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|
======= Container "mydsp" ==========
======= External types declaration ==========
DeclareStructTypeInst(StructType<"Soundfile",("void*", fBuffers)("int*", fLength)("int*", fSR)("int*", fOffset)("int", fChannels)("int", fParts)("int", fIsDouble)>)
======= Sub container begin ==========
======= Sub container "mydspSIG0" ==========
======= DSP struct begin ==========
DeclareStructTypeInst(StructType<"mydspSIG0",("int[2]", iRec2)>)
======= DSP struct end ==========
DeclareFunInst("int", "getNumInputs")
BlockInst
RetInst(Int32(0))
EndBlockInst
EndDeclare
DeclareFunInst("int", "getNumOutputs")
BlockInst
RetInst(Int32(1))
EndBlockInst
EndDeclare
======= Clear begin ==========
BlockInst
ForLoopInst
DeclareVarInst("int", l3, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l3, kLoop)), Int32(2))
StoreVarInst(Address(l3, kLoop), BinopInst("+", LoadVarInst(Address(l3, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(iRec2, kStruct)[LoadVarInst(Address(l3, kLoop))], Int32(0))
EndBlockInst
EndForLoopInst
EndBlockInst
======= Clear end ==========
======= Compute DSP begin ==========
Instructions complexity : Load = 15 Store = 4 Binop = 18 [ { Int(&) = 2 } { Int(+) = 3 } { Int(<) = 1 } { Real(*) = 5 } { Real(+) = 2 } { Real(-) = 1 } { Real(<) = 1 } { Real(<=) = 3 } ] Mathop = 0 Numbers = 18 Declare = 4 Cast = 3 Select = 0 Loop = 1
ForLoopInst
DeclareVarInst("int", i1, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(i1, kLoop)), LoadVarInst(Address(count, kFunArgs)))
StoreVarInst(Address(i1, kLoop), BinopInst("+", LoadVarInst(Address(i1, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(iRec2, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(iRec2, kStruct)[Int32(1)]), Int32(1)))
DeclareVarInst("float", fTemp8, kStack, CastInst("float", BinopInst("+", LoadVarInst(Address(iRec2, kStruct)[Int32(0)]), Int32(-1))))
DeclareVarInst("float", fTemp9, kStack, BinopInst("*", Float(0.001953125f), LoadVarInst(Address(fTemp8, kStack))))
DeclareVarInst("float", fTemp10, kStack, BinopInst("*", Float(0.00390625f), LoadVarInst(Address(fTemp8, kStack))))
StoreVarInst(Address(table, kFunArgs)[LoadVarInst(Address(i1, kLoop))], BinopInst("*", Float(2.0f), BinopInst("+", BinopInst("*", CastInst("float", BinopInst("&", BinopInst("<=", Float(0.0f), LoadVarInst(Address(fTemp9, kStack))), BinopInst("<=", LoadVarInst(Address(fTemp9, kStack)), Float(0.5f)))), BinopInst("+", LoadVarInst(Address(fTemp10, kStack)), Float(-0.5f))), BinopInst("*", CastInst("float", BinopInst("&", BinopInst("<", Float(0.5f), LoadVarInst(Address(fTemp9, kStack))), BinopInst("<=", LoadVarInst(Address(fTemp9, kStack)), Float(1.0f)))), BinopInst("-", Float(1.5f), LoadVarInst(Address(fTemp10, kStack)))))))
StoreVarInst(Address(iRec2, kStruct)[Int32(1)], LoadVarInst(Address(iRec2, kStruct)[Int32(0)]))
EndBlockInst
EndForLoopInst
======= Compute DSP end ==========
======= Sub container end ==========
======= User Interface begin ==========
BlockInst
OpenVerticalBox("Thru Zero Flanger")
AddMetaDeclareInst(fHslider0, "OWL", "PARAMETER_B")
AddMetaDeclareInst(fHslider0, "unit", "ms")
AddHorizontalSlider("Delay", fHslider0, 1e+01f, 0.5f, 2e+01f, 0.01f)
AddMetaDeclareInst(fHslider1, "OWL", "PARAMETER_D")
AddMetaDeclareInst(fHslider1, "unit", "%")
AddHorizontalSlider("Depth", fHslider1, 2e+01f, 3.0f, 1e+02f, 1.0f)
AddMetaDeclareInst(fHslider3, "OWL", "PARAMETER_C")
AddHorizontalSlider("L-R Offset", fHslider3, 0.0f, 0.0f, 1.0f, 0.001f)
AddMetaDeclareInst(fHslider2, "OWL", "PARAMETER_A")
AddMetaDeclareInst(fHslider2, "unit", "hz")
AddHorizontalSlider("Rate", fHslider2, 0.1f, 0.0f, 1.0f, 0.001f)
CloseboxInst
EndBlockInst
======= User Interface end ==========
======= Global declarations begin ==========
BlockInst
DeclareFunInst("float", "max_f", "float", dummy0, "float", dummy1)
DeclareFunInst("float", "min_f", "float", dummy0, "float", dummy1)
DeclareFunInst("float", "expf", "float", dummy0)
DeclareVarInst("float", ftbl0mydspSIG0[513], kStaticStruct)
DeclareFunInst("float", "floorf", "float", dummy0)
DeclareFunInst("float", "fmodf", "float", dummy0, "float", dummy1)
DeclareFunInst("int", "min_i", "int", dummy0, "int", dummy1)
DeclareFunInst("int", "max_i", "int", dummy0, "int", dummy1)
EndBlockInst
======= Global declarations end ==========
======= DSP struct begin ==========
DeclareStructTypeInst(StructType<"mydsp",("int", IOTA0)("float[4096]", fVec0)("int", fSampleRate)("float", fConst0)("float", fConst1)("float", fConst2)("float", fConst3)("FAUSTFLOAT", fHslider0)("float[2]", fRec0)("float", fConst4)("FAUSTFLOAT", fHslider1)("float[2]", fRec1)("float", fConst5)("FAUSTFLOAT", fHslider2)("float[2]", fRec3)("float[4096]", fVec1)("float", fConst6)("FAUSTFLOAT", fHslider3)("float[2]", fRec4)>)
