+/* This file is part of EdiTeX, an editor of mathematical
+ * expressions based on TeX syntax.
+ *
+ * Copyright (C) 2002-2003 Luca Padovani <lpadovan@cs.unibo.it>,
+ * 2003 Paolo Marinelli <pmarinel@cs.unibo.it>.
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation; either
+ * version 2.1 of the License, or (at your option) any later version.
+ *
+ * This library 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
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public
+ * License along with this library; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ *
+ * For more information, please visit the project's home page
+ * http://helm.cs.unibo.it/editex/
+ * or send an email to <lpadovan@cs.unibo.it>
+ */
+#include <cassert>
+
+#include "ALogger.hh"
#include "TPushParser.hh"
-#include "TListener.hh"
+#include "AMathMLFactory.hh"
-TPushParser::TPushParser(const TDictionary& d) : dictionary(d), listener(0)
+TPushParser::TPushParser(ALogger& l, const TDictionary& d) : APushParser(l), dictionary(d)
{
init();
}
-TPushParser::TPushParser(const TDictionary& d, TListener& l) : dictionary(d), listener(&l)
+TPushParser::TPushParser(ALogger& l, AMathMLFactory& f, const TDictionary& d) : APushParser(l, f), dictionary(d)
{
init();
}
+TPushParser::~TPushParser()
+{
+}
+
void
TPushParser::init()
{
- nextId = 1;
cursor = doc.create("cursor");
- cursor["id"] = "I0";
- doc.clearDirty();
- doc.root().append(cursor);
+ cursor["visible"] = "1";
+ hiddenCursor = 0;
+ reset();
}
-TPushParser::~TPushParser()
+void
+TPushParser::reset()
{
+ nextId = 1;
+ if (cursor.parent()) cursor.remove();
+ cursor["val"] = "";
+ doc.reset();
+ doc.root().append(cursor);
+ if (factory && !frozen()) factory->documentModified(doc);
}
-std::string
-TPushParser::PRIME() const
+TNode
+TPushParser::PRIME()
{
const TDictionary::Entry entry = dictionary.find("prime");
- if (entry.cls == TDictionary::OPERATOR) return entry.value;
- else return "?";
+ if (entry.cls == TDictionary::OPERATOR)
+ {
+ TNode op = doc.createO(entry.value, nextId++);
+ op["name"] = "prime";
+ return op;
+ }
+ else
+ {
+ TNode op = doc.createO("?", nextId++);
+ return op;
+ }
}
-void
+bool
TPushParser::do_begin()
{
TNode parent = cursor.parent();
cursor.replace(g);
g.append(cursor);
}
+ return true;
}
-void
+bool
+TPushParser::correctBrace()
+{
+ // this method MUST be invoked when the cursor is child of a
+ // phantom group, which in turn is the last rightOpen MACRO's child.
+ // The only way to exit from a rightOpen MACRO is opening a group before
+ // inserting the MACRO and, once the MACRO is completely inserted, closing
+ // the group.
+ // This method return true if the condition above is true. False, otherwise.
+ assert(cursor.parent() && cursor.parent().isG() && !cursor.parent().hasId());
+ TNode parent = cursor.parent();
+ assert(parent.parent() && parent.parent().isC());
+ assert(!frames.empty());
+ Frame& frame = frames.top();
+ assert(frame.entry.rightOpen);
+ assert(parent.parent().last() == parent);
+
+ TNode c = parent.parent();
+ bool stop = false;
+ bool ok = false;
+ TNode node = c.parent();
+ do
+ {
+ if (node.isG() && node.hasId())
+ {
+ // in this case, the rightOpen MACRO is a child of a group with id.
+ // So, the '}' is correct
+ ok = true;
+ stop = true;
+ }
+ else if (node.isG())
+ {
+ // the MACRO is a phantom group's child. We have to control why we
+ // have this phantom group
+ TNode nodeParent = node.parent();
+ if (nodeParent && nodeParent.isC())
+ {
+ // we have to control the nature of this MACRO
+ const TDictionary::Entry& entry = dictionary.find(nodeParent.nameC());
+ if (entry.rightOpen && node == nodeParent.last())
+ {
+ // in this case we have to re-iterate the process
+ node = nodeParent.parent();
+ }
+ else stop = true;
+ }
+ else stop = true;
+ }
+ else
+ {
+ // at the moment we assume that a MACRO cannot be child of an element other than a group
+ stop = true;
+ }
+ }
+ while (!stop);
+
+ return ok;
+}
+
+bool
TPushParser::do_end()
{
TNode parent = cursor.parent();
// normal closing brace for an explicitly open group
cursor.remove();
advance(parent);
+ return true;
}
else if (parent && parent.isG() && parent.parent() && parent.parent().is("cell"))
{
+ assert(!frames.empty());
// closing brace for a structure in which & or \cr have been used
TNode row = parent.parent().parent();
assert(row && row.is("row"));
- TNode table = row.parent();
- assert(table);
- advance(table);
+ assert(row.parent());
+ advance(row);
+ return true;
}
- else if (parent && parent.isG() && !parent.hasId() && parent.parent())
+ else if (parent && parent.isG() && !parent.hasId() && parent.parent() && !parent.parent().is("math"))
{
- // closing brace for a right-open macro (like \over)
- cursor.remove();
- advance(parent.parent());
+ // In this case, we have to control the cursor's grand parent.
+ TNode gparent = parent.parent();
+
+ if (gparent.isC() && gparent.last() == parent)
+ {
+ // a frame MUST be in the stack
+ assert(!frames.empty());
+
+ // we have to control the nature of this macro
+ if (frames.top().entry.rightOpen)
+ {
+ // in this case, the '}' character is the proper way to exit from the phantom group, and
+ // in particular, this character means that the user wants to exit from the MACRO.
+ // A rightOpen MACRO MUST be descendant of a group with Id. This '}' is the closing brace of this
+ // group. So, we have to control if this group exists. This groyp could exist, but this MACRO could
+ // be another MACRO's child, so we have to control this last MACRO recursively. This recurive control
+ // is done by the correctBrace method.
+ if (!correctBrace())
+ {
+ // the '}' is not correct
+ logger.warning("nothing to close");
+ return false;
+ }
+ else
+ {
+ cursor.remove();
+ advance(parent);
+ return true;
+ }
+ }
+ else
+ {
+ logger.warning("ignored closing brace");
+ return false;
+ }
+ }
+ else
+ {
+ // at the moment, a phantom group with the cursor inside can be a MACRO's child or a cell's child, and these cases
+ // are handled in other blocks of code.
+ logger.error("do_end: strange TML tree");
+ return false;
+ }
}
else
{
- // ???
- assert(0);
+ // In this case, there is a redundant '}', so we can ignore it and
+ // emit an error
+ logger.warning("There is so no corresponding'{'");
+ return false;
+ //assert(0);
}
}
-void
+bool
TPushParser::do_shift()
{
TNode parent = cursor.parent();
cursor.replace(math);
math.append(g);
g.append(cursor);
+ return true;
}
else if (parent.isG() && !parent.hasId() && parent.parent() && parent.parent().is("math"))
{
{
// one math shift is enough to close it
cursor.remove();
+ return true;
}
else
{
// we need two closing math shifts
+ //cursor.remove(); ??
parent.parent().append(cursor);
+ return true; // ???
