Implement remaining conversions of integer types to and from long long.

The floating-point conversions are not done yet (but do now give an error).
This commit is contained in:
Stephen Heumann 2021-02-01 22:43:35 -06:00
parent 091a25b25d
commit 1dc0dc7a19

70
Gen.pas
View File

@ -1310,14 +1310,14 @@ else if op^.q in [byteToLong,byteToUlong] then begin
GenImplied(m_phx);
GenImplied(m_pha);
end; {else}
end {if}
end {else if}
else if op^.q in [byteToWord,byteToUword] then begin
lab1 := GenLabel;
GenNative(m_bit_imm, immediate, $0080, nil, 0);
GenNative(m_beq, relative, lab1, nil, 0);
GenNative(m_ora_imm, immediate, $FF00, nil, 0);
GenLab(lab1);
end {if}
end {else if}
else if op^.q in [ubyteToLong,ubyteToUlong,uwordToLong,uwordToUlong] then
begin
if (lLong.preference & A_X) <> 0 then begin
@ -1395,8 +1395,8 @@ else if op^.q in [longToReal,uLongToReal] then begin
GenCall(12)
else
GenCall(13);
end {else}
else if op^.q =realToWord then
end {else if}
else if op^.q = realToWord then
GenCall(14)
else if op^.q = realToUbyte then begin
GenCall(14);
@ -1446,6 +1446,31 @@ else if op^.q in [ubyteToQuad,ubyteToUQuad,uwordToQuad,uwordToUQuad] then begin
GenImplied(m_phy);
GenImplied(m_pha);
end {else if}
else if op^.q in [byteToQuad,byteToUQuad] then begin
lab1 := GenLabel;
GenNative(m_ldx_imm, immediate, 0, nil, 0);
GenNative(m_bit_imm, immediate, $0080, nil, 0);
GenNative(m_beq, relative, lab1, nil, 0);
GenImplied(m_dex);
GenNative(m_ora_imm, immediate, $FF00, nil, 0);
GenLab(lab1);
GenImplied(m_phx);
GenImplied(m_phx);
GenImplied(m_phx);
GenImplied(m_pha);
end {else if}
else if op^.q in [wordToQuad,wordToUQuad] then begin
lab1 := GenLabel;
GenNative(m_ldx_imm, immediate, 0, nil, 0);
GenImplied(m_tay);
GenNative(m_bpl, relative, lab1, nil, 0);
GenImplied(m_dex);
GenLab(lab1);
GenImplied(m_phx);
GenImplied(m_phx);
GenImplied(m_phx);
GenImplied(m_pha);
end {else if}
else if op^.q in [ulongToQuad,ulongToUQuad] then begin
if gLong.where = A_X then begin
GenNative(m_pea, immediate, 0, nil, 0);
@ -1468,6 +1493,41 @@ else if op^.q in [ulongToQuad,ulongToUQuad] then begin
GenImplied(m_pha);
end; {else}
end {else if}
else if op^.q in [longToQuad,longToUQuad] then begin
if gLong.where = constant then begin
if glong.lval < 0 then begin
GenNative(m_pea, immediate, -1, nil, 0);
GenNative(m_pea, immediate, -1, nil, 0);
GenNative(m_pea, immediate, long(gLong.lval).msw, nil, 0);
GenNative(m_pea, immediate, long(gLong.lval).lsw, nil, 0);
end {if}
else begin
GenNative(m_pea, immediate, 0, nil, 0);
GenNative(m_pea, immediate, 0, nil, 0);
GenNative(m_pea, immediate, long(gLong.lval).msw, nil, 0);
GenNative(m_pea, immediate, long(gLong.lval).lsw, nil, 0);
end; {else}
end {if}
else begin
GenNative(m_ldy_imm, immediate, 0, nil, 0);
if gLong.where = onStack then begin
GenImplied(m_pla);
GenImplied(m_plx);
end {if}
else {if gLong.where = A_X then}
GenNative(m_cpx_imm, immediate, 0, nil, 0);
lab1 := GenLabel;
GenNative(m_bpl, relative, lab1, nil, 0);
GenImplied(m_dey);
GenLab(lab1);
GenImplied(m_phy);
GenImplied(m_phy);
GenImplied(m_phx);
GenImplied(m_pha);
end; {else}
end {else if}
else if op^.q in [realToQuad, realToUQuad] then
Error(cge1) {TODO: implement}
else if op^.q in [quadToWord,uquadToWord,quadToUWord,uquadToUWord] then begin
GenImplied(m_pla);
GenImplied(m_plx);
@ -1513,6 +1573,8 @@ else if op^.q in [quadToVoid,uquadToVoid] then begin
GenNative(m_adc_imm, immediate, 8, nil, 0);
GenImplied(m_tcs);
end {else if}
else if op^.q in [quadToReal, uquadToReal] then
Error(cge1) {TODO: implement}
else if (op^.q & $000F) = cVoid then
{do nothing}
else if lLong.preference & gLong.where = 0 then begin