twain3.0/3rdparty/hgOCR/include/ccstruct/blobbox.h

/**********************************************************************
 * File:        blobbox.h  (Formerly blobnbox.h)
 * Description: Code for the textord blob class.
 * Author:					Ray Smith
 * Created:					Thu Jul 30 09:08:51 BST 1992
 *
 * (C) Copyright 1992, Hewlett-Packard Ltd.
 ** 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           BLOBBOX_H
#define           BLOBBOX_H

#include          "clst.h"
#include          "elst2.h"
#include          "werd.h"
#include          "ocrblock.h"
#include          "statistc.h"

enum PITCH_TYPE
{
	PITCH_DUNNO,                   // insufficient data
	PITCH_DEF_FIXED,               // definitely fixed
	PITCH_MAYBE_FIXED,             // could be
	PITCH_DEF_PROP,
	PITCH_MAYBE_PROP,
	PITCH_CORR_FIXED,
	PITCH_CORR_PROP
};

// The possible tab-stop types of each side of a BLOBNBOX.
// The ordering is important, as it is used for deleting dead-ends in the
// search. ALIGNED, CONFIRMED and VLINE should remain greater than the
// non-aligned, unset, or deleted members.
enum TabType {
	TT_NONE,           // Not a tab.
	TT_DELETED,        // Not a tab after detailed analysis.
	TT_MAYBE_RAGGED,   // Initial designation of a tab-stop candidate.
	TT_MAYBE_ALIGNED,  // Initial designation of a tab-stop candidate.
	TT_CONFIRMED,      // Aligned with neighbours.
	TT_VLINE           // Detected as a vertical line.
};

// The possible region types of a BLOBNBOX.
// Note: keep all the text types > BRT_UNKNOWN and all the image types less.
// Keep in sync with kBlobTypes in colpartition.cpp and BoxColor, and the
// *Type static functions below.
enum BlobRegionType {
	BRT_NOISE,      // Neither text nor image.
	BRT_HLINE,      // Horizontal separator line.
	BRT_VLINE,      // Vertical separator line.
	BRT_RECTIMAGE,  // Rectangular image.
	BRT_POLYIMAGE,  // Non-rectangular image.
	BRT_UNKNOWN,    // Not determined yet.
	BRT_VERT_TEXT,  // Vertical alignment, not necessarily vertically oriented.
	BRT_TEXT,       // Convincing text.

	BRT_COUNT       // Number of possibilities.
};

// enum for elements of arrays that refer to neighbours.
// NOTE: keep in this order, so ^2 can be used to flip direction.
enum BlobNeighbourDir {
	BND_LEFT,
	BND_BELOW,
	BND_RIGHT,
	BND_ABOVE,
	BND_COUNT
};

// enum for special type of text characters, such as math symbol or italic.
enum BlobSpecialTextType {
	BSTT_NONE,  // No special.
	BSTT_ITALIC,  // Italic style.
	BSTT_DIGIT,  // Digit symbols.
	BSTT_MATH,  // Mathmatical symobls (not including digit).
	BSTT_UNCLEAR,  // Characters with low recognition rate.
	BSTT_SKIP,  // Characters that we skip labeling (usually too small).
	BSTT_COUNT
};

inline BlobNeighbourDir DirOtherWay(BlobNeighbourDir dir) {
	return static_cast<BlobNeighbourDir>(dir ^ 2);
}

// BlobTextFlowType indicates the quality of neighbouring information
// related to a chain of connected components, either horizontally or
// vertically. Also used by ColPartition for the collection of blobs
// within, which should all have the same value in most cases.
enum BlobTextFlowType {
	BTFT_NONE,           // No text flow set yet.
	BTFT_NONTEXT,        // Flow too poor to be likely text.
	BTFT_NEIGHBOURS,     // Neighbours support flow in this direction.
	BTFT_CHAIN,          // There is a weak chain of text in this direction.
	BTFT_STRONG_CHAIN,   // There is a strong chain of text in this direction.
	BTFT_TEXT_ON_IMAGE,  // There is a strong chain of text on an image.
	BTFT_LEADER,         // Leader dots/dashes etc.
	BTFT_COUNT
};

