/********************************************************************** * File: boxchar.cpp * Description: Simple class to associate a Tesseract classification unit with * its bounding box so that the boxes can be rotated as the image * is rotated for degradation. Also includes routines to output * the character-tagged boxes to a boxfile. * Author: Ray Smith * Created: Mon Nov 18 2013 * * (C) Copyright 2013, Google Inc. * 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 "boxchar.h" #include #include #include "fileio.h" #include "genericvector.h" #include "ndminx.h" #include "normstrngs.h" #include "tprintf.h" #include "unicharset.h" #include "unicode/uchar.h" // from libicu // Absolute Ratio of dx:dy or dy:dx to be a newline. const int kMinNewlineRatio = 5; namespace tesseract { BoxChar::BoxChar(const char* utf8_str, int len) : ch_(utf8_str, len) { box_ = NULL; } BoxChar::~BoxChar() { boxDestroy(&box_); } void BoxChar::AddBox(int x, int y, int width, int height) { box_ = boxCreate(x, y, width, height); } /* static */ void BoxChar::TranslateBoxes(int xshift, int yshift, vector* boxes) { for (int i = 0; i < boxes->size(); ++i) { BOX* box = (*boxes)[i]->box_; if (box != NULL) { box->x += xshift; box->y += yshift; } } } // Prepares for writing the boxes to a file by inserting newlines, spaces, // and re-ordering so the boxes are strictly left-to-right. /* static */ void BoxChar::PrepareToWrite(vector* boxes) { bool rtl_rules = ContainsMostlyRTL(*boxes); bool vertical_rules = MostlyVertical(*boxes); InsertNewlines(rtl_rules, vertical_rules, boxes); InsertSpaces(rtl_rules, vertical_rules, boxes); for (int i = 0; i < boxes->size(); ++i) { if ((*boxes)[i]->box_ == NULL) tprintf("Null box at index %d\n", i); } if (rtl_rules) { ReorderRTLText(boxes); } tprintf("Rtl = %d ,vertical=%d\n", rtl_rules, vertical_rules); } // Inserts newline (tab) characters into the vector at newline positions. /* static */ void BoxChar::InsertNewlines(bool rtl_rules, bool vertical_rules, vector* boxes) { int prev_i = -1; int max_shift = 0; for (int i = 0; i < boxes->size(); ++i) { Box* box = (*boxes)[i]->box_; if (box == NULL) { if (prev_i < 0 || prev_i < i - 1 || i + 1 == boxes->size()) { // Erase null boxes at the start of a line and after another null box. do { delete (*boxes)[i]; boxes->erase(boxes->begin() + i); --i; } while (i >= 0 && i + 1 == boxes->size() && (*boxes)[i]->box_ == NULL); } continue; } if (prev_i >= 0) { Box* prev_box = (*boxes)[prev_i]->box_; int shift = box->x - prev_box->x; if (vertical_rules) { shift = box->y - prev_box->y; } else if (rtl_rules) { shift = -shift; } if (-shift > max_shift) { // This is a newline. int width = prev_box->w; int height = prev_box->h; int x = prev_box->x + width; int y = prev_box->y; if (vertical_rules) { x = prev_box->x; y = prev_box->y + height; } else if (rtl_rules) { x = prev_box->x - width; if (x < 0) { tprintf("prev x = %d, width=%d\n", prev_box->x, width); x = 0; } } if (prev_i == i - 1) { // New character needed. BoxChar* new_box = new BoxChar("\t", 1); new_box->AddBox(x, y, width, height); new_box->page_ = (*boxes)[i]->page_; boxes->insert(boxes->begin() + i, new_box); ++i; } else { (*boxes)[i - 1]->AddBox(x, y, width, height); (*boxes)[i - 1]->ch_ = "\t"; } max_shift = 0; } else if (shift > max_shift) { max_shift = shift; } } prev_i = i; } } // Converts NULL boxes to space characters, with appropriate bounding boxes. /* static */ void BoxChar::InsertSpaces(bool rtl_rules, bool vertical_rules, vector* boxes) { // After InsertNewlines, any remaining null boxes are not newlines, and are // singletons, so add a box to each remaining null box. for (int i = 1; i + 1 < boxes->size(); ++i) { Box* box = (*boxes)[i]->box_; if (box == NULL) { Box* prev = (*boxes)[i - 1]->box_; Box* next = (*boxes)[i + 1]->box_; ASSERT_HOST(prev != NULL && next != NULL); int top = MIN(prev->y, next->y); int bottom = MAX(prev->y + prev->h, next->y + next->h); int left = prev->x + prev->w; int right = next->x; if (vertical_rules) { top = prev->y + prev->h; bottom = next->y; left = MIN(prev->x, next->x); right = MAX(prev->x + prev->w, next->x + next->w); } else if (rtl_rules) { // With RTL we have to account for BiDi. // Right becomes the min left of all prior boxes back to the