fpPS4/spirv/emit_op.pas
2022-12-23 15:05:57 +03:00

1452 lines
37 KiB
ObjectPascal

unit emit_op;
{$mode objfpc}{$H+}
interface
uses
spirv,
srNode,
srType,
srTypes,
srConst,
srReg,
srLayout,
srVariable,
srOp,
srCFGLabel,
srOpUtils,
srCacheOp,
srInterface;
type
TEmitOp=class(TEmitInterface)
//
function _Op1(pLine:PspirvOp;OpId:DWORD;dst,src:PsrRegNode):PSpirvOp;
function _Op2(pLine:PspirvOp;OpId:DWORD;dst,src0,src1:PsrRegNode):PSpirvOp;
function _Op3(pLine:PspirvOp;OpId:DWORD;dst,src0,src1,src2:PsrRegNode):PSpirvOp;
function _Op4(pLine:PspirvOp;OpId:DWORD;dst,src0,src1,src2,src3:PsrRegNode):PSpirvOp;
//
function _OpGlsl1(pLine:PspirvOp;OpId:DWORD;dst,src:PsrRegNode):PSpirvOp;
function _OpGlsl2(pLine:PspirvOp;OpId:DWORD;dst,src0,src1:PsrRegNode):PSpirvOp;
function _OpGlsl3(pLine:PspirvOp;OpId:DWORD;dst,src0,src1,src2:PsrRegNode):PSpirvOp;
//
function Op1(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src:PsrRegNode):PSpirvOp;
function Op2(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1:PsrRegNode):PSpirvOp;
function Op3(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1,src2:PsrRegNode):PSpirvOp;
function Op4(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1,src2,src3:PsrRegNode):PSpirvOp;
//
function OpGlsl1(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src:PsrRegNode):PSpirvOp;
function OpGlsl2(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1:PsrRegNode):PSpirvOp;
function OpGlsl3(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1,src2:PsrRegNode):PSpirvOp;
//
function OpBitcast(pLine:PspirvOp;dst,src:PsrRegNode):PSpirvOp;
function OpBoolToInt(pLine:PspirvOp;dst,src:PsrRegNode):PSpirvOp;
function OpIntToBool(pLine:PspirvOp;dst,src:PsrRegNode):PSpirvOp;
//
function OpCast (nLine, dst,src:PsrNode):PsrNode; override;
function OpLoad (nLine,dtype,dst,src:PsrNode):PsrNode; override;
function OpStore(nLine, dst,src:PsrNode):PsrNode; override;
//
function OpLoad(pLine:PspirvOp;dst:PsrRegNode;src:PsrNode):PSpirvOp;
//
function OpExtract(pLine:PspirvOp;dst,src:PsrRegNode;id:DWORD):PSpirvOp;
function OpConstruct(pLine:PspirvOp;dst:PsrRegNode):PSpirvOp;
function OpAccessChain(pLine:PspirvOp;vType:PsrType;dst:PsrChain;src:PsrVariable):PSpirvOp;
function OpCondMerge(pLine,pLabel:PspirvOp):PSpirvOp;
function OpLoopMerge(pLine,pLabel0,pLabel1:PspirvOp):PSpirvOp;
function OpBranch(pLine,pLabel:PspirvOp):PSpirvOp;
function OpBranchCond(pLine,pLabel0,pLabel1:PspirvOp;src:PsrRegNode):PSpirvOp;
function OpReturnValue(pLine:PspirvOp;src:PsrRegNode):PSpirvOp;
//
procedure OpFmaF32(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
procedure OpFmaI32(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
procedure OpFmaU32(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
//
procedure OpSelect(dst:PsrRegSlot;src0,src1,cond:PsrRegNode);
//
procedure OpIAddCar(pLine:PspirvOp;dst,car,src0,src1:PsrRegNode);
procedure OpIAddExt(dst,car:PsrRegSlot;src0,src1:PsrRegNode);
//
procedure OpISubBor(pLine:PspirvOp;dst,bor,src0,src1:PsrRegNode);
procedure OpISubExt(dst,bor:PsrRegSlot;src0,src1:PsrRegNode);
//
function OpAbsDiff(pLine:PspirvOp;dst,src0,src1:PsrRegNode):PSpirvOp;
procedure OpWQM32(dst:PsrRegSlot;src:PsrRegNode);
//
procedure OpBFEU32(dst:PsrRegSlot;base,src0,src1:PsrRegNode);
procedure OpBFIB32(dst:PsrRegSlot;bitmsk,src0,src1:PsrRegNode);
//
function OpBFITo(src0,src1,src2,src3:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
//
procedure OpPackAnc(dst:PsrRegSlot;prim,smid,rtid:PsrRegNode);
//
function OpUMinTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpUMaxTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFMinTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFMaxTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpNMinTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpNMaxTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
//
procedure OpMED3F(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
//
function OpPackOfs(pLine:PspirvOp;rtype:TsrDataType;count:Byte;src:PsrRegNode):PsrRegNode;
function OpMakeCon(pLine:PspirvOp;dst:PsrRegNode;src:PPsrRegNode):PSpirvOp;
function OpMakeVec(pLine:PspirvOp;rtype:TsrDataType;src:PPsrRegNode):PsrRegNode;
