/********************************************************************** * File: pitsync1.cpp (Formerly pitsync.c) * Description: Code to find the optimum fixed pitch segmentation of some blobs. * Author: Ray Smith * Created: Thu Nov 19 11:48:05 GMT 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. * **********************************************************************/ #include "mfcpch.h" #ifdef __UNIX__ #include #endif #include #include "memry.h" #include "pitsync1.h" #include "notdll.h" ELISTIZE (FPSEGPT) CLISTIZE (FPSEGPT_LIST) #define EXTERN EXTERN INT_VAR (pitsync_linear_version, 6, "Use new fast algorithm"); EXTERN double_VAR (pitsync_joined_edge, 0.75, "Dist inside big blob for chopping"); EXTERN double_VAR (pitsync_offset_freecut_fraction, 0.25, "Fraction of cut for free cuts"); EXTERN INT_VAR (pitsync_fake_depth, 1, "Max advance fake generation"); /********************************************************************** * FPSEGPT::FPSEGPT * * Constructor to make a new FPSEGPT. * The existing FPCUTPT is duplicated. **********************************************************************/ FPSEGPT::FPSEGPT( //constructor FPCUTPT *cutpt //create from new form ) { pred = NULL; mean_sum = cutpt->sum (); sq_sum = cutpt->squares (); cost = cutpt->cost_function (); faked = cutpt->faked; terminal = cutpt->terminal; fake_count = cutpt->fake_count; xpos = cutpt->position (); mid_cuts = cutpt->cheap_cuts (); } /********************************************************************** * FPSEGPT::FPSEGPT * * Constructor to make a new FPSEGPT. **********************************************************************/ FPSEGPT::FPSEGPT ( //constructor inT16 x //position ):xpos (x) { pred = NULL; mean_sum = 0; sq_sum = 0; cost = 0; faked = FALSE; terminal = FALSE; fake_count = 0; mid_cuts = 0; } /********************************************************************** * FPSEGPT::FPSEGPT * * Constructor to make a new FPSEGPT. **********************************************************************/ FPSEGPT::FPSEGPT ( //constructor inT16 x, //position BOOL8 faking, //faking this one inT16 offset, //dist to gap inT16 region_index, //segment number inT16 pitch, //proposed pitch inT16 pitch_error, //allowed tolerance FPSEGPT_LIST * prev_list //previous segment ):xpos (x) { inT16 best_fake; //on previous FPSEGPT *segpt; //segment point inT32 dist; //from prev segment double sq_dist; //squared distance double mean; //mean pitch double total; //total dists double factor; //cost function FPSEGPT_IT pred_it = prev_list;//for previuos segment cost = MAX_FLOAT32; pred = NULL; faked = faking; terminal = FALSE; best_fake = MAX_INT16; mid_cuts = 0; for (pred_it.mark_cycle_pt (); !pred_it.cycled_list (); pred_it.forward ()) { segpt = pred_it.data (); if (segpt->fake_count < best_fake) best_fake = segpt->fake_count; dist = x - segpt->xpos; if (dist >= pitch - pitch_error && dist <= pitch + pitch_error && !segpt->terminal) { total = segpt->mean_sum + dist; sq_dist = dist * dist + segpt->sq_sum + offset * offset; //sum of squarees mean = total / region_index; factor = mean - pitch; factor *= factor; factor += sq_dist / (region_index) - mean * mean; if (factor < cost) { cost = factor; //find least cost pred = segpt; //save path mean_sum = total; sq_sum = sq_dist; fake_count = segpt->fake_count + faked; } } } if (fake_count > best_fake + 1) pred = NULL; //fail it } /********************************************************************** * check_pitch_sync * * Construct the lattice of possible segmentation points and choose the * optimal path. Return the optimal path only. * The return value is a measure of goodness of the sync. **********************************************************************/ double check_pitch_sync( //find segmentation BLOBNBOX_IT *blob_it, //blobs to do inT16 blob_count, //no of blobs inT16 pitch, //pitch estimate inT16 pitch_error, //tolerance STATS *projection, //vertical FPSEGPT_LIST *seg_list //output list ) { inT16 x; //current coord inT16 min_index; //blob number inT16 max_index; //blob number inT16 left_edge; //of word inT16 right_edge; //of word inT16 right_max; //max allowed x inT16 min_x; //in this region inT16 max_x; inT16 region_index; inT16 best_region_index = 0; //for best result inT16 offset; //dist to legal area inT16 left_best_x; //edge of good region inT16 right_best_x; //right edge TBOX min_box; //bounding box TBOX max_box; //bounding box TBOX next_box; //box of next blob FPSEGPT *segpt; //segment point FPSEGPT_LIST *segpts; //points in a segment double best_cost; //best path double mean_sum; //computes result FPSEGPT *best_end; //end of best path BLOBNBOX_IT min_it; //copy iterator BLOBNBOX_IT max_it; //copy iterator FPSEGPT_IT segpt_it; //iterator //output segments FPSEGPT_IT outseg_it = seg_list; FPSEGPT_LIST_CLIST lattice; //list of lists //region iterator FPSEGPT_LIST_C_IT lattice_it = &lattice; // tprintf("Computing sync on word of %d blobs with pitch %d\n", // blob_count, pitch); // if (blob_count==8 && pitch==27) // projection->print(stdout,TRUE); if (pitch < 3) pitch = 3; //nothing ludicrous if ((pitch - 3) / 2 < pitch_error) pitch_error = (pitch - 3) / 2; min_it = *blob_it; min_box = box_next (&min_it); //get box // if (blob_count==8 && pitch==27) // tprintf("1st box at (%d,%d)->(%d,%d)\n", // min_box.left(),min_box.bottom(), // min_box.right(),min_box.top()); //left of word left_edge = min_box.left () + pitch_error; for (min_index = 1; min_index < blob_count; min_index++) { min_box = box_next (&min_it); // if (blob_count==8 && pitch==27) // tprintf("Box at (%d,%d)->(%d,%d)\n", // min_box.left(),min_box.bottom(), // min_box.right(),min_box.top()); } right_edge = min_box.right (); //end of word max_x = left_edge; //min permissible min_x = max_x - pitch + pitch_error * 2 + 1; right_max = right_edge + pitch - pitch_error - 1; segpts = new FPSEGPT_LIST; //list of points segpt_it.set_to_list (segpts); for (x = min_x; x <= max_x; x++) { segpt = new FPSEGPT (x); //make a new one //put in list segpt_it.add_after_then_move (segpt); } //first segment lattice_it.add_before_then_move (segpts); min_index = 0; region_index = 1; best_cost = MAX_FLOAT32; best_end = NULL; min_it = *blob_it; min_box = box_next (&min_it); //first box do { left_best_x = -1; right_best_x = -1; segpts = new FPSEGPT_LIST; //list of points segpt_it.set_to_list (segpts); min_x += pitch - pitch_error;//next limits max_x += pitch + pitch_error; while (min_box.right () < min_x && min_index < blob_count) { min_index++; min_box = box_next (&min_it); } max_it = min_it; max_index = min_index; max_box = min_box; next_box = box_next (&max_it); for (x = min_x; x <= max_x && x <= right_max; x++) { while (x < right_edge && max_index < blob_count && x > max_box.right ()) { max_index++; max_box = next_box; next_box = box_next (&max_it); } if (x <= max_box.left () + pitch_error || x >= max_box.right () - pitch_error || x >= right_edge || (max_index < blob_count - 1 && x >= next_box.left ()) || (x - max_box.left () > pitch * pitsync_joined_edge && max_box.right () - x > pitch * pitsync_joined_edge)) { // || projection->local_min(x)) if (x - max_box.left () > 0 && x - max_box.left () <= pitch_error) //dist to real break offset = x - max_box.left (); else if (max_box.right () - x > 0 && max_box.right () - x <= pitch_error && (max_index >= blob_count - 1 || x < next_box.left ())) offset = max_box.right () - x; else offset = 0; // offset=pitsync_offset_freecut_fraction*projection->pile_count(x); segpt = new FPSEGPT (x, FALSE, offset, region_index, pitch, pitch_error, lattice_it.data ()); } else { offset = projection->pile_count (x); segpt = new FPSEGPT (x, TRUE, offset, region_index, pitch, pitch_error, lattice_it.data ()); } if (segpt->previous () != NULL) { segpt_it.add_after_then_move (segpt); if (x >= right_edge - pitch_error) { segpt->terminal = TRUE;//no more wanted if (segpt->cost_function () < best_cost) { best_cost = segpt->cost_function (); //find least best_end = segpt; best_region_index = region_index; left_best_x = x; right_best_x = x; } else if (segpt->cost_function () == best_cost && right_best_x == x - 1) right_best_x = x; } } else { delete segpt; //no good } } if (segpts->empty ()) { if (best_end != NULL) break; //already found one make_illegal_segment (lattice_it.data (), min_box, min_it, region_index, pitch, pitch_error, segpts); } else { if (right_best_x > left_best_x + 1) { left_best_x = (left_best_x + right_best_x + 1) / 2; for (segpt_it.mark_cycle_pt (); !segpt_it.cycled_list () && segpt_it.data ()->position () != left_best_x; segpt_it.forward ()); if (segpt_it.data ()->position () == left_best_x) //middle of region best_end = segpt_it.data (); } } //new segment lattice_it.add_before_then_move (segpts); region_index++; } while (min_x < right_edge); ASSERT_HOST (best_end != NULL);//must always find some for (lattice_it.mark_cycle_pt (); !lattice_it.cycled_list (); lattice_it.forward ()) { segpts = lattice_it.data (); segpt_it.set_to_list (segpts); // if (blob_count==8 && pitch==27) // { // for (segpt_it.mark_cycle_pt();!segpt_it.cycled_list();segpt_it.forward()) // { // segpt=segpt_it.data(); // tprintf("At %d, (%x) cost=%g, m=%g, sq=%g, pred=%x\n", // segpt->position(),segpt,segpt->cost_function(), // segpt->sum(),segpt->squares(),segpt->previous()); // } // tprintf("\n"); // } for (segpt_it.mark_cycle_pt (); !segpt_it.cycled_list () && segpt_it.data () != best_end; segpt_it.forward ()); if (segpt_it.data () == best_end) { //save good one segpt = segpt_it.extract (); outseg_it.add_before_then_move (segpt); best_end = segpt->previous (); } } ASSERT_HOST (best_end == NULL); ASSERT_HOST (!outseg_it.empty ()); outseg_it.move_to_last (); mean_sum = outseg_it.data ()->sum (); mean_sum = mean_sum * mean_sum / best_region_index; if (outseg_it.data ()->squares () - mean_sum < 0) tprintf ("Impossible sqsum=%g, mean=%g, total=%d\n", outseg_it.data ()->squares (), outseg_it.data ()->sum (), best_region_index); lattice.deep_clear (); //shift the lot return outseg_it.data ()->squares () - mean_sum; } /********************************************************************** * make_illegal_segment * * Make a fake set of chop points due to having no legal places. **********************************************************************/ void make_illegal_segment( //find segmentation FPSEGPT_LIST *prev_list, //previous segments TBOX blob_box, //bounding box BLOBNBOX_IT blob_it, //iterator inT16 region_index, //number of segment inT16 pitch, //pitch estimate inT16 pitch_error, //tolerance FPSEGPT_LIST *seg_list //output list ) { inT16 x; //current coord inT16 min_x = 0; //in this region inT16 max_x = 0; inT16 offset; //dist to edge FPSEGPT *segpt; //segment point FPSEGPT *prevpt; //previous point float best_cost; //best path FPSEGPT_IT segpt_it = seg_list;//iterator //previous points FPSEGPT_IT prevpt_it = prev_list; best_cost = MAX_FLOAT32; for (prevpt_it.mark_cycle_pt (); !prevpt_it.cycled_list (); prevpt_it.forward ()) { prevpt = prevpt_it.data (); if (prevpt->cost_function () < best_cost) { //find least best_cost = prevpt->cost_function (); min_x = prevpt->position (); max_x = min_x; //limits on coords } else if (prevpt->cost_function () == best_cost) { max_x = prevpt->position (); } } min_x += pitch - pitch_error; max_x += pitch + pitch_error; for (x = min_x; x <= max_x; x++) { while (x > blob_box.right ()) { blob_box = box_next (&blob_it); } offset = x - blob_box.left (); if (blob_box.right () - x < offset) offset = blob_box.right () - x; segpt = new FPSEGPT (x, FALSE, offset, region_index, pitch, pitch_error, prev_list); if (segpt->previous () != NULL) { ASSERT_HOST (offset >= 0); fprintf (stderr, "made fake at %d\n", x); //make one up segpt_it.add_after_then_move (segpt); segpt->faked = TRUE; segpt->fake_count++; } else delete segpt; } }