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/*
* Copyright 2008-2009 Ben Boeckel <MathStuf@gmail.com>
*
* This program 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.
*
* This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* \file sigmod/Macros.h
* \todo Replace macros with protected methods of Object
*/
#ifndef SIGMOD_MACROS
#define SIGMOD_MACROS
#ifdef MAKE_SIGMOD_LIB
#define LOAD_ID() \
int newId = id; \
if ((id == -1) && xml.hasAttribute("id")) \
newId = xml.attribute("id", "-1").toInt(); \
setId(newId)
#define LOAD_BEGIN() clear()
#define LOAD(variable) loadValue(xml.firstChildElement(#variable), &m_##variable)
#define LOAD_ENUM(variable, type) loadEnum(xml.firstChildElement(#variable), &m_##variable, type##Str)
#define LOAD_ARRAY(variable) loadArray(xml.firstChildElement(#variable), &m_##variable)
#define LOAD_LIST(variable) loadList(xml.firstChildElement(#variable), &m_##variable)
#define LOAD_MAP(variable, valueName) loadMap(xml.firstChildElement(#variable), &m_##variable, #valueName)
#define LOAD_MATRIX(variable) loadMatrix(xml.firstChildElement(#variable), &m_##variable)
#define LOAD_SUB(setter, class) \
QDomElement xml_##class = xml.firstChildElement(#class); \
while (!xml_##class.isNull()) \
{ \
setter(xml_##class); \
xml_##class = xml_##class.nextSiblingElement(#class); \
}
#define SAVE_CREATE() \
QDomElement xml = QDomDocument().createElement(className()); \
xml.setAttribute("id", id())
#define SAVE(variable) xml.appendChild(saveValue(#variable, m_##variable))
#define SAVE_ENUM(variable, type) xml.appendChild(saveEnum(#variable, m_##variable, type##Str))
#define SAVE_ARRAY(variable) xml.appendChild(saveArray(#variable, m_##variable))
#define SAVE_LIST(variable) xml.appendChild(saveList(#variable, m_##variable))
#define SAVE_MAP(variable, valueName) xml.appendChild(saveMap(#variable, m_##variable, #valueName))
#define SAVE_MATRIX(variable) xml.appendChild(saveMatrix(#variable, m_##variable))
#define SAVE_Rules(variable) xml.appendChild(m_##variable->save())
#define SAVE_SUB(class, variable) \
foreach (class* sub, m_##variable) \
xml.appendChild(sub->save())
#define COPY(variable) m_##variable = rhs.m_##variable
#define COPY_Rules(variable) *m_##variable = *rhs.m_##variable
#define COPY_SUB(class, variable) \
foreach (class* subclass, rhs.m_##variable) \
m_##variable.append(new class(*subclass, this, subclass->id()))
#define TEST_BEGIN() \
connect(this, SIGNAL(warning(QString)), SIGNAL(valWarning(QString))); \
connect(this, SIGNAL(error(QString)), SIGNAL(valError(QString))); \
emit(valMessage(QString("++%1 (%2)").arg(className()).arg(id())))
#define TEST_END() \
emit(valMessage(QString("--%1 (%2)").arg(className()).arg(id()))); \
disconnect(this, SIGNAL(warning(QString)), this, SIGNAL(valWarning(QString))); \
disconnect(this, SIGNAL(error(QString)), this, SIGNAL(valError(QString)))
#define TEST(variable) variable##Check(m_##variable)
#define TEST_ARRAY_INDEX(variable, index) variable##Check(index, m_##variable[index])
#define TEST_ARRAY_INDEX_OFF(variable, index, offset) variable##Check(index, m_##variable[index - offset])
#define TEST_LIST(variable) \
foreach (int variable, m_##variable) \
variable##Check(variable)
#define TEST_MAP(variable) \
const QList<int> variable##_keys = m_##variable.keys(); \
foreach (int variable, variable##_keys) \
variable##Check(variable, m_##variable[variable])
#define TEST_MATRIX(variable) \
for (int i = 0; i < m_##variable.height(); ++i) \
{ \
for (int j = 0; j < m_##variable.width(); ++j) \
variable##Check(i, j, m_##variable(i, j)); \
}
#define TEST_CHILD(object) \
connect(object, SIGNAL(valMessage(QString)), this, SIGNAL(valMessage(QString))); \
connect(object, SIGNAL(valWarning(QString)), this, SIGNAL(valWarning(QString))); \
connect(object, SIGNAL(valError(QString)), this, SIGNAL(valError(QString))); \
object->validate(); \
disconnect(object, SIGNAL(valMessage(QString)), this, SIGNAL(valMessage(QString))); \