// Returns true if type1 dominates type2 in a merge. Mostly determined by the
// ordering of the enum, LEADER is weak and dominates nothing.
// The function is anti-symmetric (t1 > t2) === !(t2 > t1), except that
// this cannot be true if t1 == t2, so the result is undefined.
inline bool DominatesInMerge(BlobTextFlowType type1, BlobTextFlowType type2) {
	// LEADER always loses.
	if (type1 == BTFT_LEADER) return false;
	if (type2 == BTFT_LEADER) return true;
	// With those out of the way, the ordering of the enum determines the result.
	return type1 >= type2;
}

namespace tesseract {
	class ColPartition;
}

class BLOBNBOX;
ELISTIZEH(BLOBNBOX)
class BLOBNBOX :public ELIST_LINK
{
public:
	BLOBNBOX() {
		ConstructionInit();
	}
	explicit BLOBNBOX(C_BLOB *srcblob) {
		box = srcblob->bounding_box();
		ConstructionInit();
		cblob_ptr = srcblob;
		area = static_cast<int>(srcblob->area());
	}
	~BLOBNBOX() {
		if (owns_cblob_) delete cblob_ptr;
	}
	static BLOBNBOX* RealBlob(C_OUTLINE* outline) {
		C_BLOB* blob = new C_BLOB(outline);
		return new BLOBNBOX(blob);
	}

	// Rotates the box and the underlying blob.
	void rotate(FCOORD rotation);

	// Methods that act on the box without touching the underlying blob.
	// Reflect the box in the y-axis, leaving the underlying blob untouched.
	void reflect_box_in_y_axis();
	// Rotates the box by the angle given by rotation.
	// If the blob is a diacritic, then only small rotations for skew
	// correction can be applied.
	void rotate_box(FCOORD rotation);
	// Moves just the box by the given vector.
	void translate_box(ICOORD v) {
		if (IsDiacritic()) {
			box.move(v);
			base_char_top_ += v.y();
			base_char_bottom_ += v.y();
		}
		else {
			box.move(v);
			set_diacritic_box(box);
		}
	}
	void merge(BLOBNBOX *nextblob);
	void really_merge(BLOBNBOX* other);
	void chop(                        // fake chop blob
		BLOBNBOX_IT *start_it,  // location of this
		BLOBNBOX_IT *blob_it,   // iterator
		FCOORD rotation,        // for landscape
		float xheight);         // line height

	void NeighbourGaps(int gaps[BND_COUNT]) const;
	void MinMaxGapsClipped(int* h_min, int* h_max,
		int* v_min, int* v_max) const;
	void CleanNeighbours();
	// Returns positive if there is at least one side neighbour that has a
	// similar stroke width and is not on the other side of a rule line.
	int GoodTextBlob() const;
	// Returns the number of side neighbours that are of type BRT_NOISE.
	int NoisyNeighbours() const;

	// Returns true if the blob is noise and has no owner.
	bool DeletableNoise() const {
		return owner() == NULL && region_type() == BRT_NOISE;
	}

	// Returns true, and sets vert_possible/horz_possible if the blob has some
	// feature that makes it individually appear to flow one way.
	// eg if it has a high aspect ratio, yet has a complex shape, such as a
	// joined word in Latin, Arabic, or Hindi, rather than being a -, I, l, 1.
	bool DefiniteIndividualFlow();

	// Returns true if there is no tabstop violation in merging this and other.
	bool ConfirmNoTabViolation(const BLOBNBOX& other) const;

	// Returns true if other has a similar stroke width to this.
	bool MatchingStrokeWidth(const BLOBNBOX& other,
		double fractional_tolerance,
		double constant_tolerance) const;

	// Returns a bounding box of the outline contained within the
	// given horizontal range.
	TBOX BoundsWithinLimits(int left, int right);

	// Estimates and stores the baseline position based on the shape of the
	// outline.
	void EstimateBaselinePosition();