function OpMakeCub(pLine:PspirvOp;rtype:TsrDataType;src:PPsrRegNode):PsrRegNode;
function OpSampledImage(pLine:PspirvOp;Tgrp,Sgrp:PsrNode;dtype:TsrDataType;info:TsrTypeImageInfo):PsrRegNode;
//
procedure OpIAdd(dst:PsrRegSlot;src0,src1:PsrRegNode);
procedure OpISub(dst:PsrRegSlot;src0,src1:PsrRegNode);
procedure OpIMul(dst:PsrRegSlot;src0,src1:PsrRegNode);
//
function OpShlTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpShlTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
function OpShrTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpShrTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpIAddTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpIAddTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
function OpISubTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpISubTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
function OpIMulTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpIMulTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
function OpIDivTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpIDivTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpFAddTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFSubTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFMulTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFDivTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpFAddToS(src0:PsrRegNode;src1:Single;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFMulToS(src0:PsrRegNode;src1:Single;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpUToF(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
function OpSToF(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
function OpUToU(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
function OpSToS(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
function OpFToF(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpFloorTo(src:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
//
procedure OpNot(dst:PsrRegSlot;src:PsrRegNode);
procedure OpLogicalNot(dst:PsrRegSlot;src:PsrRegNode);
procedure OpBitwiseOr(dst:PsrRegSlot;src0,src1:PsrRegNode);
procedure OpBitwiseXor(dst:PsrRegSlot;src0,src1:PsrRegNode);
procedure OpLogicalOr(dst:PsrRegSlot;src0,src1:PsrRegNode);
procedure OpBitwiseAnd(dst:PsrRegSlot;src0,src1:PsrRegNode);
procedure OpLogicalAnd(dst:PsrRegSlot;src0,src1:PsrRegNode);
//
function OpNotTo(src:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpOrTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpAndTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
function OpAndTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpBitCountTo(src:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
//
function OpImageSampleImplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord:PsrRegNode):PSpirvOp;
function OpImageSampleExplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord:PsrRegNode):PSpirvOp;
function OpImageSampleDrefImplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord,pcf:PsrRegNode):PSpirvOp;
function OpImageSampleDrefExplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord,pcf:PsrRegNode):PSpirvOp;
function OpImageGather(pLine:PspirvOp;img:PsrNode;dst,coord:PsrRegNode;id:Byte):PSpirvOp;
function OpImageDrefGather(pLine:PspirvOp;img:PsrNode;dst,coord,pcf:PsrRegNode):PSpirvOp;
function OpImageFetch(pLine:PspirvOp;Tgrp:PsrNode;dst,coord:PsrRegNode):PSpirvOp;
function OpImageRead(pLine:PspirvOp;Tgrp:PsrNode;dst,idx:PsrRegNode):PspirvOp;
function OpImageWrite(pLine:PspirvOp;Tgrp:PsrNode;idx,src:PsrRegNode):PspirvOp;
end;
function isPowerOfTwo(x:QWORD):Boolean; inline;
function fastIntLog2(i:QWORD):QWORD; inline;
implementation
function isPowerOfTwo(x:QWORD):Boolean; inline;
begin
Result:=((x-1) and x)=0;
end;
function fastIntLog2(i:QWORD):QWORD; inline;
begin
Result:=BsfQWORD(i);
end;
procedure _set_line(ppLine:PPspirvOp;pLine:PspirvOp);
begin
if (ppLine=nil) then Exit;
ppLine^:=pLine;
end;
//
function TEmitOp._Op1(pLine:PspirvOp;OpId:DWORD;dst,src:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src);
Result:=node;
end;
function TEmitOp._Op2(pLine:PspirvOp;OpId:DWORD;dst,src0,src1:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src0);
node^.AddParam(src1);
Result:=node;
end;