disconnect(object, SIGNAL(valWarning(QString)), this, SIGNAL(valWarning(QString))); \
disconnect(object, SIGNAL(valError(QString)), this, SIGNAL(valError(QString)))
#define TEST_SUB_BEGIN(type, variable) \
foreach (type* object, m_##variable) \
{ \
TEST_CHILD(object)
#define TEST_SUB(name, value) TEST_SUB_RAW(value, name, value)
#define TEST_SUB_RAW(checking, name, value) \
if (checking##Checker.contains(object->value())) \
emit(error(subclass(name, object->id()))); \
checking##Checker.insert(object->value())
#define TEST_SUB_END() }
#define TS(variable) \
if (variable##Check(variable) && (m_##variable != variable)) \
{ \
m_##variable = variable; \
emit(changed()); \
}
#define TS_ARRAY(variable, index, offset, value) \
if (variable##Check(index, value) && (m_##variable[index - offset] != value)) \
{ \
m_##variable[index - offset] = value; \
emit(changed()); \
}
#define TS_MATRIX(variable, row, column, value) \
if (variable##Check(value) && (m_##variable(row, column) != value)) \
{ \
m_##variable(row, column) = value; \
emit(changed()); \
}
#define TS_LIST_BEGIN(variable) \
if (state && variable##Check(variable) && !m_##variable.contains(variable)) \
{
#define TS_LIST_INTERNAL(variable) \
m_##variable.append(variable); \
emit(changed())
#define TS_LIST_INTERNAL_LIMIT(variable, limit, limitError) \
if (m_##variable.size() < limit) \
{ \
m_##variable.append(variable); \
emit(changed()); \
} \
else \
ERROR(limitError)
#define TS_LIST_END(variable) \
} \
else if (!state && m_##variable.contains(variable)) \
{ \
m_##variable.removeOne(variable); \
emit(changed()); \
}
#define TS_LIST(variable) \
TS_LIST_BEGIN(variable) \
TS_LIST_INTERNAL(variable); \
TS_LIST_END(variable)
#define TS_LIST_LIMIT(variable, limit, limitError) \
TS_LIST_BEGIN(variable) \
TS_LIST_INTERNAL_LIMIT(variable, limit, limitError); \
TS_LIST_END(variable)
#define WARNING(msg) emit(warning(msg))
#define ERROR(msg) emit(error(msg))
#define EBOUNDS(variable, min, max) EBOUNDS_MOD(variable, (min), (max), variable)
#define EBOUNDS_IDX(variable) emit(error(bounds(#variable, variable)))
#define EBOUNDS_MOD(variable, min, max, value) emit(error(bounds(#variable, (min), (max), value)))
#define TBOUNDS(variable, min, max) TBOUNDS_MOD(variable, min, max, variable)
#define TBOUNDS_MOD(variable, min, max, value) \
{ \
const __typeof(min) variable##_min = (min); \
const __typeof(max) variable##_max = (max); \
if ((value < variable##_min) || (variable##_max < value)) \
{ \
EBOUNDS_MOD(variable, variable##_min, variable##_max, value); \
return false; \
} \
}
#define IBOUNDS(variable, pointer, subclass) \
if (!pointer->subclass##ById(variable)) \
{ \
EBOUNDS_IDX(variable); \
return false; \
}
#define SETTER(class, type, capital, variable) \
void Sigmod::class::set##capital(const type variable) \
{ \
TS(variable); \
}
#define SETTER_ARRAY(class, type, capital, variable, valueName, indexType, indexName, offset) \
void Sigmod::class::set##capital(const indexType indexName, const type valueName) \
{ \
TS_ARRAY(variable, indexName, offset, valueName); \
}
#define SETTER_MATRIX(class, type, capital, variable, valueName) \
void Sigmod::class::set##capital(const int row, const int column, const type valueName) \
{ \
TS_MATRIX(variable, row, column, valueName); \
}
#define SETTER_LIST(class, capital, variable) \
void Sigmod::class::set##capital(const int variable, const bool state) \
{ \
TS_LIST(variable); \
}
#define SETTER_LIST_LIMIT(class, capital, variable, limit, limitError) \
void Sigmod::class::set##capital(const int variable, const bool state) \
{ \
TS_LIST_LIMIT(variable, limit, limitError); \
}
#define SETTER_MAP(class, capital, variable, valueName) \
void Sigmod::class::set##capital(const int variable, const int valueName) \
{ \
if (valueName && variable##Check(variable, valueName) && (!m_##variable.contains(variable) || (valueName != m_##variable[variable]))) \
{ \
m_##variable[variable] = valueName; \