}
}
else if (parent.parent()["display"] != "1")
// there is nothing before the cursor, and the math is not
// in display mode, so this must be a double math shift
parent.parent()["display"] = "1";
+ return true;
}
else
{
parent.parent().append(cursor);
+ return true;
}
}
else if (parent.is("math"))
{
cursor.remove();
+ return true;
}
else
{
- cerr << "ERROR: math shift" << endl;
+ logger.warning("not allowed here");
+ return false;
}
}
-void
+bool
TPushParser::do_align()
{
TNode parent = cursor.parent();
row.append(cell);
cell.append(g);
g.append(parent.first(), cursor);
+ return true;
}
else if (parent && parent.isG() && parent.parent().is("cell"))
{
TNode g = doc.createG();
cell.append(g);
g.append(cursor);
+ return true;
}
else
{
- cerr << "alignment tab used outside matrix" << endl;
+ logger.warning("alignment tab used outside matrix");
+ return false;
}
}
-void
+bool
TPushParser::do_eol()
{
//if (cursor.parent()) cursor.remove();
+ logger.warning("ignored token");
+ return false;
}
-void
+bool
TPushParser::do_parameter(const std::string& p)
{
- // ???
+ logger.warning("ignored token");
+ return false;
}
-void
+bool
TPushParser::do_subscript()
{
TNode parent = cursor.parent();
cursor.replace(elem);
elem.append(g);
elem.append(cursor);
+ return true;
}
else
{
prev.replace(elem);
elem.append(prev);
elem.append(cursor);
+ return true;
}
}
else if (parent.isSb() && cursor == parent[1])
{
- if (parent["under"] == "1") cerr << "already under" << endl;
- else parent["under"] = "1";
+ if (parent["under"] == "1")
+ {
+ logger.warning("already under");
+ return false;
+ }
+ else
+ {
+ parent["under"] = "1";
+ return true;
+ }
+ }
+ else
+ {
+ logger.warning("ignored token");
+ return false;
}
}
-void
+bool
TPushParser::do_superscript()
{
TNode parent = cursor.parent();
cursor.replace(elem);
elem.append(g);
elem.append(cursor);
+ return true;
}
else
{
prev.replace(elem);
elem.append(prev);
elem.append(cursor);
+ return true;
}
}
else if (parent.isSp() && cursor == parent[1])
{
- if (parent["over"] == "1") cerr << "already over" << endl;
- else parent["over"] = "1";
+ if (parent["over"] == "1")
+ {
+ logger.warning("already over");
+ return false;
+ }
+ else
+ {
+ parent["over"] = "1";
+ return true;
+ }
+ }
+ else
+ {
+ logger.warning("ignored token");
+ return false;
}
}
-void
+bool
+TPushParser::do_ignorablespace(const std::string& s)
+{
+ // At the moment, do nothing
+}
+
+bool
TPushParser::do_space(const std::string&)
{
- // ? may be used to distinguish tokens in some mode?
+ TNode elem = doc.createS(nextId++);
+ cursor.replace(elem);
+ advance(elem);
+ return true;
}
-void
+bool
TPushParser::do_letter(const std::string& s)
{
//TNode parent = cursor.parent();
TNode elem = doc.createI(s, nextId++);
cursor.replace(elem);
advance(elem);
+ return true;
}
-void
+bool
TPushParser::do_digit(const std::string& s)
{
- TNode parent = cursor.parent();
- TNode prev = cursor.prev();
- if (prev && parent.isG() && prev.is("n"))
- {
- TNode elem = doc.createN(prev.value() + s, nextId++);
- prev.replace(elem);
- }
- else
- {
- TNode elem = doc.createN(s, nextId++);
- cursor.replace(elem);
- advance(elem);
- }
+ TNode elem = doc.createN(s, nextId++);
+ cursor.replace(elem);
+ advance(elem);
+ return true;
}
bool
TPushParser::isPrimes(const TNode& node) const
{
assert(node);
- return node.isG() && node.last() && node.last().is("o") && node.last()["val"] == PRIME();
+ return node.isG() && node.last() && node.last().is("o") && node.last()["name"] == "prime";
}
-void
+bool
TPushParser::do_apostrophe()
{
if (cursor.parent() && cursor.parent().isG())
if (TNode prev = cursor.prev())
{
if (prev.isSp() && prev[1] && isPrimes(prev[1]))
- prev[1].append(doc.createO(PRIME(), nextId++));
+ {
+ prev[1].append(PRIME());
+ return true;
+ }
else if (prev.isSb() && prev[0] &&
prev[0].isSp() && prev[0][1] &&
isPrimes(prev[0][1]))
- prev[0][1].append(doc.createO(PRIME(), nextId++));
+ {
+ prev[0][1].append(PRIME());
+ return true;
+ }
else
{
TNode elem = doc.create("sp");
prev.replace(elem);
elem.append(prev);
elem.append(g);
- g.append(doc.createO(PRIME(), nextId++));
+ g.append(PRIME());
+ return true;
}
}
else
{
- // error ???
+ // is it an error?
+ logger.warning("you have to insert an identifier before a ''");
+ return false;
}
}
else
{
- // error ??
+ logger.warning("cursor has to be in a group");
+ return false;
}
}
-void
+bool
TPushParser::do_other(const std::string& s)
{
switch (s[0])
{
case '\'':
- do_apostrophe();
+ return do_apostrophe();
break;
default:
- cout << "TPushParser::do_other " << s << endl;
- cout << "DOCUMENT: " << static_cast<GdomeNode*>(cursor.element().get_ownerDocument()) << endl;
+ /*cout << "TPushParser::do_other " << s << endl;
+ cout << "DOCUMENT: " << static_cast<GdomeNode*>(cursor.element().get_ownerDocument()) << endl;*/
TNode elem = doc.createT("o", s, nextId++);
cursor.replace(elem);
- advance(elem);
+ advance(elem);
+ return true;
break;
}
}
-void
+bool
TPushParser::do_active(const std::string&)
{
// ??? space?
+ logger.warning("ignored token");
+ return false;
}
-void
+bool
TPushParser::do_comment()
{
// ???
