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461 lines
17 KiB
C
461 lines
17 KiB
C
/* -*-C-*-
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********************************************************************************
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*
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* File: blobs.h (Formerly blobs.h)
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* Description: Blob definition
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* Author: Mark Seaman, OCR Technology
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* Created: Fri Oct 27 15:39:52 1989
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* Modified: Thu Mar 28 15:33:38 1991 (Mark Seaman) marks@hpgrlt
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* Language: C
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* Package: N/A
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* Status: Experimental (Do Not Distribute)
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*
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* (c) Copyright 1989, Hewlett-Packard Company.
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** Licensed under the Apache License, Version 2.0 (the "License");
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** you may not use this file except in compliance with the License.
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** You may obtain a copy of the License at
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** http://www.apache.org/licenses/LICENSE-2.0
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** Unless required by applicable law or agreed to in writing, software
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** distributed under the License is distributed on an "AS IS" BASIS,
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** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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** See the License for the specific language governing permissions and
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** limitations under the License.
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*
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*********************************************************************************/
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#ifndef BLOBS_H
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#define BLOBS_H
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/*----------------------------------------------------------------------
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I n c l u d e s
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----------------------------------------------------------------------*/
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#include "clst.h"
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#include "normalis.h"
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#include "publictypes.h"
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#include "rect.h"
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#include "vecfuncs.h"
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class BLOCK;
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class C_BLOB;
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class C_OUTLINE;
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class LLSQ;
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class ROW;
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class WERD;
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/*----------------------------------------------------------------------
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T y p e s
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----------------------------------------------------------------------*/
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#define EDGEPTFLAGS 4 /*concavity,length etc. */
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struct TPOINT {
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TPOINT(): x(0), y(0) {}
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TPOINT(inT16 vx, inT16 vy) : x(vx), y(vy) {}
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TPOINT(const ICOORD &ic) : x(ic.x()), y(ic.y()) {}
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void operator+=(const TPOINT& other) {
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x += other.x;
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y += other.y;
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}
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void operator/=(int divisor) {
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x /= divisor;
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y /= divisor;
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}
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bool operator==(const TPOINT& other) const {
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return x == other.x && y == other.y;
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}
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// Returns true when the two line segments cross each other.
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// (Moved from outlines.cpp).
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static bool IsCrossed(const TPOINT& a0, const TPOINT& a1, const TPOINT& b0,
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const TPOINT& b1);
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inT16 x; // absolute x coord.
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inT16 y; // absolute y coord.
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};
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typedef TPOINT VECTOR; // structure for coordinates.
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struct EDGEPT {
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EDGEPT()
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: next(NULL), prev(NULL), src_outline(NULL), start_step(0), step_count(0) {
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memset(flags, 0, EDGEPTFLAGS * sizeof(flags[0]));
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}
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EDGEPT(const EDGEPT& src) : next(NULL), prev(NULL) {
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CopyFrom(src);
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}
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EDGEPT& operator=(const EDGEPT& src) {
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CopyFrom(src);
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return *this;
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}
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// Copies the data elements, but leaves the pointers untouched.
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void CopyFrom(const EDGEPT& src) {
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pos = src.pos;
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vec = src.vec;
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memcpy(flags, src.flags, EDGEPTFLAGS * sizeof(flags[0]));
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src_outline = src.src_outline;
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start_step = src.start_step;
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step_count = src.step_count;
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}
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// Returns the squared distance between the points, with the x-component
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// weighted by x_factor.
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int WeightedDistance(const EDGEPT& other, int x_factor) const {
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int x_dist = pos.x - other.pos.x;
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int y_dist = pos.y - other.pos.y;
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return x_dist * x_dist * x_factor + y_dist * y_dist;
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}
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// Returns true if the positions are equal.
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bool EqualPos(const EDGEPT& other) const { return pos == other.pos; }
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// Returns the bounding box of the outline segment from *this to *end.
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// Ignores hidden edge flags.
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TBOX SegmentBox(const EDGEPT* end) const {
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TBOX box(pos.x, pos.y, pos.x, pos.y);
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const EDGEPT* pt = this;
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do {
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pt = pt->next;
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if (pt->pos.x < box.left()) box.set_left(pt->pos.x);
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if (pt->pos.x > box.right()) box.set_right(pt->pos.x);
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if (pt->pos.y < box.bottom()) box.set_bottom(pt->pos.y);
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if (pt->pos.y > box.top()) box.set_top(pt->pos.y);
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} while (pt != end && pt != this);
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return box;
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}
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// Returns the area of the outline segment from *this to *end.