======= DSP struct end ==========
DeclareFunInst("int", "getNumInputs")
BlockInst
RetInst(Int32(2))
EndBlockInst
EndDeclare
DeclareFunInst("int", "getNumOutputs")
BlockInst
RetInst(Int32(2))
EndBlockInst
EndDeclare
======= Static Init begin ==========
BlockInst
DeclareVarInst("mydspSIG0", sig0, kStack, FunCallInst("newmydspSIG0"))
DropInst(MethodFunCallInst("instanceInitmydspSIG0", LoadVarInst(Address(sig0, kStack)), LoadVarInst(Address(sample_rate, kFunArgs))))
DropInst(MethodFunCallInst("fillmydspSIG0", LoadVarInst(Address(sig0, kStack)), Int32(513), LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct|kReference|kMutable))))
EndBlockInst
BlockInst
DropInst(FunCallInst("deletemydspSIG0", LoadVarInst(Address(sig0, kStack))))
EndBlockInst
======= Static Init end ==========
======= Init begin ==========
BlockInst
StoreVarInst(Address(fSampleRate, kStruct), LoadVarInst(Address(sample_rate, kFunArgs)))
StoreVarInst(Address(fConst0, kStruct), FunCallInst("min_f", Float(1.92e+05f), FunCallInst("max_f", Float(1.0f), CastInst("float", LoadVarInst(Address(fSampleRate, kStruct))))))
StoreVarInst(Address(fConst1, kStruct), BinopInst("*", Float(0.001f), LoadVarInst(Address(fConst0, kStruct))))
StoreVarInst(Address(fConst2, kStruct), FunCallInst("expf", MinusInst(BinopInst("/", Float(2e+02f), LoadVarInst(Address(fConst0, kStruct))))))
StoreVarInst(Address(fConst3, kStruct), BinopInst("-", Float(1.0f), LoadVarInst(Address(fConst2, kStruct))))
StoreVarInst(Address(fConst4, kStruct), BinopInst("*", Float(0.01f), LoadVarInst(Address(fConst3, kStruct))))
StoreVarInst(Address(fConst5, kStruct), BinopInst("/", Float(1.0f), LoadVarInst(Address(fConst0, kStruct))))
StoreVarInst(Address(fConst6, kStruct), BinopInst("*", Float(0.5f), LoadVarInst(Address(fConst3, kStruct))))
EndBlockInst
======= Init end ==========
======= ResetUI begin ==========
BlockInst
StoreVarInst(Address(fHslider0, kStruct), CastInst("FAUSTFLOAT", Double(1e+01f)))
StoreVarInst(Address(fHslider1, kStruct), CastInst("FAUSTFLOAT", Double(2e+01f)))
StoreVarInst(Address(fHslider2, kStruct), CastInst("FAUSTFLOAT", Double(0.1f)))
StoreVarInst(Address(fHslider3, kStruct), CastInst("FAUSTFLOAT", Double(0.0f)))
EndBlockInst
======= ResetUI end ==========
======= Clear begin ==========
BlockInst
StoreVarInst(Address(IOTA0, kStruct), Int32(0))
ForLoopInst
DeclareVarInst("int", l0, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l0, kLoop)), Int32(4096))
StoreVarInst(Address(l0, kLoop), BinopInst("+", LoadVarInst(Address(l0, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fVec0, kStruct)[LoadVarInst(Address(l0, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l1, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l1, kLoop)), Int32(2))
StoreVarInst(Address(l1, kLoop), BinopInst("+", LoadVarInst(Address(l1, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec0, kStruct)[LoadVarInst(Address(l1, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l2, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l2, kLoop)), Int32(2))
StoreVarInst(Address(l2, kLoop), BinopInst("+", LoadVarInst(Address(l2, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec1, kStruct)[LoadVarInst(Address(l2, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l4, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l4, kLoop)), Int32(2))
StoreVarInst(Address(l4, kLoop), BinopInst("+", LoadVarInst(Address(l4, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec3, kStruct)[LoadVarInst(Address(l4, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l5, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l5, kLoop)), Int32(4096))
StoreVarInst(Address(l5, kLoop), BinopInst("+", LoadVarInst(Address(l5, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fVec1, kStruct)[LoadVarInst(Address(l5, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l6, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l6, kLoop)), Int32(2))
StoreVarInst(Address(l6, kLoop), BinopInst("+", LoadVarInst(Address(l6, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec4, kStruct)[LoadVarInst(Address(l6, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
EndBlockInst
======= Clear end ==========
======= Compute control begin ==========
Instructions complexity : Load = 12 Store = 0 Binop = 4 [ { Real(*) = 4 } ] Mathop = 0 Numbers = 4 Declare = 8 Cast = 4 Select = 0 Loop = 0
BlockInst
DeclareVarInst("FAUSTFLOAT*", input0, kStack, LoadVarInst(Address(inputs, kFunArgs)[Int32(0)]))
DeclareVarInst("FAUSTFLOAT*", input1, kStack, LoadVarInst(Address(inputs, kFunArgs)[Int32(1)]))
DeclareVarInst("FAUSTFLOAT*", output0, kStack, LoadVarInst(Address(outputs, kFunArgs)[Int32(0)]))
DeclareVarInst("FAUSTFLOAT*", output1, kStack, LoadVarInst(Address(outputs, kFunArgs)[Int32(1)]))