+ return false;
}
-void
+bool
TPushParser::do_cr()
{
TNode parent = cursor.parent();
row.append(cell);
cell.append(g);
g.append(cursor);
+ return true;
+ }
+ else
+ {
+ // at the moment, \cr can only be used inside a table
+ logger.warning("cr used outside a table");
+ return false;
}
}
-void
+bool
TPushParser::do_control(const std::string& name)
{
- if (name == "cr") do_cr();
+ if (name == "cr") return do_cr();
else
{
TNode parent = cursor.parent();
t["name"] = name;
cursor.replace(t);
advance(t);
+ return true;
}
break;
case TDictionary::OPERATOR:
t["name"] = name;
cursor.replace(t);
advance(t);
+ return true;
}
break;
case TDictionary::NUMBER:
t["name"] = name;
cursor.replace(t);
advance(t);
+ return true;
}
break;
case TDictionary::MACRO:
{
- TNode m = doc.createC(name, nextId++);
- cursor.replace(m);
- if (entry.leftOpen && entry.rightOpen)
- {
- assert(entry.pattern.empty());
- assert(parent.isG());
- TNode g1 = doc.createG();
- g1["left-open"] = "1";
- g1.append(parent.first(), m);
- m.append(g1);
- TNode g2 = doc.createG();
- g2.append(cursor);
- m.append(g2);
- frames.push(Frame(entry));
- }
- else if (entry.leftOpen)
- {
- assert(parent.isG());
- TNode g = doc.createG();
- g["left-open"] = "1";
- g.append(parent.first(), m);
- m.append(g);
- advance(m);
- }
- else if (entry.rightOpen)
- {
- assert(entry.pattern.empty());
- assert(parent.isG());
- TNode g = doc.createG();
- g.append(cursor);
- m.append(g);
- frames.push(Frame(entry));
- }
- else if (!entry.pattern.empty())
+ if (parent.isG())
{
- if (parent.isG())
- {
+ TNode m = doc.createC(name, nextId++);
+ cursor.replace(m);
+ if (entry.leftOpen && entry.rightOpen)
+ {
+ assert(entry.pattern.empty());
+ assert(parent.isG());
+ TNode g1 = doc.createG();
+ g1["left-open"] = "1";
+ g1.append(parent.first(), m);
+ m.append(g1);
+ TNode g2 = doc.createG();
+ g2.append(cursor);
+ m.append(g2);
+ frames.push(Frame(entry));
+ }
+ else if (entry.leftOpen)
+ {
+ assert(parent.isG());
+ TNode g = doc.createG();
+ g["left-open"] = "1";
+ g.append(parent.first(), m);
+ m.append(g);
+ advance(m);
+ }
+ else if (entry.rightOpen)
+ {
+ assert(entry.pattern.empty());
+ assert(parent.isG());
+ TNode g = doc.createG();
+ g.append(cursor);
+ m.append(g);
+ frames.push(Frame(entry));
+ }
+ else if (!entry.pattern.empty())
+ {
frames.push(Frame(entry));
if (entry.paramDelimited(0))
{
}
else
{
- // error, but we could handle this very easily
- cerr << "error, but we could handle this easily" << endl;
- }
+ // it's an empty macro
+ advance(m);
+ }
+ return true;
+ }
+ else if (!entry.pattern.size() && !entry.rightOpen && !entry.leftOpen)
+ {
+ // a macro with no arguments and no right open and no left open, can be child of anything
+ TNode m = doc.createC(name, nextId++);
+ cursor.replace(m);
+ advance(m);
+ return true;
+ }
+ else
+ {
+ // a macro with arguments or a rightOpen or leftOpen macro must be a group's child
+ logger.warning("ignored token: this macro should be in a group");
+ return false;
}
- else advance(m);
}
break;
case TDictionary::UNDEFINED:
{
- cerr << "ERROR: using undefined macro `" << name << "'" << endl;
+ logger.warning("using undefined macro " + name);
TNode m = doc.createC(name, nextId++);
cursor.replace(m);
advance(m);
+ return true;
}
break;
default:
- assert(0);
+ {
+ //assert(0);
+ logger.warning("ignored token");
+ return false;
+ }
}
}
}
-void
-TPushParser::gdelete_prev()
+std::string
+TPushParser::drop_prev_token(bool special)
{
- // if in this function, the prev of cursor does exist, also the parent and we want a graphical deleting
+ assert(cursor.prev());
+ assert(cursor.parent());
TNode prev = cursor.prev();
- if (prev.is("i") || prev.is("o") || prev.is("n"))
+ assert(prev.isT());
+
+ DOM::UCS4String ucs4val = prev.element().getAttribute("val");
+ bool macro = prev.element().hasAttribute("name");
+ std::string utf8name;
+ if (macro) utf8name = prev.element().getAttribute("name");
+
+ cursor.remove();
+ prev.replace(cursor);
+
+ if (cursor.parent().isC())
{
- // the control below is designed to handle the case in which val have more than one unicode character
- DOM::UCS4String ucs4val(prev.element().getAttribute("val"));
- if (ucs4val.length() <= 1)
+ // in this case we have removed an element of a MACRO.
+ // we can assert that this element was a non delimited argument
+ assert(!frames.empty());
+ Frame& frame = frames.top();
+ assert(frame.pos > 0);
+ frame.pos--;
+ }
+
+ if ((ucs4val.length() > 1))
+ {
+ if (!macro)
{
- cursor.remove();
- prev.replace(cursor);
+ // in this case we can return the content of ucs4val, but we have
+ // to convert it in a utf8
+ DOM::GdomeString gdsval(ucs4val);
+ std::string utf8val(gdsval);
+ switch (utf8val[utf8val.length() - 1])
+ {
+ case '-':
+ case '_':
+ return (special) ? std::string(utf8val, 0, utf8val.length() - 1) + "\\" : std::string(utf8val, 0, utf8val.length() - 1);
+ default: return (special) ? "" : std::string(utf8val, 0, utf8val.length() - 1);
+ }
}
else
{
- ucs4val.erase(ucs4val.length() - 1, 1);
- prev.element().setAttribute(DOM::GdomeString("val"), DOM::GdomeString(ucs4val));
+ // in this case, the content of val could be in unicode,
+ // but we have the attribute name, which doesn't contain character not representable
+ // with a byte.
+ return (special) ? "\\" + utf8name : "";
}
- } // end of if (prev.is("i") || ...)
- else if (prev.is("sp") || prev.is("sb"))
- {
- cursor.remove();
- prev.append(cursor);
- do_gdelete();
- } // end of if (prev.is("sp") || prev.is("sb"))
- else if (prev.isG())
+ }
+ else if (macro && special) return "\\" + utf8name;
+ else return "";
+}
+
+std::string
+TPushParser::drop_prev_script(bool special)
+{
+ // this method deletes an sp or an sb preceding the cursor
+ assert(cursor.prev());
+ assert(cursor.parent());
+ TNode prev = cursor.prev();
+ assert(prev.is("sp") || prev.is("sb"));
+ cursor.remove();
+ prev.append(cursor);
+ // we can invoke the drop_prev, because a sp (sb) MUST have two children
+ // but we cannot invoke do_drop_script because it assumes when called, the first
+ // child has been removed yet.
+ if (cursor.prev().isG() && !prev.hasId())
{
- cursor.remove();
- prev.append(cursor);
- do_gdelete();
+ // in this case, the user has inserted a sequence of '.
+ // Hence, we force a normal deletion, because the behavior must be the same
+ // for the two kind of deletion
+ return drop_prev(false);
}
- else if (prev.isC())
+ else return drop_prev(special);
+}
+
+std::string
+TPushParser::drop_prev_group(bool special)
+{
+ assert(cursor.prev() && cursor.prev().isG());
+ TNode parent = cursor.parent();
+ TNode prev = cursor.prev();
+ cursor.remove();
+ prev.append(cursor);
+
+ if (parent.isC() && prev.hasId())
{
-// cursor.remove();
-// prev.append(cursor);
-// do_gdelete();
+ // this previous group is a macro's argument. Entering inside it means that
+ // this argument becomes incomplete. Hence, we have to decrement the member pos.
+ assert(!frames.empty());
+ frames.top().pos--;
}
- else
+
+ if (special) return "";
+ else
{
- // not handled
+ // a group could have no children, so the drop_prev is not appropriate
+ // so, this method is not equivalent to the one above
+ return do_drop(special);
}
-
-} // end of method
+}
-void
-TPushParser::do_gdelete()
+std::string
+TPushParser::drop_prev_macro(bool special)
{
- // this function operates a graphical deleting
-
- TNode parent = cursor.parent();
+ assert(cursor.parent());
+ assert(cursor.prev());
+ TNode prev = cursor.prev();
+ assert(prev.isC());
- // if no parent, do nothing
- if (parent)
+ std::string macro_name = prev.nameC();
+
+ TNode parent = cursor.parent();
+
+ const TDictionary::Entry& entry = dictionary.find(prev["name"]);
+
+ if (!entry.defined())
{
- assert(parent);
- if (parent.isG())
+ // In this case, with a normal deletion, we completely remove the macro.
+ // With a special deletion, we remove the last character of the macro's name.
