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path: root/xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp
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Diffstat (limited to 'xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp')
-rw-r--r--xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp64
1 files changed, 33 insertions, 31 deletions
diff --git a/xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp b/xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp
index b89ef7066b..c29c64862a 100644
--- a/xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp
+++ b/xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.cpp
@@ -20,12 +20,14 @@
* limitations under the License.
*/
+#include "xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.h"
+
#include <algorithm>
+#include <memory>
#include "xfa/src/fxbarcode/BC_ResultPoint.h"
#include "xfa/src/fxbarcode/common/BC_CommonBitMatrix.h"
#include "xfa/src/fxbarcode/common/BC_WhiteRectangleDetector.h"
-#include "xfa/src/fxbarcode/datamatrix/BC_DataMatrixDetector.h"
#include "xfa/src/fxbarcode/qrcode/BC_QRDetectorResult.h"
#include "xfa/src/fxbarcode/qrcode/BC_QRFinderPatternFinder.h"
#include "xfa/src/fxbarcode/qrcode/BC_QRGridSampler.h"
@@ -121,10 +123,10 @@ CBC_QRDetectorResult* CBC_DataMatrixDetector::Detect(int32_t& e) {
} else {
topRight = pointD;
}
- int32_t dimensionTop = CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ int32_t dimensionTop = std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, topRight))
->GetTransitions();
- int32_t dimensionRight = CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ int32_t dimensionRight = std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, topRight))
->GetTransitions();
if ((dimensionTop & 0x01) == 1) {
@@ -135,24 +137,24 @@ CBC_QRDetectorResult* CBC_DataMatrixDetector::Detect(int32_t& e) {
dimensionRight++;
}
dimensionRight += 2;
- CBC_AutoPtr<CBC_CommonBitMatrix> bits(NULL);
- CBC_AutoPtr<CBC_ResultPoint> correctedTopRight(NULL);
+ std::unique_ptr<CBC_CommonBitMatrix> bits;
+ std::unique_ptr<CBC_ResultPoint> correctedTopRight;
if (4 * dimensionTop >= 7 * dimensionRight ||
4 * dimensionRight >= 7 * dimensionTop) {
- correctedTopRight = CBC_AutoPtr<CBC_ResultPoint>(
+ correctedTopRight.reset(
CorrectTopRightRectangular(bottomLeft, bottomRight, topLeft, topRight,
dimensionTop, dimensionRight));
if (correctedTopRight.get() == NULL) {
- correctedTopRight = CBC_AutoPtr<CBC_ResultPoint>(topRight);
+ correctedTopRight.reset(topRight);
} else {
delete topRight;
topRight = NULL;
}
- dimensionTop = CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ dimensionTop = std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, correctedTopRight.get()))
->GetTransitions();
dimensionRight =
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, correctedTopRight.get()))
->GetTransitions();
if ((dimensionTop & 0x01) == 1) {
@@ -161,34 +163,34 @@ CBC_QRDetectorResult* CBC_DataMatrixDetector::Detect(int32_t& e) {
if ((dimensionRight & 0x01) == 1) {
dimensionRight++;
}
- bits = CBC_AutoPtr<CBC_CommonBitMatrix>(
- SampleGrid(m_image, topLeft, bottomLeft, bottomRight,
- correctedTopRight.get(), dimensionTop, dimensionRight, e));
+ bits.reset(SampleGrid(m_image, topLeft, bottomLeft, bottomRight,
+ correctedTopRight.get(), dimensionTop, dimensionRight,
+ e));
BC_EXCEPTION_CHECK_ReturnValue(e, NULL);
} else {
int32_t dimension = std::min(dimensionRight, dimensionTop);
- correctedTopRight = CBC_AutoPtr<CBC_ResultPoint>(
+ correctedTopRight.reset(
CorrectTopRight(bottomLeft, bottomRight, topLeft, topRight, dimension));
if (correctedTopRight.get() == NULL) {
- correctedTopRight = CBC_AutoPtr<CBC_ResultPoint>(topRight);
+ correctedTopRight.reset(topRight);
} else {
delete topRight;
topRight = NULL;
}
int32_t dimensionCorrected =