DeclareVarInst("float", fSlow0, kStack, BinopInst("*", LoadVarInst(Address(fConst3, kStruct)), CastInst("float", LoadVarInst(Address(fHslider0, kStruct)))))
DeclareVarInst("float", fSlow1, kStack, BinopInst("*", LoadVarInst(Address(fConst4, kStruct)), CastInst("float", LoadVarInst(Address(fHslider1, kStruct)))))
DeclareVarInst("float", fSlow2, kStack, BinopInst("*", LoadVarInst(Address(fConst5, kStruct)), CastInst("float", LoadVarInst(Address(fHslider2, kStruct)))))
DeclareVarInst("float", fSlow3, kStack, BinopInst("*", LoadVarInst(Address(fConst6, kStruct)), CastInst("float", LoadVarInst(Address(fHslider3, kStruct)))))
EndBlockInst
======= Compute control end ==========
======= Compute DSP begin ==========
Instructions complexity : Load = 108 Store = 14 Binop = 84 [ { Int(&) = 16 } { Int(+) = 7 } { Int(-) = 8 } { Int(<) = 1 } { Real(*) = 22 } { Real(+) = 17 } { Real(-) = 13 } ] Mathop = 13 [ { floorf = 3 } { fmodf = 2 } { max_i = 4 } { min_i = 4 } ] Numbers = 66 Declare = 22 Cast = 12 Select = 0 Loop = 1
ForLoopInst
DeclareVarInst("int", i0, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(i0, kLoop)), LoadVarInst(Address(count, kFunArgs)))
StoreVarInst(Address(i0, kLoop), BinopInst("+", LoadVarInst(Address(i0, kLoop)), Int32(1)))
BlockInst
DeclareVarInst("float", fTemp0, kStack, CastInst("float", LoadVarInst(Address(input0, kStack)[LoadVarInst(Address(i0, kLoop))])))
StoreVarInst(Address(fVec0, kStruct)[BinopInst("&", LoadVarInst(Address(IOTA0, kStruct)), Int32(4095))], LoadVarInst(Address(fTemp0, kStack)))
StoreVarInst(Address(fRec0, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow0, kStack)), BinopInst("*", LoadVarInst(Address(fConst2, kStruct)), LoadVarInst(Address(fRec0, kStruct)[Int32(1)]))))
DeclareVarInst("float", fTemp1, kStack, BinopInst("*", LoadVarInst(Address(fConst1, kStruct)), LoadVarInst(Address(fRec0, kStruct)[Int32(0)])))
DeclareVarInst("int", iTemp2, kStack, CastInst("int", LoadVarInst(Address(fTemp1, kStack))))
DeclareVarInst("int", iTemp3, kStack, BinopInst("&", LoadVarInst(Address(iTemp2, kStack)), Int32(4095)))
DeclareVarInst("float", fTemp4, kStack, CastInst("float", LoadVarInst(Address(iTemp2, kStack))))
DeclareVarInst("float", fTemp5, kStack, BinopInst("+", LoadVarInst(Address(fTemp4, kStack)), BinopInst("-", Float(1.0f), LoadVarInst(Address(fTemp1, kStack)))))
DeclareVarInst("float", fTemp6, kStack, BinopInst("-", LoadVarInst(Address(fTemp1, kStack)), LoadVarInst(Address(fTemp4, kStack))))
DeclareVarInst("int", iTemp7, kStack, BinopInst("&", BinopInst("+", LoadVarInst(Address(iTemp2, kStack)), Int32(1)), Int32(4095)))
StoreVarInst(Address(fRec1, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow1, kStack)), BinopInst("*", LoadVarInst(Address(fConst2, kStruct)), LoadVarInst(Address(fRec1, kStruct)[Int32(1)]))))
StoreVarInst(Address(fRec3, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow2, kStack)), BinopInst("-", LoadVarInst(Address(fRec3, kStruct)[Int32(1)]), FunCallInst("floorf", BinopInst("+", LoadVarInst(Address(fSlow2, kStack)), LoadVarInst(Address(fRec3, kStruct)[Int32(1)]))))))
DeclareVarInst("float", fTemp11, kStack, BinopInst("*", Float(512.0f), FunCallInst("fmodf", LoadVarInst(Address(fRec3, kStruct)[Int32(0)]), Float(1.0f))))
DeclareVarInst("int", iTemp12, kStack, CastInst("int", LoadVarInst(Address(fTemp11, kStack))))
DeclareVarInst("float", fTemp13, kStack, LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", LoadVarInst(Address(iTemp12, kStack)), Int32(512)))]))
DeclareVarInst("float", fTemp14, kStack, BinopInst("*", LoadVarInst(Address(fConst1, kStruct)), BinopInst("*", LoadVarInst(Address(fRec0, kStruct)[Int32(0)]), BinopInst("+", BinopInst("*", LoadVarInst(Address(fRec1, kStruct)[Int32(0)]), BinopInst("+", LoadVarInst(Address(fTemp13, kStack)), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp11, kStack)), FunCallInst("floorf", LoadVarInst(Address(fTemp11, kStack)))), BinopInst("-", LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", BinopInst("+", LoadVarInst(Address(iTemp12, kStack)), Int32(1)), Int32(512)))]), LoadVarInst(Address(fTemp13, kStack)))))), Float(1.0f)))))
DeclareVarInst("int", iTemp15, kStack, CastInst("int", LoadVarInst(Address(fTemp14, kStack))))
DeclareVarInst("float", fTemp16, kStack, CastInst("float", LoadVarInst(Address(iTemp15, kStack))))
