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// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
// Original code is licensed as follows:
/*
* Copyright 2008 ZXing authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "xfa/fxbarcode/datamatrix/BC_DataMatrixDetector.h"
#include <algorithm>
#include <memory>
#include "xfa/fxbarcode/BC_ResultPoint.h"
#include "xfa/fxbarcode/common/BC_CommonBitMatrix.h"
#include "xfa/fxbarcode/common/BC_WhiteRectangleDetector.h"
#include "xfa/fxbarcode/qrcode/BC_QRDetectorResult.h"
#include "xfa/fxbarcode/qrcode/BC_QRFinderPatternFinder.h"
#include "xfa/fxbarcode/qrcode/BC_QRGridSampler.h"
#include "xfa/fxbarcode/utils.h"
const int32_t CBC_DataMatrixDetector::INTEGERS[5] = {0, 1, 2, 3, 4};
CBC_DataMatrixDetector::CBC_DataMatrixDetector(CBC_CommonBitMatrix* image)
: m_image(image), m_rectangleDetector(NULL) {}
void CBC_DataMatrixDetector::Init(int32_t& e) {
m_rectangleDetector = new CBC_WhiteRectangleDetector(m_image);
m_rectangleDetector->Init(e);
BC_EXCEPTION_CHECK_ReturnVoid(e);
}
CBC_DataMatrixDetector::~CBC_DataMatrixDetector() {
delete m_rectangleDetector;
}
inline FX_BOOL ResultPointsAndTransitionsComparator(void* a, void* b) {
return ((CBC_ResultPointsAndTransitions*)b)->GetTransitions() >
((CBC_ResultPointsAndTransitions*)a)->GetTransitions();
}
CBC_QRDetectorResult* CBC_DataMatrixDetector::Detect(int32_t& e) {
CFX_PtrArray* cornerPoints = m_rectangleDetector->Detect(e);
BC_EXCEPTION_CHECK_ReturnValue(e, NULL);
CBC_ResultPoint* pointA = (CBC_ResultPoint*)(*cornerPoints)[0];
CBC_ResultPoint* pointB = (CBC_ResultPoint*)(*cornerPoints)[1];
CBC_ResultPoint* pointC = (CBC_ResultPoint*)(*cornerPoints)[2];
CBC_ResultPoint* pointD = (CBC_ResultPoint*)(*cornerPoints)[3];
delete cornerPoints;
cornerPoints = NULL;
CFX_PtrArray transitions;
transitions.Add(TransitionsBetween(pointA, pointB));
transitions.Add(TransitionsBetween(pointA, pointC));
transitions.Add(TransitionsBetween(pointB, pointD));
transitions.Add(TransitionsBetween(pointC, pointD));
BC_FX_PtrArray_Sort(transitions, &ResultPointsAndTransitionsComparator);
delete ((CBC_ResultPointsAndTransitions*)transitions[2]);
delete ((CBC_ResultPointsAndTransitions*)transitions[3]);
CBC_ResultPointsAndTransitions* lSideOne =
(CBC_ResultPointsAndTransitions*)transitions[0];
CBC_ResultPointsAndTransitions* lSideTwo =
(CBC_ResultPointsAndTransitions*)transitions[1];
CFX_MapPtrTemplate<CBC_ResultPoint*, int32_t> pointCount;
Increment(pointCount, lSideOne->GetFrom());
Increment(pointCount, lSideOne->GetTo());
Increment(pointCount, lSideTwo->GetFrom());
Increment(pointCount, lSideTwo->GetTo());
delete ((CBC_ResultPointsAndTransitions*)transitions[1]);
delete ((CBC_ResultPointsAndTransitions*)transitions[0]);
transitions.RemoveAll();
CBC_ResultPoint* maybeTopLeft = NULL;
CBC_ResultPoint* bottomLeft = NULL;
CBC_ResultPoint* maybeBottomRight = NULL;
FX_POSITION itBegin = pointCount.GetStartPosition();
while (itBegin) {
CBC_ResultPoint* key = 0;
int32_t value = 0;
pointCount.GetNextAssoc(itBegin, key, value);