+ cursor.remove();
+ prev.replace(cursor);
+ if (cursor.parent().isC())
+ {
+ // we have removed a macro's child
+ assert(!frames.empty());
+ frames.top().pos--;
+ }
+ if (special) return "\\" + macro_name.erase(macro_name.length() - 1, 1); // we remove the last char, because an undefined macro's name is visible
+ return "";
+ }
+ else
+ {
+ // we start to remove a MACRO. Different actions must be taken, based on the nature
+ // of the MACRO. In some cases, we can't remove the MACRO immediately, in other
+ // cases it's correct. In the first set of cases, we have to update the stack, pushing
+ // a frame in it with a correct value of pos, in the
+ // second one, we must not push a frame in the stack
+
+ if (entry.rightOpen)
{
- TNode prev = cursor.prev();
- if (prev)
+ // In this fragment of code we also handle the leftOpen && rightOpen MACRO.
+ // since the control element is rightOpen, the cursor should be placed after
+ // the last child of the control element's last child, and than, we try to remove something.
+ // A frame MUST be pushed in the stack, because we dont' know if the following actions
+ // will completely remove the MACRO.
+ frames.push(Frame(entry));
+
+ // Since the MACRO is rightOpen, the last child of the MACRO must be a phantom group
+ assert(prev.last().isG() && !prev.last().hasId());
+
+ cursor.remove();
+ prev.last().append(cursor);
+
+ if (special) return "";
+ else
{
- // i try to delete the preceding element
- gdelete_prev();
-
- // if gdelete_prev has removed all parent's child, and the group has Id, it should be removed.
- // this control should be re-done on the new parent and so on.
- while ((parent.first() == cursor) && parent.isG() && parent.hasId())
+ // the drop_prev is not appropriate, because the last child of the MACRO could have no children
+ return do_drop_phantom_group(special);
+ }
+ }
+ else if (entry.leftOpen)
+ {
+ // the leftOpen MACRO MUST have one and only one child, which MUST be a phantom group
+ // In this case, we do not have to push a frame in the stack, because we remove the
+ // MACRO immediately, substituting it with the content of the phantom group.
+ // We could remove the last child of the phantom group, but
+ // it's not clear if it's the correct behavior of the graphical deletion.
+ // At the moment, to give a standard behavior, we remove the last element.
+ // With a special deletion, we do not remove it.
+ assert(prev.first());
+ assert(prev.first().isG());
+ assert(prev.first() == prev.last());
+
+ TNode g = prev.first();
+ if (g.size())
+ {
+ // in this case, the phantom group has at least one child, so we can call the
+ // TNode::replace.
+ g.remove();
+ prev.replace(g.first(), TNode());
+ parent.append(cursor);
+ if (special) return "\\" + macro_name;
+ else return do_drop(special);
+ }
+ else
+ {
+ // otherwise, the phantom group has no children, so we remove it, also the MACRO.
+ cursor.remove();
+ g.remove();
+ prev.replace(cursor);
+ if (special) return "\\" + macro_name;
+ else
{
- cursor.remove();
- parent.replace(cursor);
- parent = cursor.parent();
+ // Once removed this empty macro, we could try to remove something else.
+ // This would be justified by the fact that, generally, an empty macro gives no visual information
+ // about it.
+ return do_drop(special); // special is false
}
}
- else // no previous node is present
+ }
+ else if (!entry.pattern.empty())
+ {
+ // we have to start to remove a MACRO which accepts arguments.
+ // If the MACRO accepts arguments, the MACRO has at least one child
+ assert(prev.size() >= 1);
+
+ // Differnt actions must be taken, based on the nature of the last child
+ // of the MACRO. We have to distinguish the case in which it's a delimited argument,
+ // frome the one in which it's a not delimited argument.
+ if (prev.last().isG() && !prev.last().hasId())
{
- if (!parent.parent().is("math"))
+ if (special)
{
- cursor.remove();
- parent.replace(cursor);
+ // in this case, we have to start removing the last delimiter
+ frames.push(Frame(entry, entry.pattern.size() - 2));
- // if the new parent is a group with Id, it should be removed
- if (cursor.parent().isG() && cursor.parent().hasId()) do_gdelete();
+ cursor.remove();
+ prev.last().append(cursor);
+
+ std::string last_del = entry.pattern[entry.pattern.size() - 1].value;
+
+ return "\\" + last_del;
}
else
{
- // nothing to do...i think
+ // the last argument of the MACRO is a delimited argumet. We ideally remove
+ // the sequence of delimiters
+ cursor.remove();
+ prev.last().append(cursor);
+ // we have to push a frame with a correct value of pos
+ assert(entry.previousParam(entry.pattern.size()) != entry.pattern.size());
+
+ unsigned sequence_length = entry.pattern.size() - entry.previousParam(entry.pattern.size()) - 1;
+ unsigned p = entry.pattern.size() - sequence_length - 1;
+ // now, p is the correct value of pos, and we can push the frame.
+ frames.push(Frame(entry, p));
+
+ // To give a standard behavior to the graphical deletion, we remove the last
+ // element of the macro. Since we are in a phantom group, we can invoke the
+ // do_drop_phantom_group(special).
+ return do_drop_phantom_group(special);
}
}
- }
- else if (parent.isC())
- {
- // i think i have to implement different behaviors based on the attribute name and/or left-open
- }
- else if (parent.is("sp") || parent.is("sb"))
- {
- // being here means that a prev MUST exist
-
- TNode prev = cursor.prev();
-
- if (!prev) cout << "qualcosa non va" << endl;
else
{
- if (parent.first().next() == cursor) // there's only an element preceding the cursor
+ // in this case, the last child of the MACRO is not a delimited argument, so we try
+ // to remove it, but we have to take differnt actions if the MACRO is a table with rows or not.
+ cursor.remove();
+ if (entry.table == 1 && prev.last().is("row"))
{
- cursor.remove();
- parent.replace(prev);
- prev.parent().append(cursor);
+ // in this case the cursor has to be appended to the group associated to
+ // the last cell of the last row of the table
+ assert(prev.last().last().is("cell") && prev.last().last().first().isG());
+ prev.last().last().first().append(cursor);
+
+ // we have to push a frame in the stack. Since tables has a pattern size = 1, we have to
+ // set pos at 0, because appending the cursor to the last cell means that this argument
+ // is not whole inserted.
+ // We don't call frames.push(Frame(entry)), because it incoditionaly set pos at 0. The
+ // following line is more general
+ frames.push(Frame(entry, entry.pattern.size() - 1));
+ if (special)
+ {
+ // to type a table with rows and cells, the user had typed a
+ // "{", and to exit from it, the user had inserted a "}".
+ // Since we are in a special deletion, we just idealy remove the "}"
+ return "";
+ }
+ else return do_drop_phantom_group(special);
}
- else // there are two elements preceding the cursor
+ else
{
- gdelete_prev();
+ // we push a frame in the stack with a correct value of member pos.
+ // This correct value is the size of the pattern - 1, because we have been started to delete
+ // a MACRO. It means that all of the MACRO's arguments have been inserted, but
+ frames.push(Frame(entry, entry.pattern.size()));
+ prev.append(cursor);
+ return drop_prev(special);
}
- }
- }
+
+ } // end of the else of the if (prev.last().isG() && !prev.last().hasId())
+
+ } // end of if (!entry.pattern.empty())
else
{
- // not handled: no control for tables, ...
- }
- }
- else
- {
- // do nothing ??
+ // if we are here, the MACRO preceding the cursor, is !(rightOpen || leftOpen),
+ // and has no pattern. It means that it has no children.
+ // We can replace it with the cursor
+ assert(prev.size() == 0);
+ cursor.remove();
+ prev.replace(cursor);
+ if (cursor.parent().isC())
+ {
+ // we have removed an empty macro, which was a non delimited argument of a macro.
