/* -*-C-*- ******************************************************************************** * * File: seam.c (Formerly seam.c) * Description: * Author: Mark Seaman, OCR Technology * Created: Fri Oct 16 14:37:00 1987 * Modified: Fri May 17 16:30:13 1991 (Mark Seaman) marks@hpgrlt * Language: C * Package: N/A * Status: Reusable Software Component * * (c) Copyright 1987, Hewlett-Packard Company. ** 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. * *********************************************************************************/ /*---------------------------------------------------------------------- I n c l u d e s ----------------------------------------------------------------------*/ #include "seam.h" #include "callcpp.h" #include "structures.h" #include "makechop.h" #ifdef __UNIX__ #include #endif /*---------------------------------------------------------------------- V a r i a b l e s ----------------------------------------------------------------------*/ #define NUM_STARTING_SEAMS 20 #define SEAMBLOCK 100 /* Cells per block */ makestructure (newseam, free_seam, printseam, SEAM, freeseam, SEAMBLOCK, "SEAM", seamcount); /*---------------------------------------------------------------------- Public Function Code ----------------------------------------------------------------------*/ /********************************************************************** * point_in_split * * Check to see if either of these points are present in the current * split. Return TRUE if one of them is. **********************************************************************/ bool point_in_split(SPLIT *split, EDGEPT *point1, EDGEPT *point2) { return ((split) ? ((exact_point (split->point1, point1) || exact_point (split->point1, point2) || exact_point (split->point2, point1) || exact_point (split->point2, point2)) ? TRUE : FALSE) : FALSE); } /********************************************************************** * point_in_seam * * Check to see if either of these points are present in the current * seam. Return TRUE if one of them is. **********************************************************************/ bool point_in_seam(SEAM *seam, SPLIT *split) { return (point_in_split (seam->split1, split->point1, split->point2) || point_in_split (seam->split2, split->point1, split->point2) || point_in_split (seam->split3, split->point1, split->point2)); } /********************************************************************** * add_seam * * Add another seam to a collection of seams. **********************************************************************/ SEAMS add_seam(SEAMS seam_list, SEAM *seam) { return (array_push (seam_list, seam)); } /********************************************************************** * combine_seam * * Combine two seam records into a single seam. Move the split * references from the second seam to the first one. The argument * convention is patterned after strcpy. **********************************************************************/ void combine_seams(SEAM *dest_seam, SEAM *source_seam) { dest_seam->priority += source_seam->priority; dest_seam->location += source_seam->location; dest_seam->location /= 2; if (source_seam->split1) { if (!dest_seam->split1) dest_seam->split1 = source_seam->split1; else if (!dest_seam->split2) dest_seam->split2 = source_seam->split1; else if (!dest_seam->split3) dest_seam->split3 = source_seam->split1; else cprintf ("combine_seam: Seam is too crowded, can't be combined !\n"); } if (source_seam->split2) { if (!dest_seam->split2) dest_seam->split2 = source_seam->split2; else if (!dest_seam->split3) dest_seam->split3 = source_seam->split2; else cprintf ("combine_seam: Seam is too crowded, can't be combined !\n"); } if (source_seam->split3) { if (!dest_seam->split3) dest_seam->split3 = source_seam->split3; else cprintf ("combine_seam: Seam is too crowded, can't be combined !