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// Ignores hidden edge flags.
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int SegmentArea(const EDGEPT* end) const {
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int area = 0;
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const EDGEPT* pt = this->next;
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do {
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TPOINT origin_vec(pt->pos.x - pos.x, pt->pos.y - pos.y);
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area += CROSS(origin_vec, pt->vec);
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pt = pt->next;
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} while (pt != end && pt != this);
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return area;
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}
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// Returns true if the number of points in the outline segment from *this to
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// *end is less that min_points and false if we get back to *this first.
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// Ignores hidden edge flags.
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bool ShortNonCircularSegment(int min_points, const EDGEPT* end) const {
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int count = 0;
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const EDGEPT* pt = this;
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do {
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if (pt == end) return true;
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pt = pt->next;
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++count;
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} while (pt != this && count <= min_points);
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return false;
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}
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// Accessors to hide or reveal a cut edge from feature extractors.
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void Hide() {
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flags[0] = true;
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}
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void Reveal() {
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flags[0] = false;
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}
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bool IsHidden() const {
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return flags[0] != 0;
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}
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void MarkChop() {
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flags[2] = true;
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}
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bool IsChopPt() const {
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return flags[2] != 0;
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}
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TPOINT pos; // position
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VECTOR vec; // vector to next point
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// TODO(rays) Remove flags and replace with
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// is_hidden, runlength, dir, and fixed. The only use
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// of the flags other than is_hidden is in polyaprx.cpp.
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char flags[EDGEPTFLAGS]; // concavity, length etc
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EDGEPT* next; // anticlockwise element
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EDGEPT* prev; // clockwise element
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C_OUTLINE* src_outline; // Outline it came from.
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// The following fields are not used if src_outline is NULL.
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int start_step; // Location of pos in src_outline.
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int step_count; // Number of steps used (may wrap around).
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};
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// For use in chop and findseam to keep a list of which EDGEPTs were inserted.
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CLISTIZEH(EDGEPT);
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struct TESSLINE {
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TESSLINE() : is_hole(false), loop(NULL), next(NULL) {}
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TESSLINE(const TESSLINE& src) : loop(NULL), next(NULL) {
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CopyFrom(src);
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}
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~TESSLINE() {
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Clear();
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}
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TESSLINE& operator=(const TESSLINE& src) {
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CopyFrom(src);
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return *this;
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}
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// Consume the circular list of EDGEPTs to make a TESSLINE.
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static TESSLINE* BuildFromOutlineList(EDGEPT* outline);
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// Copies the data and the outline, but leaves next untouched.
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void CopyFrom(const TESSLINE& src);
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// Deletes owned data.
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void Clear();
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// Normalize in-place using the DENORM.
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void Normalize(const DENORM& denorm);
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// Rotates by the given rotation in place.
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void Rotate(const FCOORD rotation);
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// Moves by the given vec in place.
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void Move(const ICOORD vec);
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// Scales by the given factor in place.
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void Scale(float factor);
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// Sets up the start and vec members of the loop from the pos members.
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void SetupFromPos();
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// Recomputes the bounding box from the points in the loop.
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void ComputeBoundingBox();
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// Computes the min and max cross product of the outline points with the
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// given vec and returns the results in min_xp and max_xp. Geometrically
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// this is the left and right edge of the outline perpendicular to the
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// given direction, but to get the distance units correct, you would
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// have to divide by the modulus of vec.
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void MinMaxCrossProduct(const TPOINT vec, int* min_xp, int* max_xp) const;
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TBOX bounding_box() const;
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// Returns true if *this and other have equal bounding boxes.
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bool SameBox(const TESSLINE& other) const {
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return topleft == other.topleft && botright == other.botright;
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}
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// Returns true if the given line segment crosses any outline of this blob.
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bool SegmentCrosses(const TPOINT& pt1, const TPOINT& pt2) const {
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if (Contains(pt1) && Contains(pt2)) {
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EDGEPT* pt = loop;
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do {
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if (TPOINT::IsCrossed(pt1, pt2, pt->pos, pt->next->pos)) return true;
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pt = pt->next;
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} while (pt != loop);
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}
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return false;
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}
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// Returns true if the point is contained within the outline box.
