/********************************************************************** * File: fpchop.cpp (Formerly fp_chop.c) * Description: Code to chop fixed pitch text into character cells. * Author: Ray Smith * Created: Thu Sep 16 11:14:15 BST 1993 * * (C) Copyright 1993, 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. * **********************************************************************/ #ifdef __UNIX__ #include #endif #include "stderr.h" #include "blobbox.h" #include "statistc.h" #include "drawtord.h" #include "tovars.h" #include "topitch.h" #include "fpchop.h" // Include automatically generated configuration file if running autoconf. #ifdef HAVE_CONFIG_H #include "config_auto.h" #endif #define EXTERN EXTERN INT_VAR (textord_fp_chop_error, 2, "Max allowed bending of chop cells"); EXTERN double_VAR (textord_fp_chop_snap, 0.5, "Max distance of chop pt from vertex"); ELISTIZE(C_OUTLINE_FRAG) //#undef ASSERT_HOST //#define ASSERT_HOST(x) if (!(x)) AfxMessageBox(#x); /********************************************************************** * fixed_pitch_words * * Make a ROW from a fixed pitch TO_ROW. **********************************************************************/ ROW *fixed_pitch_words( //find lines TO_ROW *row, //row to do FCOORD rotation //for drawing ) { BOOL8 bol; //start of line uinT8 blanks; //in front of word uinT8 new_blanks; //blanks in empty cell inT16 chop_coord; //chop boundary inT16 prev_chop_coord; //start of cell inT16 rep_left; //left edge of rep word ROW *real_row; //output row C_OUTLINE_LIST left_coutlines; C_OUTLINE_LIST right_coutlines; C_BLOB_LIST cblobs; C_BLOB_IT cblob_it = &cblobs; WERD_LIST words; WERD_IT word_it = &words; //new words //repeated blobs WERD_IT rep_it = &row->rep_words; WERD *word; //new word inT32 xstarts[2]; //row ends inT32 prev_x; //end of prev blob //iterator BLOBNBOX_IT box_it = row->blob_list (); //boundaries ICOORDELT_IT cell_it = &row->char_cells; #ifndef GRAPHICS_DISABLED if (textord_show_page_cuts && to_win != NULL) { plot_row_cells (to_win, ScrollView::RED, row, 0, &row->char_cells); } #endif prev_x = -MAX_INT16; bol = TRUE; blanks = 0; if (rep_it.empty ()) rep_left = MAX_INT16; else rep_left = rep_it.data ()->bounding_box ().left (); if (box_it.empty ()) return NULL; //empty row xstarts[0] = box_it.data ()->bounding_box ().left (); if (rep_left < xstarts[0]) { xstarts[0] = rep_left; } if (cell_it.empty () || row->char_cells.singleton ()) { tprintf ("Row without enough char cells!\n"); tprintf ("Leftmost blob is at (%d,%d)\n", box_it.data ()->bounding_box ().left (), box_it.data ()->bounding_box ().bottom ()); return NULL; } ASSERT_HOST (!cell_it.empty () && !row->char_cells.singleton ()); prev_chop_coord = cell_it.data ()->x (); word = NULL; while (rep_left < cell_it.data ()->x ()) { word = add_repeated_word (&rep_it, rep_left, prev_chop_coord, blanks, row->fixed_pitch, &word_it); } cell_it.mark_cycle_pt (); if (prev_chop_coord >= cell_it.data ()->x ()) cell_it.forward (); for (; !cell_it.cycled_list (); cell_it.forward ()) { chop_coord = cell_it.data ()->x (); while (!box_it.empty () && box_it.data ()->bounding_box ().left () <= chop_coord) { if (box_it.data ()->bounding_box ().right () > prev_x) prev_x = box_it.data ()->bounding_box ().right (); split_to_blob (box_it.extract (), chop_coord, textord_fp_chop_error + 0.5f, &left_coutlines, &right_coutlines); box_it.forward (); while (!box_it.empty() && box_it.data()->cblob() == NULL) { delete box_it.extract(); box_it.forward(); } } if (!right_coutlines.empty() && left_coutlines.empty()) split_to_blob (NULL, chop_coord, textord_fp_chop_error + 0.5f, &left_coutlines, &right_coutlines); if (!left_coutlines.empty()) { cblob_it.add_after_then_move(new C_BLOB(&left_coutlines)); } else { if (rep_left < chop_coord) { if (rep_left > prev_chop_coord) new_blanks = (uinT8) floor ((rep_left - prev_chop_coord) / row->fixed_pitch + 0.5); else new_blanks = 0; } else { if (chop_coord > prev_chop_coord) new_blanks = (uinT8) floor ((chop_coord - prev_chop_coord) / row->fixed_pitch + 0.5); else new_blanks = 0; } if (!cblob_it.empty()) { if (blanks < 1 && word != NULL && !word->flag (W_REP_CHAR)) blanks = 1; word = new WERD (&cblobs, blanks, NULL); cblob_it.set_to_list (&cblobs); word->set_flag (W_DONT_CHOP, TRUE); word_it.add_after_then_move (word); if (bol) { word->set_flag (W_BOL, TRUE); bol = FALSE; } blanks = new_blanks; } else blanks += new_blanks; while (rep_left < chop_coord) { word = add_repeated_word (&rep_it, rep_left, prev_chop_coord, blanks, row->fixed_pitch, &word_it); } } if (prev_chop_coord < chop_coord) prev_chop_coord = chop_coord; } if (!cblob_it.empty()) { word = new WERD(&cblobs, blanks, NULL); word->set_flag (W_DONT_CHOP, TRUE); word_it.add_after_then_move (word); if (bol) word->set_flag (W_BOL, TRUE); } ASSERT_HOST (word != NULL); while (!rep_it.empty ()) { add_repeated_word (&rep_it, rep_left, prev_chop_coord, blanks, row->fixed_pitch, &word_it); } //at end of line word_it.data ()->set_flag (W_EOL, TRUE); if (prev_chop_coord > prev_x) prev_x = prev_chop_coord; xstarts[1] = prev_x + 1; real_row = new ROW (row, (inT16) row->kern_size, (inT16) row->space_size); word_it.set_to_list (real_row->word_list ()); //put words in row word_it.add_list_after (&words); real_row->recalc_bounding_box (); return real_row; } /********************************************************************** * add_repeated_word * * Add repeated word into the row at the given point. **********************************************************************/ WERD *add_repeated_word( //move repeated word WERD_IT *rep_it, //repeated words inT16 &rep_left, //left edge of word inT16 &prev_chop_coord, //previous word end uinT8 &blanks, //no of blanks float pitch, //char cell size WERD_IT *word_it //list of words ) { WERD *word; //word to move inT16 new_blanks; //extra blanks if (rep_left > prev_chop_coord) { new_blanks = (uinT8) floor ((rep_left - prev_chop_coord) / pitch + 0.5); blanks += new_blanks; } word = rep_it->extract (); prev_chop_coord = word->bounding_box ().right (); word_it->add_after_then_move (word); word->set_blanks (blanks); rep_it->forward (); if (rep_it->empty ()) rep_left = MAX_INT16; else rep_left = rep_it->data ()->bounding_box ().left (); blanks = 0; return word; } /********************************************************************** * split_to_blob * * Split a BLOBNBOX across a vertical chop line and put the pieces * into a left outline list and a right outline list. **********************************************************************/ void split_to_blob( //split the blob BLOBNBOX *blob, //blob to split inT16 chop_coord, //place to chop float pitch_error, //allowed deviation C_OUTLINE_LIST *left_coutlines, //for cblobs C_OUTLINE_LIST *right_coutlines) { C_BLOB *real_cblob; //cblob to chop if (blob != NULL) { real_cblob = blob->cblob(); } else { real_cblob = NULL; } if (!right_coutlines->empty() || real_cblob != NULL) fixed_chop_cblob(real_cblob, chop_coord, pitch_error, left_coutlines, right_coutlines); if (blob != NULL) delete blob; //free it } /********************************************************************** * fixed_chop_cblob * * Chop the given cblob (if any) and the existing right outlines to * produce a list of outlines left of the chop point and more to the right. **********************************************************************/ void fixed_chop_cblob( //split the blob C_BLOB *blob, //blob to split inT16 chop_coord, //place to chop float pitch_error, //allowed deviation C_OUTLINE_LIST *left_outlines, //left half of chop C_OUTLINE_LIST *right_outlines //right half of chop ) { C_OUTLINE *old_right; //already there C_OUTLINE_LIST new_outlines; //new right ones //ouput iterator C_OUTLINE_IT left_it = left_outlines; //in/out iterator C_OUTLINE_IT right_it = right_outlines; C_OUTLINE_IT new_it = &new_outlines; C_OUTLINE_IT blob_it; //outlines in blob if (!right_it.empty ()) { while (!right_it.empty ()) { old_right = right_it.extract (); right_it.forward (); fixed_split_coutline(old_right, chop_coord, pitch_error, &left_it, &new_it); } right_it.add_list_before (&new_outlines); } if (blob != NULL) { blob_it.set_to_list (blob->out_list ()); for (blob_it.mark_cycle_pt (); !blob_it.cycled_list (); blob_it.forward ()) fixed_split_coutline (blob_it.extract (), chop_coord, pitch_error, &left_it, &right_it); delete blob; } } /********************************************************************** * fixed_split_outline * * Chop the given outline (if necessary) placing the fragments which * fall either side of the chop line into the appropriate list. **********************************************************************/ void fixed_split_coutline( //chop the outline C_OUTLINE *srcline, //source outline inT16 chop_coord, //place to chop float pitch_error, //allowed deviation C_OUTLINE_IT *left_it, //left half of chop C_OUTLINE_IT *right_it //right half of chop ) { C_OUTLINE *child; //child outline TBOX srcbox; //box of outline C_OUTLINE_LIST left_ch; //left children C_OUTLINE_LIST right_ch; //right children C_OUTLINE_FRAG_LIST left_frags;//chopped fragments C_OUTLINE_FRAG_LIST right_frags;; C_OUTLINE_IT left_ch_it = &left_ch; //for whole children C_OUTLINE_IT right_ch_it = &right_ch; //for holes C_OUTLINE_IT child_it = srcline->child (); srcbox = srcline->bounding_box(); if (srcbox.left() + srcbox.right() <= chop_coord * 2 && srcbox.right() < chop_coord + pitch_error) { // Whole outline is in the left side or not far over the chop_coord, // so put the whole thing on the left. left_it->add_after_then_move(srcline); } else if (srcbox.left() + srcbox.right() > chop_coord * 2 && srcbox.left () > chop_coord - pitch_error) { // Whole outline is in the right side or not far over the chop_coord, // so put the whole thing on the right. right_it->add_before_stay_put(srcline); } else { // Needs real chopping. if (fixed_chop_coutline(srcline, chop_coord, pitch_error, &left_frags, &right_frags)) { for (child_it.mark_cycle_pt(); !child_it.cycled_list(); child_it.forward()) { child = child_it.extract(); srcbox = child->bounding_box(); if (srcbox.right() < chop_coord) { // Whole child is on the left. left_ch_it.add_after_then_move(child); } else if (srcbox.left() > chop_coord) { // Whole child is on the right. right_ch_it.add_after_then_move (child); } else { // No pitch_error is allowed when chopping children to prevent // impossible outlines from being created. if (fixed_chop_coutline(child, chop_coord, 0.0f, &left_frags, &right_frags)) { delete child; } else { if (srcbox.left() + srcbox.right() <= chop_coord * 2) left_ch_it.add_after_then_move(child); else right_ch_it.add_after_then_move(child); } } } close_chopped_cfragments(&left_frags, &left_ch, pitch_error, left_it); close_chopped_cfragments(&right_frags, &right_ch, pitch_error, right_it); ASSERT_HOST(left_ch.empty() && right_ch.empty()); // No children left. delete srcline; // Smashed up. } else { // Chop failed. Just use middle coord. if (srcbox.left() + srcbox.right() <= chop_coord * 2) left_it->add_after_then_move(srcline); // Stick whole in left. else right_it->add_before_stay_put(srcline); } } } /********************************************************************** * fixed_chop_coutline * * Chop the given coutline (if necessary) placing the