+ // We have to decrement pos
+ assert(!frames.empty());
+ frames.top().pos--;
+ }
+
+ if (special) return "\\" + macro_name;
+ else return "";
+
+ // now we could start to remove something else. This behavior would be justified by the
+ // fact that, generally, an empty MACRO gives no visual information about it.
+ // To adopt this behavior, just remove the comment to the following instruction
+ // return do_drop(special);
+ }
+ } // end of defined MACRO
+
+}
+
+std::string
+TPushParser::drop_prev(bool special)
+{
+ // if in this function, the prev of cursor does exist, also the parent and we want a graphical deletion.
+
+ assert(cursor.prev());
+ assert(cursor.parent());
+
+ TNode prev = cursor.prev();
+
+ if (prev.isT())
+ {
+ return drop_prev_token(special);
+ }
+ else if (prev.isSp() || prev.isSb())
+ {
+ return drop_prev_script(special);
+ }
+ else if (prev.isG())
+ {
+ return drop_prev_group(special);
+ }
+ else if (prev.isC())
+ {
+ // here, we also treat the case in which the MACRO is a table
+ return drop_prev_macro(special);
+ }
+ else
+ {
+ // not handled. Future cases...
+ return "";
}
} // end of method
void
+TPushParser::rgreplace_father()
+{
+ // this method MUST only be invoked, when the cursor
+ // is the only child of a group with id. This function
+ // replaces the group with the cursor. But if the new parent
+ // is a group with id and the cursor is the only child of the
+ // group, the new parent is replaced...and so on.
+ // r stands for recursive, g stands for graphical.
+ assert(cursor.parent());
+ assert(cursor.parent().isG() && cursor.parent().hasId());
+
+ TNode parent = cursor.parent();
+
+ while (parent.isG() && parent.hasId() && (parent.first() == cursor))
+ {
+ parent.replace(cursor);
+ parent = cursor.parent();
+ }
+}
+
+std::string
+TPushParser::do_drop_script(bool special)
+{
+ // If we are here, the cursor is child of a script (sp or sb) and
+ // this means that a prev does exist and that there is one and only one
+ // element preceding the cursor. The sp's (or sb's) parent
+ // MUST NOT be a MACRO.
+ // The element preceding the cursor is the base of the script.
+
+ assert(cursor.parent() && (cursor.parent().isSp() || cursor.parent().isSb()));
+ TNode parent = cursor.parent();
+
+ assert(parent.size() == 2);
+ assert(parent.parent() && !parent.parent().isC());
+
+ TNode prev = cursor.prev();
+ cursor.remove();
+ if (prev.isG() /*&& !prev.hasId()*/ && (prev.size() == 0))
+ {
+ // in this case, the script's base is a group with no elements, so
+ // we have to remove the entire MACRO, replacing it with the cursor.
+ // This situation occurs when the user had typed something like this
+ // $....{}^
+ // or this
+ // $^
+ // or this
+ // $...{^
+ //
+ if (special && prev.hasId())
+ {
+ // in this case, the user has typed: ...{}^
+ // hence we idealy remove the ^
+ parent.replace(prev);
+ prev.parent().append(cursor);
+ return "";
+ }
+ else if (!prev.hasId())
+ {
+ // we idealy remove the ^, but the phantom group
+ // has to be removed, also
+ prev.remove();
+ parent.replace(cursor);
+ return "";
+ }
+ else
+ {
+ prev.remove();
+ parent.replace(cursor);
+
+ // since the script had no children, we can try to remove something else.
+ // Since we don't know who is cursor's parent, and who is cursor's preceding
+ // element, we invoke the do_drop()
+ return do_drop(special);
+ }
+ }
+ else
+ {
+ // in this case, the prev has to replace the script.
+ parent.replace(prev);
+ prev.parent().append(cursor);
+ // now prev have a preceding element
+ assert(cursor.parent().size() > 1);
+
+ if (special) return "";
+ else
+ {
+ // to give a standard behavior, we try to remove the element, which was
+ // the script's base.
+ return do_drop(special);
+ }
+ }
+
+} // end of method do_drop_script
+
+std::string
+TPushParser::do_drop_macro(bool special)
+{
+ // If we are here, the cursor is a child of a MACRO and this means
+ // that there is an open frame for the control element
+ // and this element is closed at either side (no leftOpen no rightOpen)
+ // and the MACRO is waiting for a not delimited argument, so
+ // we can assert that frame.entry.pattern.size() >= 1
+ assert(cursor.parent() && cursor.parent().isC());
+ TNode parent = cursor.parent();
+
+ // this string is useful iff we have a special deletion.
+ std::string macro_name = parent.nameC();
+
+ assert(!frames.empty());
+ Frame& frame = frames.top();
+ assert(frame.entry.pattern.size() >= 1);
+
+ // we have to take different actions, based on if a preceding element exists
+ // or not
+ TNode prev = cursor.prev();
+ if (!prev)
+ {
+ // in this case, a prev does not exist, so the actions of deleting means
+ // that we have to remove the MACRO. So we have to pop the stack.
+ assert(frame.pos == 0);
+
+ parent.replace(cursor);
+ frames.pop();
+
+ if (special) return "\\" + macro_name;
+ else
+ {
+ // Since the macro had no children and this is a graphical deletion, we try
+ // to remove something else
+ return do_drop(special);
+ }
+ }
+ else
+ {
+ // a prev does exist, we have to control if it's a delimited argument or not.
+ if (prev.isG() && !prev.hasId())
+ {
+ // in this case, prev is a delimited argument, so we have
+ // to ideally remove the sequence of delimiters
+ Frame& frame = frames.top();
+ assert(frame.pos > 1);
+ cursor.remove();
+ prev.append(cursor);
+ assert(frame.entry.previousParam(frame.pos) != frame.entry.pattern.size());
+
+ if (special)
+ {
+ // in this case we have to start removing the last delimimeter.
+ // It means that we return in a situation where the user has not entirely
+ // inserted the delimited argument. So, we have to decrement frame.pos of
+ // two units: the delimiter and the actual argument
+ std::string last_del = frame.entry.pattern[frame.pos - 1].value;
+ frame.pos = frame.pos - 2;
+ return "\\" + last_del;
+ }
+ else
+ {
+ // these 3 lines of code update the member pos.
+ unsigned sequence_length = frame.pos - frame.entry.previousParam(frame.pos) - 1;
+ assert(sequence_length);
+ frame.pos = frame.pos - sequence_length - 1;
+
+ // since it's a graphical deletion, we have to remove the current preceding element.
+ // We don't invoke the drop_prev(), because a do_drop_phantom_group is more general.
+ return do_drop_phantom_group(special);
+ }
+ }
+ else
+ {
+ // the prev is not a delimited argument, so we have to try to remove it.
+ // We "try", because the prev might be something that
+ // a simple deletion cannot remove completely
+ return drop_prev(special);
+ }
+ }
+
+}
+
+std::string
+TPushParser::do_drop_groupId(bool special)
+{
+ // if we are here, the cursor's parent is a group with Id
+ assert(cursor.parent() && cursor.parent().isG() && cursor.parent().hasId());
+ TNode parent = cursor.parent();
+
+ // we have to take different actions based on if the cursor has a preceding
+ // element or not
+ TNode prev = cursor.prev();
+ if (prev)
+ {
+ // the cursor has a preceding element, so we try to remove it
+ if (special) return drop_prev(special);
+ else
+ {
+ std::string str = drop_prev(special);
+
+ // We control if the group has to be removed, because the cursor
+ // might be the only element of the group.
