/////////////////////////////////////////////////////////////////////// // File: alignedblob.h // Description: A class to find vertically aligned blobs in a BBGrid, // and a struct to hold control parameters. // Author: Ray Smith // Created: Fri Mar 21 15:03:01 PST 2008 // // (C) Copyright 2008, 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. // /////////////////////////////////////////////////////////////////////// #ifndef TESSERACT_TEXTORD_ALIGNEDBLOB_H_ #define TESSERACT_TEXTORD_ALIGNEDBLOB_H_ #include "bbgrid.h" #include "blobbox.h" #include "strngs.h" #include "tabvector.h" extern INT_VAR_H(textord_debug_bugs, 0, "Turn on output related to bugs in tab finding"); extern INT_VAR_H(textord_debug_tabfind, 2, "Debug tab finding"); extern BOOL_VAR_H(textord_debug_printable, false, "Make debug windows printable"); namespace tesseract { // Simple structure to hold the search parameters for AlignedBlob. // The members are mostly derived from constants, which are // conditioned on the alignment parameter. // For finding vertical lines, a different set of constants are // used, conditioned on the different constructor. struct AlignedBlobParams { // Constructor to set the parameters for finding aligned and ragged tabs. // Vertical_x and vertical_y are the current estimates of the true vertical // direction (up) in the image. Height is the height of the starter blob. // v_gap_multiple is the multiple of height that will be used as a limit // on vertical gap before giving up and calling the line ended. // resolution is the original image resolution, and align0 indicates the // type of tab stop to be found. AlignedBlobParams(int vertical_x, int vertical_y, int height, int v_gap_multiple, int min_gutter_width, int resolution, TabAlignment alignment0); // Constructor to set the parameters for finding vertical lines. // Vertical_x and vertical_y are the current estimates of the true vertical // direction (up) in the image. Width is the width of the starter blob. AlignedBlobParams(int vertical_x, int vertical_y, int width); // Fit the vertical vector into an ICOORD, which is 16 bit. void set_vertical(int vertical_x, int vertical_y); double gutter_fraction; // Multiple of height used for min_gutter. bool right_tab; // We are looking at right edges. bool ragged; // We are looking for a ragged (vs aligned) edge. TabAlignment alignment; // The type we are trying to produce. TabType confirmed_type; // Type to flag blobs if accepted. int max_v_gap; // Max vertical gap to be tolerated. int min_gutter; // Minimum gutter between columns. // Tolerances allowed on horizontal alignment of aligned edges. int l_align_tolerance; // Left edges. int r_align_tolerance; // Right edges. // Conditions for accepting a line. int min_points; // Minimum number of points to be OK. int min_length; // Min length of completed line. ICOORD vertical; // Current estimate of logical vertical. }; // The AlignedBlob class contains code to find vertically aligned blobs. // This is factored out into a separate class, so it can be used by both // vertical line finding (LineFind) and tabstop finding (TabFind). class AlignedBlob : public BlobGrid { public: AlignedBlob(int gridsize, const ICOORD& bleft, const ICOORD& tright); ~AlignedBlob() override; // Return true if the given coordinates are within the test rectangle // and the debug level is at least the given detail level. static bool WithinTestRegion(int detail_level, int x, int y); // Display the tab codes of the BLOBNBOXes in this grid. ScrollView* DisplayTabs(const char* window_name, ScrollView* tab_win); // Finds a vector corresponding to a set of vertically aligned blob edges // running through the given box. The type of vector returned and the // search parameters are determined by the AlignedBlobParams. // vertical_x and y are updated with an estimate of the real // vertical direction. (skew finding.) // Returns nullptr if no decent vector can be found. TabVector* FindVerticalAlignment(AlignedBlobParams align_params, BLOBNBOX* bbox, int* vertical_x, int* vertical_y); private: // Find a set of blobs that are aligned in the given vertical // direction with the given blob. Returns a list of aligned // blobs and the number in the list. // For other parameters see FindAlignedBlob below. int AlignTabs(const AlignedBlobParams& params, bool top_to_bottom, BLOBNBOX* bbox, BLOBNBOX_CLIST* good_points, int* end_y); // Search vertically for a blob that is aligned with the input bbox. // The search parameters are determined by AlignedBlobParams. // top_to_bottom tells whether to search down or up. // The return value is nullptr if nothing was found in the search box // or if a blob was found in the gutter. On a nullptr return, end_y // is set to the edge of the search box or the leading edge of the // gutter blob if one was found. BLOBNBOX* FindAlignedBlob(const AlignedBlobParams& p, bool top_to_bottom, BLOBNBOX* bbox, int x_start, int* end_y); }; } // namespace tesseract. #endif // TESSERACT_TEXTORD_ALIGNEDBLOB_H_