StoreVarInst(Address(output0, kStack)[LoadVarInst(Address(i0, kLoop))], CastInst("FAUSTFLOAT", BinopInst("-", BinopInst("+", BinopInst("*", LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp3, kStack))), Int32(4095))]), LoadVarInst(Address(fTemp5, kStack))), BinopInst("*", LoadVarInst(Address(fTemp6, kStack)), LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp7, kStack))), Int32(4095))]))), BinopInst("+", BinopInst("*", LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", LoadVarInst(Address(iTemp15, kStack)), Int32(4095))), Int32(4095))]), BinopInst("+", LoadVarInst(Address(fTemp16, kStack)), BinopInst("-", Float(1.0f), LoadVarInst(Address(fTemp14, kStack))))), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp14, kStack)), LoadVarInst(Address(fTemp16, kStack))), LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", BinopInst("+", LoadVarInst(Address(iTemp15, kStack)), Int32(1)), Int32(4095))), Int32(4095))]))))))
DeclareVarInst("float", fTemp17, kStack, CastInst("float", LoadVarInst(Address(input1, kStack)[LoadVarInst(Address(i0, kLoop))])))
StoreVarInst(Address(fVec1, kStruct)[BinopInst("&", LoadVarInst(Address(IOTA0, kStruct)), Int32(4095))], LoadVarInst(Address(fTemp17, kStack)))
StoreVarInst(Address(fRec4, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow3, kStack)), BinopInst("*", LoadVarInst(Address(fConst2, kStruct)), LoadVarInst(Address(fRec4, kStruct)[Int32(1)]))))
DeclareVarInst("float", fTemp18, kStack, BinopInst("*", Float(512.0f), FunCallInst("fmodf", BinopInst("+", LoadVarInst(Address(fRec3, kStruct)[Int32(0)]), LoadVarInst(Address(fRec4, kStruct)[Int32(0)])), Float(1.0f))))
DeclareVarInst("int", iTemp19, kStack, CastInst("int", LoadVarInst(Address(fTemp18, kStack))))
DeclareVarInst("float", fTemp20, kStack, LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", LoadVarInst(Address(iTemp19, kStack)), Int32(512)))]))
DeclareVarInst("float", fTemp21, kStack, BinopInst("*", LoadVarInst(Address(fConst1, kStruct)), BinopInst("*", LoadVarInst(Address(fRec0, kStruct)[Int32(0)]), BinopInst("+", BinopInst("*", LoadVarInst(Address(fRec1, kStruct)[Int32(0)]), BinopInst("+", LoadVarInst(Address(fTemp20, kStack)), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp18, kStack)), FunCallInst("floorf", LoadVarInst(Address(fTemp18, kStack)))), BinopInst("-", LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", BinopInst("+", LoadVarInst(Address(iTemp19, kStack)), Int32(1)), Int32(512)))]), LoadVarInst(Address(fTemp20, kStack)))))), Float(1.0f)))))
DeclareVarInst("int", iTemp22, kStack, CastInst("int", LoadVarInst(Address(fTemp21, kStack))))
DeclareVarInst("float", fTemp23, kStack, CastInst("float", LoadVarInst(Address(iTemp22, kStack))))
StoreVarInst(Address(output1, kStack)[LoadVarInst(Address(i0, kLoop))], CastInst("FAUSTFLOAT", BinopInst("-", BinopInst("+", BinopInst("*", LoadVarInst(Address(fTemp5, kStack)), LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp3, kStack))), Int32(4095))])), BinopInst("*", LoadVarInst(Address(fTemp6, kStack)), LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp7, kStack))), Int32(4095))]))), BinopInst("+", BinopInst("*", LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", LoadVarInst(Address(iTemp22, kStack)), Int32(4095))), Int32(4095))]), BinopInst("+", LoadVarInst(Address(fTemp23, kStack)), BinopInst("-", Float(1.0f), LoadVarInst(Address(fTemp21, kStack))))), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp21, kStack)), LoadVarInst(Address(fTemp23, kStack))), LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", BinopInst("+", LoadVarInst(Address(iTemp22, kStack)), Int32(1)), Int32(4095))), Int32(4095))]))))))
StoreVarInst(Address(IOTA0, kStruct), BinopInst("+", LoadVarInst(Address(IOTA0, kStruct)), Int32(1)))
StoreVarInst(Address(fRec0, kStruct)[Int32(1)], LoadVarInst(Address(fRec0, kStruct)[Int32(0)]))
StoreVarInst(Address(fRec1, kStruct)[Int32(1)], LoadVarInst(Address(fRec1, kStruct)[Int32(0)]))
StoreVarInst(Address(fRec3, kStruct)[Int32(1)], LoadVarInst(Address(fRec3, kStruct)[Int32(0)]))
StoreVarInst(Address(fRec4, kStruct)[Int32(1)], LoadVarInst(Address(fRec4, kStruct)[Int32(0)]))
EndBlockInst
EndForLoopInst
======= Compute DSP end ==========
======= Post compute DSP begin ==========
BlockInst
EndBlockInst
======= Post compute DSP end ==========
======= Flatten FIR begin ==========
BlockInst
========== Declaration part ==========
DeclareFunInst("float", "max_f", "float", dummy0, "float", dummy1)
DeclareFunInst("float", "min_f", "float", dummy0, "float", dummy1)
DeclareFunInst("float", "expf", "float", dummy0)
DeclareVarInst("float", ftbl0mydspSIG0[513], kStaticStruct)
DeclareFunInst("float", "floorf", "float", dummy0)
DeclareFunInst("float", "fmodf", "float", dummy0, "float", dummy1)
DeclareFunInst("int", "min_i", "int", dummy0, "int", dummy1)
DeclareFunInst("int", "max_i", "int", dummy0, "int", dummy1)
DeclareVarInst("int", IOTA0, kStruct)
DeclareVarInst("float", fVec0[4096], kStruct)
DeclareVarInst("int", fSampleRate, kStruct)
DeclareVarInst("float", fConst0, kStruct)
DeclareVarInst("float", fConst1, kStruct)
DeclareVarInst("float", fConst2, kStruct)
DeclareVarInst("float", fConst3, kStruct)
DeclareVarInst("FAUSTFLOAT", fHslider0, kStruct)
