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LibrePilot/ground/src/libs/uavobjgenerator/uavobjectparser.cpp

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/**
******************************************************************************
*
* @file uavobjectparser.cpp
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010.
* @brief Parses XML files and extracts object information.
*
* @see The GNU Public License (GPL) Version 3
*
*****************************************************************************/
/*
* 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, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "uavobjectparser.h"
#include <QByteArray>
/**
* Constructor
*/
UAVObjectParser::UAVObjectParser()
{
fieldTypeStrC << QString("int8_t") << QString("int16_t") << QString("int32_t") <<
QString("uint8_t") << QString("uint16_t") << QString("uint32_t") <<
QString("float") << QString("uint8_t");
fieldTypeStrCPP << QString("qint8") << QString("qint16") << QString("qint32") <<
QString( "quint8") << QString("quint16") << QString("quint32") <<
QString("float") << QString("quint8");
fieldTypeStrCPPClass << QString("Int8") << QString("Int16") << QString("Int32") <<
QString( "UInt8") << QString("UInt16") << QString("UInt32") <<
QString("Float") << QString("Enum");
fieldTypeStrXML << QString("int8") << QString("int16") << QString("int32") <<
QString("uint8") << QString("uint16") << QString("uint32") <<
QString("float") << QString("enum");
updateModeStr << QString("UPDATEMODE_PERIODIC") << QString("UPDATEMODE_ONCHANGE") <<
QString("UPDATEMODE_MANUAL") << QString("UPDATEMODE_NEVER");
updateModeStrXML << QString("periodic") << QString("onchange") <<
QString("manual") << QString("never");
}
/**
* Get number of objects
*/
int UAVObjectParser::getNumObjects()
{
return objInfo.length();
}
/**
* Get the detailed object information
*/
QList<UAVObjectParser::ObjectInfo*> UAVObjectParser::getObjectInfo()
{
return objInfo;
}
/**
* Get the name of the object
*/
QString UAVObjectParser::getObjectName(int objIndex)
{
ObjectInfo* info = objInfo[objIndex];
if (info == NULL)
{
return QString();
}
else
{
return info->name;
}
}
/**
* Get the ID of the object
*/
quint32 UAVObjectParser::getObjectID(int objIndex)
{
ObjectInfo* info = objInfo[objIndex];
if (info == NULL)
{
return 0;
}
else
{
return info->id;
}
}
/**
* Parse supplied XML file
* @param xml The xml text
* @param filename The xml filename
* @returns Null QString() on success, error message on failure
*/
QString UAVObjectParser::parseXML(QString& xml, QString& filename)
{
this->filename = filename;
// Create DOM document and parse it
QDomDocument doc("UAVObjects");
bool parsed = doc.setContent(xml);
if (!parsed) return QString("Improperly formated XML file");
// Read all objects contained in the XML file, creating an new ObjectInfo for each
QDomElement docElement = doc.documentElement();
QDomNode node = docElement.firstChild();
while ( !node.isNull() )
{
// Create new object entry
ObjectInfo* info = new ObjectInfo;
// Process object attributes
QString status = processObjectAttributes(node, info);
if (!status.isNull())
{
return status;
}
// Process child elements (fields and metadata)
QDomNode childNode = node.firstChild();
while ( !childNode.isNull() )
{
// Process element depending on its type
if ( childNode.nodeName().compare(QString("field")) == 0 )
{
QString status = processObjectFields(childNode, info);
if (!status.isNull())
{
return status;
}
}
else if ( childNode.nodeName().compare(QString("telemetrygcs")) == 0 )
{
QString status = processObjectMetadata(childNode, &info->gcsTelemetryUpdateMode,
&info->gcsTelemetryUpdatePeriod, &info->gcsTelemetryAcked);
if (!status.isNull())
{
return status;
}
}
else if ( childNode.nodeName().compare(QString("telemetryflight")) == 0 )
{
QString status = processObjectMetadata(childNode, &info->flightTelemetryUpdateMode,
&info->flightTelemetryUpdatePeriod, &info->flightTelemetryAcked);
if (!status.isNull())
{
return status;
}
}
else if ( childNode.nodeName().compare(QString("logging")) == 0 )
{
QString status = processObjectMetadata(childNode, &info->loggingUpdateMode,
&info->loggingUpdatePeriod, NULL);
if (!status.isNull())
{
return status;
}
}
else
{
return QString("Unknown object element");
}
// Get next element
childNode = childNode.nextSibling();
}
// Calculate ID
calculateID(info);
// Add object
objInfo.append(info);
// Get next object
node = node.nextSibling();
}
// Done, return null string
return QString();
}
/**
* Calculate the unique object ID based on the object information.