	// Simple accessors.
	const TBOX& bounding_box() const {
		return box;
	}
	// Set the bounding box. Use with caution.
	// Normally use compute_bounding_box instead.
	void set_bounding_box(const TBOX& new_box) {
		box = new_box;
		base_char_top_ = box.top();
		base_char_bottom_ = box.bottom();
	}
	void compute_bounding_box() {
		box = cblob_ptr->bounding_box();
		base_char_top_ = box.top();
		base_char_bottom_ = box.bottom();
		baseline_y_ = box.bottom();
	}
	const TBOX& reduced_box() const {
		return red_box;
	}
	void set_reduced_box(TBOX new_box) {
		red_box = new_box;
		reduced = TRUE;
	}
	inT32 enclosed_area() const {
		return area;
	}
	bool joined_to_prev() const {
		return joined != 0;
	}
	bool red_box_set() const {
		return reduced != 0;
	}
	int repeated_set() const {
		return repeated_set_;
	}
	void set_repeated_set(int set_id) {
		repeated_set_ = set_id;
	}
	C_BLOB *cblob() const {
		return cblob_ptr;
	}
	TabType left_tab_type() const {
		return left_tab_type_;
	}
	void set_left_tab_type(TabType new_type) {
		left_tab_type_ = new_type;
	}
	TabType right_tab_type() const {
		return right_tab_type_;
	}
	void set_right_tab_type(TabType new_type) {
		right_tab_type_ = new_type;
	}
	BlobRegionType region_type() const {
		return region_type_;
	}
	void set_region_type(BlobRegionType new_type) {
		region_type_ = new_type;
	}
	BlobSpecialTextType special_text_type() const {
		return spt_type_;
	}
	void set_special_text_type(BlobSpecialTextType new_type) {
		spt_type_ = new_type;
	}
	BlobTextFlowType flow() const {
		return flow_;
	}
	void set_flow(BlobTextFlowType value) {
		flow_ = value;
	}
	bool vert_possible() const {
		return vert_possible_;
	}
	void set_vert_possible(bool value) {
		vert_possible_ = value;
	}
	bool horz_possible() const {
		return horz_possible_;
	}
	void set_horz_possible(bool value) {
		horz_possible_ = value;
	}
	int left_rule() const {
		return left_rule_;
	}
	void set_left_rule(int new_left) {
		left_rule_ = new_left;
	}
	int right_rule() const {
		return right_rule_;
	}
	void set_right_rule(int new_right) {
		right_rule_ = new_right;
	}
	int left_crossing_rule() const {
		return left_crossing_rule_;
	}
	void set_left_crossing_rule(int new_left) {
		left_crossing_rule_ = new_left;
	}
	int right_crossing_rule() const {
		return right_crossing_rule_;
	}
	void set_right_crossing_rule(int new_right) {
		right_crossing_rule_ = new_right;
	}
	float horz_stroke_width() const {
		return horz_stroke_width_;
	}
	void set_horz_stroke_width(float width) {
		horz_stroke_width_ = width;
	}
	float vert_stroke_width() const {
		return vert_stroke_width_;
	}
	void set_vert_stroke_width(float width) {
		vert_stroke_width_ = width;
	}
	float area_stroke_width() const {
		return area_stroke_width_;
	}
	tesseract::ColPartition* owner() const {
		return owner_;
	}
	void set_owner(tesseract::ColPartition* new_owner) {
		owner_ = new_owner;
	}
	bool leader_on_left() const {
		return leader_on_left_;
	}
	void set_leader_on_left(bool flag) {
		leader_on_left_ = flag;
	}
	bool leader_on_right() const {
		return leader_on_right_;
	}
	void set_leader_on_right(bool flag) {
		leader_on_right_ = flag;
	}
	BLOBNBOX* neighbour(BlobNeighbourDir n) const {
		return neighbours_[n];
	}
	bool good_stroke_neighbour(BlobNeighbourDir n) const {
		return good_stroke_neighbours_[n];
	}
	void set_neighbour(BlobNeighbourDir n, BLOBNBOX* neighbour, bool good) {
		neighbours_[n] = neighbour;
		good_stroke_neighbours_[n] = good;
	}
	bool IsDiacritic() const {
		return base_char_top_ != box.top() || base_char_bottom_ != box.bottom();
	}
	int base_char_top() const {
		return base_char_top_;
	}
	int base_char_bottom() const {
		return base_char_bottom_;
	}
	int baseline_position() const {
		return baseline_y_;
	}
	int line_crossings() const {
		return line_crossings_;
	}
	void set_line_crossings(int value) {
		line_crossings_ = value;
	}
	void set_diacritic_box(const TBOX& diacritic_box) {
		base_char_top_ = diacritic_box.top();
		base_char_bottom_ = diacritic_box.bottom();
	}
	BLOBNBOX* base_char_blob() const {
		return base_char_blob_;
	}
	void set_base_char_blob(BLOBNBOX* blob) {
		base_char_blob_ = blob;
	}
	void set_owns_cblob(bool value) { owns_cblob_ = value; }

	bool UniquelyVertical() const {
		return vert_possible_ && !horz_possible_;
	}
	bool UniquelyHorizontal() const {
		return horz_possible_ && !vert_possible_;
	}