- std::max(CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::max(std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, correctedTopRight.get()))
->GetTransitions(),
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, correctedTopRight.get()))
->GetTransitions());
dimensionCorrected++;
if ((dimensionCorrected & 0x01) == 1) {
dimensionCorrected++;
}
- bits = CBC_AutoPtr<CBC_CommonBitMatrix>(SampleGrid(
- m_image, topLeft, bottomLeft, bottomRight, correctedTopRight.get(),
- dimensionCorrected, dimensionCorrected, e));
+ bits.reset(SampleGrid(m_image, topLeft, bottomLeft, bottomRight,
+ correctedTopRight.get(), dimensionCorrected,
+ dimensionCorrected, e));
BC_EXCEPTION_CHECK_ReturnValue(e, NULL);
}
CFX_PtrArray* result = new CFX_PtrArray;
@@ -210,13 +212,13 @@ CBC_ResultPoint* CBC_DataMatrixDetector::CorrectTopRightRectangular(
int32_t norm = Distance(topLeft, topRight);
FX_FLOAT cos = (topRight->GetX() - topLeft->GetX()) / norm;
FX_FLOAT sin = (topRight->GetY() - topLeft->GetY()) / norm;
- CBC_AutoPtr<CBC_ResultPoint> c1(new CBC_ResultPoint(
+ std::unique_ptr<CBC_ResultPoint> c1(new CBC_ResultPoint(
topRight->GetX() + corr * cos, topRight->GetY() + corr * sin));
corr = Distance(bottomLeft, topLeft) / (FX_FLOAT)dimensionRight;
norm = Distance(bottomRight, topRight);
cos = (topRight->GetX() - bottomRight->GetX()) / norm;
sin = (topRight->GetY() - bottomRight->GetY()) / norm;
- CBC_AutoPtr<CBC_ResultPoint> c2(new CBC_ResultPoint(
+ std::unique_ptr<CBC_ResultPoint> c2(new CBC_ResultPoint(
topRight->GetX() + corr * cos, topRight->GetY() + corr * sin));
if (!IsValid(c1.get())) {
if (IsValid(c2.get())) {
@@ -227,19 +229,19 @@ CBC_ResultPoint* CBC_DataMatrixDetector::CorrectTopRightRectangular(
return c1.release();
}
int32_t l1 = FXSYS_abs(dimensionTop -
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c1.get()))
->GetTransitions()) +
FXSYS_abs(dimensionRight -
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c1.get()))
->GetTransitions());
int32_t l2 = FXSYS_abs(dimensionTop -
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c2.get()))
->GetTransitions()) +
FXSYS_abs(dimensionRight -
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c2.get()))
->GetTransitions());
if (l1 <= l2) {
@@ -257,13 +259,13 @@ CBC_ResultPoint* CBC_DataMatrixDetector::CorrectTopRight(
int32_t norm = Distance(topLeft, topRight);
FX_FLOAT cos = (topRight->GetX() - topLeft->GetX()) / norm;
FX_FLOAT sin = (topRight->GetY() - topLeft->GetY()) / norm;
- CBC_AutoPtr<CBC_ResultPoint> c1(new CBC_ResultPoint(
+ std::unique_ptr<CBC_ResultPoint> c1(new CBC_ResultPoint(
topRight->GetX() + corr * cos, topRight->GetY() + corr * sin));
corr = Distance(bottomLeft, bottomRight) / (FX_FLOAT)dimension;
norm = Distance(bottomRight, topRight);
cos = (topRight->GetX() - bottomRight->GetX()) / norm;
sin = (topRight->GetY() - bottomRight->GetY()) / norm;
- CBC_AutoPtr<CBC_ResultPoint> c2(new CBC_ResultPoint(
+ std::unique_ptr<CBC_ResultPoint> c2(new CBC_ResultPoint(
topRight->GetX() + corr * cos, topRight->GetY() + corr * sin));
if (!IsValid(c1.get())) {
if (IsValid(c2.get())) {
@@ -273,16 +275,16 @@ CBC_ResultPoint* CBC_DataMatrixDetector::CorrectTopRight(
} else if (!IsValid(c2.get())) {
return c1.release();
}
- int32_t l1 = FXSYS_abs(CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ int32_t l1 = FXSYS_abs(std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c1.get()))
->GetTransitions() -
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c1.get()))
->GetTransitions());
- int32_t l2 = FXSYS_abs(CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ int32_t l2 = FXSYS_abs(std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c2.get()))
->GetTransitions() -
- CBC_AutoPtr<CBC_ResultPointsAndTransitions>(
+ std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c2.get()))
->GetTransitions());
return l1 <= l2 ? c1.release() : c2.release();