* The ID will change if the object definition changes, this is intentional
* and is used to avoid connecting objects with incompatible configurations.
*/
void UAVObjectParser::calculateID(ObjectInfo* info)
{
// Hash object name
quint32 hash = updateHash(info->name, 0);
// Hash object attributes
hash = updateHash(info->isSettings, hash);
hash = updateHash(info->isSingleInst, hash);
// Hash field information
for (int n = 0; n < info->fields.length(); ++n)
{
hash = updateHash(info->fields[n]->name, hash);
hash = updateHash(info->fields[n]->numElements, hash);
hash = updateHash(info->fields[n]->type, hash);
}
// Done
info->id = hash;
}
/**
* Shift-Add-XOR hash implementation. LSB is set to zero, it is reserved
* for the ID of the metaobject.
*
* http://eternallyconfuzzled.com/tuts/algorithms/jsw_tut_hashing.aspx
*/
quint32 UAVObjectParser::updateHash(quint32 value, quint32 hash)
{
return (hash ^ ((hash<<5) + (hash>>2) + value)) & 0xFFFFFFFE;
}
/**
* Update the hash given a string
*/
quint32 UAVObjectParser::updateHash(QString& value, quint32 hash)
{
QByteArray bytes = value.toAscii();
quint32 hashout = hash;
for (int n = 0; n < bytes.length(); ++n)
{
hashout = updateHash(bytes[n], hashout);
}
return hashout;
}
/**
* Process the metadata part of the XML
*/
QString UAVObjectParser::processObjectMetadata(QDomNode& childNode, UpdateMode* mode, int* period, bool* acked)
{
// Get updatemode attribute
QDomNamedNodeMap elemAttributes = childNode.attributes();
QDomNode elemAttr = elemAttributes.namedItem("updatemode");
if ( elemAttr.isNull() )
{
return QString("Object:telemetrygcs:updatemode attribute is missing");
}
else
{
int index = updateModeStrXML.indexOf( elemAttr.nodeValue() );
if (index >= 0)
{
*mode = (UpdateMode)index;
}
else
{
return QString("Object:telemetrygcs:updatemode attribute value is invalid");
}
}
// Get period attribute
elemAttr = elemAttributes.namedItem("period");
if ( elemAttr.isNull() )
{
return QString("Object:telemetrygcs:period attribute is missing");
}
else
{
*period = elemAttr.nodeValue().toInt();
}
// Get acked attribute (only if acked parameter is not null, not applicable for logging metadata)
if ( acked != NULL)
{
elemAttr = elemAttributes.namedItem("acked");
if ( elemAttr.isNull())
{
return QString("Object:telemetrygcs:acked attribute is missing");
}
else
{
if ( elemAttr.nodeValue().compare(QString("true")) == 0 )
{
*acked = true;
}
else if ( elemAttr.nodeValue().compare(QString("false")) == 0 )
{
*acked = false;
}
else
{
return QString("Object:telemetrygcs:acked attribute value is invalid");
}
}
}
// Done
return QString();
}
/**
* Process the object fields of the XML
*/
QString UAVObjectParser::processObjectFields(QDomNode& childNode, ObjectInfo* info)
{
// Create field
FieldInfo* field = new FieldInfo;
// Get name attribute
QDomNamedNodeMap elemAttributes = childNode.attributes();
QDomNode elemAttr = elemAttributes.namedItem("name");
if ( elemAttr.isNull() )
{
return QString("Object:field:name attribute is missing");
}
else
{
field->name = elemAttr.nodeValue();
}
// Get units attribute
elemAttr = elemAttributes.namedItem("units");
if ( elemAttr.isNull() )
{
return QString("Object:field:units attribute is missing");