function TEmitOp._Op3(pLine:PspirvOp;OpId:DWORD;dst,src0,src1,src2:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src0);
node^.AddParam(src1);
node^.AddParam(src2);
Result:=node;
end;
function TEmitOp._Op4(pLine:PspirvOp;OpId:DWORD;dst,src0,src1,src2,src3:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src0);
node^.AddParam(src1);
node^.AddParam(src2);
node^.AddParam(src3);
Result:=node;
end;
//
function TEmitOp._OpGlsl1(pLine:PspirvOp;OpId:DWORD;dst,src:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSGlslOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src);
Result:=node;
end;
function TEmitOp._OpGlsl2(pLine:PspirvOp;OpId:DWORD;dst,src0,src1:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSGlslOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src0);
node^.AddParam(src1);
Result:=node;
end;
function TEmitOp._OpGlsl3(pLine:PspirvOp;OpId:DWORD;dst,src0,src1,src2:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSGlslOp(pLine,OpId); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src0);
node^.AddParam(src1);
node^.AddParam(src2);
Result:=node;
end;
//
function TEmitOp.Op1(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src:PsrRegNode):PSpirvOp;
begin
Result:=_Op1(line,OpId,dst^.New(line,rtype),src);
end;
function TEmitOp.Op2(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1:PsrRegNode):PSpirvOp;
begin
Result:=_Op2(line,OpId,dst^.New(line,rtype),src0,src1);
end;
function TEmitOp.Op3(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1,src2:PsrRegNode):PSpirvOp;
begin
Result:=_Op3(line,OpId,dst^.New(line,rtype),src0,src1,src2);
end;
function TEmitOp.Op4(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1,src2,src3:PsrRegNode):PSpirvOp;
begin
Result:=_Op4(line,OpId,dst^.New(line,rtype),src0,src1,src2,src3);
end;
function TEmitOp.OpGlsl1(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src:PsrRegNode):PSpirvOp;
begin
Result:=_OpGlsl1(line,OpId,dst^.New(line,rtype),src);
end;
function TEmitOp.OpGlsl2(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1:PsrRegNode):PSpirvOp;
begin
Result:=_OpGlsl2(line,OpId,dst^.New(line,rtype),src0,src1)
end;
function TEmitOp.OpGlsl3(OpId:DWORD;rtype:TsrDataType;dst:PsrRegSlot;src0,src1,src2:PsrRegNode):PSpirvOp;
begin
Result:=_OpGlsl3(line,OpId,dst^.New(line,rtype),src0,src1,src2);
end;
function TEmitOp.OpBitcast(pLine:PspirvOp;dst,src:PsrRegNode):PSpirvOp;
begin
Result:=_Op1(pLine,Op.OpBitcast,dst,src);
end;
function TEmitOp.OpBoolToInt(pLine:PspirvOp;dst,src:PsrRegNode):PSpirvOp;
Var
src0,src1:PsrRegNode;
begin
src0:=NewReg_q(dst^.dtype,0,@pLine);
src1:=NewReg_q(dst^.dtype,1,@pLine);
Result:=_Op3(pLine,Op.OpSelect,dst,src,src1,src0);
end;
function TEmitOp.OpIntToBool(pLine:PspirvOp;dst,src:PsrRegNode):PSpirvOp;
Var
src0:PsrRegNode;
begin
src0:=NewReg_q(src^.dtype,0,@pLine);
Result:=_Op2(pLine,Op.OpINotEqual,dst,src,src0);
end;
function TEmitOp.OpCast(nLine,dst,src:PsrNode):PsrNode;
var
rdst,rsrc,rtmp:PsrRegNode;
pLine:PspirvOp;
begin
pLine:=nLine^.AsType(ntOpCustom);
rdst := dst^.AsType(ntReg);
rsrc := src^.AsType(ntReg);
Assert(pLine<>nil);
Assert(dst<>nil);
Assert(src<>nil);
if (rsrc^.dtype=dtBool) then
begin
Case rdst^.dtype of
dtInt32,
dtUint32:Result:=OpBoolToInt(pLine,rdst,rsrc);
else
begin
rtmp:=NewReg(dtUint32);
OpBoolToInt(pLine,rtmp,rsrc);
Result:=OpBitcast(pLine,rdst,rtmp);
end;
end;
end else
if (rdst^.dtype=dtBool) then
begin
Case rsrc^.dtype of
dtInt32,
dtUint32:Result:=OpIntToBool(pLine,rdst,rsrc);
else
begin
rtmp:=NewReg(dtUint32);
OpBitcast(pLine,rtmp,rsrc);
Result:=OpIntToBool(pLine,rdst,rtmp);
end;
end;
end else
begin
Result:=OpBitcast(pLine,rdst,rsrc);
end;
end;
function TEmitOp.OpLoad(nLine,dtype,dst,src:PsrNode):PsrNode;
var
pLine:PspirvOp;
pType:PsrType;
node:PSpirvOp;
begin
pLine:=nLine^.AsType(ntOpCustom);
pType:=dtype^.AsType(ntType);
Assert(dst<>nil);
Assert(src<>nil);
Assert(pLine<>nil);
//Assert(pType<>nil);
node:=AddSpirvOp(pLine,Op.OpLoad);
node^.pType:=pType;
node^.pDst :=dst;
node^.AddParam(src);
Result:=node;
end;
function TEmitOp.OpStore(nLine,dst,src:PsrNode):PsrNode;
Var
pLine:PspirvOp;
node:PSpirvOp;
begin
pLine:=nLine^.AsType(ntOpCustom);
Assert(dst<>nil);
Assert(src<>nil);
Assert(pLine<>nil);
node:=AddSpirvOp(pLine,Op.OpStore);