fragments which * fall either side of the chop line into the appropriate list. * If the coutline lies too heavily to one side to chop, FALSE is returned. **********************************************************************/ BOOL8 fixed_chop_coutline( //chop the outline C_OUTLINE *srcline, //source outline inT16 chop_coord, //place to chop float pitch_error, //allowed deviation C_OUTLINE_FRAG_LIST *left_frags, //left half of chop C_OUTLINE_FRAG_LIST *right_frags //right half of chop ) { BOOL8 first_frag; //fragment inT16 left_edge; //of outline inT16 startindex; //in first fragment inT32 length; //of outline inT16 stepindex; //into outline inT16 head_index; //start of fragment ICOORD head_pos; //start of fragment inT16 tail_index; //end of fragment ICOORD tail_pos; //end of fragment ICOORD pos; //current point inT16 first_index = 0; //first tail ICOORD first_pos; //first tail length = srcline->pathlength (); pos = srcline->start_pos (); left_edge = pos.x (); tail_index = 0; tail_pos = pos; for (stepindex = 0; stepindex < length; stepindex++) { if (pos.x () < left_edge) { left_edge = pos.x (); tail_index = stepindex; tail_pos = pos; } pos += srcline->step (stepindex); } if (left_edge >= chop_coord - pitch_error) return FALSE; //not worth it startindex = tail_index; first_frag = TRUE; head_index = tail_index; head_pos = tail_pos; do { do { tail_pos += srcline->step (tail_index); tail_index++; if (tail_index == length) tail_index = 0; } while (tail_pos.x () != chop_coord && tail_index != startindex); if (tail_index == startindex) { if (first_frag) return FALSE; //doesn't cross line else break; } //#ifdef __UNIX__ ASSERT_HOST (head_index != tail_index); //#endif if (!first_frag) { save_chop_cfragment(head_index, head_pos, tail_index, tail_pos, srcline, left_frags); } else { first_index = tail_index; first_pos = tail_pos; first_frag = FALSE; } while (srcline->step (tail_index).x () == 0) { tail_pos += srcline->step (tail_index); tail_index++; if (tail_index == length) tail_index = 0; } head_index = tail_index; head_pos = tail_pos; while (srcline->step (tail_index).x () > 0) { do { tail_pos += srcline->step (tail_index); tail_index++; if (tail_index == length) tail_index = 0; } while (tail_pos.x () != chop_coord); //#ifdef __UNIX__ ASSERT_HOST (head_index != tail_index); //#endif save_chop_cfragment(head_index, head_pos, tail_index, tail_pos, srcline, right_frags); while (srcline->step (tail_index).x () == 0) { tail_pos += srcline->step (tail_index); tail_index++; if (tail_index == length) tail_index = 0; } head_index = tail_index; head_pos = tail_pos; } } while (tail_index != startindex); save_chop_cfragment(head_index, head_pos, first_index, first_pos, srcline, left_frags); return TRUE; //did some chopping } /********************************************************************** * save_chop_cfragment * * Store the given fragment in the given fragment list. **********************************************************************/ void save_chop_cfragment( //chop the outline inT16 head_index, //head of fragment ICOORD head_pos, //head of fragment inT16 tail_index, //tail of fragment ICOORD tail_pos, //tail of fragment C_OUTLINE *srcline, //source of edgesteps C_OUTLINE_FRAG_LIST *frags //fragment list ) { inT16 jump; //gap across end inT16 stepcount; //total steps C_OUTLINE_FRAG *head; //head of fragment C_OUTLINE_FRAG *tail; //tail of fragment inT16 tail_y; //ycoord of tail ASSERT_HOST (tail_pos.x () == head_pos.x ()); ASSERT_HOST (tail_index != head_index); stepcount = tail_index - head_index; if (stepcount < 0) stepcount += srcline->pathlength (); jump = tail_pos.y () - head_pos.y (); if (jump < 0) jump = -jump; if (jump == stepcount) return; //its a nop tail_y = tail_pos.y (); head = new C_OUTLINE_FRAG (head_pos, tail_pos, srcline, head_index, tail_index); tail = new C_OUTLINE_FRAG (head, tail_y); head->other_end = tail; add_frag_to_list(head, frags); add_frag_to_list(tail, frags); } /********************************************************************** * C_OUTLINE_FRAG::C_OUTLINE_FRAG * * Constructors for C_OUTLINE_FRAG. **********************************************************************/ C_OUTLINE_FRAG::C_OUTLINE_FRAG( //record fragment ICOORD start_pt, //start coord ICOORD end_pt, //end coord C_OUTLINE *outline, //source of steps inT16 start_index, inT16 end_index) { start = start_pt; end = end_pt; ycoord = start_pt.y (); stepcount = end_index - start_index; if (stepcount < 0) stepcount += outline->pathlength (); ASSERT_HOST (stepcount > 0); steps = new DIR128[stepcount]; if (end_index > start_index) { for (int i = start_index; i < end_index; ++i) steps[i - start_index] = outline->step_dir(i); } else { int len = outline->pathlength(); int i = start_index; for (; i < len; ++i) steps[i - start_index] = outline->step_dir(i); if (end_index > 0) for (; i < end_index + len; ++i) steps[i - start_index] = outline->step_dir(i - len); } other_end = NULL; delete close(); } C_OUTLINE_FRAG::C_OUTLINE_FRAG( //record fragment C_OUTLINE_FRAG *head, //other end inT16 tail_y) { ycoord = tail_y; other_end = head; start = head->start; end = head->end; steps = NULL; stepcount = 0; } /********************************************************************** * add_frag_to_list * * Insert the fragment in the list at the appropriate place to keep * them in ascending ycoord order. **********************************************************************/ void add_frag_to_list( //ordered add C_OUTLINE_FRAG *frag, //fragment to add C_OUTLINE_FRAG_LIST *frags //fragment list ) { //output list C_OUTLINE_FRAG_IT frag_it = frags; if (!frags->empty ()) { for (frag_it.mark_cycle_pt (); !frag_it.cycled_list (); frag_it.forward ()) { if (frag_it.data ()->ycoord > frag->ycoord || (frag_it.data ()->ycoord == frag->ycoord && frag->other_end->ycoord < frag->ycoord)) { frag_it.add_before_then_move (frag); return; } } } frag_it.add_to_end (frag); } /********************************************************************** * close_chopped_cfragments * * Clear the given list of fragments joining them up into outlines. * Each outline made soaks up any of the child outlines which it encloses. **********************************************************************/ void close_chopped_cfragments( //chop the outline C_OUTLINE_FRAG_LIST *frags, //list to clear C_OUTLINE_LIST *children, //potential children float pitch_error, //allowed shrinkage C_OUTLINE_IT *dest_it //output list ) { //iterator C_OUTLINE_FRAG_IT frag_it = frags; C_OUTLINE_FRAG *bottom_frag; //bottom of cut C_OUTLINE_FRAG *top_frag; //top of cut C_OUTLINE *outline; //new outline C_OUTLINE *child; //current child C_OUTLINE_IT child_it = children; C_OUTLINE_IT olchild_it; //children of outline while (!frag_it.empty()) { frag_it.move_to_first(); // get bottom one bottom_frag = frag_it.extract(); frag_it.forward(); top_frag = frag_it.data(); // look at next if ((bottom_frag->steps == 0 && top_frag->steps == 0) || (bottom_frag->steps != 0 && top_frag->steps != 0)) { if (frag_it.data_relative(1)->ycoord == top_frag->ycoord) frag_it.forward(); } top_frag = frag_it.extract(); if (top_frag->other_end != bottom_frag) { outline = join_chopped_fragments(bottom_frag, top_frag); ASSERT_HOST(outline == NULL); } else { outline = join_chopped_fragments(bottom_frag, top_frag); if (outline != NULL) { olchild_it.set_to_list(outline->child()); for (child_it.mark_cycle_pt(); !child_it.cycled_list(); child_it.forward()) { child = child_it.data(); if (*child < *outline) olchild_it.add_to_end(child_it.extract()); } if (outline->bounding_box().width() > pitch_error) dest_it->add_after_then_move(outline); else delete outline; // Make it disappear. } } } while (!child_it.empty ()) { dest_it->add_after_then_move (child_it.extract ()); child_it.forward (); } } /********************************************************************** * join_chopped_fragments * * Join the two lists of POLYPTs such that neither OUTLINE_FRAG * operand keeps responsibility for the fragment. **********************************************************************/ C_OUTLINE *join_chopped_fragments( //join pieces C_OUTLINE_FRAG *bottom, //bottom of cut C_OUTLINE_FRAG *top //top of cut ) { C_OUTLINE *outline; //closed loop if (bottom->other_end == top) { if (bottom->steps == 0) outline = top->close (); //turn to outline else outline = bottom->close (); delete top; delete bottom; return outline; } if (bottom->steps == 0) { ASSERT_HOST (top->steps != 0); join_segments (bottom->other_end, top); } else { ASSERT_HOST (top->steps == 0); join_segments (top->other_end, bottom); } top->other_end->other_end = bottom->other_end; bottom->other_end->other_end = top->other_end; delete bottom; delete top; return NULL; } /********************************************************************** * join_segments * * Join the two edgestep fragments such that the second comes after * the first and the gap between them is closed. **********************************************************************/ void join_segments( //join pieces C_OUTLINE_FRAG *bottom, //bottom of cut C_OUTLINE_FRAG *top //top of cut ) { DIR128 *steps; //new steps inT32 stepcount; //no of steps inT16 fake_count; //fake steps DIR128 fake_step; //step entry ASSERT_HOST (bottom->end.x () == top->start.x ()); fake_count = top->start.y () - bottom->end.y (); if (fake_count < 0) { fake_count = -fake_count; fake_step = 32; } else fake_step = 96; stepcount = bottom->stepcount + fake_count + top->stepcount; steps = new DIR128[stepcount]; memmove (steps, bottom->steps, bottom->stepcount); memset (steps + bottom->stepcount, fake_step.get_dir(), fake_count); memmove (steps + bottom->stepcount + fake_count, top->steps, top->stepcount); delete [] bottom->steps; bottom->steps = steps; bottom->stepcount = stepcount; bottom->end = top->end; bottom->other_end->end = top->end; } /********************************************************************** * C_OUTLINE_FRAG::close * * Join the ends of this fragment and turn it into an outline. **********************************************************************/ C_OUTLINE *C_OUTLINE_FRAG::close() { //join pieces DIR128 *new_steps; //new steps inT32 new_stepcount; //no of steps inT16 fake_count; //fake steps DIR128 fake_step; //step entry ASSERT_HOST (start.x () == end.x ()); fake_count = start.y () - end.y (); if (fake_count < 0) { fake_count = -fake_count; fake_step = 32; } else fake_step = 96; new_stepcount = stepcount + fake_count; if (new_stepcount > C_OUTLINE::kMaxOutlineLength) return NULL; // Can't join them new_steps = new DIR128[new_stepcount]; memmove(new_steps, steps, stepcount); memset (new_steps + stepcount, fake_step.get_dir(), fake_count); C_OUTLINE* result = new C_OUTLINE (start, new_steps, new_stepcount); delete [] new_steps; return result; } /********************************************************************** * C_OUTLINE_FRAG::operator= * * Copy this fragment. **********************************************************************/ //join pieces C_OUTLINE_FRAG & C_OUTLINE_FRAG::operator= ( const C_OUTLINE_FRAG & src //fragment to copy ) { if (steps != NULL) delete [] steps; stepcount = src.stepcount; steps = new DIR128[stepcount]; memmove (steps, src.steps, stepcount); start = src.start; end = src.end; ycoord = src.ycoord; return *this; }