}
else
{
field->units = elemAttr.nodeValue();
}
// Get type attribute
elemAttr = elemAttributes.namedItem("type");
if ( elemAttr.isNull() )
{
return QString("Object:field:type attribute is missing");
}
else
{
int index = fieldTypeStrXML.indexOf(elemAttr.nodeValue());
if (index >= 0)
{
field->type = (FieldType)index;
}
else
{
return QString("Object:field:type attribute value is invalid");
}
}
// Get numelements or elementnames attribute
elemAttr = elemAttributes.namedItem("elementnames");
if ( !elemAttr.isNull() )
{
// Get element names
QStringList names = elemAttr.nodeValue().split(",", QString::SkipEmptyParts);
for (int n = 0; n < names.length(); ++n)
{
names[n] = names[n].trimmed();
}
field->elementNames = names;
field->numElements = names.length();
field->defaultElementNames = false;
}
else
{
elemAttr = elemAttributes.namedItem("elements");
if ( elemAttr.isNull() )
{
return QString("Object:field:elements and Object:field:elementnames attribute is missing");
}
else
{
field->numElements = elemAttr.nodeValue().toInt();
for (int n = 0; n < field->numElements; ++n)
{
field->elementNames.append(QString("%1").arg(n));
}
field->defaultElementNames = true;
}
}
// Get options attribute (only if an enum type)
if (field->type == FIELDTYPE_ENUM)
{
// Get options attribute
elemAttr = elemAttributes.namedItem("options");
if ( elemAttr.isNull() )
{
return QString("Object:field:options attribute is missing");
}
else
{
QStringList options = elemAttr.nodeValue().split(",", QString::SkipEmptyParts);
for (int n = 0; n < options.length(); ++n)
{
options[n] = options[n].trimmed();
}
field->options = options;
}
}
// Add field to object
info->fields.append(field);
// Done
return QString();
}
/**
* Process the object attributes from the XML
*/
QString UAVObjectParser::processObjectAttributes(QDomNode& node, ObjectInfo* info)
{
// Get name attribute
QDomNamedNodeMap attributes = node.attributes();
QDomNode attr = attributes.namedItem("name");
if ( attr.isNull() )
{
return QString("Object:name attribute is missing");
}
else
{
info->name = attr.nodeValue();
}
// Get singleinstance attribute
attr = attributes.namedItem("singleinstance");
if ( attr.isNull() )
{
return QString("Object:singleinstance attribute is missing");
}
else
{
if ( attr.nodeValue().compare(QString("true")) == 0 )
{
info->isSingleInst = true;
}
else if ( attr.nodeValue().compare(QString("false")) == 0 )
{
info->isSingleInst = false;
}
else
{
return QString("Object:singleinstance attribute value is invalid");
}
}
// Get settings attribute
attr = attributes.namedItem("settings");
if ( attr.isNull() )
{
return QString("Object:settings attribute is missing");
}
else
{
if ( attr.nodeValue().compare(QString("true")) == 0 )
{
info->isSettings = true;
}
else if ( attr.nodeValue().compare(QString("false")) == 0 )
{
info->isSettings = false;
}
else
{
return QString("Object:settings attribute value is invalid");
}
}
// Settings objects can only have a single instance
if ( info->isSettings && !info->isSingleInst )
{
return QString("Object: Settings objects can not have multiple instances");
}
// Done
return QString();
}
/**
* Replace all the common tags from the template file with actual object
* information.