DeclareVarInst("float", fRec0[2], kStruct)
DeclareVarInst("float", fConst4, kStruct)
DeclareVarInst("FAUSTFLOAT", fHslider1, kStruct)
DeclareVarInst("float", fRec1[2], kStruct)
DeclareVarInst("float", fConst5, kStruct)
DeclareVarInst("FAUSTFLOAT", fHslider2, kStruct)
DeclareVarInst("float", fRec3[2], kStruct)
DeclareVarInst("float", fVec1[4096], kStruct)
DeclareVarInst("float", fConst6, kStruct)
DeclareVarInst("FAUSTFLOAT", fHslider3, kStruct)
DeclareVarInst("float", fRec4[2], kStruct)
========== Init method ==========
StoreVarInst(Address(fSampleRate, kStruct), LoadVarInst(Address(sample_rate, kFunArgs)))
StoreVarInst(Address(fConst0, kStruct), FunCallInst("min_f", Float(1.92e+05f), FunCallInst("max_f", Float(1.0f), CastInst("float", LoadVarInst(Address(fSampleRate, kStruct))))))
StoreVarInst(Address(fConst1, kStruct), BinopInst("*", Float(0.001f), LoadVarInst(Address(fConst0, kStruct))))
StoreVarInst(Address(fConst2, kStruct), FunCallInst("expf", MinusInst(BinopInst("/", Float(2e+02f), LoadVarInst(Address(fConst0, kStruct))))))
StoreVarInst(Address(fConst3, kStruct), BinopInst("-", Float(1.0f), LoadVarInst(Address(fConst2, kStruct))))
StoreVarInst(Address(fConst4, kStruct), BinopInst("*", Float(0.01f), LoadVarInst(Address(fConst3, kStruct))))
StoreVarInst(Address(fConst5, kStruct), BinopInst("/", Float(1.0f), LoadVarInst(Address(fConst0, kStruct))))
StoreVarInst(Address(fConst6, kStruct), BinopInst("*", Float(0.5f), LoadVarInst(Address(fConst3, kStruct))))
StoreVarInst(Address(fHslider0, kStruct), CastInst("FAUSTFLOAT", Double(1e+01f)))
StoreVarInst(Address(fHslider1, kStruct), CastInst("FAUSTFLOAT", Double(2e+01f)))
StoreVarInst(Address(fHslider2, kStruct), CastInst("FAUSTFLOAT", Double(0.1f)))
StoreVarInst(Address(fHslider3, kStruct), CastInst("FAUSTFLOAT", Double(0.0f)))
StoreVarInst(Address(IOTA0, kStruct), Int32(0))
ForLoopInst
DeclareVarInst("int", l0, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l0, kLoop)), Int32(4096))
StoreVarInst(Address(l0, kLoop), BinopInst("+", LoadVarInst(Address(l0, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fVec0, kStruct)[LoadVarInst(Address(l0, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l1, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l1, kLoop)), Int32(2))
StoreVarInst(Address(l1, kLoop), BinopInst("+", LoadVarInst(Address(l1, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec0, kStruct)[LoadVarInst(Address(l1, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l2, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l2, kLoop)), Int32(2))
StoreVarInst(Address(l2, kLoop), BinopInst("+", LoadVarInst(Address(l2, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec1, kStruct)[LoadVarInst(Address(l2, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l4, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l4, kLoop)), Int32(2))
StoreVarInst(Address(l4, kLoop), BinopInst("+", LoadVarInst(Address(l4, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec3, kStruct)[LoadVarInst(Address(l4, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l5, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l5, kLoop)), Int32(4096))
StoreVarInst(Address(l5, kLoop), BinopInst("+", LoadVarInst(Address(l5, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fVec1, kStruct)[LoadVarInst(Address(l5, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
ForLoopInst
DeclareVarInst("int", l6, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l6, kLoop)), Int32(2))
StoreVarInst(Address(l6, kLoop), BinopInst("+", LoadVarInst(Address(l6, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(fRec4, kStruct)[LoadVarInst(Address(l6, kLoop))], Float(0.0f))
EndBlockInst
EndForLoopInst
========== Static init method ==========
DeclareVarInst("mydspSIG0", sig0, kStack, FunCallInst("newmydspSIG0"))
DropInst(MethodFunCallInst("instanceInitmydspSIG0", LoadVarInst(Address(sig0, kStack)), LoadVarInst(Address(sample_rate, kFunArgs))))
DropInst(MethodFunCallInst("fillmydspSIG0", LoadVarInst(Address(sig0, kStack)), Int32(513), LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct|kReference|kMutable))))
DropInst(FunCallInst("deletemydspSIG0", LoadVarInst(Address(sig0, kStack))))
========== Subcontainers ==========
========== Declaration part ==========
DeclareVarInst("int", iRec2[2], kStruct)
========== Init method ==========
ForLoopInst
DeclareVarInst("int", l3, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(l3, kLoop)), Int32(2))
StoreVarInst(Address(l3, kLoop), BinopInst("+", LoadVarInst(Address(l3, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(iRec2, kStruct)[LoadVarInst(Address(l3, kLoop))], Int32(0))
EndBlockInst
EndForLoopInst
========== Static init method ==========
========== Subcontainers ==========