node^.pDst:=dst; //write
node^.AddParam(src);
Result:=node;
end;
function TEmitOp.OpLoad(pLine:PspirvOp;dst:PsrRegNode;src:PsrNode):PSpirvOp;
Var
dtype:PsrType;
begin
dtype:=TypeList.Fetch(dst^.dtype);
Result:=PSpirvOp(OpLoad(pLine,dtype,dst,src));
end;
function TEmitOp.OpExtract(pLine:PspirvOp;dst,src:PsrRegNode;id:DWORD):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpCompositeExtract);
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(src);
node^.AddLiteral(id);
Result:=node;
end;
function TEmitOp.OpConstruct(pLine:PspirvOp;dst:PsrRegNode):PSpirvOp;
var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpCompositeConstruct);
node^.pType:=TypeList.Fetch(dst^.dtype);
Assert(node^.pType<>nil);
node^.pDst:=dst;
Result:=node;
//child add later
end;
function TEmitOp.OpAccessChain(pLine:PspirvOp;vType:PsrType;dst:PsrChain;src:PsrVariable):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpAccessChain);
Assert(vType<>nil);
node^.pType:=TypeList.FetchPointer(vType,src^.GetStorageClass);
node^.pDst:=dst;
node^.AddParam(src); //base
//dst^.pLine:=node;
Result:=node;
//index add later
end;
function TEmitOp.OpCondMerge(pLine,pLabel:PspirvOp):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpSelectionMerge);
node^.AddParam(pLabel^.pDst);
node^.AddLiteral(SelectionControl.None,'None');
Result:=node;
end;
function TEmitOp.OpLoopMerge(pLine,pLabel0,pLabel1:PspirvOp):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpLoopMerge);
node^.AddParam(pLabel0^.pDst);
node^.AddParam(pLabel1^.pDst);
node^.AddLiteral(LoopControl.None,'None');
Result:=node;
end;
function TEmitOp.OpBranch(pLine,pLabel:PspirvOp):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpBranch);
node^.AddParam(pLabel^.pDst);
Result:=node;
end;
function TEmitOp.OpBranchCond(pLine,pLabel0,pLabel1:PspirvOp;src:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpBranchConditional);
node^.AddParam(src);
node^.AddParam(pLabel0^.pDst);
node^.AddParam(pLabel1^.pDst);
Result:=node;
end;
function TEmitOp.OpReturnValue(pLine:PspirvOp;src:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpReturnValue);
node^.AddParam(src);
Result:=node;
end;
//
procedure TEmitOp.OpFmaF32(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
begin
//vdst = vsrc0.f * vsrc1.f + vdst.f -> fma
//NoContraction decoration
OpGlsl3(GlslOp.Fma,dtFloat32,dst,src0,src1,src2);
end;
procedure TEmitOp.OpFmaI32(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
var
mul,sum:PsrRegNode;
begin
//vdst = vsrc0.i * vsrc1.i + vdst.i
mul:=NewReg(dtInt32);
sum:=dst^.New(line,dtInt32);
_Op2(line,Op.OpIMul,mul,src0,src1);
_Op2(line,Op.OpIAdd,sum,mul,src2);
end;
procedure TEmitOp.OpFmaU32(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
var
mul,sum:PsrRegNode;
begin
//vdst = vsrc0.u * vsrc1.u + vdst.u
mul:=NewReg(dtUInt32);
sum:=dst^.New(line,dtUInt32);
_Op2(line,Op.OpIMul,mul,src0,src1);
_Op2(line,Op.OpIAdd,sum,mul,src2);
end;
//
procedure TEmitOp.OpSelect(dst:PsrRegSlot;src0,src1,cond:PsrRegNode);
begin
Op3(Op.OpSelect,LazyType2(src0^.dtype,src1^.dtype),dst,cond,src1,src0);
end;
procedure TEmitOp.OpIAddCar(pLine:PspirvOp;dst,car,src0,src1:PsrRegNode);
Var
node:PSpirvOp;
rsl:PsrRegNode;
begin
node:=AddSpirvOp(pLine,Op.OpIAddCarry); //need first
node^.AddParam(src0);
node^.AddParam(src1);
rsl:=NewReg(dtStruct2u);
node^.pType:=TypeList.Fetch(dtStruct2u);
node^.pDst:=rsl;
dst:=BitcastList.FetchDstr(TsrDataType(dtStruct2u).Child,dst);
car:=BitcastList.FetchDstr(TsrDataType(dtStruct2u).Child,car);
pLine:=node;
pLine:=OpExtract(pLine,dst,rsl,0);
pLine:=OpExtract(pLine,car,rsl,1);
end;
procedure TEmitOp.OpIAddExt(dst,car:PsrRegSlot;src0,src1:PsrRegNode);
Var
node:PSpirvOp;
rsl:PsrRegPair;
begin
node:=AddSpirvOp(srOpUtils.OpIAddExt); //need first
node^.AddParam(src0);
node^.AddParam(src1);
rsl:=NewRegPair;
rsl^.pWriter:=node;
node^.pDst:=rsl;
rsl^.pDst0:=dst^.New(line,dtUint32);
rsl^.pDst1:=car^.New(line,dtUint32);
end;
procedure TEmitOp.OpISubBor(pLine:PspirvOp;dst,bor,src0,src1:PsrRegNode);
Var
node:PSpirvOp;
rsl:PsrRegNode;
begin
node:=AddSpirvOp(pLine,Op.OpISubBorrow); //need first
node^.AddParam(src0);
node^.AddParam(src1);
rsl:=NewReg(dtStruct2u);
node^.pType:=TypeList.Fetch(dtStruct2u);
node^.pDst:=rsl;