+ // But we have to be careful, because drop_prev could change the TML tree
+ // more than we think...parent could no longer exist!
+ parent = cursor.parent();
+ if ((parent.first() == cursor) && parent.isG() && parent.hasId())
+ rgreplace_father();
+
+ return str;
+ }
+ }
+ else
+ {
+ // the cursor has no preceding elements, so we have to remove the
+ // group.
+ if (special)
+ {
+ parent.replace(cursor);
+ return "";
+ }
+ else
+ {
+ rgreplace_father();
+ // we have to re-start the process, because it' a graphical deletion
+ return do_drop(special);
+ }
+ }
+
+} // end of method do_drop_groupId()
+
+std::string
+TPushParser::do_drop_phantom_group(bool special)
+{
+ // if we are here, the cursor MUST be a child of a
+ // phantom group.
+ assert(cursor.parent() && cursor.parent().isG() && !cursor.parent().hasId());
+
+ TNode parent = cursor.parent();
+
+ // now we have to control if the cursor has a preceding element or not
+ TNode prev = cursor.prev();
+ if (prev)
+ {
+ if (parent.parent() && parent.parent().isC())
+ {
+ // there is a frame in the stack
+ assert(!frames.empty());
+ if (frames.top().entry.pattern.size())
+ {
+ Frame& frame = frames.top();
+ if (special)
+ {
+ // we are in a delimited argument. If the user has inserted a proper subset of the
+ // delimiters'sequence, we start to remove the previous delimiter. Start to remove
+ // a delimiter means that that delimiter must be removed from the count of inserted delimiters.
+ // It means that we have to decrement the member pos.
+ if (frame.entry.pattern[frame.pos].category != TToken::PARAMETER)
+ {
+ std::string del = frame.entry.pattern[frame.pos].value;
+ frame.pos--;
+ return "\\" + del;
+ }
+ }
+ else
+ {
+ // we are in a delimited argument. If the user has inserted a proper subset of the delimiters'sequence,
+ // we have to remove the portion the user has inserted.
+ while (frame.entry.pattern[frame.pos].category != TToken::PARAMETER) frame.pos--;
+ }
+ }
+ }
+
+ // the cursor has a preceding element, so we try to remove it
+ std::string str = drop_prev(special);
+
+ if (special) return str;
+ else
+ {
+ // now we have to control the parent, to handle the case of primes. But we have returned from a drop_prev(), which
+ // could change the TML tree. So not asssuming that cursor's parent is unchanged is convenient.
+ parent = cursor.parent();
+ if (parent.isG() && !parent.hasId() && (parent.size() == 1) && parent.parent().isSp())
+ {
+ // in this case the drop_prev has removed the only element preceding the cursor.
+ // Since the phantom group is an sp's child, the user has removed all \' in the
+ // phantom group.
+ // Now we have some possibilities:
+ // - we can replace the phantom group with the cursor, giving the user the chance to insert a new
+ // exponent
+ // - we can remove the phantom group and the sp element, recreating the state before the user inserted the first
+ // prime.
+ // At the moment we implement the second one.
+ assert(parent.parent().size() == 2);
+ TNode gparent = parent.parent();
+ TNode base = gparent.first();
+ cursor.remove();
+ parent.remove();
+ gparent.replace(base);
+ // now base's parent is no more gparent
+ base.parent().append(cursor);
+
+ return str;
+ }
+ else if (parent.isG() && !parent.hasId() && parent.parent().isSp())
+ {
+ // in this case we have to place the cursor after the sp element
+ cursor.remove();
+ assert(parent.parent().parent());
+ parent.parent().parent().append(cursor);
+ return str;
+ }
+ else return str;
+ }
+ }
+ else
+ {
+ // in this case the cursor is the only element of the phantom group,
+ // so we have to remove it. But, a phantom group has a special role,
+ // so we have to control the grand father of the cursor.
+ TNode gfather = parent.parent();
+ if (!gfather)
+ {
+ // If here, the TML tree is in an inconsistent state
+ logger.error("TML tree in a inconsistent state");
+ return "";
+ }
+ else if (gfather.isC())
+ {
+ // in this case the phantom group is child of a MACRO.
+ // We have to control the nature of this MACRO.
+ assert(!frames.empty());
+ Frame& frame = frames.top();
+
+ // this variable is useful in a special deletion
+ std::string macro_name = gfather.nameC();
+
+ if (frame.entry.leftOpen && frame.entry.rightOpen)
+ {
+ // in this case, the cursor'parent is in the second and last child
+ // of the MACRO. We can assert that the grand father has two
+ // children, which are both phantom groups
+ assert(gfather.size() == 2);
+ assert((gfather.last() == parent) && (gfather.first().isG() && !gfather.first().hasId()));
+ assert(frame.pos == 0);
+
+ TNode ggfather = gfather.parent();
+ assert(ggfather);
+ cursor.remove();
+ parent.remove();
+ // we have to replace the gfather with the elements of its first child, but this group may have no
+ // children.
+ if (gfather.first().size())
+ {
+ gfather.replace(gfather.first().first(), TNode());
+ ggfather.append(cursor);
+ }
+ else
+ {
+ // in this case, the MACRO has to be replaced with the cursor
+ gfather.first().remove();
+ gfather.replace(cursor);
+ }
+ // now we have the situation preceding the insertion of the leftOpen and rightOpen MACRO.
+ // this MACRO no longer exists.
+ frames.pop();
+
+ if (special) return "\\" + macro_name;
+ else
+ {
+ // to give a standard behavior to the graphical deletion, we call the do_drop.
+ return do_drop(special);
+ }
+ }
+ else if (frame.entry.rightOpen)
+ {
+ // the user has inserted a rightOpen MACRO, and now, this MACRO has no children (excluding the
+ // phantom group), so we remove the MACRO.
+ // We can assert that cursor's parent is the only child of the MACRO
+ assert(gfather.size() == 1);
+ assert(frame.pos == 0);
+ cursor.remove();
+ parent.remove();
+ gfather.replace(cursor);
+
+ // now we have the situation preceding the rightOpen MACRO, so we have to pop the frame
+ frames.pop();
+
+ if (special) return "\\" + macro_name;
+ else
+ {
+ // to give a standard behavior to the graphical deletion, we call the do_drop.
+ return do_drop(special);
+ }
+
+ }
+ else if (frame.entry.leftOpen)
+ {
+ // this situation will never occur.
+ logger.error("the parser has generated a wrong TML tree");
+ return "";
+ }
+ else if (!frame.entry.pattern.empty())
+ {
+ // the MACRO accepts arguments, and the phantom group in which
+ // the cursor is, rappresents a delimited argument.
+ // We have to control if the cursor's parent has a preceding element,
+ // or not.
+ TNode uncle = parent.prev();
+ if (!uncle)
+ {
+ // the parent is the only element of the MACRO.
+ // we can assert that frame.pos == 0.
+ // In this case we can replace the MACRO with the cursor
+ assert(frame.pos == 0);
+ cursor.remove();
+ parent.remove();
+ gfather.replace(cursor);
+ frames.pop();
+
+ if (special) return "\\" + macro_name;
+ else
+ {
+ // once we have replaced the empty macro with the cursor, we can remove
+ // something else
+ return do_drop(special);
+ }
+ }
+ else
+ {
+ // the parent has a preceding element. Now we have
+ // to control if the uncle is a delimited argument or not.
+ if (uncle.isG() && !uncle.hasId())
+ {
+ // cursor's uncle is a delimited argument
+ cursor.remove();
+ parent.remove();
+ uncle.append(cursor);
+ if (special)
+ {
+ // we have to start removing the last delimiter of the delimited
+ // argument.
