Mercurial > hg > octave-nkf
view libgui/src/qtinfo/parser.cc @ 20795:eef93a493ce3
use new cell_value method to handle value extraction errors
* cellfun.cc, ov-class.cc, ov-struct.cc, ov-usr-fcn.cc:
Use new cell_value method.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Fri, 09 Oct 2015 14:43:36 -0400 |
| parents | ded81845c597 |
| children |
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/* Copyright (C) 2009 P. L. Lucas Copyright (C) 2012-2015 Jacob Dawid This file is part of Octave. Octave 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 3 of the License, or (at your option) any later version. Octave 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 Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ // Author: P. L. Lucas // Author: Jacob Dawid <jacob.dawid@cybercatalyst.com> #ifdef HAVE_CONFIG_H #include <config.h> #endif #include "parser.h" #include "procstream.h" #include <QFileInfo> #include <QDir> #include <QFile> #include <QUrl> #include <QRegExp> #include <QBuffer> parser::parser(QObject *p) : QObject(p) { _compressors_map.insert ("bz2", "bzip2 -dc \"%1\""); _compressors_map.insert ("gz", "gzip -dc \"%1\""); _compressors_map.insert ("lzma", "lzma -dc \"%1\""); _compressors_map.insert ("xz", "xz -dc \"%1\""); _compressors_map.insert ("Z", "gunzip -c \"%1\""); } bool parser::set_info_path (const QString& infoPath) { this->_info_path = infoPath; _info_files.clear (); QFileInfo info (infoPath); bool info_file_exists = info.exists (); QHash<QString, QString>::iterator it; for (it = _compressors_map.begin (); it != _compressors_map.end (); it++) { if (info_file_exists) break; info_file_exists = QFileInfo (info.absoluteFilePath () + "." + it.key ()).exists (); } if (info_file_exists) { QString path = info.absolutePath (); QString fileName = info.fileName (); QDir infoDir (path); QStringList filter; filter.append (fileName + "*"); _info_files = infoDir.entryInfoList (filter, QDir::Files); parse_info_map (); return true; } else return false; } QString parser::get_info_path () { return _info_path; } QIODevice * parser::open_file (QFileInfo & file_info) { QIODevice *iodevice = 0; if (_compressors_map.contains (file_info.suffix ())) { QString command = _compressors_map.value (file_info.suffix ()).arg (file_info.absoluteFilePath ()); iprocstream ips (command.toStdString ()); if (ips.bad ()) return 0; QByteArray result; char buffer[1024]; while (! ips.eof ()) { ips.read (buffer, sizeof (buffer)); result.append (buffer, ips.gcount ()); } QBuffer *io = new QBuffer (this); io->setData (result); if (!io->open (QIODevice::ReadOnly | QIODevice::Text)) return 0; iodevice = io; } else { QFile *io = new QFile (file_info.absoluteFilePath ()); if (!io->open (QIODevice::ReadOnly | QIODevice::Text)) return 0; iodevice = io; } return iodevice; } int parser::is_ref (const QString& node) { if (_ref_map.contains (node)) { node_position ref = _ref_map [node]; return ref.pos-_node_map [ref._node_name].pos; } if (_node_map.contains (node)) { return 0; // node: show from the beginning } return -1; } QString parser::search_node (const QString& node_arg) { QString node = node_arg; QFileInfo file_info; QString ref; if (_ref_map.contains (node)) { ref = node; node = _ref_map [ref]._node_name; } if (_node_map.contains (node)) { int pos = _node_map [node].pos; int realPos; real_position (pos, file_info, realPos); QIODevice *io = open_file (file_info); if (! io) { return QString (); } seek (io, realPos); QString text = get_next_node (io); if (!text.isEmpty()) { return text; } io->close (); delete io; } return QString (); } QString parser::search_node (const QString& node, QIODevice *io) { while (!io->atEnd ()) { QString text = get_next_node (io); if (node == get_node_name (text)) { return text; } } return QString (); } QString parser::get_next_node (QIODevice *io) { QString text; QByteArray line, line_buffer; char c; int i; while (!io->atEnd ()) { io->getChar (&c); if (c) { // first char is not equal 0 io->ungetChar (c); line = io->readLine (); } else { // 0 was read -> image -> text length changes line_buffer = io->readLine (); // image tag that is not needed line = io->readLine (); // firsts line of text message for (i=1; i<line_buffer.size ()+6; i++) // correct the size line.insert (line.size ()-1,QByteArray(" ")); // by adding blanks } if (line.at (0) == '"' && line.size () == 5) // end of image construct line = " "; if (line.at(0) == 31) { break; } else { text.append (line); } } return