dst:=BitcastList.FetchDstr(TsrDataType(dtStruct2u).Child,dst);
bor:=BitcastList.FetchDstr(TsrDataType(dtStruct2u).Child,bor);
pLine:=node;
pLine:=OpExtract(pLine,dst,rsl,0);
pLine:=OpExtract(pLine,bor,rsl,1);
end;
procedure TEmitOp.OpISubExt(dst,bor:PsrRegSlot;src0,src1:PsrRegNode);
Var
node:PSpirvOp;
rsl:PsrRegPair;
begin
node:=AddSpirvOp(srOpUtils.OpISubExt); //need first
node^.AddParam(src0);
node^.AddParam(src1);
rsl:=NewRegPair;
rsl^.pWriter:=node;
node^.pDst:=rsl;
rsl^.pDst0:=dst^.New(line,dtUint32);
rsl^.pDst1:=bor^.New(line,dtUint32);
end;
//
function TEmitOp.OpAbsDiff(pLine:PspirvOp;dst,src0,src1:PsrRegNode):PSpirvOp;
begin
Result:=_Op2(pLine,srOpUtils.OpAbsDiff,dst,src0,src1);
end;
procedure TEmitOp.OpWQM32(dst:PsrRegSlot;src:PsrRegNode);
begin
Op1(srOpUtils.OpWQM32,dtUnknow,dst,src);
end;
procedure TEmitOp.OpBFEU32(dst:PsrRegSlot;base,src0,src1:PsrRegNode);
begin
Op3(srOpUtils.OpBFEU32,dtUint32,dst,base,src0,src1);
end;
procedure TEmitOp.OpBFIB32(dst:PsrRegSlot;bitmsk,src0,src1:PsrRegNode);
begin
Op3(srOpUtils.OpBFIB32,dtUint32,dst,bitmsk,src0,src1);
end;
function TEmitOp.OpBFITo(src0,src1,src2,src3:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_Op4(_get_line(ppLine),Op.OpBitFieldInsert,Result,src0,src1,src2,src3));
end;
//
procedure TEmitOp.OpPackAnc(dst:PsrRegSlot;prim,smid,rtid:PsrRegNode);
begin
Op3(srOpUtils.OpPackAnc,dtUint32,dst,prim,smid,rtid);
end;
//
function TEmitOp.OpUMinTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_OpGlsl2(_get_line(ppLine),GlslOp.UMin,Result,src0,src1));
end;
function TEmitOp.OpUMaxTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_OpGlsl2(_get_line(ppLine),GlslOp.UMax,Result,src0,src1));
end;
function TEmitOp.OpFMinTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_OpGlsl2(_get_line(ppLine),GlslOp.FMin,Result,src0,src1));
end;
function TEmitOp.OpFMaxTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_OpGlsl2(_get_line(ppLine),GlslOp.FMax,Result,src0,src1));
end;
function TEmitOp.OpNMinTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_OpGlsl2(_get_line(ppLine),GlslOp.NMin,Result,src0,src1));
end;
function TEmitOp.OpNMaxTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_OpGlsl2(_get_line(ppLine),GlslOp.NMax,Result,src0,src1));
end;
procedure TEmitOp.OpMED3F(dst:PsrRegSlot;src0,src1,src2:PsrRegNode);
var
min:PsrRegNode;
max:PsrRegNode;
mmx:PsrRegNode;
begin
min:=OpFMinTo(src0,src1); //min(s0,s1)
max:=OpNMaxTo(src0,src1); //max(s0,s1)
mmx:=OpFMinTo(max ,src2); //min(max(s0,s1),s2)
OpGlsl2(GlslOp.NMax,src0^.dtype,dst,min,mmx); //max(min(s0,s1),min(max(s0,s1),s2))
end;
function TEmitOp.OpPackOfs(pLine:PspirvOp;rtype:TsrDataType;count:Byte;src:PsrRegNode):PsrRegNode;
Var
p:PsrCacheOp;
dst:PsrRegNode;
node:PSpirvOp;
begin
Assert(count<>0);
Assert(src<>nil);
pLine:=GetMaxPlace(pLine,1,@src);
p:=CacheOpList.Fetch(pLine^.Parent,srOpUtils.OpPackOfs,rtype,1,@src);
if (p^.pDst=nil) then
begin
node:=AddSpirvOp(pLine,srOpUtils.OpPackOfs); //need first
dst:=NewReg(rtype);
node^.pDst:=dst;
node^.AddLiteral(count);
node^.AddParam(src);
p^.pDst:=dst; //save
Result:=dst;
end else
begin
Result:=PsrRegNode(p^.pDst);
end;
end;
function TEmitOp.OpMakeCon(pLine:PspirvOp;dst:PsrRegNode;src:PPsrRegNode):PSpirvOp;
Var
p:PsrCacheOp;
node:PSpirvOp;
rtype:TsrDataType;
i:Byte;
begin
Result:=pLine;
Assert(src<>nil);
rtype:=dst^.dtype;
pLine:=GetMaxPlace(pLine,rtype.Count,src);
p:=CacheOpList.Fetch(pLine^.Parent,Op.OpCompositeConstruct,rtype,rtype.Count,src);
if (p^.pDst=nil) then
begin
node:=OpConstruct(pLine,dst);
For i:=0 to rtype.Count-1 do
begin
node^.AddParam(src[i]);
end;
p^.pDst:=dst; //save
Result:=node;
end else
begin
dst^.pWriter:=p^.pDst;
end;
end;
function TEmitOp.OpMakeVec(pLine:PspirvOp;rtype:TsrDataType;src:PPsrRegNode):PsrRegNode;
Var
p:PsrCacheOp;
dst:PsrRegNode;
node:PSpirvOp;
i:Byte;
begin
Assert(src<>nil);
pLine:=GetMaxPlace(pLine,rtype.Count,src);
p:=CacheOpList.Fetch(pLine^.Parent,srOpUtils.OpMakeVec,rtype,rtype.Count,src);
if (p^.pDst=nil) then
begin
node:=AddSpirvOp(pLine,srOpUtils.OpMakeVec); //need first
dst:=NewReg(rtype);
node^.pDst:=dst;
For i:=0 to rtype.Count-1 do
begin
node^.AddParam(src[i]);
end;
p^.pDst:=dst; //save
Result:=dst;
end else
begin
Result:=PsrRegNode(p^.pDst);