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bool Contains(const TPOINT& pt) const {
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return topleft.x <= pt.x && pt.x <= botright.x &&
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botright.y <= pt.y && pt.y <= topleft.y;
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}
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#ifndef GRAPHICS_DISABLED
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void plot(ScrollView* window, ScrollView::Color color,
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ScrollView::Color child_color);
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#endif // GRAPHICS_DISABLED
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// Returns the first outline point that has a different src_outline to its
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// predecessor, or, if all the same, the lowest indexed point.
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EDGEPT* FindBestStartPt() const;
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int BBArea() const {
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return (botright.x - topleft.x) * (topleft.y - botright.y);
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}
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TPOINT topleft; // Top left of loop.
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TPOINT botright; // Bottom right of loop.
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TPOINT start; // Start of loop.
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bool is_hole; // True if this is a hole/child outline.
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EDGEPT *loop; // Edgeloop.
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TESSLINE *next; // Next outline in blob.
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}; // Outline structure.
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struct TBLOB {
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TBLOB() : outlines(NULL) {}
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TBLOB(const TBLOB& src) : outlines(NULL) {
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CopyFrom(src);
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}
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~TBLOB() {
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Clear();
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}
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TBLOB& operator=(const TBLOB& src) {
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CopyFrom(src);
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return *this;
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}
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// Factory to build a TBLOB from a C_BLOB with polygonal approximation along
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// the way. If allow_detailed_fx is true, the EDGEPTs in the returned TBLOB
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// contain pointers to the input C_OUTLINEs that enable higher-resolution
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// feature extraction that does not use the polygonal approximation.
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static TBLOB* PolygonalCopy(bool allow_detailed_fx, C_BLOB* src);
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// Factory builds a blob with no outlines, but copies the other member data.
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static TBLOB* ShallowCopy(const TBLOB& src);
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// Normalizes the blob for classification only if needed.
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// (Normally this means a non-zero classify rotation.)
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// If no Normalization is needed, then NULL is returned, and the input blob
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// can be used directly. Otherwise a new TBLOB is returned which must be
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// deleted after use.
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TBLOB* ClassifyNormalizeIfNeeded() const;
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// Copies the data and the outlines, but leaves next untouched.
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void CopyFrom(const TBLOB& src);
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// Deletes owned data.
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void Clear();
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// Sets up the built-in DENORM and normalizes the blob in-place.
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// For parameters see DENORM::SetupNormalization, plus the inverse flag for
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// this blob and the Pix for the full image.
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void Normalize(const BLOCK* block,
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const FCOORD* rotation,
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const DENORM* predecessor,
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float x_origin, float y_origin,
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float x_scale, float y_scale,
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float final_xshift, float final_yshift,
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bool inverse, Pix* pix);
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// Rotates by the given rotation in place.
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void Rotate(const FCOORD rotation);
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// Moves by the given vec in place.
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void Move(const ICOORD vec);
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// Scales by the given factor in place.
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void Scale(float factor);
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// Recomputes the bounding boxes of the outlines.
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void ComputeBoundingBoxes();
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// Returns the number of outlines.
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int NumOutlines() const;
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TBOX bounding_box() const;
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// Returns true if the given line segment crosses any outline of this blob.
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bool SegmentCrossesOutline(const TPOINT& pt1, const TPOINT& pt2) const {
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for (const TESSLINE* outline = outlines; outline != NULL;
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outline = outline->next) {
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if (outline->SegmentCrosses(pt1, pt2)) return true;
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}
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return false;
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}
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// Returns true if the point is contained within any of the outline boxes.
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bool Contains(const TPOINT& pt) const {
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for (const TESSLINE* outline = outlines; outline != NULL;
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outline = outline->next) {
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if (outline->Contains(pt)) return true;
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}
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return false;
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}
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// Finds and deletes any duplicate outlines in this blob, without deleting
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// their EDGEPTs.
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void EliminateDuplicateOutlines();
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// Swaps the outlines of *this and next if needed to keep the centers in
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// increasing x.
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void CorrectBlobOrder(TBLOB* next);
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const DENORM& denorm() const {
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return denorm_;
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}
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#ifndef GRAPHICS_DISABLED
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void plot(ScrollView* window, ScrollView::Color color,
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ScrollView::Color child_color);
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#endif // GRAPHICS_DISABLED
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int BBArea() const {
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int total_area = 0;
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for (TESSLINE* outline = outlines; outline != NULL; outline = outline->next)
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total_area += outline->BBArea();
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return total_area;
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}
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// Computes the center of mass and second moments for the old baseline and
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// 2nd moment normalizations. Returns the outline length.