========== Control ==========
========== Compute control ==========
========== Compute DSP ==========
ForLoopInst
DeclareVarInst("int", i1, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(i1, kLoop)), LoadVarInst(Address(count, kFunArgs)))
StoreVarInst(Address(i1, kLoop), BinopInst("+", LoadVarInst(Address(i1, kLoop)), Int32(1)))
BlockInst
StoreVarInst(Address(iRec2, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(iRec2, kStruct)[Int32(1)]), Int32(1)))
DeclareVarInst("float", fTemp8, kStack, CastInst("float", BinopInst("+", LoadVarInst(Address(iRec2, kStruct)[Int32(0)]), Int32(-1))))
DeclareVarInst("float", fTemp9, kStack, BinopInst("*", Float(0.001953125f), LoadVarInst(Address(fTemp8, kStack))))
DeclareVarInst("float", fTemp10, kStack, BinopInst("*", Float(0.00390625f), LoadVarInst(Address(fTemp8, kStack))))
StoreVarInst(Address(table, kFunArgs)[LoadVarInst(Address(i1, kLoop))], BinopInst("*", Float(2.0f), BinopInst("+", BinopInst("*", CastInst("float", BinopInst("&", BinopInst("<=", Float(0.0f), LoadVarInst(Address(fTemp9, kStack))), BinopInst("<=", LoadVarInst(Address(fTemp9, kStack)), Float(0.5f)))), BinopInst("+", LoadVarInst(Address(fTemp10, kStack)), Float(-0.5f))), BinopInst("*", CastInst("float", BinopInst("&", BinopInst("<", Float(0.5f), LoadVarInst(Address(fTemp9, kStack))), BinopInst("<=", LoadVarInst(Address(fTemp9, kStack)), Float(1.0f)))), BinopInst("-", Float(1.5f), LoadVarInst(Address(fTemp10, kStack)))))))
StoreVarInst(Address(iRec2, kStruct)[Int32(1)], LoadVarInst(Address(iRec2, kStruct)[Int32(0)]))
EndBlockInst
EndForLoopInst
========== Post compute DSP ==========
========== Control ==========
========== Compute control ==========
DeclareVarInst("FAUSTFLOAT*", input0, kStack, LoadVarInst(Address(inputs, kFunArgs)[Int32(0)]))
DeclareVarInst("FAUSTFLOAT*", input1, kStack, LoadVarInst(Address(inputs, kFunArgs)[Int32(1)]))
DeclareVarInst("FAUSTFLOAT*", output0, kStack, LoadVarInst(Address(outputs, kFunArgs)[Int32(0)]))
DeclareVarInst("FAUSTFLOAT*", output1, kStack, LoadVarInst(Address(outputs, kFunArgs)[Int32(1)]))
DeclareVarInst("float", fSlow0, kStack, BinopInst("*", LoadVarInst(Address(fConst3, kStruct)), CastInst("float", LoadVarInst(Address(fHslider0, kStruct)))))
DeclareVarInst("float", fSlow1, kStack, BinopInst("*", LoadVarInst(Address(fConst4, kStruct)), CastInst("float", LoadVarInst(Address(fHslider1, kStruct)))))
DeclareVarInst("float", fSlow2, kStack, BinopInst("*", LoadVarInst(Address(fConst5, kStruct)), CastInst("float", LoadVarInst(Address(fHslider2, kStruct)))))
DeclareVarInst("float", fSlow3, kStack, BinopInst("*", LoadVarInst(Address(fConst6, kStruct)), CastInst("float", LoadVarInst(Address(fHslider3, kStruct)))))
========== Compute DSP ==========
ForLoopInst
DeclareVarInst("int", i0, kLoop, Int32(0))
BinopInst("<", LoadVarInst(Address(i0, kLoop)), LoadVarInst(Address(count, kFunArgs)))
StoreVarInst(Address(i0, kLoop), BinopInst("+", LoadVarInst(Address(i0, kLoop)), Int32(1)))
BlockInst
DeclareVarInst("float", fTemp0, kStack, CastInst("float", LoadVarInst(Address(input0, kStack)[LoadVarInst(Address(i0, kLoop))])))
StoreVarInst(Address(fVec0, kStruct)[BinopInst("&", LoadVarInst(Address(IOTA0, kStruct)), Int32(4095))], LoadVarInst(Address(fTemp0, kStack)))
StoreVarInst(Address(fRec0, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow0, kStack)), BinopInst("*", LoadVarInst(Address(fConst2, kStruct)), LoadVarInst(Address(fRec0, kStruct)[Int32(1)]))))
DeclareVarInst("float", fTemp1, kStack, BinopInst("*", LoadVarInst(Address(fConst1, kStruct)), LoadVarInst(Address(fRec0, kStruct)[Int32(0)])))
DeclareVarInst("int", iTemp2, kStack, CastInst("int", LoadVarInst(Address(fTemp1, kStack))))
DeclareVarInst("int", iTemp3, kStack, BinopInst("&", LoadVarInst(Address(iTemp2, kStack)), Int32(4095)))
DeclareVarInst("float", fTemp4, kStack, CastInst("float", LoadVarInst(Address(iTemp2, kStack))))
DeclareVarInst("float", fTemp5, kStack, BinopInst("+", LoadVarInst(Address(fTemp4, kStack)), BinopInst("-", Float(1.0f), LoadVarInst(Address(fTemp1, kStack)))))
DeclareVarInst("float", fTemp6, kStack, BinopInst("-", LoadVarInst(Address(fTemp1, kStack)), LoadVarInst(Address(fTemp4, kStack))))
DeclareVarInst("int", iTemp7, kStack, BinopInst("&", BinopInst("+", LoadVarInst(Address(iTemp2, kStack)), Int32(1)), Int32(4095)))
StoreVarInst(Address(fRec1, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow1, kStack)), BinopInst("*", LoadVarInst(Address(fConst2, kStruct)), LoadVarInst(Address(fRec1, kStruct)[Int32(1)]))))
StoreVarInst(Address(fRec3, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow2, kStack)), BinopInst("-", LoadVarInst(Address(fRec3, kStruct)[Int32(1)]), FunCallInst("floorf", BinopInst("+", LoadVarInst(Address(fSlow2, kStack)), LoadVarInst(Address(fRec3, kStruct)[Int32(1)]))))))