	// Returns true if the region type is text.
	static bool IsTextType(BlobRegionType type) {
		return type == BRT_TEXT || type == BRT_VERT_TEXT;
	}
	// Returns true if the region type is image.
	static bool IsImageType(BlobRegionType type) {
		return type == BRT_RECTIMAGE || type == BRT_POLYIMAGE;
	}
	// Returns true if the region type is line.
	static bool IsLineType(BlobRegionType type) {
		return type == BRT_HLINE || type == BRT_VLINE;
	}
	// Returns true if the region type cannot be merged.
	static bool UnMergeableType(BlobRegionType type) {
		return IsLineType(type) || IsImageType(type);
	}
	// Helper to call CleanNeighbours on all blobs on the list.
	static void CleanNeighbours(BLOBNBOX_LIST* blobs);
	// Helper to delete all the deletable blobs on the list.
	static void DeleteNoiseBlobs(BLOBNBOX_LIST* blobs);
	// Helper to compute edge offsets for  all the blobs on the list.
	// See coutln.h for an explanation of edge offsets.
	static void ComputeEdgeOffsets(Pix* thresholds, Pix* grey,
		BLOBNBOX_LIST* blobs);

#ifndef GRAPHICS_DISABLED
	// Helper to draw all the blobs on the list in the given body_colour,
	// with child outlines in the child_colour.
	static void PlotBlobs(BLOBNBOX_LIST* list,
		ScrollView::Color body_colour,
		ScrollView::Color child_colour,
		ScrollView* win);
	// Helper to draw only DeletableNoise blobs (unowned, BRT_NOISE) on the
	// given list in the given body_colour, with child outlines in the
	// child_colour.
	static void PlotNoiseBlobs(BLOBNBOX_LIST* list,
		ScrollView::Color body_colour,
		ScrollView::Color child_colour,
		ScrollView* win);

	static ScrollView::Color TextlineColor(BlobRegionType region_type,
		BlobTextFlowType flow_type);

	// Keep in sync with BlobRegionType.
	ScrollView::Color BoxColor() const;

	void plot(ScrollView* window,                // window to draw in
		ScrollView::Color blob_colour,     // for outer bits
		ScrollView::Color child_colour);   // for holes
#endif

  // Initializes the bulk of the members to default values for use at
  // construction time.
	void ConstructionInit() {
		cblob_ptr = NULL;
		owns_cblob_ = false;
		area = 0;
		area_stroke_width_ = 0.0f;
		horz_stroke_width_ = 0.0f;
		vert_stroke_width_ = 0.0f;
		ReInit();
	}
	// Initializes members set by StrokeWidth and beyond, without discarding
	// stored area and strokewidth values, which are expensive to calculate.
	void ReInit() {
		joined = false;
		reduced = false;
		repeated_set_ = 0;
		left_tab_type_ = TT_NONE;
		right_tab_type_ = TT_NONE;
		region_type_ = BRT_UNKNOWN;
		flow_ = BTFT_NONE;
		spt_type_ = BSTT_SKIP;
		left_rule_ = 0;
		right_rule_ = 0;
		left_crossing_rule_ = 0;
		right_crossing_rule_ = 0;
		if (area_stroke_width_ == 0.0f && area > 0 && cblob() != NULL)
			area_stroke_width_ = 2.0f * area / cblob()->perimeter();
		owner_ = NULL;
		base_char_top_ = box.top();
		base_char_bottom_ = box.bottom();
		baseline_y_ = box.bottom();
		line_crossings_ = 0;
		base_char_blob_ = NULL;
		horz_possible_ = false;
		vert_possible_ = false;
		leader_on_left_ = false;
		leader_on_right_ = false;
		ClearNeighbours();
	}

	void ClearNeighbours() {
		for (int n = 0; n < BND_COUNT; ++n) {
			neighbours_[n] = NULL;
			good_stroke_neighbours_[n] = false;
		}
	}