text; } static QString get_first_line (const QString& text) { int n = text.indexOf ("\n"); if (n < 0) { return QString (); } QString first_line = text.left (n); return first_line; } static QString parser_node (const QString& text, const QString& node_name) { QString firstLine = get_first_line (text); QStringList nodes = firstLine.split (","); for (int i = 0; i < nodes.size (); i++) { QString node = nodes.at (i).trimmed (); if (node.startsWith (node_name)) { return node.remove (0, node_name.size ()).trimmed (); } } return QString (); } QString parser::get_node_name (const QString& text) { return parser_node (text, "Node:"); } QString parser::get_node_up (const QString& text) { return parser_node (text, "Up:"); } QString parser::get_node_next (const QString& text) { return parser_node (text, "Next:"); } QString parser::get_node_prev (const QString& text) { return parser_node (text, "Prev:"); } static void replace_links (QString& text) { QRegExp re ("(\\*[N|n]ote|\n\\*)([ |\n]+)([^:]+):([^:\\.,]*)([:,\\.]+)"); int i = 0, f; while ((i = re.indexIn (text,i)) != -1) { QString type = re.cap (1); QString note = re.cap (3); QString url_link = re.cap (4); QString term = re.cap (5); if (url_link.isEmpty ()) { url_link = note; } term.replace(":",""); note.replace(":",""); note.replace (QRegExp ("`([^']+)'"),"\\1"); // no extra format in links QRegExp re_break ("(\n[ ]*)"); if (note == "fig" || note == "tab") url_link.prepend("#"); QString href; if (type == "\n*") href="\n"; if (re_break.indexIn (url_link) != -1) term += re_break.cap (1); else if (re_break.indexIn (re.cap (2)) != -1) href = re_break.cap (1) + " "; else if (re_break.indexIn (note) != -1) term += re_break.cap (1); note.replace(re_break," "); url_link = url_link.trimmed (); url_link.replace ("\n"," "); url_link.replace (QRegExp (" +")," "); url_link.replace ("<b>",""); url_link.replace ("</b>",""); url_link = QUrl::toPercentEncoding (url_link, "", "'"); href += "<font style=\"color:DarkGray; font-weight:bold;\">»</font>"; href += " <a href='" + url_link + "'>" + note + "</a>" + term; f = re.matchedLength (); text.replace (i,f,href); i += href.size (); } } static void replace_colons (QString& text) { QRegExp re ("`([^']+)'"); int i = 0, f; while ((i = re.indexIn (text, i)) != -1) { QString t = re.cap (1); QString bold = "<font style=\"color:SteelBlue;font-weight:bold\">" + t + "</font>"; f = re.matchedLength (); text.replace (i,f,bold); i += bold.size (); } } static void info_to_html (QString& text) { text.replace ("&", "&"); text.replace ("<", "<"); text.replace (">", ">"); text.replace ("\n* Menu:", "\n<font style=\"color:DarkRed;font-weight:bold\">Menu:</font>"); text.replace ("See also:", "<font style=\"color:DarkRed;font-style:italic;font-weight:bold\">See also:</font>"); replace_links (text); replace_colons (text); } QString parser::node_text_to_html (const QString& text_arg, int anchorPos, const QString& anchor) { QString text = text_arg; QString nodeName = get_node_name (text); QString nodeUp = get_node_up (text); QString nodeNext = get_node_next (text); QString nodePrev = get_node_prev (text); if (anchorPos > -1) { QString text1 = text.left (anchorPos); QString text2 = text.mid (anchorPos); int n = text1.indexOf ("\n"); text1.remove (0, n); info_to_html (text1); info_to_html (text2); text = text1 + "<a name='" + anchor + "'/><font style=\"color:DarkBlue; font: bold monospace large;\">♦</font><br> " + text2; } else { int n = text.indexOf ("\n"); text.remove (0, n); info_to_html (text); } QString navigationLinks = QString ( "<b>Section:</b> <font style=\"color:DarkRed\">%1</font><br>" "<b>Previous Section:</b> <a href='%2'>%3</a><br>" "<b>Next Section:</b> <a href='%4'>%5</a><br>" "<b>Up:</b> <a href='%6'>%7</a><br>\n" ) .arg (nodeName) .arg (QString (QUrl::toPercentEncoding (nodePrev, "", "'"))) .arg (nodePrev) .arg (QString (QUrl::toPercentEncoding (nodeNext, "", "'"))) .arg (nodeNext) .arg (QString (QUrl::toPercentEncoding (nodeUp, "", "'"))) .arg (nodeUp); text.prepend ("<hr>\n<pre style=\"font-family:monospace\">"); text.append ("</pre>\n<hr><hr>\n"); text.prepend (navigationLinks); text.append (navigationLinks); text.prepend ("<html><body>\n"); text.append ("</body></html>\n"); return text; } void parser::parse_info_map () { QRegExp re ("(Node|Ref): ([^\\0177]+)\\0177(\\d+)\n"); QRegExp re_files ("([^:]+): (\\d+)\n"); int foundCount = 0; for (int i = 0; i < _info_files.size (); i++) { QFileInfo fileInfo = _info_files.at (i); QIODevice *io = open_file (fileInfo); if (! io) { continue; } QString nodeText; while (! (nodeText=get_next_node (io)).isEmpty () && foundCount < 2) { QString first_line = get_first_line (nodeText); if (first_line.startsWith ("Tag")) { foundCount++; int pos = 0; QString last_node; while ((pos = re.indexIn (nodeText, pos)) != -1) { QString type = re.cap (1); QString node = re.cap (2); int index = re.cap (3).toInt (); if (type == "Node") { node_map_item item; item.pos = index; _node_map [node] = item; last_node = node; } else if (type == "Ref") { node_position item; item._node_name = last_node; item.pos = index; _ref_map [node] = item; } pos += re.matchedLength (); } break; } else if (first_line.startsWith ("Indirect:")) { foundCount++; int pos = 0; while ((pos = re_files.indexIn (nodeText, pos)) != -1) { QString fileCap = re_files.cap (1).trimmed (); int index = re_files.cap (2).toInt (); info_file_item item; for (int j = 0; j < _info_files.size (); j++) { QFileInfo info = _info_files.at (j); if (info.fileName ().startsWith (fileCap)) { item.file_info = info; break; } } item.real_size = index; _info_file_real_size_list.append (item); pos += re_files.matchedLength (); } } } io->close (); delete io; } } void parser::real_position (int pos, QFileInfo & file_info, int & real_pos) { int header = -1; int sum = 0; for (int i = 0; i < _info_file_real_size_list.size (); i++) { info_file_item item = _info_file_real_size_list.at (i); if (header == -1) { file_info = item.file_info; header = item.real_size; } if (pos < item.real_size) { break; } file_info = item.file_info; sum = item.real_size; } real_pos = pos - sum + header + 2; } void parser::seek (QIODevice *io, int pos) { char ch; while (!io->atEnd () && pos > 0) { io->getChar (&ch); pos--; } } static void replace (QString& text, const QRegExp& re, const QString& after) { int pos = 0; while ((pos = re.indexIn (text, pos)) != -1) { QString cap = text.mid (pos,re.matchedLength ()); QString a (after); a = a.arg (cap); text.remove (pos, re.matchedLength ()); text.insert (pos, a); pos += a.size (); } } QString parser::global_search (const QString& text, int max_founds) { QString results; QStringList words = text.split (" ",QString::SkipEmptyParts); QString re_program ("(" + words.at (0)); for (int i = 1; i < words.size (); i++) { re_program += "|" + words.at (i); } re_program += ")"; QRegExp re (re_program, Qt::CaseInsensitive); results.append ("<html><body>\n<h1>Search results</h1>\n<b>Results for:</b> "); results.append (text); results.append ("<br>\n"); for (int i = 0; i < _info_files.size (); i++) { QFileInfo file_info = _info_files.at (i); QIODevice *io = open_file (file_info); if (! io) { continue; } QString node_text; while (! (node_text = get_next_node (io)).isEmpty ()) { QString firstLine = get_first_line (node_text); QString node = get_node_name (node_text); if (node.isEmpty ()) { continue; } int n = node_text.indexOf ("\n"); node_text.remove (0, n); int pos = 0; int founds = 0; for (; founds < words.size () && node_text.indexOf (words.at (founds)) >= 0; founds++) { } if (founds<words.size ()) { continue; } founds = 0; while ((pos = re.indexIn (node_text, pos)) != -1 && founds < max_founds) { int line_start, line_end; line_start = node_text.lastIndexOf ("\n", pos); line_end = node_text.indexOf ("\n", pos); QString line = node_text.mid (line_start, line_end - line_start).trimmed (); pos += re.matchedLength (); if (founds == 0) { results.append( "<br>\n<font style=\"color:DarkGray; font-weight:bold;\">»</font> <a href='" + QString(QUrl::toPercentEncoding(node,"","'")) + "'>"); results.append (node); results.append ("</a><br>\n"); } replace (line, re, "<i>%1</i>"); results.append (line); results.append ("<br>\n"); founds++; } } io->close (); delete io; } results.append ("</body></html>"); return results; } QString parser::find_ref (const QString &ref_name) { QString text = ""; QHash<QString,node_position>::iterator it; for (it=_ref_map.begin (); it!=_ref_map.end (); ++it) { QString k = it.key (); node_position p = it.value (); if (k == "XREF" + ref_name) { // found ref, so return its name text = "XREF" + ref_name; break; } } if (text.isEmpty ()) // try the statement-nodes { QHash<QString, node_map_item>::iterator itn; for (itn=_node_map.begin (); itn!=_node_map.end (); ++itn) { QString k = itn.key (); if (k == "The " + ref_name + " Statement") { // found ref, so return its name text = k; break; } } } return text; }