Fix matrix operator bug on - and /.
This commit is contained in:
Krad
@@ -158,27 +158,28 @@ namespace Aurora{
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}
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inline Matrix operatorMxM_RR(CalcFuncD aFuncD, CalcFuncZ aFuncZ, const Aurora::Matrix &aMatrix,
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Aurora::Matrix &&aOther) {
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Aurora::Matrix &&aOther,bool oppside = false) {
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std::cout << "use right ref operation m" << std::endl;
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if (aMatrix.compareShape(aOther)) {
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int DimsStride = 1;
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double* X = oppside?aOther.getData():aMatrix.getData();
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double* Y = oppside?aMatrix.getData():aOther.getData();
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if (aMatrix.getValueType() != aOther.getValueType()) {
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//aOther is not a complex matrix
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if (aMatrix.getValueType() == Complex) {
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double *output = _MxM_NC_Calc(aFuncD, aMatrix.getDataSize(), aMatrix.getData(), aOther.getData(),
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DimsStride);
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double *output = _MxM_NC_Calc(aFuncD,aMatrix.getDataSize(), X, Y,DimsStride);
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return Matrix::New(output, aOther);
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}
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//aOther is a complex matrix, use aOther as output
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V_MxM_NC_Calc(aFuncD, aMatrix.getDataSize(), aMatrix.getData(), aOther.getData(), aOther.getData(),
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V_MxM_NC_Calc(aFuncD, aMatrix.getDataSize(), X, Y, aOther.getData(),
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DimsStride);
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return aOther;
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} else if (aMatrix.getValueType() == Normal) {
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V_MxM_NN_Calc(aFuncD, aMatrix.getDataSize(), aMatrix.getData(), aOther.getData(), aOther.getData(),
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V_MxM_NN_Calc(aFuncD, aMatrix.getDataSize(), X, Y, aOther.getData(),
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DimsStride);
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return aOther;
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} else {
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V_MxM_CC_Calc(aFuncZ, aMatrix.getDataSize(), aMatrix.getData(), aOther.getData(), aOther.getData(),
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V_MxM_CC_Calc(aFuncZ, aMatrix.getDataSize(), X, Y, aOther.getData(),
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DimsStride);
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return aOther;
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}
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@@ -289,6 +290,7 @@ namespace Aurora {
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if (slices > 0)vector.push_back(slices);
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Matrix ret({data, free}, vector);
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if (type != Normal)ret.setValueType(type);
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ret.printf();
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return ret;
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}
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@@ -349,7 +351,7 @@ namespace Aurora {
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return operatorMxM_RR(&vdAddI,&vzAddI,*this,std::forward<Matrix&&>(aMatrix));
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}
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Matrix operator+(Matrix &&aMatrix, const Matrix &aOther) {
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return operatorMxM_RR(&vdAddI,&vzAddI,aOther,std::forward<Matrix&&>(aMatrix));
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return operatorMxM_RR(&vdAddI,&vzAddI,aOther,std::forward<Matrix&&>(aMatrix),true);
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}
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//operation -
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@@ -366,7 +368,7 @@ namespace Aurora {
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return operatorMxM_RR(&vdSubI,&vzSubI,*this,std::forward<Matrix&&>(aMatrix));
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}
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Matrix operator-(Matrix &&aMatrix, const Matrix &aOther) {
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return operatorMxM_RR(&vdSubI,&vzSubI,aOther,std::forward<Matrix&&>(aMatrix));
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return operatorMxM_RR(&vdSubI,&vzSubI,aOther,std::forward<Matrix&&>(aMatrix),true);
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}
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//operation *
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@@ -383,7 +385,7 @@ namespace Aurora {
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return operatorMxM_RR(&vdMulI,&vzMulI,*this,std::forward<Matrix&&>(aMatrix));
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}
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Matrix operator*(Matrix &&aMatrix, const Matrix &aOther) {
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return operatorMxM_RR(&vdMulI,&vzMulI,aOther,std::forward<Matrix&&>(aMatrix));
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return operatorMxM_RR(&vdMulI,&vzMulI,aOther,std::forward<Matrix&&>(aMatrix),true);
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}
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//operation /
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@@ -400,7 +402,7 @@ namespace Aurora {
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return operatorMxM_RR(&vdDivI,&vzDivI,*this,std::forward<Matrix&&>(aMatrix));
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}
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Matrix operator/(Matrix &&aMatrix, const Matrix &aOther) {
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return operatorMxM_RR(&vdDivI,&vzDivI,aOther,std::forward<Matrix&&>(aMatrix));
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return operatorMxM_RR(&vdDivI,&vzDivI,aOther,std::forward<Matrix&&>(aMatrix),true);
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}
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//operator ^ (pow)
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@@ -449,7 +451,7 @@ namespace Aurora {
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std::vector<int> allDimIndex;
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int mode = 0;
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for (int j = 0; j < 3; ++j) {
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if (dims[j]==$ && this->getDims()>j){
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if (dims[j]==$ && getDims()>j){
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++mode;
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allDimIndex.push_back(j);
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}
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@@ -481,7 +483,7 @@ namespace Aurora {