end;
end;
//x,y,face,slice
function TEmitOp.OpMakeCub(pLine:PspirvOp;rtype:TsrDataType;src:PPsrRegNode):PsrRegNode;
Var
p:PsrCacheOp;
dst:PsrRegNode;
node:PSpirvOp;
i:Byte;
begin
Assert(src<>nil);
pLine:=GetMaxPlace(pLine,rtype.Count,src);
p:=CacheOpList.Fetch(pLine^.Parent,srOpUtils.OpMakeCub,rtype,rtype.Count,src);
if (p^.pDst=nil) then
begin
node:=AddSpirvOp(pLine,srOpUtils.OpMakeCub); //need first
dst:=NewReg(rtype);
node^.pDst:=dst;
For i:=0 to rtype.Count-1 do
begin
node^.AddParam(src[i]);
end;
p^.pDst:=dst; //save
Result:=dst;
end else
begin
Result:=PsrRegNode(p^.pDst);
end;
end;
function TEmitOp.OpSampledImage(pLine:PspirvOp;Tgrp,Sgrp:PsrNode;dtype:TsrDataType;info:TsrTypeImageInfo):PsrRegNode;
Var
src:array[0..1] of PsrNode;
pType:PsrType;
p:PsrCacheOp;
dst:PsrRegNode;
node:PSpirvOp;
tmp:PSpirvOp;
label
_prev;
begin
src[0]:=Tgrp;
src[1]:=Sgrp;
Assert(pLine<>nil);
p:=CacheOpList.Fetch(pLine^.Parent,Op.OpSampledImage,dtTypeSampledImage,2,@src);
if (p^.pDst<>nil) then //check before break block
begin
node:=pLine;
repeat
if (node^.pDst=p^.pDst) then
begin
Break; //end
end;
if node^.IsType(ntOpBlock) then
begin
tmp:=nil;
if (PsrOpBlock(node)^.Block.bType in [btCond,btLoop]) then
begin
p^.pDst:=nil; //reset
Break;
end else
begin
tmp:=node^.Last;
end;
if (tmp<>nil) then
begin
node:=tmp;
Continue;
end;
end;
_prev:
tmp:=node^.Prev;
if (tmp=nil) then
begin
if (node^.Parent=nil) or
(node^.Parent=pLine^.Parent) then
begin
Break; //end
end else
begin
node:=node^.Parent;
Goto _prev;
end;
end else
begin
node:=tmp;
end;
until false;
end;
if (p^.pDst=nil) then
begin
node:=AddSpirvOp(pLine,Op.OpSampledImage); //need first
dst:=NewReg(dtTypeSampledImage);
pType:=TypeList.Fetch(dtype);
pType:=TypeList.FetchImage(pType,info);
pType:=TypeList.FetchSampledImage(pType);
node^.pType:=pType;
node^.pDst:=dst;
node^.AddParam(Tgrp);
node^.AddParam(Sgrp);
p^.pDst:=dst; //save
Result:=dst;
end else
begin
Result:=PsrRegNode(p^.pDst);
end;
end;
//
procedure TEmitOp.OpIAdd(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
if (src0^.dtype=dtInt32) or (src1^.dtype=dtInt32) then
begin
Op2(Op.OpIAdd,dtInt32,dst,src0,src1);
end else
begin
Op2(Op.OpIAdd,dtUInt32,dst,src0,src1);
end;
end;
procedure TEmitOp.OpISub(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
if (src0^.dtype=dtInt32) or (src1^.dtype=dtInt32) then
begin
Op2(Op.OpISub,dtInt32,dst,src0,src1);
end else
begin
Op2(Op.OpISub,dtUInt32,dst,src0,src1);
end;
end;
procedure TEmitOp.OpIMul(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
if (src0^.dtype=dtInt32) or (src1^.dtype=dtInt32) then
begin
Op2(Op.OpIMul,dtInt32,dst,src0,src1);
end else
begin
Op2(Op.OpIMul,dtUInt32,dst,src0,src1);
end;
end;
//
function TEmitOp.OpShlTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpShiftLeftLogical,Result,src0,src1));
end;
function TEmitOp.OpShlTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1=0) then Exit(src0);
Result:=OpShlTo(src0,NewReg_q(src0^.dtype,src1,ppLine),ppLine);
end;
function TEmitOp.OpShrTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
if (src0^.dtype.Sign<>0) then
begin
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpShiftRightArithmetic,Result,src0,src1));
end else
begin
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpShiftRightLogical ,Result,src0,src1));
end;
end;
function TEmitOp.OpShrTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1=0) then Exit(src0);
Result:=OpShrTo(src0,NewReg_q(src0^.dtype,src1,ppLine),ppLine);
end;
//
function TEmitOp.OpIAddTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src1);
if (src1=nil) then Exit(src0);
if (src0^.dtype=dtInt32) or (src1^.dtype=dtInt32) then
begin
Result:=NewReg(dtInt32);
end else
begin
Result:=NewReg(dtUInt32);
end;
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpIAdd,Result,src0,src1));
end;
function TEmitOp.OpIAddTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1=0) then Exit(src0);
Result:=OpIAddTo(src0,NewReg_q(src0^.dtype,src1,ppLine),ppLine);
end;
function TEmitOp.OpISubTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src1);
if (src1=nil) then Exit(src0);
if (src0^.dtype=dtInt32) or (src1^.dtype=dtInt32) then
begin
Result:=NewReg(dtInt32);
end else
begin
