mirror of
https://github.com/moparisthebest/Simba
synced 2024-11-22 17:22:21 -05:00
6f80c64d9c
git-svn-id: http://www.villavu.com/repositories/merlijn/mufasa@38 3f818213-9676-44b0-a9b4-5e4c4e03d09d
344 lines
11 KiB
PHP
344 lines
11 KiB
PHP
{ implementation of the powerpc osx abi for function calls in pascal script
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Copyright (c) 2007 by Henry Vermaak (henry.vermaak@gmail.com) }
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{$ifndef darwin}
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{$fatal This code is Darwin specific at the moment!}
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{$endif}
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{$ifndef cpu32}
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{$fatal This code is 32bit specific at the moment!}
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{$endif}
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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..8] of dword;
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Trfloat = array[1..13] of double;
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{$goto on}
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{ define labels }
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label
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rfloat_loop,
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stack_loop,
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load_regs,
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int_result,
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int64_result,
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float_result,
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asmcall_end;
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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 ppcasmcall(rint: Trint; rfloat: Trfloat; proc, stack: pointer; stacksize, resulttype: integer): pointer; assembler; nostackframe;
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asm
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mflr r0
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stw r0, 8(r1)
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{ save non-volatile register/s - make sure the stack size is sufficient! }
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stw r31, -4(r1) { stacksize }
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stwu r1, -240(r1) { create stack }
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{ get all the params into the stack }
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stw r3, 48(r1) { rint }
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stw r4, 52(r1) { rfloat }
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stw r5, 56(r1) { proc }
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stw r6, 60(r1) { stack }
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stw r7, 64(r1) { stacksize }
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stw r8, 68(r1) { resulttype }
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{ result is stored in 72(r1) and 76(r1) (if returning int64) }
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{ write rint array into stack }
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lwz r2, 48(r1) { rint }
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lfd f0, 0(r2)
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stfd f0, 80(r1) { rint[1], rint[2] }
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lfd f0, 8(r2)
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stfd f0, 88(r1) { rint[3], rint[4] }
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lfd f0, 16(r2)
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stfd f0, 96(r1) { rint[5], rint[6] }
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lfd f0, 24(r2)
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stfd f0, 104(r1) { rint[7], rint[8] }
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{ write rfloat array into stack }
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lwz r2, 52(r1) { rfloat }
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addi r4, r1, 112 { rfloat[1] from here upwards (8 bytes apart) }
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subi r2, r2, 8 { src }
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subi r4, r4, 8 { dest }
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li r3, 13 { counter }
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rfloat_loop:
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subic. r3, r3, 1 { dec counter }
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lfdu f0, 8(r2) { load rfloat[x] + update }
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stfdu f0, 8(r4) { store rfloat[x] + update }
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bne cr0, rfloat_loop
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{ create new stack }
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mflr r0
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stw r0, 8(r1)
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mr r12, r1 { remember previous stack to fill in regs later }
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lwz r31, 64(r12) { load stacksize into r31 }
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neg r3, r31 { negate }
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stwux r1, r1, r3 { create new stack }
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{ build up the stack here }
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mr r3, r31 { counter }
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subic. r3, r3, 24 { don't write first 24 }
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blt cr0, load_regs { don't fill in stack if there is none }
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lwz r2, 60(r12) { pointer to stack }
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addi r2, r2, 24 { start of params }
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subi r2, r2, 1 { src }
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addi r4, r1, 24 { start of params }
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subi r4, r4, 1 { dest }
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stack_loop:
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subic. r3, r3, 1 { dec counter }
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lbzu r5, 1(r2) { load stack + update }
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stbu r5, 1(r4) { store stack + update }
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bne cr0, stack_loop
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load_regs: { now load the registers from the previous stack in r12 }
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lwz r3, 80(r12)
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lwz r4, 84(r12)
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lwz r5, 88(r12)
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lwz r6, 92(r12)
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lwz r7, 96(r12)
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lwz r8, 100(r12)
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lwz r9, 104(r12)
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lwz r10, 108(r12)
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lfd f1, 112(r12)
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lfd f2, 120(r12)
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lfd f3, 128(r12)
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lfd f4, 136(r12)
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lfd f5, 144(r12)
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lfd f6, 152(r12)
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lfd f7, 160(r12)
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lfd f8, 168(r12)
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lfd f9, 176(r12)