\n"); } free_seam(source_seam); } /********************************************************************** * delete_seam * * Free this seam record and the splits that are attached to it. **********************************************************************/ void delete_seam(void *arg) { //SEAM *seam) SEAM *seam = (SEAM *) arg; if (seam) { if (seam->split1) delete_split (seam->split1); if (seam->split2) delete_split (seam->split2); if (seam->split3) delete_split (seam->split3); free_seam(seam); } } /********************************************************************** * free_seam_list * * Free all the seams that have been allocated in this list. Reclaim * the memory for each of the splits as well. **********************************************************************/ void free_seam_list(SEAMS seam_list) { int x; array_loop (seam_list, x) delete_seam (array_value (seam_list, x)); array_free(seam_list); } /********************************************************************** * test_insert_seam * * Return true if insert_seam will succeed. **********************************************************************/ bool test_insert_seam(SEAMS seam_list, int index, TBLOB *left_blob, TBLOB *first_blob) { SEAM *test_seam; TBLOB *blob; int test_index; int list_length; list_length = array_count (seam_list); for (test_index = 0, blob = first_blob->next; test_index < index; test_index++, blob = blob->next) { test_seam = (SEAM *) array_value (seam_list, test_index); if (test_index + test_seam->widthp < index && test_seam->widthp + test_index == index - 1 && account_splits_right(test_seam, blob) < 0) return false; } for (test_index = index, blob = left_blob->next; test_index < list_length; test_index++, blob = blob->next) { test_seam = (SEAM *) array_value (seam_list, test_index); if (test_index - test_seam->widthn >= index && test_index - test_seam->widthn == index && account_splits_left(test_seam, first_blob, blob) < 0) return false; } return true; } /********************************************************************** * insert_seam * * Add another seam to a collection of seams at a particular location * in the seam array. **********************************************************************/ SEAMS insert_seam(SEAMS seam_list, int index, SEAM *seam, TBLOB *left_blob, TBLOB *first_blob) { SEAM *test_seam; TBLOB *blob; int test_index; int list_length; list_length = array_count (seam_list); for (test_index = 0, blob = first_blob->next; test_index < index; test_index++, blob = blob->next) { test_seam = (SEAM *) array_value (seam_list, test_index); if (test_index + test_seam->widthp >= index) { test_seam->widthp++; /*got in the way */ } else if (test_seam->widthp + test_index == index - 1) { test_seam->widthp = account_splits_right(test_seam, blob); if (test_seam->widthp < 0) { cprintf ("Failed to find any right blob for a split!\n"); print_seam("New dud seam", seam); print_seam("Failed seam", test_seam); } } } for (test_index = index, blob = left_blob->next; test_index < list_length; test_index++, blob = blob->next) { test_seam = (SEAM *) array_value (seam_list, test_index); if (test_index - test_seam->widthn < index) { test_seam->widthn++; /*got in the way */ } else if (test_index - test_seam->widthn == index) { test_seam->widthn = account_splits_left(test_seam, first_blob, blob); if (test_seam->widthn < 0) { cprintf ("Failed to find any left blob for a split!\n"); print_seam("New dud seam", seam); print_seam("Failed seam", test_seam); } } } return (array_insert (seam_list, index, seam)); } /********************************************************************** * account_splits_right * * Account for all the splits by looking to the right. * in the blob list. **********************************************************************/ int account_splits_right(SEAM *seam, TBLOB *blob) { inT8 found_em[3]; inT8 width; found_em[0] = seam->split1 == NULL; found_em[1] = seam->split2 == NULL; found_em[2] = seam->split3 == NULL; if (found_em[0] && found_em[1] && found_em[2]) return 0; width = 0; do { if (!found_em[0]) found_em[0] = find_split_in_blob (seam->split1, blob); if (!found_em[1]) found_em[1] = find_split_in_blob (seam->split2, blob); if (!found_em[2]) found_em[2] = find_split_in_blob (seam->split3, blob); if (found_em[0] && found_em[1] && found_em[2]) { return width; } width++; blob = blob->next; } while (blob != NULL); return -1; } /********************************************************************** * account_splits_left * * Account for all the splits by looking to the left. * in the blob list. **********************************************************************/ int account_splits_left(SEAM *seam, TBLOB *blob, TBLOB *end_blob) { static inT32 depth = 0; static inT8 width; static inT8 found_em[3]; if (blob != end_blob) { depth++; account_splits_left (seam, blob->next, end_blob); depth--; } else { found_em[0] = seam->split1 == NULL; found_em[1] = seam->split2 == NULL; found_em[2] = seam->split3 == NULL; width = 0; } if (!found_em[0]) found_em[0] = find_split_in_blob (seam->split1, blob); if (!found_em[1]) found_em[1] = find_split_in_blob (seam->split2, blob); if (!found_em[2]) found_em[2] = find_split_in_blob (seam->split3, blob); if (!found_em[0] || !found_em[1] || !found_em[2]) { width++; if (depth == 0) { width = -1; } } return width; } /********************************************************************** * find_split_in_blob * * Return TRUE if the split is somewhere in this blob. **********************************************************************/ bool find_split_in_blob(SPLIT *split, TBLOB *blob) { TESSLINE *outline; #if 0 for (outline = blob->outlines; outline != NULL; outline = outline->next) if (is_split_outline (outline, split)) return TRUE; return FALSE; #endif for (outline = blob->outlines; outline != NULL; outline = outline->next) if (point_in_outline(split->point1, outline)) break; if (outline == NULL) return FALSE; for (outline = blob->outlines; outline != NULL; outline = outline->next) if (point_in_outline(split->point2, outline)) return TRUE; return FALSE; } /********************************************************************** * join_two_seams * * Merge these two seams into a new seam. Duplicate the split records * in both of the input seams. Return the resultant seam. **********************************************************************/ SEAM *join_two_seams(SEAM *seam1, SEAM *seam2) { SEAM *result = NULL; SEAM *temp; assert(seam1 &&seam2); if (((seam1->split3 == NULL && seam2->split2 == NULL) || (seam1->split2 == NULL && seam2->split3 == NULL) || seam1->split1 == NULL || seam2->split1 == NULL) && (!shared_split_points (seam1, seam2))) { clone_seam(result, seam1); clone_seam(temp, seam2); combine_seams(result, temp); } return (result); } /********************************************************************** * new_seam * * Create a structure for a "seam" between two blobs. This data * structure may actually hold up to three different splits. * Initailization of this record is done by this routine. **********************************************************************/ SEAM *new_seam(PRIORITY priority, int x_location, SPLIT *split1, SPLIT *split2, SPLIT *split3) { SEAM *seam; seam = newseam (); seam->priority = priority; seam->location = x_location; seam->widthp = 0; seam->widthn = 0; seam->split1 = split1; seam->split2 = split2; seam->split3 = split3; return (seam); } /********************************************************************** * new_seam_list * * Create a collection of seam records in an array. **********************************************************************/ SEAMS new_seam_list() { return (array_new (NUM_STARTING_SEAMS)); } /********************************************************************** * print_seam * * Print a list of splits. Show the coordinates of both points in * each split. **********************************************************************/ void print_seam(const char *label, SEAM *seam) { if (seam) { cprintf(label); cprintf (" %6.2f @ %5d, p=%d, n=%d ", seam->priority, seam->location, seam->widthp, seam->widthn); print_split (seam->split1); if (seam->split2) { cprintf (", "); print_split (seam->split2); if (seam->split3) { cprintf (", "); print_split (seam->split3); } } cprintf ("\n"); } } /********************************************************************** * print_seams * * Print a list of splits. Show the coordinates of both points in * each split. **********************************************************************/ void print_seams(const char *label, SEAMS seams) { int x; char number[CHARS_PER_LINE]; if (seams) { cprintf ("%s\n", label); array_loop(seams, x) { sprintf (number, "%2d: ", x); print_seam (number, (SEAM *) array_value (seams, x)); } cprintf ("\n"); } } /********************************************************************** * shared_split_points * * Check these two seams to make sure that neither of them have two * points in common. Return TRUE if any of the same points are present * in any of the splits of both seams. **********************************************************************/ int shared_split_points(SEAM *seam1, SEAM *seam2) { if (seam1 == NULL || seam2 == NULL) return (FALSE); if (seam2->split1 == NULL) return (FALSE); if (point_in_seam (seam1, seam2->split1)) return (TRUE); if (seam2->split2 == NULL) return (FALSE); if (point_in_seam (seam1, seam2->split2)) return (TRUE); if (seam2->split3 == NULL) return (FALSE); if (point_in_seam (seam1, seam2->split3)) return (TRUE); return (FALSE); }