Result:=NewReg(dtUInt32);
end;
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpISub,Result,src0,src1));
end;
function TEmitOp.OpISubTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1=0) then Exit(src0);
Result:=OpISubTo(src0,NewReg_q(src0^.dtype,src1,ppLine),ppLine);
end;
function TEmitOp.OpIMulTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src1);
if (src1=nil) then Exit(src0);
if (src0^.dtype=dtInt32) or (src1^.dtype=dtInt32) then
begin
Result:=NewReg(dtInt32);
end else
begin
Result:=NewReg(dtUInt32);
end;
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpIMul,Result,src0,src1));
end;
function TEmitOp.OpIMulTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1<=1) then Exit(src0);
if isPowerOfTwo(src1) then
begin
src1:=fastIntLog2(src1);
Result:=OpShlTo (src0,src1,ppLine);
end else
begin
Result:=OpIMulTo(src0,src1,ppLine);
end;
end;
function TEmitOp.OpIDivTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
if (src0^.dtype.Sign<>0) then
begin
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpSDiv,Result,src0,src1));
end else
begin
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpUDiv,Result,src0,src1));
end;
end;
function TEmitOp.OpIDivTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1<=1) then Exit(src0);
if isPowerOfTwo(src1) then
begin
src1:=fastIntLog2(src1);
Result:=OpShrTo (src0,src1,ppLine);
end else
begin
Result:=OpIDivTo(src0,src1,ppLine);
end;
end;
//
function TEmitOp.OpFAddTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src1);
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpFAdd,Result,src0,src1));
end;
function TEmitOp.OpFSubTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src1);
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpFSub,Result,src0,src1));
end;
function TEmitOp.OpFMulTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src1);
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpFMul,Result,src0,src1));
end;
function TEmitOp.OpFDivTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src1=nil) then Exit(src0);
Result:=NewReg(src0^.dtype);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpFDiv,Result,src0,src1));
end;
//
function TEmitOp.OpFAddToS(src0:PsrRegNode;src1:Single;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1=0) then Exit(src0);
Result:=OpFAddTo(src0,NewReg_s(src0^.dtype,src1,ppLine),ppLine);
end;
function TEmitOp.OpFMulToS(src0:PsrRegNode;src1:Single;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) or (src1=0) or (src1=1) then Exit(src0);
Result:=OpFMulTo(src0,NewReg_s(src0^.dtype,src1,ppLine),ppLine);
end;
//
function TEmitOp.OpUToF(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src=nil) then Exit(src);
Result:=NewReg(rtype);
_Op1(_get_line(ppLine),Op.OpConvertUToF,Result,src);
end;
function TEmitOp.OpSToF(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src=nil) then Exit(src);
Result:=NewReg(rtype);
_Op1(_get_line(ppLine),Op.OpConvertSToF,Result,src);
end;
function TEmitOp.OpUToU(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src=nil) then Exit(src);
Result:=NewReg(rtype);
_Op1(_get_line(ppLine),Op.OpUConvert,Result,src);
end;
function TEmitOp.OpSToS(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src=nil) then Exit(src);
Result:=NewReg(rtype);
_Op1(_get_line(ppLine),Op.OpSConvert,Result,src);
end;
function TEmitOp.OpFToF(src:PsrRegNode;rtype:TsrDataType;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src=nil) then Exit(src);
Result:=NewReg(rtype);
_Op1(_get_line(ppLine),Op.OpFConvert,Result,src);
end;
//
function TEmitOp.OpFloorTo(src:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src=nil) then Exit(src);
Result:=NewReg(src^.dtype);
_OpGlsl1(_get_line(ppLine),GlslOp.Floor,Result,src)
end;
//
procedure TEmitOp.OpNot(dst:PsrRegSlot;src:PsrRegNode);
begin
Op1(Op.OpNot,dtUnknow,dst,src); //post type
end;
procedure TEmitOp.OpLogicalNot(dst:PsrRegSlot;src:PsrRegNode);
begin
Op1(Op.OpLogicalNot,dtBool,dst,src);
end;
procedure TEmitOp.OpBitwiseOr(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
Op2(Op.OpBitwiseOr,dtUnknow,dst,src0,src1); //post type
end;
procedure TEmitOp.OpBitwiseXor(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
Op2(Op.OpBitwiseXor,dtUint32,dst,src0,src1); //post need?