private:
	C_BLOB *cblob_ptr;            // edgestep blob
	TBOX box;                     // bounding box
	TBOX red_box;                 // bounding box
	int area : 30;                  // enclosed area
	int joined : 1;                 // joined to prev
	int reduced : 1;                // reduced box set
	int repeated_set_;            // id of the set of repeated blobs
	TabType left_tab_type_;       // Indicates tab-stop assessment
	TabType right_tab_type_;      // Indicates tab-stop assessment
	BlobRegionType region_type_;  // Type of region this blob belongs to
	BlobTextFlowType flow_;       // Quality of text flow.
	inT16 left_rule_;             // x-coord of nearest but not crossing rule line
	inT16 right_rule_;            // x-coord of nearest but not crossing rule line
	inT16 left_crossing_rule_;    // x-coord of nearest or crossing rule line
	inT16 right_crossing_rule_;   // x-coord of nearest or crossing rule line
	inT16 base_char_top_;         // y-coord of top/bottom of diacritic base,
	inT16 base_char_bottom_;      // if it exists else top/bottom of this blob.
	inT16 baseline_y_;            // Estimate of baseline position.
	int line_crossings_;          // Number of line intersections touched.
	BLOBNBOX* base_char_blob_;    // The blob that was the base char.
	float horz_stroke_width_;     // Median horizontal stroke width
	float vert_stroke_width_;     // Median vertical stroke width
	float area_stroke_width_;     // Stroke width from area/perimeter ratio.
	tesseract::ColPartition* owner_;  // Who will delete me when I am not needed
	BlobSpecialTextType spt_type_;   // Special text type.
	BLOBNBOX* neighbours_[BND_COUNT];
	bool good_stroke_neighbours_[BND_COUNT];
	bool horz_possible_;           // Could be part of horizontal flow.
	bool vert_possible_;           // Could be part of vertical flow.
	bool leader_on_left_;          // There is a leader to the left.
	bool leader_on_right_;         // There is a leader to the right.
	// Iff true, then the destructor should delete the cblob_ptr.
	// TODO(rays) migrate all uses to correctly setting this flag instead of
	// deleting the C_BLOB before deleting the BLOBNBOX.
	bool owns_cblob_;
};

class TO_ROW : public ELIST2_LINK
{
public:
	static const int kErrorWeight = 3;

	TO_ROW() {
		clear();
	}                            //empty
	TO_ROW(                 //constructor
		BLOBNBOX *blob,  //from first blob
		float top,       //of row //target height
		float bottom,
		float row_size);

	void print() const;
	float max_y() const {  //access function
		return y_max;
	}
	float min_y() const {
		return y_min;
	}
	float mean_y() const {
		return (y_min + y_max) / 2.0f;
	}
	float initial_min_y() const {
		return initial_y_min;
	}
	float line_m() const {  //access to line fit
		return m;
	}
	float line_c() const {
		return c;
	}
	float line_error() const {
		return error;
	}
	float parallel_c() const {
		return para_c;
	}
	float parallel_error() const {
		return para_error;
	}
	float believability() const {  //baseline goodness
		return credibility;
	}
	float intercept() const {  //real parallel_c
		return y_origin;
	}
	void add_blob(                 //put in row
		BLOBNBOX *blob,  //blob to add
		float top,       //of row //target height
		float bottom,
		float row_size);
	void insert_blob(  //put in row in order
		BLOBNBOX *blob);

	BLOBNBOX_LIST *blob_list() {  //get list
		return &blobs;
	}

	void set_line(              //set line spec
		float new_m,  //line to set
		float new_c,
		float new_error) {
		m = new_m;
		c = new_c;
		error = new_error;
	}
	void set_parallel_line(                 //set fixed gradient line
		float gradient,  //page gradient
		float new_c,
		float new_error) {
		para_c = new_c;
		para_error = new_error;
		credibility =
			(float)(blobs.length() - kErrorWeight * new_error);
		y_origin = (float)(new_c / sqrt(1 + gradient * gradient));
		//real intercept
	}
	void set_limits(                  //set min,max
		float new_min,    //bottom and
		float new_max) {  //top of row
		y_min = new_min;
		y_max = new_max;
	}
	void compute_vertical_projection();
	//get projection

	bool rep_chars_marked() const {
		return num_repeated_sets_ != -1;
	}
	void clear_rep_chars_marked() {
		num_repeated_sets_ = -1;
	}
	int num_repeated_sets() const {
		return num_repeated_sets_;
	}
	void set_num_repeated_sets(int num_sets) {
		num_repeated_sets_ = num_sets;
	}

