// 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 2010 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 "../barcode.h" #include "BC_WhiteRectangleDetector.h" #include "BC_CommonBitMatrix.h" #include "../BC_ResultPoint.h" const FX_INT32 CBC_WhiteRectangleDetector::INIT_SIZE = 30; const FX_INT32 CBC_WhiteRectangleDetector::CORR = 1; CBC_WhiteRectangleDetector::CBC_WhiteRectangleDetector(CBC_CommonBitMatrix *image) { m_image = image; m_height = image->GetHeight(); m_width = image->GetWidth(); m_leftInit = (m_width - INIT_SIZE) >> 1; m_rightInit = (m_width + INIT_SIZE) >> 1; m_upInit = (m_height - INIT_SIZE) >> 1; m_downInit = (m_height + INIT_SIZE) >> 1; } void CBC_WhiteRectangleDetector::Init(FX_INT32 &e) { if (m_upInit < 0 || m_leftInit < 0 || m_downInit >= m_height || m_rightInit >= m_width) { e = BCExceptionNotFound; BC_EXCEPTION_CHECK_ReturnVoid(e); } } CBC_WhiteRectangleDetector::CBC_WhiteRectangleDetector(CBC_CommonBitMatrix *image, FX_INT32 initSize, FX_INT32 x, FX_INT32 y) { m_image = image; m_height = image->GetHeight(); m_width = image->GetWidth(); FX_INT32 halfsize = initSize >> 1; m_leftInit = x - halfsize; m_rightInit = x + halfsize; m_upInit = y - halfsize; m_downInit = y + halfsize; } CBC_WhiteRectangleDetector::~CBC_WhiteRectangleDetector() { } CFX_PtrArray *CBC_WhiteRectangleDetector::Detect(FX_INT32 &e) { FX_INT32 left = m_leftInit; FX_INT32 right = m_rightInit; FX_INT32 up = m_upInit; FX_INT32 down = m_downInit; FX_BOOL sizeExceeded = FALSE; FX_BOOL aBlackPointFoundOnBorder = TRUE; FX_BOOL atLeastOneBlackPointFoundOnBorder = FALSE; while (aBlackPointFoundOnBorder) { aBlackPointFoundOnBorder = FALSE; FX_BOOL rightBorderNotWhite = TRUE; while (rightBorderNotWhite && right < m_width) { rightBorderNotWhite = ContainsBlackPoint(up, down, right, FALSE); if (rightBorderNotWhite) { right++; aBlackPointFoundOnBorder = TRUE; } } if (right >= m_width) { sizeExceeded = TRUE; break; } FX_BOOL bottomBorderNotWhite = TRUE; while (bottomBorderNotWhite && down < m_height) { bottomBorderNotWhite = ContainsBlackPoint(left, right, down, TRUE); if (bottomBorderNotWhite) { down++; aBlackPointFoundOnBorder = TRUE; } } if (down >= m_height) { sizeExceeded = TRUE; break; } FX_BOOL leftBorderNotWhite = TRUE; while (leftBorderNotWhite && left >= 0) { leftBorderNotWhite = ContainsBlackPoint(up, down, left, FALSE); if (leftBorderNotWhite) { left--; aBlackPointFoundOnBorder = TRUE; } } if (left < 0) { sizeExceeded = TRUE; break; } FX_BOOL topBorderNotWhite = TRUE; while (topBorderNotWhite && up >= 0) { topBorderNotWhite = ContainsBlackPoint(left, right, up, TRUE); if (topBorderNotWhite) { up--; aBlackPointFoundOnBorder = TRUE; } } if (up < 0) { sizeExceeded = TRUE; break; } if (aBlackPointFoundOnBorder) { atLeastOneBlackPointFoundOnBorder = TRUE; } } if (!sizeExceeded && atLeastOneBlackPointFoundOnBorder) { FX_INT32 maxSize = right - left; CBC_AutoPtr z(NULL); for (FX_INT32 i = 1; i < maxSize; i++) { z = CBC_AutoPtr(GetBlackPointOnSegment((FX_FLOAT)left, (FX_FLOAT)(down - i), (FX_FLOAT)(left + i), (FX_FLOAT)(down)) ); if (z.get() != NULL) { break; } } if (z.get() == NULL) { e = BCExceptionNotFound; BC_EXCEPTION_CHECK_ReturnValue(e, NULL); } CBC_AutoPtr t(NULL); for (FX_INT32 j = 1; j < maxSize; j++) { t = CBC_AutoPtr(GetBlackPointOnSegment((FX_FLOAT)left, (FX_FLOAT)(up + j), (FX_FLOAT)(left + j), (FX_FLOAT)up)); if (t.get() != NULL) { break; } } if (t.get() == NULL) { e = BCExceptionNotFound; BC_EXCEPTION_CHECK_ReturnValue(e, NULL); } CBC_AutoPtr x(NULL); for (FX_INT32 k = 1; k < maxSize; k++) { x = CBC_AutoPtr(GetBlackPointOnSegment((FX_FLOAT)right, (FX_FLOAT)(up + k), (FX_FLOAT)(right - k), (FX_FLOAT)up)); if (x.get() != NULL) { break; } } if (x.get() == NULL) { e = BCExceptionNotFound; BC_EXCEPTION_CHECK_ReturnValue(e, NULL); } CBC_AutoPtr y(NULL); for (FX_INT32 m = 1; m < maxSize; m++) { y = CBC_AutoPtr(GetBlackPointOnSegment((FX_FLOAT)right, (FX_FLOAT)(down - m), (FX_FLOAT)(right - m), (FX_FLOAT) down)); if (y.get() != NULL) { break; } } if (y.get() == NULL) { e = BCExceptionNotFound; BC_EXCEPTION_CHECK_ReturnValue(e, NULL); } return CenterEdges(y.get(), z.get(), x.get(), t.get()); } else { e = BCExceptionNotFound; BC_EXCEPTION_CHECK_ReturnValue(e, NULL); } return NULL; } FX_INT32 CBC_WhiteRectangleDetector::Round(FX_FLOAT d) { return (FX_INT32) (d + 0.5f); } CBC_ResultPoint *CBC_WhiteRectangleDetector::GetBlackPointOnSegment(FX_FLOAT aX, FX_FLOAT aY, FX_FLOAT bX, FX_FLOAT bY) { FX_INT32 dist = DistanceL2(aX, aY, bX, bY); float xStep = (bX - aX) / dist; float yStep = (bY - aY) / dist; for (FX_INT32 i = 0; i < dist; i++) { FX_INT32 x = Round(aX + i * xStep); FX_INT32 y = Round(aY + i * yStep); if (m_image->Get(x, y)) { return FX_NEW CBC_ResultPoint((FX_FLOAT)x, (FX_FLOAT) y); } } return NULL; } FX_INT32 CBC_WhiteRectangleDetector::DistanceL2(FX_FLOAT aX, FX_FLOAT aY, FX_FLOAT bX, FX_FLOAT bY) { float xDiff = aX - bX; float yDiff = aY - bY; return Round((float)sqrt(xDiff * xDiff + yDiff * yDiff)); } CFX_PtrArray *CBC_WhiteRectangleDetector::CenterEdges(CBC_ResultPoint *y, CBC_ResultPoint *z, CBC_ResultPoint *x, CBC_ResultPoint *t) { float yi = y->GetX(); float yj = y->GetY(); float zi = z->GetX(); float zj = z->GetY(); float xi = x->GetX(); float xj = x->GetY(); float ti = t->GetX(); float tj = t->GetY(); if (yi < m_width / 2) { CFX_PtrArray *result = FX_NEW CFX_PtrArray; result->SetSize(4); (*result)[0] = FX_NEW CBC_ResultPoint(ti - CORR, tj + CORR); (*result)[1] = FX_NEW CBC_ResultPoint(zi + CORR, zj + CORR); (*result)[2] = FX_NEW CBC_ResultPoint(xi - CORR, xj - CORR); (*result)[3] = FX_NEW CBC_ResultPoint(yi + CORR, yj - CORR); return result; } else { CFX_PtrArray *result = FX_NEW CFX_PtrArray; result->SetSize(4); (*result)[0] = FX_NEW CBC_ResultPoint(ti + CORR, tj + CORR); (*result)[1] = FX_NEW CBC_ResultPoint(zi + CORR, zj - CORR); (*result)[2] = FX_NEW CBC_ResultPoint(xi - CORR, xj + CORR); (*result)[3] = FX_NEW CBC_ResultPoint(yi - CORR, yj - CORR); return result; } } FX_BOOL CBC_WhiteRectangleDetector::ContainsBlackPoint(FX_INT32 a, FX_INT32 b, FX_INT32 fixed, FX_BOOL horizontal) { if (horizontal) { for (FX_INT32 x = a; x <= b; x++) { if (m_image->Get(x, fixed)) { return TRUE; } } } else { for (FX_INT32 y = a; y <= b; y++) { if (m_image->Get(fixed, y)) { return TRUE; } } } return FALSE; }