if (value == 2) {
bottomLeft = key;
} else {
if (maybeBottomRight == NULL) {
maybeBottomRight = key;
} else {
maybeTopLeft = key;
}
}
}
if (maybeTopLeft == NULL || bottomLeft == NULL || maybeBottomRight == NULL) {
delete pointA;
delete pointB;
delete pointC;
delete pointD;
e = BCExceptionNotFound;
return NULL;
}
CFX_PtrArray corners;
corners.SetSize(3);
corners[0] = maybeTopLeft;
corners[1] = bottomLeft;
corners[2] = maybeBottomRight;
OrderBestPatterns(&corners);
CBC_ResultPoint* bottomRight = (CBC_ResultPoint*)corners[0];
bottomLeft = (CBC_ResultPoint*)corners[1];
CBC_ResultPoint* topLeft = (CBC_ResultPoint*)corners[2];
CBC_ResultPoint* topRight = NULL;
int32_t value;
if (!pointCount.Lookup(pointA, value)) {
topRight = pointA;
} else if (!pointCount.Lookup(pointB, value)) {
topRight = pointB;
} else if (!pointCount.Lookup(pointC, value)) {
topRight = pointC;
} else {
topRight = pointD;
}
int32_t dimensionTop = std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, topRight))
->GetTransitions();
int32_t dimensionRight = std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, topRight))
->GetTransitions();
if ((dimensionTop & 0x01) == 1) {
dimensionTop++;
}
dimensionTop += 2;
if ((dimensionRight & 0x01) == 1) {
dimensionRight++;
}
dimensionRight += 2;
std::unique_ptr<CBC_CommonBitMatrix> bits;
std::unique_ptr<CBC_ResultPoint> correctedTopRight;
if (4 * dimensionTop >= 7 * dimensionRight ||
4 * dimensionRight >= 7 * dimensionTop) {
correctedTopRight.reset(
CorrectTopRightRectangular(bottomLeft, bottomRight, topLeft, topRight,
dimensionTop, dimensionRight));
if (correctedTopRight.get() == NULL) {
correctedTopRight.reset(topRight);
} else {
delete topRight;
topRight = NULL;
}
dimensionTop = std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, correctedTopRight.get()))
->GetTransitions();
dimensionRight =
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, correctedTopRight.get()))
->GetTransitions();
if ((dimensionTop & 0x01) == 1) {
dimensionTop++;
}
if ((dimensionRight & 0x01) == 1) {
dimensionRight++;
}
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.reset(
CorrectTopRight(bottomLeft, bottomRight, topLeft, topRight, dimension));
if (correctedTopRight.get() == NULL) {
correctedTopRight.reset(topRight);
} else {
delete topRight;
topRight = NULL;
}
int32_t dimensionCorrected =
std::max(std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, correctedTopRight.get()))
->GetTransitions(),
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, correctedTopRight.get()))
->GetTransitions());
dimensionCorrected++;
if ((dimensionCorrected & 0x01) == 1) {
dimensionCorrected++;
}
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;
result->SetSize(4);
result->Add(topLeft);
result->Add(bottomLeft);
result->Add(bottomRight);
result->Add(correctedTopRight.release());
return new CBC_QRDetectorResult(bits.release(), result);
}
CBC_ResultPoint* CBC_DataMatrixDetector::CorrectTopRightRectangular(
CBC_ResultPoint* bottomLeft,
CBC_ResultPoint* bottomRight,