emit(changed()); \
} \
else if (!valueName && m_##variable.contains(variable)) \
{ \
m_##variable.remove(variable); \
emit(changed()); \
} \
}
#define GETTER(class, type, variable) \
type Sigmod::class::variable() const \
{ \
return m_##variable; \
}
#define GETTER_ARRAY(class, type, variable, valueName, indexType, indexName, offset) \
type Sigmod::class::variable(const indexType indexName) const \
{ \
if (variable##Check(indexName, m_##variable[indexName - offset])) \
return m_##variable[indexName - offset]; \
return type(); \
}
#define GETTER_LIST(class, variable) \
bool Sigmod::class::variable(const int variable) const \
{ \
return m_##variable.contains(variable); \
} \
\
QList<int> Sigmod::class::variable() const \
{ \
return m_##variable; \
}
#define GETTER_MAP(class, variable) \
int Sigmod::class::variable(const int variable) const \
{ \
if (m_##variable.contains(variable)) \
return m_##variable[variable]; \
return int(); \
} \
\
QMap<int, int> Sigmod::class::variable() const \
{ \
return m_##variable; \
}
#define CHECK_BEGIN(class, type, variable) \
bool Sigmod::class::variable##Check(const type variable) const \
{
#define CHECK_BEGIN_ARRAY(class, type, variable, valueName, indexType, indexName) \
bool Sigmod::class::variable##Check(const indexType indexName, const type valueName) const \
{
#define CHECK_END() \
return true; \
}
#define CHECK(class, type, variable) \
CHECK_BEGIN(class, type, variable) \
Q_UNUSED(variable) \
CHECK_END()
#define CHECK_INDEX(class, type, variable, pointer, subclass) \
CHECK_BEGIN(class, type, variable) \
IBOUNDS(variable, pointer, subclass) \
CHECK_END()
#define CHECK_BOUNDS(class, type, variable, min, max) \
CHECK_BEGIN(class, type, variable) \
TBOUNDS(variable, (min), (max)) \
CHECK_END()
#define SUBCLASS_RAW(class, subclass, capital, short, variable) \
const Sigmod::subclass* Sigmod::class::short(const int index) const \
{ \
if (index < short##Count()) \
return m_##variable.at(index); \
return NULL; \
} \
\
Sigmod::subclass* Sigmod::class::short(const int index) \
{ \
if (index < short##Count()) \
return m_##variable[index]; \
return NULL; \
} \
\
const Sigmod::subclass* Sigmod::class::short##ById(const int id) const \
{ \
return short(short##Index(id)); \
} \
\
Sigmod::subclass* Sigmod::class::short##ById(const int id) \
{ \
return short(short##Index(id)); \
} \
\
int Sigmod::class::short##Index(const int id) const \
{ \
for (int i = 0; i < short##Count(); ++i) \
{ \
if (m_##variable[i]->id() == id) \
return i; \
} \
return INT_MAX; \
} \
\
int Sigmod::class::short##Count() const \
{ \
return m_##variable.size(); \
} \
\
Sigmod::subclass* Sigmod::class::new##capital() \
{ \
return new##capital(new subclass(this, new##capital##Id())); \
} \
\
Sigmod::subclass* Sigmod::class::new##capital(const QDomElement& xml) \
{ \
return new##capital(new subclass(xml, this, new##capital##Id())); \
} \
\
Sigmod::subclass* Sigmod::class::new##capital(const subclass& short) \
{ \
return new##capital(new subclass(short, this, new##capital##Id())); \
} \
\
Sigmod::subclass* Sigmod::class::new##capital(subclass* short) \
{ \
m_##variable.append(short); \
return short; \
} \
\
void Sigmod::class::delete##capital(const int index) \
{ \
if (index < short##Count()) \
{ \
delete m_##variable[index]; \
m_##variable.removeAt(index); \
} \
} \
\
void Sigmod::class::delete##capital##ById(const int id) \
{ \
delete##capital(short##Index(id)); \
} \
\
int Sigmod::class::new##capital##Id() const \
{ \
int i = 0; \
while ((i < short##Count()) && (short##Index(i) != INT_MAX)) \
++i; \
return i; \
}
#define SUBCLASS(class, capital, short, variable) SUBCLASS_RAW(class, class##capital, capital, short, variable)
#define SSUBCLASS(class, capital, short, variable) SUBCLASS_RAW(class, capital, capital, short, variable)
#define SUBCLASS_CLEAR(variable) \
qDeleteAll(m_##variable); \
m_##variable.clear()
#endif
#endif
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