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//scalar mode or ALL $
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case 0:
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default: {
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return Matrix::MatrixSlice(1 , 1, startPointer,getValueType(), mode);
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return Matrix::MatrixSlice(1 , 1, startPointer,getValueType(), 0);
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}
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}
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}
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@@ -133,9 +133,11 @@ TEST_F(FunctionTester, MatrixCreate) {
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TEST_F(FunctionTester, matrixSlice) {
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double * dataA =Aurora::malloc(8);
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double * dataB =Aurora::malloc(8);
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double * dataC =Aurora::malloc(8);
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for (int i = 0; i < 8; ++i) {
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dataA[i]=(double)(i-3);
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dataB[i]=(double)(i+2);
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dataA[i]=(double)(i);
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dataB[i]=(double)(1);
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dataC[i]=(double)(9-i);
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}
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Aurora::Matrix A = Aurora::Matrix::New(dataA,2,2,2);
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printf("A:\r\n");
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@@ -143,32 +145,53 @@ TEST_F(FunctionTester, matrixSlice) {
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Aurora::Matrix B = Aurora::Matrix::New(dataB,2,2,2);
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printf("B:\r\n");
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B.printf();
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A(Aurora::$,Aurora::$,1) = B(Aurora::$,Aurora::$,0);
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printf("New A:\r\n");
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A.printf();
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printf("New B:\r\n");
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B.printf();
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Aurora::Matrix C = Aurora::Matrix::New(dataC,2,2,2);
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printf("C:\r\n");
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C.printf();
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//2D slice
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EXPECT_EQ(4.0,dataA[4]);
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A(Aurora::$,Aurora::$,1) = B(0,Aurora::$,Aurora::$);
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EXPECT_EQ(1,dataA[4]);
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EXPECT_EQ(3,dataA[3]);
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A(Aurora::$,1,Aurora::$) = B(Aurora::$,Aurora::$,0);
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EXPECT_EQ(1.0,dataA[3]);
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EXPECT_EQ(0.0,dataA[0]);
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A(0,Aurora::$,Aurora::$) = B(Aurora::$,0,Aurora::$);
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EXPECT_EQ(1.0,dataA[0]);
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//vector slice
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A(0,Aurora::$,0) = C(0,0,Aurora::$);
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EXPECT_EQ(9.0,dataA[0]);
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A(Aurora::$,0,0) = C(0,Aurora::$,1);
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EXPECT_EQ(5.0,dataA[0]);
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//error slice
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EXPECT_EQ(1,A(Aurora::$,Aurora::$,Aurora::$).toMatrix().getDataSize() );
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auto D =C(0,0,0).toMatrix();
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EXPECT_EQ(1,D.getDataSize() );
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EXPECT_EQ(9,D.getData()[0] );
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}
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TEST_F(FunctionTester, RawDataMatrix) {
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double * dataA =new double[8];
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double * dataB =new double[8];
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for (int i = 0; i < 8; ++i) {
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dataA[i]=(double)(i-3);
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dataB[i]=(double)(i+2);
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TEST_F(FunctionTester, matrixOpertaor) {
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//3D
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{
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double * dataA =new double[8];
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double * dataB =new double[8];
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for (int i = 0; i < 8; ++i) {
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dataA[i]=(double)(i);
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dataB[i]=(double)(2);
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}
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Aurora::Matrix A = Aurora::Matrix::fromRawData(dataA,2,2,2);
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DISPLAY_MATRIX(A)
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Aurora::Matrix B = Aurora::Matrix::fromRawData(dataB,2,2,2);
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DISPLAY_MATRIX(B)
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auto C = (A*B)-B;
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DISPLAY_MATRIX(C)
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EXPECT_EQ(C.getData()[2],2);
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C = A*B/2.0;
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EXPECT_EQ(C.getData()[2],2);
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C = A*B*B/2.0;
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EXPECT_EQ(C.getData()[2],4);
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}
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Aurora::Matrix A = Aurora::Matrix::fromRawData(dataA,2,2,2);
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printf("A:\r\n");
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A.printf();
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Aurora::Matrix B = Aurora::Matrix::copyFromRawData(dataB,2,2,2);
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delete [] dataB;
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printf("B:\r\n");
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B.printf();
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A(Aurora::$,Aurora::$,1) = B(Aurora::$,Aurora::$,0);
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printf("New A:\r\n");
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A.printf();
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printf("New B:\r\n");
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B.printf();
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}
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TEST_F(FunctionTester, sign) {
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