	// true when dead
	BOOL8 merged;
	BOOL8 all_caps;              // had no ascenders
	BOOL8 used_dm_model;         // in guessing pitch
	inT16 projection_left;       // start of projection
	inT16 projection_right;      // start of projection
	PITCH_TYPE pitch_decision;   // how strong is decision
	float fixed_pitch;           // pitch or 0
	float fp_space;              // sp if fixed pitch
	float fp_nonsp;              // nonsp if fixed pitch
	float pr_space;              // sp if prop
	float pr_nonsp;              // non sp if prop
	float spacing;               // to "next" row
	float xheight;               // of line
	int xheight_evidence;        // number of blobs of height xheight
	float ascrise;               // ascenders
	float descdrop;              // descenders
	float body_size;             // of CJK characters.  Assumed to be
								 // xheight+ascrise for non-CJK text.
	inT32 min_space;             // min size for real space
	inT32 max_nonspace;          // max size of non-space
	inT32 space_threshold;       // space vs nonspace
	float kern_size;             // average non-space
	float space_size;            // average space
	WERD_LIST rep_words;         // repeated chars
	ICOORDELT_LIST char_cells;   // fixed pitch cells
	QSPLINE baseline;            // curved baseline
	STATS projection;            // vertical projection

private:
	void clear();  // clear all values to reasonable defaults

	BLOBNBOX_LIST blobs;         //blobs in row
	float y_min;                 //coords
	float y_max;
	float initial_y_min;
	float m, c;                  //line spec
	float error;                 //line error
	float para_c;                //constrained fit
	float para_error;
	float y_origin;              //rotated para_c;
	float credibility;           //baseline believability
	int num_repeated_sets_;      // number of sets of repeated blobs
								 // set to -1 if we have not searched
								 // for repeated blobs in this row yet
};

ELIST2IZEH(TO_ROW)
class TO_BLOCK :public ELIST_LINK
{
public:
	TO_BLOCK() : pitch_decision(PITCH_DUNNO) {
		clear();
	}                            //empty
	TO_BLOCK(                    //constructor
		BLOCK *src_block);  //real block
	~TO_BLOCK();

	void clear();  // clear all scalar members.

	TO_ROW_LIST *get_rows() {  //access function
		return &row_list;
	}

	// Rotate all the blobnbox lists and the underlying block. Then update the
	// median size statistic from the blobs list.
	void rotate(const FCOORD& rotation) {
		BLOBNBOX_LIST* blobnbox_list[] = { &blobs, &underlines, &noise_blobs,
										  &small_blobs, &large_blobs, NULL };
		for (BLOBNBOX_LIST** list = blobnbox_list; *list != NULL; ++list) {
			BLOBNBOX_IT it(*list);
			for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) {
				it.data()->rotate(rotation);
			}
		}
		// Rotate the block
		ASSERT_HOST(block->poly_block() != NULL);
		block->rotate(rotation);
		// Update the median size statistic from the blobs list.
		STATS widths(0, block->bounding_box().width());
		STATS heights(0, block->bounding_box().height());
		BLOBNBOX_IT blob_it(&blobs);
		for (blob_it.mark_cycle_pt(); !blob_it.cycled_list(); blob_it.forward()) {
			widths.add(blob_it.data()->bounding_box().width(), 1);
			heights.add(blob_it.data()->bounding_box().height(), 1);
		}
		block->set_median_size(static_cast<int>(widths.median() + 0.5),
			static_cast<int>(heights.median() + 0.5));
	}

	void print_rows() {  //debug info
		TO_ROW_IT row_it = &row_list;
		TO_ROW *row;

		for (row_it.mark_cycle_pt(); !row_it.cycled_list();
			row_it.forward()) {
			row = row_it.data();
			tprintf("Row range (%g,%g), para_c=%g, blobcount=" INT32FORMAT
				"\n", row->min_y(), row->max_y(), row->parallel_c(),
				row->blob_list()->length());
		}
	}