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// The input denorm should be the normalizations that have been applied from
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// the image to the current state of this TBLOB.
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int ComputeMoments(FCOORD* center, FCOORD* second_moments) const;
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// Computes the precise bounding box of the coords that are generated by
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// GetEdgeCoords. This may be different from the bounding box of the polygon.
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void GetPreciseBoundingBox(TBOX* precise_box) const;
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// Adds edges to the given vectors.
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// For all the edge steps in all the outlines, or polygonal approximation
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// where there are no edge steps, collects the steps into x_coords/y_coords.
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// x_coords is a collection of the x-coords of vertical edges for each
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// y-coord starting at box.bottom().
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// y_coords is a collection of the y-coords of horizontal edges for each
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// x-coord starting at box.left().
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// Eg x_coords[0] is a collection of the x-coords of edges at y=bottom.
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// Eg x_coords[1] is a collection of the x-coords of edges at y=bottom + 1.
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void GetEdgeCoords(const TBOX& box,
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GenericVector<GenericVector<int> >* x_coords,
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GenericVector<GenericVector<int> >* y_coords) const;
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TESSLINE *outlines; // List of outlines in blob.
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private: // TODO(rays) Someday the data members will be private too.
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// For all the edge steps in all the outlines, or polygonal approximation
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// where there are no edge steps, collects the steps into the bounding_box,
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// llsq and/or the x_coords/y_coords. Both are used in different kinds of
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// normalization.
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// For a description of x_coords, y_coords, see GetEdgeCoords above.
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void CollectEdges(const TBOX& box,
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TBOX* bounding_box, LLSQ* llsq,
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GenericVector<GenericVector<int> >* x_coords,
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GenericVector<GenericVector<int> >* y_coords) const;
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private:
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// DENORM indicating the transformations that this blob has undergone so far.
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DENORM denorm_;
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}; // Blob structure.
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struct TWERD {
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TWERD() : latin_script(false) {}
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TWERD(const TWERD& src) {
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CopyFrom(src);
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}
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~TWERD() {
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Clear();
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}
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TWERD& operator=(const TWERD& src) {
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CopyFrom(src);
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return *this;
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}
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// Factory to build a TWERD from a (C_BLOB) WERD, with polygonal
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// approximation along the way.
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static TWERD* PolygonalCopy(bool allow_detailed_fx, WERD* src);
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// Baseline normalizes the blobs in-place, recording the normalization in the
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// DENORMs in the blobs.
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void BLNormalize(const BLOCK* block, const ROW* row, Pix* pix, bool inverse,
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float x_height, float baseline_shift, bool numeric_mode,
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tesseract::OcrEngineMode hint,
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const TBOX* norm_box,
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DENORM* word_denorm);
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// Copies the data and the blobs, but leaves next untouched.
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void CopyFrom(const TWERD& src);
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// Deletes owned data.
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void Clear();
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// Recomputes the bounding boxes of the blobs.
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void ComputeBoundingBoxes();
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// Returns the number of blobs in the word.
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int NumBlobs() const {
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return blobs.size();
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}
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TBOX bounding_box() const;
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// Merges the blobs from start to end, not including end, and deletes
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// the blobs between start and end.
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void MergeBlobs(int start, int end);
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void plot(ScrollView* window);
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GenericVector<TBLOB*> blobs; // Blobs in word.
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bool latin_script; // This word is in a latin-based script.
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};
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/*----------------------------------------------------------------------
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M a c r o s
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----------------------------------------------------------------------*/
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/**********************************************************************
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* free_widths
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*
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* Free the memory taken up by a width array.
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**********************************************************************/
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#define free_widths(w) \
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if (w) memfree (w)
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/*----------------------------------------------------------------------
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F u n c t i o n s
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----------------------------------------------------------------------*/
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// TODO(rays) Make divisible_blob and divide_blobs members of TBLOB.
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bool divisible_blob(TBLOB *blob, bool italic_blob, TPOINT* location);
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void divide_blobs(TBLOB *blob, TBLOB *other_blob, bool italic_blob,
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const TPOINT& location);
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#endif
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