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#include "qcontactdetail.h"
#include "qcontactdetail_p.h"
#include "qcontactmanager.h"
#include <QDebug>

QTM_BEGIN_NAMESPACE

/* Initialise our static private data member */
QAtomicInt QContactDetailPrivate::lastDetailKey(1);

/* Definitions of predefined string constants */
Q_DEFINE_LATIN1_CONSTANT(QContactDetail::FieldDetailUri, "DetailUri");
Q_DEFINE_LATIN1_CONSTANT(QContactDetail::FieldLinkedDetailUris, "LinkedDetailUris");
Q_DEFINE_LATIN1_CONSTANT(QContactDetail::FieldContext, "Context");
Q_DEFINE_LATIN1_CONSTANT(QContactDetail::ContextOther, "Other");
Q_DEFINE_LATIN1_CONSTANT(QContactDetail::ContextHome, "Home");
Q_DEFINE_LATIN1_CONSTANT(QContactDetail::ContextWork, "Work");

static uint qHash(const QContactStringHolder& holder)
{
    if (!holder.m_str)
        return 0;
    uint h = 0;
    uint g;
    const register uchar*p = (const uchar*)holder.m_str;

    while (*p) {
        h = (h << 4) + *p++;
        if ((g = (h & 0xf0000000)) != 0)
            h ^= g >> 23;
        h &= ~g;
    }
    return h;
}

/* Storage */
QHash<QString, char*> QContactStringHolder::s_allocated;
QHash<const char *, QString> QContactStringHolder::s_qstrings;

/* Dtor function */
static int qClearAllocatedStringHash()
{
    QHash<QString, char*>::const_iterator it = QContactStringHolder::s_allocated.constBegin();
    while (it != QContactStringHolder::s_allocated.constEnd()) {
        delete[] it.value();
        it++;
    }
    QContactStringHolder::s_allocated.clear();
    QContactStringHolder::s_qstrings.clear();
    return 1;
}
Q_DESTRUCTOR_FUNCTION(qClearAllocatedStringHash);

/*!
  \class QContactDetail
 
  \brief The QContactDetail class represents a single, complete detail about a contact.
  \ingroup contacts-main
 
  All of the information for a contact is stored in one or more QContactDetail objects.
 
  A detail is a group of logically related bits of data - for example, a street address is a single
  detail that has multiple fields (number, region, country etc).  Every QContactDetail has an
  associated QContactDetailDefinition id that describes the fields, their data type, any
  restrictions on their values, and any restrictions on creating or updating details of that
  definition.
 
  One field which is common to all details is the context field.  This field is intended to store the
  context or contexts that this detail is associated with.  Commonly this will be something like
  "Home" and/or "Work", although no limitations are placed on which values may be stored in this field
  in the default schema.

  There are two other, related fields which are common to all details.  The first is
  \a QContactDetail::FieldDetailUri, which stores the unique URI of the detail if one exists.
  The field is not mandatory, and backends are not required to verify that the given URI is indeed
  unique within the contact.  The second field is \a QContactDetail::LinkedDetailUris, which stores
  a list of detail URIs to which this detail is linked.  The link is one-way, and intended mainly
  for use by read-only details which are populated by the backend (for example, a presence detail
  which is linked to a particular online account detail of the contact).
 
  It is possible to inherit from QContactDetail to provide convenience or
  standardized access to values.  For example, \l QContactPhoneNumber provides
  a convenient API for manipulating a QContactDetail as a phone number, according
  to the schema.
 
  If you wish to create your own, customized contact detail, you should use
  the \l Q_DECLARE_CUSTOM_CONTACT_DETAIL macro in order to ensure proper
  operation.  See the predefined leaf classes (like \l QContactPhoneNumber,
  \l QContactAddress) for more information.
 
  QContactDetail objects act like values.  In general, you can assign them
  to and fro and have reasonable behaviour, like the following example.
 