CBC_ResultPoint* topLeft,
CBC_ResultPoint* topRight,
int32_t dimensionTop,
int32_t dimensionRight) {
FX_FLOAT corr = Distance(bottomLeft, bottomRight) / (FX_FLOAT)dimensionTop;
int32_t norm = Distance(topLeft, topRight);
FX_FLOAT cos = (topRight->GetX() - topLeft->GetX()) / norm;
FX_FLOAT sin = (topRight->GetY() - topLeft->GetY()) / norm;
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;
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())) {
return c2.release();
}
return NULL;
} else if (!IsValid(c2.get())) {
return c1.release();
}
int32_t l1 = FXSYS_abs(dimensionTop -
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c1.get()))
->GetTransitions()) +
FXSYS_abs(dimensionRight -
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c1.get()))
->GetTransitions());
int32_t l2 = FXSYS_abs(dimensionTop -
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c2.get()))
->GetTransitions()) +
FXSYS_abs(dimensionRight -
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c2.get()))
->GetTransitions());
if (l1 <= l2) {
return c1.release();
}
return c2.release();
}
CBC_ResultPoint* CBC_DataMatrixDetector::CorrectTopRight(
CBC_ResultPoint* bottomLeft,
CBC_ResultPoint* bottomRight,
CBC_ResultPoint* topLeft,
CBC_ResultPoint* topRight,
int32_t dimension) {
FX_FLOAT corr = Distance(bottomLeft, bottomRight) / (FX_FLOAT)dimension;
int32_t norm = Distance(topLeft, topRight);
FX_FLOAT cos = (topRight->GetX() - topLeft->GetX()) / norm;
FX_FLOAT sin = (topRight->GetY() - topLeft->GetY()) / norm;
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;
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())) {
return c2.release();
}
return NULL;
} else if (!IsValid(c2.get())) {
return c1.release();
}
int32_t l1 = FXSYS_abs(std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c1.get()))
->GetTransitions() -
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c1.get()))
->GetTransitions());
int32_t l2 = FXSYS_abs(std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(topLeft, c2.get()))
->GetTransitions() -
std::unique_ptr<CBC_ResultPointsAndTransitions>(
TransitionsBetween(bottomRight, c2.get()))
->GetTransitions());
return l1 <= l2 ? c1.release() : c2.release();
}
FX_BOOL CBC_DataMatrixDetector::IsValid(CBC_ResultPoint* p) {
return p->GetX() >= 0 && p->GetX() < m_image->GetWidth() && p->GetY() > 0 &&
p->GetY() < m_image->GetHeight();
}
int32_t CBC_DataMatrixDetector::Round(FX_FLOAT d) {
return (int32_t)(d + 0.5f);
}
int32_t CBC_DataMatrixDetector::Distance(CBC_ResultPoint* a,
CBC_ResultPoint* b) {
return Round(
(FX_FLOAT)sqrt((a->GetX() - b->GetX()) * (a->GetX() - b->GetX()) +
(a->GetY() - b->GetY()) * (a->GetY() - b->GetY())));
}
void CBC_DataMatrixDetector::Increment(
CFX_MapPtrTemplate<CBC_ResultPoint*, int32_t>& table,
CBC_ResultPoint* key) {
int32_t value;
if (table.Lookup(key, value)) {
table.SetAt(key, INTEGERS[value + 1]);
} else {
table.SetAt(key, INTEGERS[1]);
}
}
CBC_CommonBitMatrix* CBC_DataMatrixDetector::SampleGrid(
CBC_CommonBitMatrix* image,
CBC_ResultPoint* topLeft,