*/
void UAVObjectParser::replaceCommonTags(QString& out, ObjectInfo* info)
{
QString value;
// Replace $(XMLFILE) tag
out.replace(QString("$(XMLFILE)"), filename);
// Replace $(NAME) tag
out.replace(QString("$(NAME)"), info->name);
// Replace $(NAMELC) tag
out.replace(QString("$(NAMELC)"), info->name.toLower());
// Replace $(NAMEUC) tag
out.replace(QString("$(NAMEUC)"), info->name.toUpper());
// Replace $(OBJID) tag
out.replace(QString("$(OBJID)"), QString().setNum(info->id));
// Replace $(ISSINGLEINST) tag
value = boolToString( info->isSingleInst );
out.replace(QString("$(ISSINGLEINST)"), value);
// Replace $(ISSETTINGS) tag
value = boolToString( info->isSettings );
out.replace(QString("$(ISSETTINGS)"), value);
// Replace $(FLIGHTTELEM_ACKED) tag
value = boolToString( info->flightTelemetryAcked );
out.replace(QString("$(FLIGHTTELEM_ACKED)"), value);
// Replace $(FLIGHTTELEM_UPDATEMODE) tag
value = updateModeStr[info->flightTelemetryUpdateMode];
out.replace(QString("$(FLIGHTTELEM_UPDATEMODE)"), value);
// Replace $(FLIGHTTELEM_UPDATEPERIOD) tag
out.replace(QString("$(FLIGHTTELEM_UPDATEPERIOD)"), QString().setNum(info->flightTelemetryUpdatePeriod));
// Replace $(GCSTELEM_ACKED) tag
value = boolToString( info->gcsTelemetryAcked );
out.replace(QString("$(GCSTELEM_ACKED)"), value);
// Replace $(GCSTELEM_UPDATEMODE) tag
value = updateModeStr[info->gcsTelemetryUpdateMode];
out.replace(QString("$(GCSTELEM_UPDATEMODE)"), value);
// Replace $(GCSTELEM_UPDATEPERIOD) tag
out.replace(QString("$(GCSTELEM_UPDATEPERIOD)"), QString().setNum(info->gcsTelemetryUpdatePeriod));
// Replace $(LOGGING_UPDATEMODE) tag
value = updateModeStr[info->loggingUpdateMode];
out.replace(QString("$(LOGGING_UPDATEMODE)"), value);
// Replace $(LOGGING_UPDATEPERIOD) tag
out.replace(QString("$(LOGGING_UPDATEPERIOD)"), QString().setNum(info->loggingUpdatePeriod));
}
/**
* Convert a boolean to string
*/
QString UAVObjectParser::boolToString(bool value)
{
if ( value )
{
return QString("1");
}
else
{
return QString("0");
}
}
/**
* Generate the flight object files
*/
bool UAVObjectParser::generateFlightObject(int objIndex, const QString& templateInclude, const QString& templateCode,
QString& outInclude, QString& outCode)
{
// Get object
ObjectInfo* info = objInfo[objIndex];
if (info == NULL) return false;
// Prepare output strings
outInclude = templateInclude;
outCode = templateCode;
// Replace common tags
replaceCommonTags(outInclude, info);
replaceCommonTags(outCode, info);
// Replace the $(DATAFIELDS) tag
QString type;
QString fields;
for (int n = 0; n < info->fields.length(); ++n)
{
// Determine type
type = fieldTypeStrC[info->fields[n]->type];
// Append field
if ( info->fields[n]->numElements > 1 )
{
fields.append( QString(" %1 %2[%3];\n").arg(type)
.arg(info->fields[n]->name).arg(info->fields[n]->numElements) );
}
else
{
fields.append( QString(" %1 %2;\n").arg(type).arg(info->fields[n]->name) );
}
}
outInclude.replace(QString("$(DATAFIELDS)"), fields);
// Replace the $(DATAENUM) tag
QString name;
QString enums;
for (int n = 0; n < info->fields.length(); ++n)
{
// Only for enum types
if (info->fields[n]->type == FIELDTYPE_ENUM)
{
enums.append(QString("/* Enumeration options for field %1 */\n").arg(info->fields[n]->name));
enums.append("typedef enum { ");
// Go through each option
QStringList options = info->fields[n]->options;
for (int m = 0; m < options.length(); ++m)
{
enums.append( QString("%1_%2_%3=%4, ")
.arg( info->name.toUpper() )
.arg( info->fields[n]->name.toUpper() )
.arg( options[m].toUpper() )
.arg(m) );
}
enums.append( QString(" } %1%2Options;\n")
.arg( info->name )
.arg( info->fields[n]->name ) );
}
// Generate element names (only if field has more than one element)
if (info->fields[n]->numElements > 1 && !info->fields[n]->defaultElementNames)
{
enums.append(QString("/* Array element names for field %1 */\n").arg(info->fields[n]->name));
enums.append("typedef enum { ");
// Go through the element names
QStringList elemNames = info->fields[n]->elementNames;