  \code
 
  QContactPhoneNumber number;
  number.setNumber("555-1212");
  // number.value(QContactPhoneNumber::FieldNumber) == "555-1212";
  // number.definitionName() == QContactPhoneNumber::staticType()
 
  QContactDetail detail = number;
  // detail.value(QContactPhoneNumber::FieldNumber) == "555-1212";
  // detail.definitionName() == QContactPhoneNumber::staticType()
 
  QContactPhoneNumber otherNumber = detail;
  // otherNumber.number() == "555-1212";
  // otherNumber.definitionName() == QContactPhoneNumber::staticType()
 
  QContactAddress address = detail;
  // address is now a default constructed QContactAddress
  // address.error() == QContactDetail::IncompatibleAssignmentError
  // address.value(QContactPhoneNumber::FieldNumber) is empty
  // address.definitionName() == QContactAddress::staticType()
 
  QContactAddress otherAddress = number;
  // otherAddress is now a default constructed QContactAddress
  // otherAddress.error() == QContactDetail::IncompatibleAssignmentError
  // otherAddress.value(QContactPhoneNumber::FieldNumber) is empty
  // otherAddress.definitionName() == QContactAddress::staticType()
  \endcode
 
  \sa QContact, QContactDetailDefinition, QContactDetailFilter, QContactDetailRangeFilter, Q_DECLARE_CUSTOM_CONTACT_DETAIL
 */

/*!
  \macro Q_DECLARE_CUSTOM_CONTACT_DETAIL
  \relates QContactDetail

  Macro for simplifying declaring custom (leaf) detail classes.

  If you are creating a convenience class for a type of QContactDetail,
  you should use this macro when declaring your class to ensure that
  it interoperates with other contact functionality.

  Here is an example of a class (\l QContactPhoneNumber) using this macro.
  Note that the class provides some predefined constants
  and some convenience methods that return values associated with schema
  fields.

  \snippet ../../src/contacts/details/qcontactphonenumber.h 0
 */

/*!
  \fn QContactDetail::operator!=(const QContactDetail& other) const
  Returns true if the values or id of this detail is different to those of the \a other detail
 */

/*!
  Constructs a new, empty detail
 */
QContactDetail::QContactDetail()
    : d(new QContactDetailPrivate)
{
}

/*!
    Constructs a new, empty detail of the definition identified by \a thisDefinitionId.
    The definitionId must be restricted to the Latin 1 character set.
 */
QContactDetail::QContactDetail(const QString& thisDefinitionId)
    : d(new QContactDetailPrivate)
{
    d->m_definitionName = thisDefinitionId;
}

/*! Constructs a new, empty detail of the definition identified by \a thisDefinitionId */
QContactDetail::QContactDetail(const char* thisDefinitionId)
    : d(new QContactDetailPrivate)
{
    d->m_definitionName = thisDefinitionId;
}

/*! Constructs a detail that is a copy of \a other */
QContactDetail::QContactDetail(const QContactDetail& other)
    : d(other.d)
{
}

/*!
    Constructs a detail that is a copy of \a other if \a other is of the expected definition
    identified by \a expectedDefinitionId, else constructs a new, empty detail of the
    definition identified by the \a expectedDefinitionId
*/
QContactDetail::QContactDetail(const QContactDetail& other, const char* expectedDefinitionId)
{
    if (other.d->m_definitionName == expectedDefinitionId) {
        d = other.d;
    } else {
        d = new QContactDetailPrivate;
        d->m_definitionName = expectedDefinitionId;
    }
}

/*!
    Constructs a detail that is a copy of \a other if \a other is of the expected definition
    identified by \a expectedDefinitionId, else constructs a new, empty detail of the
    definition identified by the \a expectedDefinitionId
*/
QContactDetail::QContactDetail(const QContactDetail& other, const QString& expectedDefinitionId)
{
    if (other.d->m_definitionName == expectedDefinitionId) {
        d = other.d;
    } else {
        d = new QContactDetailPrivate;
        d->m_definitionName = expectedDefinitionId;
    }
}