+ std::string last_del = frame.entry.pattern[frame.pos - 1].value;
+ frame.pos = frame.pos - 2;
+ return "\\" + last_del;
+ }
+ else
+ {
+ // the uncle is a delimited argument. So we have to ideally
+ // remove the sequence of delimiters.
+ assert(frame.pos > 1);
+ unsigned sequence_length = frame.pos - frame.entry.previousParam(frame.pos) - 1;
+ assert(frame.entry.previousParam(frame.pos) != frame.entry.pattern.size());
+ assert(sequence_length);
+ // sequence_length is the length of the delimiters sequence which separates
+ // the current parameter and the previous parameter
+ frame.pos = frame.pos - sequence_length - 1;
+
+ // once removed the sequnce of delimiters, we can start to remove the actual
+ // parameter. We can call the do_drop_phantom_group() because a delimited argument
+ // is always a phantom group's child
+ return do_drop_phantom_group(special);
+ }
+ }
+ else
+ {
+ // the uncle is a not delimited argument, so we try to remove it.
+ cursor.remove();
+ parent.replace(cursor);
+ parent = cursor.parent(); // we update the parent (it should be the MACRO)
+ assert(parent.isC());
+
+ // now we try to remove the uncle (now it' the preceding element)
+ return drop_prev(special);
+ }
+ } // this is the else's end, that handles the case in which an uncle exists
+ } // end of if (!frame.entry.pattern.empty())
+ else
+ {
+ // the entry has no arguments, is not rightOpen and is not leftOpen.
+ logger.error("TML tree in a strange state");
+ return "";
+ }
+ } // end of if (gfather.isC())
+ else if (gfather.is("cell"))
+ {
+ // A table is a control sequence, so there is a frame in the stack
+ assert(!frames.empty());
+ assert(frames.top().pos == 0);
+ assert(frames.top().entry.table == 1);
+
+ // a cell MUST be a row's child, which in turn is a table's child
+ assert(gfather.parent() && gfather.parent().is("row") && gfather.parent().parent());
+
+ // this variable is useful to handle the special deletion
+ std::string table_name = gfather.parent().parent().nameC();
+
+ TNode row = gfather.parent();
+
+ // in this case the cell has no element, so the user wants to delete this cell.
+ TNode prev_cell = gfather.prev();
+ cursor.remove();
+ parent.remove();
+ gfather.remove();
+ // now the cell no longer exists
+
+ if (!prev_cell)
+ {
+ // in this case, the cell was the only cell in the row.
+ // So, we assume that the user wants to delete the entire row.
+ TNode table = row.parent();
+ TNode prev_row = row.prev();
+ row.remove();
+
+ if (!prev_row)
+ {
+ if (special)
+ {
+ // Since there was a cell (and a row), the user has typed a "{" to
+ // We ideally remove this character.
+ table.append(cursor);
+ return "";
+ }
+ else
+ {
+ // the row was the only child of the table.
+ // so we have to delete the entire table
+ assert(table.parent());
+ TNode parent_table = table.parent();
+ table.remove();
+ frames.pop();
+ parent_table.append(cursor);
+ return "";
+ }
+ }
+ else
+ {
+ // there are other rows (one or more)
+ assert(prev_row.is("row"));
+ assert(prev_row.last());
+ TNode last_cell = prev_row.last();
+ assert(last_cell.is("cell"));
+ assert(last_cell.size() == 1);
+ assert(last_cell.first().isG() && !last_cell.first().hasId());
+ last_cell.first().append(cursor);
+ // Since cells and rows are separated by spaces and CRs
+ // (and the user can see this spaces and CRs), a special deletion
+ // is equivalent to a normal deletion
+ return "";
+ }
+ } // end of if (!prev_cell)
+ else
+ {
+ // being here means that there is a previous cell,
+ // so we append the cursor to group.
+ assert(prev_cell.size() == 1);
+ assert(prev_cell.first().isG() && !prev_cell.first().hasId());
+ prev_cell.first().append(cursor);
+ return "";
+ }
+ } // end of if (gfather.is("cell"))
+ else if (gfather.isSp())
+ {
+ // we cannot be here because a phantom group can be a Sp child only
+ // in two cases. If the user has typed somethong like:
+ // $^
+ // the cursor is not phantom group's child.
+ // If the user has typed somethong like
+ // ..''
+ // In this case the sequence of ' is placed in a phantom group,
+ // which becomes the exponent of the script. But, the cursor is
+ // always outside the phantom group
+ logger.error("TML tree in a strange state");
+ return "";
+ }
+ else if (gfather.is("math"))
+ {
+ // in this case we ignore the user's will of deleting
+ // but we could also decide to remove the math mode.
+ logger.warning("nothing to delete");
+ return "";
+ }
+ else
+ {
+ // cursor's grand father is undefined
+ logger.error("TML tree is in an unknown state");
+ return "";
+ }
+ } // end of the else of the if (prev)
+
+}
+
+
+std::string
+TPushParser::do_drop(bool special)
+{
+ // we have to handle the case in wich the cursor has a parent or not
+ if (!cursor.parent())
+ {
+ // it's not a good situation...at the moment we do not take actions
+ logger.error("TML tree not well structured");
+ return "";
+ }
+ else
+ {
+ // a parent exists. We have to take differnt actions, based on the nature of
+ // the parent
+ TNode parent = cursor.parent();
+ if (parent.is("math"))
+ {
+ // we ca do two thing...we can remove the math mode (it implies controlling the display attribute), we can do nothing
+ // At the moment, the user's will of deleting is simply ignored
+ logger.warning("nothing to delete");
+ return "";
+ }
+ else if (parent.isG())
+ {
+ // the cursor's parent is a group. We have to control if it's a phantom group or not
+ if (parent.hasId())
+ {
+ return do_drop_groupId(special);
+ }
+ else
+ {
+ return do_drop_phantom_group(special);
+ }
+ } // end of parent is group
+ else if (parent.isC())
+ {
+ return do_drop_macro(special);
+ } // end of parent is a MACRO
+ else if (parent.isSp() || parent.isSb())
+ {
+ return do_drop_script(special);
+ } // end of parent is sp or sb
+ } // end of the else which consider the case in which parent exists
+
+} // end of method do_drop
+
+bool
TPushParser::process(const TToken& token)
{
switch (token.category)
{
- case TToken::BEGIN: do_begin(); break;
- case TToken::END: do_end(); break;
- case TToken::SHIFT: do_shift(); break;
- case TToken::ALIGN: do_align(); break;
- case TToken::EOL: do_eol(); break;
- case TToken::PARAMETER: do_parameter(token.value); break;
- case TToken::SUPERSCRIPT: do_superscript(); break;
- case TToken::SUBSCRIPT: do_subscript(); break;
- case TToken::SPACE: do_space(token.value); break;
- case TToken::LETTER: do_letter(token.value); break;
- case TToken::DIGIT: do_digit(token.value); break;
- case TToken::OTHER: do_other(token.value); break;
- case TToken::ACTIVE: do_active(token.value); break;
- case TToken::COMMENT: do_comment(); break;
- case TToken::CONTROL: do_control(token.value); break;
- case TToken::GDELETE: do_gdelete(); break;
+ case TToken::BEGIN: return do_begin();
+ case TToken::END: return do_end();
+ case TToken::SHIFT: return do_shift();
+ case TToken::ALIGN: return do_align();
+ case TToken::EOL: return do_eol();
+ case TToken::PARAMETER: return do_parameter(token.value);
+ case TToken::SUPERSCRIPT: return do_superscript();
+ case TToken::SUBSCRIPT: return do_subscript();
+ case TToken::IGNORABLE_SPACE: return do_ignorablespace(token.value);
+ case TToken::SPACE: return do_space(token.value);
+ case TToken::LETTER: return do_letter(token.value);
+ case TToken::DIGIT: return do_digit(token.value);
+ case TToken::OTHER: return do_other(token.value);
+ case TToken::ACTIVE: return do_active(token.value);
+ case TToken::COMMENT: return do_comment();
+ case TToken::CONTROL: return do_control(token.value);
}
}
void
TPushParser::push(const TToken& token)
{
- cerr << "TPushParser::push " << token.value << " (cat: " << token.category << ")" << endl;
TNode parent = cursor.parent();
// If the cursor has no parent then it is detached from the editing
// tree, which means this token will be ignored
+
if (parent)
// If the parent is a phantom group and the grand-parent is a
// control sequence, there are two cases:
assert(frame.entry.pattern[frame.pos + 1].category != TToken::PARAMETER);
if (frame.entry.pattern[frame.pos + 1] == token)
{
- // The token matches with the delimiter of the argument.