for (int m = 0; m < elemNames.length(); ++m)
{
enums.append( QString("%1_%2_%3=%4, ")
.arg( info->name.toUpper() )
.arg( info->fields[n]->name.toUpper() )
.arg( elemNames[m].toUpper() )
.arg(m) );
}
enums.append( QString(" } %1%2Elem;\n")
.arg( info->name )
.arg( info->fields[n]->name ) );
}
}
outInclude.replace(QString("$(DATAENUM)"), enums);
// Done
return true;
}
/**
* Generate the GCS object files
*/
bool UAVObjectParser::generateGCSObject(int objIndex, const QString& templateInclude, const QString& templateCode,
QString& outInclude, QString& outCode)
{
// Get object
ObjectInfo* info = objInfo[objIndex];
if (info == NULL) return false;
// Prepare output strings
outInclude = templateInclude;
outCode = templateCode;
// Replace common tags
replaceCommonTags(outInclude, info);
replaceCommonTags(outCode, info);
// Replace the $(DATAFIELDS) tag
QString type;
QString fields;
for (int n = 0; n < info->fields.length(); ++n)
{
// Determine type
type = fieldTypeStrCPP[info->fields[n]->type];
// Append field
if ( info->fields[n]->numElements > 1 )
{
fields.append( QString(" %1 %2[%3];\n").arg(type).arg(info->fields[n]->name)
.arg(info->fields[n]->numElements) );
}
else
{
fields.append( QString(" %1 %2;\n").arg(type).arg(info->fields[n]->name) );
}
}
outInclude.replace(QString("$(DATAFIELDS)"), fields);
// Replace the $(FIELDSINIT) tag
QString finit;
for (int n = 0; n < info->fields.length(); ++n)
{
// Setup element names
QString varElemName = info->fields[n]->name + "ElemNames";
finit.append( QString(" QStringList %1;\n").arg(varElemName) );
QStringList elemNames = info->fields[n]->elementNames;
for (int m = 0; m < elemNames.length(); ++m)
{
finit.append( QString(" %1.append(\"%2\");\n")
.arg(varElemName)
.arg(elemNames[m]) );
}
// Only for enum types
if (info->fields[n]->type == FIELDTYPE_ENUM)
{
QString varOptionName = info->fields[n]->name + "EnumOptions";
finit.append( QString(" QStringList %1;\n").arg(varOptionName) );
QStringList options = info->fields[n]->options;
for (int m = 0; m < options.length(); ++m)
{
finit.append( QString(" %1.append(\"%2\");\n")
.arg(varOptionName)
.arg(options[m]) );
}
finit.append( QString(" fields.append(new UAVObjectFieldEnum(QString(\"%1\"), QString(\"%2\"), %3, %4));\n")
.arg(info->fields[n]->name)
.arg(info->fields[n]->units)
.arg(varElemName)
.arg(varOptionName) );
}
// For all other types
else
{
finit.append( QString(" fields.append(new UAVObjectField%1(QString(\"%2\"), QString(\"%3\"), %4));\n")
.arg(fieldTypeStrCPPClass[info->fields[n]->type])
.arg(info->fields[n]->name)
.arg(info->fields[n]->units)
.arg(varElemName) );
}
}
outCode.replace(QString("$(FIELDSINIT)"), finit);
// Replace the $(DATAENUM) tag
QString name;
QString enums;
for (int n = 0; n < info->fields.length(); ++n)
{
// Only for enum types
if (info->fields[n]->type == FIELDTYPE_ENUM)
{
enums.append(QString(" /* Enumeration options for field %1 */\n").arg(info->fields[n]->name));
enums.append(" typedef enum { ");
// Go through each option
QStringList options = info->fields[n]->options;
for (int m = 0; m < options.length(); ++m)
{
enums.append( QString("%1_%2=%3, ")
.arg( info->fields[n]->name.toUpper() )
.arg( options[m].toUpper() )
.arg(m) );
}
enums.append( QString(" } %1Options;\n")
.arg( info->fields[n]->name ) );
}
// Generate element names (only if field has more than one element)
if (info->fields[n]->numElements > 1 && !info->fields[n]->defaultElementNames)
{
enums.append(QString(" /* Array element names for field %1 */\n").arg(info->fields[n]->name));
enums.append(" typedef enum { ");
// Go through the element names
QStringList elemNames = info->fields[n]->elementNames;
for (int m = 0; m < elemNames.length(); ++m)
{
enums.append( QString("%1_%2=%3, ")
.arg( info->fields[n]->name.toUpper() )
.arg( elemNames[m].toUpper() )
.arg(m) );
}
enums.append( QString(" } %1Elem;\n")
.arg( info->fields[n]->name ) );
}
}
outInclude.replace(QString("$(DATAENUM)"), enums);
// Done
return true;
}