first // space or newline. right = prev->x; left = next->x + next->w; for (int j = i - 2; j >= 0 && (*boxes)[j]->ch_ != " " && (*boxes)[j]->ch_ != "\t"; --j) { prev = (*boxes)[j]->box_; ASSERT_HOST(prev != NULL); if (prev->x < right) { right = prev->x; } } // Left becomes the max right of all next boxes forward to the first // space or newline. for (int j = i + 2; j < boxes->size() && (*boxes)[j]->box_ != NULL && (*boxes)[j]->ch_ != "\t"; ++j) { next = (*boxes)[j]->box_; if (next->x + next->w > left) { left = next->x + next->w; } } } // Italic and stylized characters can produce negative spaces, which // Leptonica doesn't like, so clip to a positive size. if (right <= left) right = left + 1; if (bottom <= top) bottom = top + 1; (*boxes)[i]->AddBox(left, top, right - left, bottom - top); (*boxes)[i]->ch_ = " "; } } } // Reorders text in a right-to-left script in left-to-right order. /* static */ void BoxChar::ReorderRTLText(vector* boxes) { // After adding newlines and spaces, this task is simply a matter of sorting // by left each group of boxes between newlines. BoxCharPtrSort sorter; int end = 0; for (int start = 0; start < boxes->size(); start = end + 1) { end = start + 1; while (end < boxes->size() && (*boxes)[end]->ch_ != "\t") ++end; sort(boxes->begin() + start, boxes->begin() + end, sorter); } } // Returns true if the vector contains mostly RTL characters. /* static */ bool BoxChar::ContainsMostlyRTL(const vector& boxes) { int num_rtl = 0, num_ltr = 0; for (int i = 0; i < boxes.size(); ++i) { // Convert the unichar to UTF32 representation GenericVector uni_vector; if (!UNICHAR::UTF8ToUnicode(boxes[i]->ch_.c_str(), &uni_vector)) { tprintf("Illegal utf8 in boxchar %d string:%s = ", i, boxes[i]->ch_.c_str()); for (int c = 0; c < boxes[i]->ch_.size(); ++c) { tprintf(" 0x%x", boxes[i]->ch_[c]); } tprintf("\n"); continue; } for (int j = 0; j < uni_vector.size(); ++j) { UCharDirection dir = u_charDirection(uni_vector[j]); if (dir == U_RIGHT_TO_LEFT || dir == U_RIGHT_TO_LEFT_ARABIC || dir == U_ARABIC_NUMBER) { ++num_rtl; } else { ++num_ltr; } } } return num_rtl > num_ltr; } // Returns true if the text is mostly laid out vertically. /* static */ bool BoxChar::MostlyVertical(const vector& boxes) { inT64 total_dx = 0, total_dy = 0; for (int i = 1; i < boxes.size(); ++i) { if (boxes[i - 1]->box_ != NULL && boxes[i]->box_ != NULL && boxes[i - 1]->page_ == boxes[i]->page_) { int dx = boxes[i]->box_->x - boxes[i - 1]->box_->x; int dy = boxes[i]->box_->y - boxes[i - 1]->box_->y; if (abs(dx) > abs(dy) * kMinNewlineRatio || abs(dy) > abs(dx) * kMinNewlineRatio) { total_dx += dx * dx; total_dy += dy * dy; } } } return total_dy > total_dx; } // Returns the total length of all the strings in the boxes. /* static */ int BoxChar::TotalByteLength(const vector& boxes) { int total_length = 0; for (int i = 0; i < boxes.size(); ++i) total_length += boxes[i]->ch_.size(); return total_length; } // Rotate the boxes in [start_box, end_box) by the given rotation. // The rotation is in radians clockwise about the given center. /* static */ void BoxChar::RotateBoxes(float rotation, int xcenter, int ycenter, int start_box, int end_box, vector* boxes) { Boxa* orig = boxaCreate(0); for (int i = start_box; i < end_box; ++i) { BOX* box = (*boxes)[i]->box_; if (box) boxaAddBox(orig, box, L_CLONE); } Boxa* rotated = boxaRotate(orig, xcenter, ycenter, rotation); boxaDestroy(&orig); for (int i = start_box, box_ind = 0; i < end_box; ++i) { if ((*boxes)[i]->box_) { boxDestroy(&((*boxes)[i]->box_)); (*boxes)[i]->box_ = boxaGetBox(rotated, box_ind++, L_CLONE); } } boxaDestroy(&rotated); } const int kMaxLineLength = 1024; /* static */ void BoxChar::WriteTesseractBoxFile(const string& filename, int height, const vector& boxes) { string output; char buffer[kMaxLineLength]; for (int i = 0; i < boxes.size(); ++i) { const Box* box = boxes[i]->box_; if (box == NULL) { tprintf("Error: Call PrepareToWrite before WriteTesseractBoxFile!!\n"); return; } int nbytes = snprintf(buffer, kMaxLineLength, "%s %d %d %d %d %d\n", boxes[i]->ch_.c_str(), box->x, height - box->y - box->h, box->x + box->w, height - box->y, boxes[i]->page_); output.append(buffer, nbytes); } File::WriteStringToFileOrDie(output, filename); } } // namespace tesseract