Current Path : /usr/src/contrib/groff/src/devices/grohtml/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/groff/src/devices/grohtml/html-table.cpp |
// -*- C++ -*- /* Copyright (C) 2002, 2003, 2004, 2005 Free Software Foundation, Inc. * * Gaius Mulley (gaius@glam.ac.uk) wrote html-table.cpp * * html-table.h * * provides the methods necessary to handle indentation and tab * positions using html tables. */ /* This file is part of groff. groff is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. groff is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with groff; see the file COPYING. If not, write to the Free Software Foundation, 51 Franklin St - Fifth Floor, Boston, MA 02110-1301, USA. */ #include "driver.h" #include "stringclass.h" #include "cset.h" #include "html-table.h" #include "ctype.h" #include "html.h" #include "html-text.h" #if !defined(TRUE) # define TRUE (1==1) #endif #if !defined(FALSE) # define FALSE (1==0) #endif tabs::tabs () : tab(NULL) { } tabs::~tabs () { delete_list(); } /* * delete_list - frees the tab list and sets tab to NULL. */ void tabs::delete_list (void) { tab_position *p = tab; tab_position *q; while (p != NULL) { q = p; p = p->next; delete q; } tab = NULL; } void tabs::clear (void) { delete_list(); } /* * compatible - returns TRUE if the tab stops in, s, do * not conflict with the current tab stops. * The new tab stops are _not_ placed into * this class. */ int tabs::compatible (const char *s) { char align; int total=0; tab_position *last = tab; if (last == NULL) return FALSE; // no tab stops defined // move over tag name while ((*s != (char)0) && !isspace(*s)) s++; while (*s != (char)0 && last != NULL) { // move over white space while ((*s != (char)0) && isspace(*s)) s++; // collect alignment align = *s; // move over alignment s++; // move over white space while ((*s != (char)0) && isspace(*s)) s++; // collect tab position total = atoi(s); // move over tab position while ((*s != (char)0) && !isspace(*s)) s++; if (last->alignment != align || last->position != total) return FALSE; last = last->next; } return TRUE; } /* * init - scans the string, s, and initializes the tab stops. */ void tabs::init (const char *s) { char align; int total=0; tab_position *last = NULL; clear(); // remove any tab stops // move over tag name while ((*s != (char)0) && !isspace(*s)) s++; while (*s != (char)0) { // move over white space while ((*s != (char)0) && isspace(*s)) s++; // collect alignment align = *s; // move over alignment s++; // move over white space while ((*s != (char)0) && isspace(*s)) s++; // collect tab position total = atoi(s); // move over tab position while ((*s != (char)0) && !isspace(*s)) s++; if (last == NULL) { tab = new tab_position; last = tab; } else { last->next = new tab_position; last = last->next; } last->alignment = align; last->position = total; last->next = NULL; } } /* * check_init - define tab stops using, s, providing none already exist. */ void tabs::check_init (const char *s) { if (tab == NULL) init(s); } /* * find_tab - returns the tab number corresponding to the position, pos. */ int tabs::find_tab (int pos) { tab_position *p; int i=0; for (p = tab; p != NULL; p = p->next) { i++; if (p->position == pos) return i; } return 0; } /* * get_tab_pos - returns the, nth, tab position */ int tabs::get_tab_pos (int n) { tab_position *p; n--; for (p = tab; (p != NULL) && (n>0); p = p->next) { n--; if (n == 0) return p->position; } return 0; } char tabs::get_tab_align (int n) { tab_position *p; n--; for (p = tab; (p != NULL) && (n>0); p = p->next) { n--; if (n == 0) return p->alignment; } return 'L'; } /* * dump_tab - display tab positions */ void tabs::dump_tabs (void) { int i=1; tab_position *p; for (p = tab; p != NULL; p = p->next) { printf("tab %d is %d\n", i, p->position); i++; } } /* * html_table - methods */ html_table::html_table (simple_output *op, int linelen) : out(op), columns(NULL), linelength(linelen), last_col(NULL), start_space(FALSE) { tab_stops = new tabs(); } html_table::~html_table () { cols *c; if (tab_stops != NULL) delete tab_stops; c = columns; while (columns != NULL) { columns = columns->next; delete c; c = columns; } } /* * remove_cols - remove a list of columns as defined by, c. */ void html_table::remove_cols (cols *c) { cols *p; while (c != NULL) { p = c; c = c->next; delete p; } } /* * set_linelength - sets the line length value in this table. * It also adds an extra blank column to the * table should linelen exceed the last column. */ void