CBC_ResultPoint* bottomLeft,
CBC_ResultPoint* bottomRight,
CBC_ResultPoint* topRight,
int32_t dimensionX,
int32_t dimensionY,
int32_t& e) {
CBC_QRGridSampler& sampler = CBC_QRGridSampler::GetInstance();
CBC_CommonBitMatrix* cbm = sampler.SampleGrid(
image, dimensionX, dimensionY, 0.5f, 0.5f, dimensionX - 0.5f, 0.5f,
dimensionX - 0.5f, dimensionY - 0.5f, 0.5f, dimensionY - 0.5f,
topLeft->GetX(), topLeft->GetY(), topRight->GetX(), topRight->GetY(),
bottomRight->GetX(), bottomRight->GetY(), bottomLeft->GetX(),
bottomLeft->GetY(), e);
BC_EXCEPTION_CHECK_ReturnValue(e, NULL);
return cbm;
}
CBC_ResultPointsAndTransitions* CBC_DataMatrixDetector::TransitionsBetween(
CBC_ResultPoint* from,
CBC_ResultPoint* to) {
int32_t fromX = (int32_t)from->GetX();
int32_t fromY = (int32_t)from->GetY();
int32_t toX = (int32_t)to->GetX();
int32_t toY = (int32_t)to->GetY();
FX_BOOL steep = FXSYS_abs(toY - fromY) > FXSYS_abs(toX - fromX);
if (steep) {
int32_t temp = fromX;
fromX = fromY;
fromY = temp;
temp = toX;
toX = toY;
toY = temp;
}
int32_t dx = FXSYS_abs(toX - fromX);
int32_t dy = FXSYS_abs(toY - fromY);
int32_t error = -dx >> 1;
int32_t ystep = fromY < toY ? 1 : -1;
int32_t xstep = fromX < toX ? 1 : -1;
int32_t transitions = 0;
FX_BOOL inBlack = m_image->Get(steep ? fromY : fromX, steep ? fromX : fromY);
for (int32_t x = fromX, y = fromY; x != toX; x += xstep) {
FX_BOOL isBlack = m_image->Get(steep ? y : x, steep ? x : y);
if (isBlack != inBlack) {
transitions++;
inBlack = isBlack;
}
error += dy;
if (error > 0) {
if (y == toY) {
break;
}
y += ystep;
error -= dx;
}
}
return new CBC_ResultPointsAndTransitions(from, to, transitions);
}
void CBC_DataMatrixDetector::OrderBestPatterns(CFX_PtrArray* patterns) {
FX_FLOAT abDistance = (FX_FLOAT)Distance((CBC_ResultPoint*)(*patterns)[0],
(CBC_ResultPoint*)(*patterns)[1]);
FX_FLOAT bcDistance = (FX_FLOAT)Distance((CBC_ResultPoint*)(*patterns)[1],
(CBC_ResultPoint*)(*patterns)[2]);
FX_FLOAT acDistance = (FX_FLOAT)Distance((CBC_ResultPoint*)(*patterns)[0],
(CBC_ResultPoint*)(*patterns)[2]);
CBC_ResultPoint *topLeft, *topRight, *bottomLeft;
if (bcDistance >= abDistance && bcDistance >= acDistance) {
topLeft = (CBC_ResultPoint*)(*patterns)[0];
topRight = (CBC_ResultPoint*)(*patterns)[1];
bottomLeft = (CBC_ResultPoint*)(*patterns)[2];
} else if (acDistance >= bcDistance && acDistance >= abDistance) {
topLeft = (CBC_ResultPoint*)(*patterns)[1];
topRight = (CBC_ResultPoint*)(*patterns)[0];
bottomLeft = (CBC_ResultPoint*)(*patterns)[2];
} else {
topLeft = (CBC_ResultPoint*)(*patterns)[2];
topRight = (CBC_ResultPoint*)(*patterns)[0];
bottomLeft = (CBC_ResultPoint*)(*patterns)[1];
}
if ((bottomLeft->GetY() - topLeft->GetY()) *
(topRight->GetX() - topLeft->GetX()) <
(bottomLeft->GetX() - topLeft->GetX()) *
(topRight->GetY() - topLeft->GetY())) {
CBC_ResultPoint* temp = topRight;
topRight = bottomLeft;
bottomLeft = temp;
}
(*patterns)[0] = bottomLeft;
(*patterns)[1] = topLeft;
(*patterns)[2] = topRight;
}
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