdword(pointer(fvar.dta^)-4)^);
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end;
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Result := True;
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end;
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