end;
procedure TEmitOp.OpLogicalOr(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
Op2(Op.OpLogicalOr,dtBool,dst,src0,src1);
end;
procedure TEmitOp.OpBitwiseAnd(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
Op2(Op.OpBitwiseAnd,dtUnknow,dst,src0,src1); //post type
end;
procedure TEmitOp.OpLogicalAnd(dst:PsrRegSlot;src0,src1:PsrRegNode);
begin
Op2(Op.OpLogicalAnd,dtBool,dst,src0,src1);
end;
//
function TEmitOp.OpNotTo(src:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(dtUnknow);
_set_line(ppLine,_Op1(_get_line(ppLine),Op.OpNot,Result,src)); //post type
end;
function TEmitOp.OpOrTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(dtUnknow);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpBitwiseOr,Result,src0,src1)); //post type
end;
function TEmitOp.OpAndTo(src0,src1:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(dtUnknow);
_set_line(ppLine,_Op2(_get_line(ppLine),Op.OpBitwiseAnd,Result,src0,src1)); //post type
end;
function TEmitOp.OpAndTo(src0:PsrRegNode;src1:QWORD;ppLine:PPspirvOp=nil):PsrRegNode;
begin
if (src0=nil) then Exit(src0);
Result:=OpAndTo(src0,NewReg_q(src0^.dtype,src1,ppLine),ppLine);
end;
//
function TEmitOp.OpBitCountTo(src:PsrRegNode;ppLine:PPspirvOp=nil):PsrRegNode;
begin
Result:=NewReg(src^.dtype);
_set_line(ppLine,_Op1(_get_line(ppLine),Op.OpBitCount,Result,src));
end;
//
function TEmitOp.OpImageSampleImplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageSampleImplicitLod); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(img); //Sampled Image
node^.AddParam(coord); //Coordinate
//Image Operands
Result:=node;
end;
function TEmitOp.OpImageSampleExplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageSampleExplicitLod); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(img); //Sampled Image
node^.AddParam(coord); //Coordinate
//Image Operands
Result:=node;
end;
function TEmitOp.OpImageSampleDrefImplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord,pcf:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageSampleDrefImplicitLod); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(img); //Sampled Image
node^.AddParam(coord); //Coordinate
node^.AddParam(pcf); //Dref
//Image Operands
Result:=node;
end;
function TEmitOp.OpImageSampleDrefExplicitLod(pLine:PspirvOp;img:PsrNode;dst,coord,pcf:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageSampleDrefExplicitLod); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(img); //Sampled Image
node^.AddParam(coord); //Coordinate
node^.AddParam(pcf); //Dref
//Image Operands
Result:=node;
end;
function TEmitOp.OpImageGather(pLine:PspirvOp;img:PsrNode;dst,coord:PsrRegNode;id:Byte):PSpirvOp;
Var
node:PSpirvOp;
comp:PsrRegNode;
begin
Case id of
0..3:;
else
Assert(False);
end;
comp:=NewReg_i(dtUint32,id);
node:=AddSpirvOp(pLine,Op.OpImageGather); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(img); //Sampled Image
node^.AddParam(coord); //Coordinate
node^.AddParam(comp); //Component
//Image Operands
Result:=node;
end;
function TEmitOp.OpImageDrefGather(pLine:PspirvOp;img:PsrNode;dst,coord,pcf:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageDrefGather); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(img); //Sampled Image
node^.AddParam(coord); //Coordinate
node^.AddParam(pcf); //Dref
//Image Operands
Result:=node;
end;
function TEmitOp.OpImageFetch(pLine:PspirvOp;Tgrp:PsrNode;dst,coord:PsrRegNode):PSpirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageFetch); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(Tgrp);
node^.AddParam(coord);
Result:=node;
end;
function TEmitOp.OpImageRead(pLine:PspirvOp;Tgrp:PsrNode;dst,idx:PsrRegNode):PspirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageRead); //need first
node^.pType:=TypeList.Fetch(dst^.dtype);
node^.pDst:=dst;
node^.AddParam(Tgrp);
if (idx<>nil) then
begin
node^.AddParam(idx);
end else
begin
node^.AddParam(ConstList.Fetch_i(dtUint32,0));
end;
Result:=node;
end;
function TEmitOp.OpImageWrite(pLine:PspirvOp;Tgrp:PsrNode;idx,src:PsrRegNode):PspirvOp;
Var
node:PSpirvOp;
begin
node:=AddSpirvOp(pLine,Op.OpImageWrite); //need first
node^.pDst:=Tgrp; //write
if (idx<>nil) then
begin
node^.AddParam(idx);
end else
begin
node^.AddParam(ConstList.Fetch_i(dtUint32,0));
end;
node^.AddParam(src);
Result:=node;
end;
end.