html_table::set_linelength (int linelen) { cols *p = NULL; cols *c; linelength = linelen; for (c = columns; c != NULL; c = c->next) { if (c->right > linelength) { c->right = linelength; remove_cols(c->next); c->next = NULL; return; } p = c; } if (p != NULL && p->right > 0) add_column(p->no+1, p->right, linelength, 'L'); } /* * get_effective_linelength - */ int html_table::get_effective_linelength (void) { if (columns != NULL) return linelength - columns->left; else return linelength; } /* * add_indent - adds the indent to a table. */ void html_table::add_indent (int indent) { if (columns != NULL && columns->left > indent) add_column(0, indent, columns->left, 'L'); } /* * emit_table_header - emits the html header for this table. */ void html_table::emit_table_header (int space) { if (columns == NULL) return; // dump_table(); last_col = NULL; if (linelength > 0) { out->nl(); out->nl(); out->put_string("<table width=\"100%\"") .put_string(" border=0 rules=\"none\" frame=\"void\"\n") .put_string(" cellspacing=\"0\" cellpadding=\"0\""); out->put_string(">") .nl(); out->put_string("<tr valign=\"top\" align=\"left\""); if (space) { out->put_string(" style=\"margin-top: "); out->put_string(STYLE_VERTICAL_SPACE); out->put_string("\""); } out->put_string(">").nl(); } } /* * get_right - returns the right most position of this column. */ int html_table::get_right (cols *c) { if (c != NULL && c->right > 0) return c->right; if (c->next != NULL) return c->left; return linelength; } /* * set_space - assigns start_space. Used to determine the * vertical alignment when generating the next table row. */ void html_table::set_space (int space) { start_space = space; } /* * emit_col - moves onto column, n. */ void html_table::emit_col (int n) { cols *c = columns; cols *b = columns; int width = 0; // must be a different row if (last_col != NULL && n <= last_col->no) emit_new_row(); while (c != NULL && c->no < n) c = c->next; // can we find column, n? if (c != NULL && c->no == n) { // shutdown previous column if (last_col != NULL) out->put_string("</td>").nl(); // find previous column if (last_col == NULL) b = columns; else b = last_col; // have we a gap? if (last_col != NULL) { if (is_gap(b)) out->put_string("<td width=\"") .put_number(is_gap(b)) .put_string("%\"></td>") .nl(); b = b->next; } // move across to column n while (b != c) { // we compute the difference after converting positions // to avoid rounding errors width = (get_right(b)*100 + get_effective_linelength()/2) / get_effective_linelength() - (b->left*100 + get_effective_linelength()/2) /get_effective_linelength(); if (width) out->put_string("<td width=\"") .put_number(width) .put_string("%\"></td>") .nl(); // have we a gap? if (is_gap(b)) out->put_string("<td width=\"") .put_number(is_gap(b)) .put_string("%\"></td>") .nl(); b = b->next; } width = (get_right(b)*100 + get_effective_linelength()/2) / get_effective_linelength() - (b->left*100 + get_effective_linelength()/2) /get_effective_linelength(); switch (b->alignment) { case 'C': out->put_string("<td width=\"") .put_number(width) .put_string("%\" align=center>") .nl(); break; case 'R': out->put_string("<td width=\"") .put_number(width) .put_string("%\" align=right>") .nl(); break; default: out->put_string("<td width=\"") .put_number(width) .put_string("%\">") .nl(); } // remember column, b last_col = b; } } /* * finish_row - */ void html_table::finish_row (void) { int n = 0; cols *c; if (last_col != NULL) { for (c = last_col->next; c != NULL; c = c->next) n = c->no; if (n > 0) emit_col(n); out->put_string("</td>").nl(); } } /* * emit_new_row - move to the next row. */ void html_table::emit_new_row (void) { finish_row(); out->put_string("<tr valign=\"top\" align=\"left\""); if (start_space) { out->put_string(" style=\"margin-top: "); out->put_string(STYLE_VERTICAL_SPACE); out->put_string("\""); } out->put_string(">").nl(); start_space = FALSE; last_col = NULL; } void html_table::emit_finish_table (void) { finish_row(); out->put_string("</table>"); } /* * add_column - adds a column. It returns FALSE if hstart..hend * crosses into a different columns. */ int html_table::add_column (int coln, int hstart, int hend, char align) { cols *c = get_column(coln); if (c == NULL) return insert_column(coln, hstart, hend, align); else return modify_column(c, hstart, hend, align); } /* * get_column - returns the column, coln. */ cols *html_table::get_column (int coln) { cols *c = columns; while (c != NULL && coln != c->no) c = c->next; if (c != NULL && coln == c->no) return c; else return NULL; } /* * insert_column - inserts a column, coln. * It returns TRUE if it does not bump into * another column. */ int html_table::insert_column (int coln, int hstart, int hend, char align) { cols *c = columns; cols *l = columns; cols *n = NULL; while (c != NULL && c->no < coln) { l = c; c = c->next; } if (l != NULL && l->no>coln && hend > l->left) return FALSE; // new column bumps into previous one l = NULL; c = columns; while (c != NULL && c->no < coln) { l = c; c = c->next; } if ((l != NULL) && (hstart < l->right)) return FALSE; // new column bumps into previous one if ((l != NULL) && (l->next != NULL) && (l->next->left < hend)) return FALSE; // new column bumps into next one n = new cols; if (l == NULL) { n->next = columns; columns = n; } else { n->next = l->next; l->next = n; } n->left = hstart; n->right = hend; n->no = coln; n->alignment = align; return TRUE; } /* * modify_column - given a column, c, modify the width to * contain hstart..hend. * It returns TRUE if it does not clash with * the next or previous column. */ int html_table::modify_column (cols *c, int hstart, int hend, char align) { cols *l = columns; while (l != NULL && l->next != c) l = l->next; if ((l != NULL) && (hstart < l->right)) return FALSE; // new column bumps into previous one if ((c->next != NULL) && (c->next->left < hend)) return FALSE; // new column bumps into next one if (c->left > hstart) c->left = hstart; if (c->right < hend) c->right = hend; c->alignment = align; return TRUE; } /* * find_tab_column - finds the column number for position, pos. * It searches through the list tab stops. */ int html_table::find_tab_column (int pos) { // remember the first column is reserved for untabbed glyphs return tab_stops->find_tab(pos)+1; } /* * find_column - find the column number for position, pos. * It searches through the list of columns. */ int html_table::find_column (int pos) { int p=0; cols *c; for (c = columns; c != NULL; c = c->next) { if (c->left > pos) return p; p = c->no; } return p; } /* * no_columns - returns the number of table columns (rather than tabs) */ int html_table::no_columns (void) { int n=0; cols *c; for (c = columns; c != NULL; c = c->next) n++; return n; } /* * is_gap - returns the gap between column, c, and the next column. */ int html_table::is_gap (cols *c) { if (c == NULL || c->right <= 0 || c->next == NULL) return 0; else // we compute the difference after converting positions // to avoid rounding errors return (c->next->left*100 + get_effective_linelength()/2) / get_effective_linelength() - (c->right*100 + get_effective_linelength()/2) / get_effective_linelength(); } /* * no_gaps - returns the number of table gaps between the columns */ int html_table::no_gaps (void) { int n=0; cols *c; for (c = columns; c != NULL; c = c->next) if (is_gap(c)) n++; return n; } /* * get_tab_pos - returns the, nth, tab position */ int html_table::get_tab_pos (int n) { return tab_stops->get_tab_pos(n); } char html_table::get_tab_align (int n) { return tab_stops->get_tab_align(n); } void html_table::dump_table (void) { if (columns != NULL) { cols *c; for (c = columns; c != NULL; c = c->next) { printf("column %d %d..%d %c\n", c->no, c->left, c->right, c->alignment); } } else tab_stops->dump_tabs(); } /* * html_indent - creates an indent with indentation, ind, given * a line length of linelength. */ html_indent::html_indent (simple_output *op, int ind, int pageoffset, int linelength) { table = new html_table(op, linelength); table->add_column(1, ind+pageoffset, linelength, 'L'); table->add_indent(pageoffset); in = ind; pg = pageoffset; ll = linelength; } html_indent::~html_indent (void) { end(); delete table; } void html_indent::begin (int space) { if (in + pg == 0) { if (space) { table->out->put_string(" style=\"margin-top: "); table->out->put_string(STYLE_VERTICAL_SPACE); table->out->put_string("\""); } } else { // // we use exactly the same mechanism for calculating // indentation as html_table::emit_col // table->out->put_string(" style=\"margin-left:") .put_number(((in + pg) * 100 + ll/2) / ll - (ll/2)/ll) .put_string("%;"); if (space) { table->out->put_string(" margin-top: "); table->out->put_string(STYLE_VERTICAL_SPACE); } table->out->put_string("\""); } } void html_indent::end (void) { } /* * get_reg - collects the registers as supplied during initialization. */ void html_indent::get_reg (int *ind, int *pageoffset, int *linelength) { *ind = in; *pageoffset = pg; *linelength = ll; }