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lfd f10, 184(r12)
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lfd f11, 192(r12)
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lfd f12, 200(r12)
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lfd f13, 208(r12)
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{ now call this function }
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lwz r2, 56(r12) { proc }
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mtctr r2 { move to ctr }
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bctrl { branch and link to ctr }
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{ restore stack - use stacksize in r31 }
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add r1, r1, r31
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lwz r0, 8(r1)
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mtlr r0
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{ check resulttype and put appropriate pointer into r3 }
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lwz r2, 68(r1) { resulttype }
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cmpwi cr0, r2, 0 { int result? }
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beq cr0, int_result { branch if equal }
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cmpwi cr0, r2, 1 { single result? }
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beq cr0, int64_result { branch if equal }
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float_result: { the result is a double}
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stfd f1, 72(r1) { write f1 to result on stack }
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b asmcall_end
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int64_result: { the result is a single }
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stw r3, 72(r1) { write high dword to result on stack }
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stw r4, 76(r1) { write low dword to result on stack }
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b asmcall_end
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int_result: { the result is dword }
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stw r3, 72(r1) { write r3 to result on stack }
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asmcall_end: { epilogue }
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addi r3, r1, 72 { pointer to result on the stack }
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addi r1, r1, 240 { restore stack }
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{ restore non-volatile register/s }
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lwz r31, -4(r1)
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lwz r0, 8(r1)
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mtlr r0
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blr
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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 r3 to r10 }
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rfloat: Trfloat; { registers f1 to f13 }
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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 <= 8
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then begin
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rint[rindex] := value;
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inc(rindex);
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addstackdword(value);
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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 <= 13
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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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inc(rindex, size);
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addstackfloat(value, size);
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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 := 24;
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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} 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{$ENDIF}: addgen(dword(fvar.dta)); { TODO: test all }
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else begin
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writeln(stderr, 'Parameter type not recognised!');
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Exit;
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end;
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end; { case }
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end else begin { not a var param }
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case fvar.aType.BaseType of
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// btArray, btVariant, btSet, btStaticArray, btRecord, btInterface, btClass, {$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{$ENDIF}: writeln('normal param');
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{ add normal params here }
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btString: addgen(dword(pstring(fvar.dta)^));
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btU8, btS8: addgen(dword(pbyte(fvar.dta)^));
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btU16, BtS16: addgen(dword(pword(fvar.dta)^));
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btU32, btS32: addgen(dword(pdword(fvar.dta)^));
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btSingle: addfloat(fvar.dta, 1);
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btDouble, btExtended: addfloat(fvar.dta, 2);
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btPChar: addgen(dword(ppchar(fvar.dta)^));
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btChar: addgen(dword(pchar(fvar.dta)^));
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{$IFNDEF PS_NOINT64}bts64:{$ENDIF} begin
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addgen(dword(pint64(fvar.dta)^ shr 32));
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addgen(dword(pint64(fvar.dta)^ and $ffffffff));
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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: addgen(dword(fvar.dta^));
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{ TODO add and test }
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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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ppcasmcall(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(ppcasmcall(rint, rfloat, address, st, stindex, rtINT))^;
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btU8, btS8: pbyte(res.dta)^ := byte(pdword(ppcasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btU16, btS16: pword(res.dta)^ := word(pdword(ppcasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btU32, btS32: pdword(res.dta)^ := pdword(ppcasmcall(rint, rfloat, address, st, stindex, rtINT))^;
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btSingle: psingle(res.dta)^ := pdouble(ppcasmcall(rint, rfloat, address, st, stindex, rtFLOAT))^;
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btDouble, btExtended: pdouble(res.dta)^ := pdouble(ppcasmcall(rint, rfloat, address, st, stindex, rtFLOAT))^;
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btPChar: ppchar(res.dta)^ := pchar(pdword(ppcasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btChar: pchar(res.dta)^ := char(pdword(ppcasmcall(rint, rfloat, address, st, stindex, rtINT))^);
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btStaticArray, btRecord: ppcasmcall(rint, rfloat, address, st, stindex, rtINT);
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btArray: res.dta := ppcasmcall(rint, rfloat, address, st, stindex, rtINT);
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{ TODO add and test }
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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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