/*! Assigns this detail to \a other */
QContactDetail& QContactDetail::operator=(const QContactDetail& other)
{
    if (this != &other)
        d = other.d;
    return *this;
}

/*!
    Assigns this detail to \a other if the definition of \a other is that identified
    by the given \a expectedDefinitionId, else assigns this detail to be a new, empty
    detail of the definition identified by the given \a expectedDefinitionId
*/
QContactDetail& QContactDetail::assign(const QContactDetail& other, const char* expectedDefinitionId)
{
    if (this != &other) {
        if (other.d->m_definitionName == expectedDefinitionId) {
            d = other.d;
        } else {
            d = new QContactDetailPrivate;
            d->m_definitionName = expectedDefinitionId;
        }
    }
    return *this;
}

/*!
    Assigns this detail to \a other if the definition of \a other is that identified
    by the given \a expectedDefinitionId, else assigns this detail to be a new, empty
    detail of the definition identified by the given \a expectedDefinitionId
*/
QContactDetail& QContactDetail::assign(const QContactDetail& other, const QString& expectedDefinitionId)
{
    if (this != &other) {
        if (other.d->m_definitionName == expectedDefinitionId) {
            d = other.d;
        } else {
            d = new QContactDetailPrivate;
            d->m_definitionName = expectedDefinitionId;
        }
    }
    return *this;
}

/*! Frees the memory used by this detail */
QContactDetail::~QContactDetail()
{
}

/*! Returns the (unique) name of the definition which defines the semantics and structure of this detail */
QString QContactDetail::definitionName() const
{
    return d.constData()->m_definitionName;
}

/*! Compares this detail to \a other.  Returns true if the definition and values of \a other are equal to those of this detail.
    The keys of each detail are not considered during the comparison, in order to allow details from different contacts to
    be compared according to their values. */
bool QContactDetail::operator==(const QContactDetail& other) const
{
    if (! (d.constData()->m_definitionName == other.d.constData()->m_definitionName))
        return false;

    if (d.constData()->m_access != other.d.constData()->m_access)
        return false;

    if (d.constData()->m_values != other.d.constData()->m_values)
        return false;

    return true;
}

/*! Returns the hash value for \a key. */
uint qHash(const QContactDetail &key)
{
    const QContactDetailPrivate* dptr= QContactDetailPrivate::detailPrivate(key);
    uint hash = QT_PREPEND_NAMESPACE(qHash)(dptr->m_definitionName)
                + QT_PREPEND_NAMESPACE(qHash)(dptr->m_access);
    QHash<QContactStringHolder, QVariant>::const_iterator it = dptr->m_values.constBegin();
    while(it != dptr->m_values.constEnd()) {
        hash += QT_PREPEND_NAMESPACE(qHash)(it.key())
                + QT_PREPEND_NAMESPACE(qHash)(it.value().toString());
        ++it;
    }
    return hash;
}

#ifndef QT_NO_DEBUG_STREAM
QDebug operator<<(QDebug dbg, const QContactDetail& detail)
{
    dbg.nospace() << "QContactDetail(name=" << detail.definitionName() << ", key=" << detail.key();
    QVariantMap fields = detail.variantValues();
    QVariantMap::const_iterator it;
    for (it = fields.constBegin(); it != fields.constEnd(); ++it) {
        dbg.nospace() << ", " << it.key() << '=' << it.value();
    }
    dbg.nospace() << ')';
    return dbg.maybeSpace();
}
#endif

/*! Returns true if no values are contained in this detail.  Note that context is stored as a value; hence, if a context is set, this function will return false. */
bool QContactDetail::isEmpty() const
{
    if (!d.constData()->m_values.isEmpty())
        return false;
    return true;
}

/*! Returns the key of this detail. */
int QContactDetail::key() const
{
    return d->m_id;
}

/*! Causes the implicitly-shared detail to be detached from any other copies, and generates a new key for it.
    This ensures that calling QContact::saveDetail() will result in a new detail being saved, rather than
    another detail being updated. */
void QContactDetail::resetKey()
{
    d->m_id = QContactDetailPrivate::lastDetailKey.fetchAndAddOrdered(1);
}