- cursor.remove();
-
- // If the phantom group has just one child, it is not necessary
- // and can be removed. However, this would complicate
- // all the code that follows, so given it is a rare case we
- // leave it alone
- // if (parent.size() == 1) parent.replace(parent[0]);
+ // The token matches with a delimiter of the argument,
+ // hence we increment the frame.pos
+ frame.pos++;
- // Eat both the argument and its delimiter
- frame.pos += 2;
- if (frame.pos == frame.entry.pattern.size())
+ if (frame.entry.lastDelimiter(frame.pos))
{
- // This token has completed the entry
- advance(parent.parent());
+ // this delimiter is the last one for the argumet,
+ // so the argument is completed
+ cursor.remove();
+ advance(parent);
}
- else if (frame.entry.paramDelimited(frame.pos))
- {
- // For the next is a delimited argument we have to place
- // a suitable phantom group with the cursor inside
- TNode g = doc.createG();
- parent.parent().append(g);
- g.append(cursor);
- }
- else
- parent.parent().append(cursor);
}
else
{
- // Delimiter mismatch. Since we are parsing a delimited
- // argument we just process the token
- process(token);
+ // Delimiter mismatch.
+ if (frame.entry.pattern[frame.pos].category != TToken::PARAMETER)
+ {
+ // in this case, there is a sequence of delimiters that delimitates
+ // the argument, and the user has correctly inserted a portion of this
+ // sequence, but now has inserted a wrong delimiter.
+ // Here, there are some possibilities:
+ // - ignore the token, and wait for the correct delimiter
+ // - ignore the token, wait for the correct delimiter and emit an error
+ // At the moment, we implement the second possibily
+ logger.warning("it's not the correct delimiter...you have to type '" + frame.entry.pattern[frame.pos + 1].value + "'");
+ }
+ else
+ {
+ // in this case, the sequence of delimiters is composed of one
+ // delimiter. It means that we have to process the token
+ process(token);
+ }
}
}
else
// or a fixed token
Frame& frame = frames.top();
assert(frame.pos < frame.entry.pattern.size());
+
if (frame.entry.pattern[frame.pos].category == TToken::PARAMETER)
{
// As by the TeX parsing rules of undelimited parameters,
// empty spaces are ignored
- if (token.category != TToken::SPACE)
- {
- // We need to increase the frame position here, becase inside
- // process the function advance will be called. At that point
- // it will be important for the parser to know that the entry
- // has been completed in order to place the cursor correctly
- // in the next position
- frame.pos++;
- process(token);
- }
+ if ((token.category != TToken::SPACE) && (token.category != TToken::IGNORABLE_SPACE)) process(token);
}
else if (frame.entry.pattern[frame.pos] == token)
{
g.append(cursor);
}
else
- advance(parent);
+ {
+ cursor.remove();
+ advance(parent);
+ }
}
else
{
// There is a mismatch. Emit an error and ignore the token?
- cerr << "ERROR: token ignored: " << token.value << " (cat: " << token.category << ")" << endl;
+ logger.warning("ignored token: " + token.value);
}
-
}
else
process(token);
else
{
- cout << "ignored token" << endl;
+ logger.warning("ignored token");
}
- if (listener) listener->callback(doc);
+ if (factory && doc.dirtyNode() && !frozen()) factory->documentModified(doc);
+}
+
+std::string
+TPushParser::drop(bool special)
+{
+ std::string str = do_drop(special);
+ if (factory && doc.dirtyNode() && !frozen()) factory->documentModified(doc);
+ return str;
}
void
TPushParser::advance(const TNode& node)
{
assert(node);
- TNode parent = node.parent();
- if (!parent)
- ; // nothing to do, the cursor is not in the document any more
- else if (parent.isG())
+
+ if (!node.parent())
+ {
+ // this is an error
+ logger.error("wrong TML tree");
+ }
+ else if (node.parent().isG())
{
TNode next = node.next();
if (next) next.insert(cursor);
- else parent.append(cursor);
+ else node.parent().append(cursor);
}
- else if (parent.isC())
+ else if (node.parent().isC())
{
- if (node.next())
- ; // cursor removed
- else
- {
- Frame& frame = frames.top();
- if (frame.pos == frame.entry.pattern.size())
+ assert(!frames.empty());
+ if ((frames.top().pos + 1 == frames.top().entry.pattern.size()) || (frames.top().entry.pattern.empty()))
+ {
+ // we are here when we have a right open macro, or the inserted element is the last one
+ if (frames.top().entry.rightOpen)
{
+ // we have to remove the frame from the stack
frames.pop();
- advance(parent);
+ advance(node.parent().parent());
}
else
- parent.append(cursor);
+ {
+ frames.pop();
+ advance(node.parent());
+ }
+ }
+ else if (frames.top().entry.paramDelimited(frames.top().pos + 1))
+ {
+ // the next argument is delimited, so we have to create a phantom group
+ TNode g = doc.createG();
+ g.append(cursor);
+ node.parent().append(g);
+ frames.top().pos++;
+ }
+ else
+ {
+ // the next argumet is not delimited, so we have to append the cursor
+ // to the MACRO
+ node.parent().append(cursor);
+ frames.top().pos++;
}
}
- else if (parent.is("math"))
- ; // we are done
- else
- advance(parent);
+ else advance(node.parent());
}
void
-TPushParser::setCursor(const std::string& c)
+TPushParser::setCursorHint(const std::string& c)
{
- cursor["val"] = c;
- if (listener) listener->callback(doc);
+ if (cursor["val"] != c)
+ {
+ cursor["val"] = c;
+ if (factory && doc.dirtyNode() && !frozen()) factory->documentModified(doc);
+ }
+}
+
+bool
+TPushParser::hideCursor()
+{
+ if (hiddenCursor++ == 0)
+ {
+ cursor["visible"] = "0";
+ if (factory && doc.dirtyNode() && !frozen()) factory->documentModified(doc);
+ return true;
+ }
+ else
+ return false;
+}
+
+bool
+TPushParser::showCursor()
+{
+ if (hiddenCursor > 0 && --hiddenCursor == 0)
+ {
+ cursor["visible"] = "1";
+ if (factory && doc.dirtyNode() && !frozen()) factory->documentModified(doc);
+ return true;
+ }
+ else
+ return false;
+}
+
+bool
+TPushParser::thaw()
+{
+ if (APushParser::thaw() && factory && doc.dirtyNode())
+ {
+ factory->documentModified(doc);
+ return true;
+ }
+ else
+ return false;
}