	// Reorganizes the blob lists with a different definition of small, medium
	// and large, compared to the original definition.
	// Height is still the primary filter key, but medium width blobs of small
	// height become medium, and very wide blobs of small height stay small.
	void ReSetAndReFilterBlobs();

	// Deletes noise blobs from all lists where not owned by a ColPartition.
	void DeleteUnownedNoise();

	// Computes and stores the edge offsets on each blob for use in feature
	// extraction, using greyscale if the supplied grey and thresholds pixes
	// are 8-bit or otherwise (if NULL or not 8 bit) the original binary
	// edge step outlines.
	// Thresholds must either be the same size as grey or an integer down-scale
	// of grey.
	// See coutln.h for an explanation of edge offsets.
	void ComputeEdgeOffsets(Pix* thresholds, Pix* grey);

#ifndef GRAPHICS_DISABLED
	// Draw the noise blobs from all lists in red.
	void plot_noise_blobs(ScrollView* to_win);
	// Draw the blobs on on the various lists in the block in different colors.
	void plot_graded_blobs(ScrollView* to_win);
#endif

	BLOBNBOX_LIST blobs;         //medium size
	BLOBNBOX_LIST underlines;    //underline blobs
	BLOBNBOX_LIST noise_blobs;   //very small
	BLOBNBOX_LIST small_blobs;   //fairly small
	BLOBNBOX_LIST large_blobs;   //big blobs
	BLOCK *block;                //real block
	PITCH_TYPE pitch_decision;   //how strong is decision
	float line_spacing;          //estimate
	// line_size is a lower-bound estimate of the font size in pixels of
	// the text in the block (with ascenders and descenders), being a small
	// (1.25) multiple of the median height of filtered blobs.
	// In most cases the font size will be bigger, but it will be closer
	// if the text is allcaps, or in a no-x-height script.
	float line_size;             //estimate
	float max_blob_size;         //line assignment limit
	float baseline_offset;       //phase shift
	float xheight;               //median blob size
	float fixed_pitch;           //pitch or 0
	float kern_size;             //average non-space
	float space_size;            //average space
	inT32 min_space;             //min definite space
	inT32 max_nonspace;          //max definite
	float fp_space;              //sp if fixed pitch
	float fp_nonsp;              //nonsp if fixed pitch
	float pr_space;              //sp if prop
	float pr_nonsp;              //non sp if prop
	TO_ROW *key_row;             //starting row

private:
	TO_ROW_LIST row_list;        //temporary rows
};

ELISTIZEH(TO_BLOCK)
extern double_VAR_H(textord_error_weight, 3,
	"Weighting for error in believability");
void find_cblob_limits(                  //get y limits
	C_BLOB *blob,     //blob to search
	float leftx,      //x limits
	float rightx,
	FCOORD rotation,  //for landscape
	float &ymin,      //output y limits
	float &ymax);
void find_cblob_vlimits(               //get y limits
	C_BLOB *blob,  //blob to search
	float leftx,   //x limits
	float rightx,
	float &ymin,   //output y limits
	float &ymax);
void find_cblob_hlimits(                //get x limits
	C_BLOB *blob,   //blob to search
	float bottomy,  //y limits
	float topy,
	float &xmin,    //output x limits
	float &xymax);
C_BLOB *crotate_cblob(                 //rotate it
	C_BLOB *blob,    //blob to search
	FCOORD rotation  //for landscape
);
TBOX box_next(                 //get bounding box
	BLOBNBOX_IT *it  //iterator to blobds
);
TBOX box_next_pre_chopped(                 //get bounding box
	BLOBNBOX_IT *it  //iterator to blobds
);
void vertical_cblob_projection(               //project outlines
	C_BLOB *blob,  //blob to project
	STATS *stats   //output
);
void vertical_coutline_projection(                     //project outlines
	C_OUTLINE *outline,  //outline to project
	STATS *stats         //output
);
#ifndef GRAPHICS_DISABLED
void plot_blob_list(ScrollView* win,                   // window to draw in
	BLOBNBOX_LIST *list,               // blob list
	ScrollView::Color body_colour,     // colour to draw
	ScrollView::Color child_colour);   // colour of child
#endif  // GRAPHICS_DISABLED
#endif