DeclareVarInst("float", fTemp11, kStack, BinopInst("*", Float(512.0f), FunCallInst("fmodf", LoadVarInst(Address(fRec3, kStruct)[Int32(0)]), Float(1.0f))))
DeclareVarInst("int", iTemp12, kStack, CastInst("int", LoadVarInst(Address(fTemp11, kStack))))
DeclareVarInst("float", fTemp13, kStack, LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", LoadVarInst(Address(iTemp12, kStack)), Int32(512)))]))
DeclareVarInst("float", fTemp14, kStack, BinopInst("*", LoadVarInst(Address(fConst1, kStruct)), BinopInst("*", LoadVarInst(Address(fRec0, kStruct)[Int32(0)]), BinopInst("+", BinopInst("*", LoadVarInst(Address(fRec1, kStruct)[Int32(0)]), BinopInst("+", LoadVarInst(Address(fTemp13, kStack)), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp11, kStack)), FunCallInst("floorf", LoadVarInst(Address(fTemp11, kStack)))), BinopInst("-", LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", BinopInst("+", LoadVarInst(Address(iTemp12, kStack)), Int32(1)), Int32(512)))]), LoadVarInst(Address(fTemp13, kStack)))))), Float(1.0f)))))
DeclareVarInst("int", iTemp15, kStack, CastInst("int", LoadVarInst(Address(fTemp14, kStack))))
DeclareVarInst("float", fTemp16, kStack, CastInst("float", LoadVarInst(Address(iTemp15, kStack))))
StoreVarInst(Address(output0, kStack)[LoadVarInst(Address(i0, kLoop))], CastInst("FAUSTFLOAT", BinopInst("-", BinopInst("+", BinopInst("*", LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp3, kStack))), Int32(4095))]), LoadVarInst(Address(fTemp5, kStack))), BinopInst("*", LoadVarInst(Address(fTemp6, kStack)), LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp7, kStack))), Int32(4095))]))), BinopInst("+", BinopInst("*", LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", LoadVarInst(Address(iTemp15, kStack)), Int32(4095))), Int32(4095))]), BinopInst("+", LoadVarInst(Address(fTemp16, kStack)), BinopInst("-", Float(1.0f), LoadVarInst(Address(fTemp14, kStack))))), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp14, kStack)), LoadVarInst(Address(fTemp16, kStack))), LoadVarInst(Address(fVec0, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", BinopInst("+", LoadVarInst(Address(iTemp15, kStack)), Int32(1)), Int32(4095))), Int32(4095))]))))))
DeclareVarInst("float", fTemp17, kStack, CastInst("float", LoadVarInst(Address(input1, kStack)[LoadVarInst(Address(i0, kLoop))])))
StoreVarInst(Address(fVec1, kStruct)[BinopInst("&", LoadVarInst(Address(IOTA0, kStruct)), Int32(4095))], LoadVarInst(Address(fTemp17, kStack)))
StoreVarInst(Address(fRec4, kStruct)[Int32(0)], BinopInst("+", LoadVarInst(Address(fSlow3, kStack)), BinopInst("*", LoadVarInst(Address(fConst2, kStruct)), LoadVarInst(Address(fRec4, kStruct)[Int32(1)]))))
DeclareVarInst("float", fTemp18, kStack, BinopInst("*", Float(512.0f), FunCallInst("fmodf", BinopInst("+", LoadVarInst(Address(fRec3, kStruct)[Int32(0)]), LoadVarInst(Address(fRec4, kStruct)[Int32(0)])), Float(1.0f))))
DeclareVarInst("int", iTemp19, kStack, CastInst("int", LoadVarInst(Address(fTemp18, kStack))))
DeclareVarInst("float", fTemp20, kStack, LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", LoadVarInst(Address(iTemp19, kStack)), Int32(512)))]))
DeclareVarInst("float", fTemp21, kStack, BinopInst("*", LoadVarInst(Address(fConst1, kStruct)), BinopInst("*", LoadVarInst(Address(fRec0, kStruct)[Int32(0)]), BinopInst("+", BinopInst("*", LoadVarInst(Address(fRec1, kStruct)[Int32(0)]), BinopInst("+", LoadVarInst(Address(fTemp20, kStack)), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp18, kStack)), FunCallInst("floorf", LoadVarInst(Address(fTemp18, kStack)))), BinopInst("-", LoadVarInst(Address(ftbl0mydspSIG0, kStaticStruct)[FunCallInst("max_i", Int32(0), FunCallInst("min_i", BinopInst("+", LoadVarInst(Address(iTemp19, kStack)), Int32(1)), Int32(512)))]), LoadVarInst(Address(fTemp20, kStack)))))), Float(1.0f)))))
DeclareVarInst("int", iTemp22, kStack, CastInst("int", LoadVarInst(Address(fTemp21, kStack))))
DeclareVarInst("float", fTemp23, kStack, CastInst("float", LoadVarInst(Address(iTemp22, kStack))))
StoreVarInst(Address(output1, kStack)[LoadVarInst(Address(i0, kLoop))], CastInst("FAUSTFLOAT", BinopInst("-", BinopInst("+", BinopInst("*", LoadVarInst(Address(fTemp5, kStack)), LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp3, kStack))), Int32(4095))])), BinopInst("*", LoadVarInst(Address(fTemp6, kStack)), LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), LoadVarInst(Address(iTemp7, kStack))), Int32(4095))]))), BinopInst("+", BinopInst("*", LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", LoadVarInst(Address(iTemp22, kStack)), Int32(4095))), Int32(4095))]), BinopInst("+", LoadVarInst(Address(fTemp23, kStack)), BinopInst("-", Float(1.0f), LoadVarInst(Address(fTemp21, kStack))))), BinopInst("*", BinopInst("-", LoadVarInst(Address(fTemp21, kStack)), LoadVarInst(Address(fTemp23, kStack))), LoadVarInst(Address(fVec1, kStruct)[BinopInst("&", BinopInst("-", LoadVarInst(Address(IOTA0, kStruct)), BinopInst("&", BinopInst("+", LoadVarInst(Address(iTemp22, kStack)), Int32(1)), Int32(4095))), Int32(4095))]))))))
StoreVarInst(Address(IOTA0, kStruct), BinopInst("+", LoadVarInst(Address(IOTA0, kStruct)), Int32(1)))
StoreVarInst(Address(fRec0, kStruct)[Int32(1)], LoadVarInst(Address(fRec0, kStruct)[Int32(0)]))
StoreVarInst(Address(fRec1, kStruct)[Int32(1)], LoadVarInst(Address(fRec1, kStruct)[Int32(0)]))
StoreVarInst(Address(fRec3, kStruct)[Int32(1)], LoadVarInst(Address(fRec3, kStruct)[Int32(0)]))
StoreVarInst(Address(fRec4, kStruct)[Int32(1)], LoadVarInst(Address(fRec4, kStruct)[Int32(0)]))
EndBlockInst
EndForLoopInst
========== Post compute DSP ==========
EndBlockInst
======= Flatten FIR end ==========
======= Object memory footprint ==========
Heap size int = 8 bytes
Heap size int* = 0 bytes
Heap size real = 32844 bytes
Total heap size = 32860 bytes
Stack size in compute = 48 bytes
======= Variable access in Control ==========
Field = IOTA0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fVec0 size = 4096 size_bytes = 16384 read = 0 write = 0 ratio = 0
Field = fSampleRate size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst1 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst2 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst3 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec0 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
Field = fConst4 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider1 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec1 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
Field = fConst5 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider2 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec3 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
Field = fVec1 size = 4096 size_bytes = 16384 read = 0 write = 0 ratio = 0
Field = fConst6 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider3 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec4 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
======= Variable access in compute control ==========
Field = IOTA0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fVec0 size = 4096 size_bytes = 16384 read = 0 write = 0 ratio = 0
Field = fSampleRate size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst1 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst2 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst3 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fHslider0 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fRec0 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
Field = fConst4 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fHslider1 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fRec1 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
Field = fConst5 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fHslider2 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fRec3 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
Field = fVec1 size = 4096 size_bytes = 16384 read = 0 write = 0 ratio = 0
Field = fConst6 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fHslider3 size = 1 size_bytes = 4 read = 1 write = 0 ratio = 1
Field = fRec4 size = 2 size_bytes = 8 read = 0 write = 0 ratio = 0
======= Variable access in compute DSP ==========
Field = IOTA0 size = 1 size_bytes = 4 read = 11 write = 1 ratio = 12
Field = fVec0 size = 4096 size_bytes = 16384 read = 4 write = 1 ratio = 0.0012207
Field = fSampleRate size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fConst1 size = 1 size_bytes = 4 read = 3 write = 0 ratio = 3
Field = fConst2 size = 1 size_bytes = 4 read = 3 write = 0 ratio = 3
Field = fConst3 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider0 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec0 size = 2 size_bytes = 8 read = 5 write = 2 ratio = 3.5
Field = fConst4 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider1 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec1 size = 2 size_bytes = 8 read = 4 write = 2 ratio = 3
Field = fConst5 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider2 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec3 size = 2 size_bytes = 8 read = 5 write = 2 ratio = 3.5
Field = fVec1 size = 4096 size_bytes = 16384 read = 4 write = 1 ratio = 0.0012207
Field = fConst6 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fHslider3 size = 1 size_bytes = 4 read = 0 write = 0 ratio = 0
Field = fRec4 size = 2 size_bytes = 8 read = 3 write = 2 ratio = 2.5
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