/*! \overload
  Returns the value stored in this detail for the given \a key as a QString, or an empty QString if
  no value for the given \a key exists */
QString QContactDetail::value(const QString& key) const
{
    return d.constData()->m_values.value(key.toLatin1().constData()).toString();
}


/*! \overload
  Returns the value stored in this detail for the given \a key as a QString, or an empty QString if
  no value for the given \a key exists */
QString QContactDetail::value(const char* key) const
{
    return d.constData()->m_values.value(key).toString();
}

// A bug in qdoc means this comment needs to appear below the comment for the other value().
/*!
  \fn T QContactDetail::value(const QString& key) const
  Returns the value of the template type associated with the given \a key
 */

/*! Returns the value stored in this detail for the given \a key as a QVariant, or an invalid QVariant if no value for the given \a key exists */
QVariant QContactDetail::variantValue(const QString& key) const
{
    return d.constData()->m_values.value(key.toLatin1().constData());
}

/*! Returns the value stored in this detail for the given \a key as a QVariant, or an invalid QVariant if no value for the given \a key exists */
QVariant QContactDetail::variantValue(const char* key) const
{
    return d.constData()->m_values.value(key);
}

/*!
  Returns true if this detail has a field with the given \a key, or false otherwise.
 */
bool QContactDetail::hasValue(const QString& key) const
{
    return d.constData()->m_values.contains(key.toLatin1().constData());
}

/*!
  Returns true if this detail has a field with the given \a key, or false otherwise.
 */
bool QContactDetail::hasValue(const char * key) const
{
    return d.constData()->m_values.contains(key);
}

/*! Inserts \a value into the detail for the given \a key if \a value is valid.  If \a value is invalid,
    removes the field with the given \a key from the detail.  Returns true if the given \a value was set
    for the \a key (if the \a value was valid), or if the given \a key was removed from detail (if the
    \a value was invalid), and returns false if the key was unable to be removed (and the \a value was invalid) */
bool QContactDetail::setValue(const QString& key, const QVariant& value)
{
    if (!value.isValid())
        return removeValue(key);

    d->m_values.insert(QContactStringHolder(key), value);
    return true;
}

/*! Inserts \a value into the detail for the given \a key if \a value is valid.  If \a value is invalid,
    removes the field with the given \a key from the detail.  Returns true if the given \a value was set
    for the \a key (if the \a value was valid), or if the given \a key was removed from detail (if the
    \a value was invalid), and returns false if the key was unable to be removed (and the \a value was invalid) */
bool QContactDetail::setValue(const char* key, const QVariant& value)
{
    if (!value.isValid())
        return removeValue(key);

    d->m_values.insert(key, value);
    return true;
}

/*! Removes the value stored in this detail for the given \a key.  Returns true if a value was stored for the given \a key and the operation succeeded, and false otherwise */
bool QContactDetail::removeValue(const QString& key)
{
    if(d->m_values.remove(key.toLatin1().constData()))
        return true;
    return false;
}
/*! Removes the value stored in this detail for the given \a key.  Returns true if a value was stored for the given \a key and the operation succeeded, and false otherwise */
bool QContactDetail::removeValue(const char * key)
{
    if(d->m_values.remove(key))
        return true;
    return false;
}

/*!
  Returns the values stored in this detail as a map from value key to value
 */
QVariantMap QContactDetail::variantValues() const
{
    QVariantMap ret;
    QHash<QContactStringHolder, QVariant>::const_iterator it = d.constData()->m_values.constBegin();
    while(it != d.constData()->m_values.constEnd()) {
        ret.insert(it.key(), it.value());
        ++it;
    }

    return ret;
}

/*!
  \enum QContactDetail::AccessConstraint

  This enum defines the access constraints for a detail.  This information is typically provided by
  the manager when a contact is retrieved.

  \value NoConstraint Users can read, write, and otherwise modify this detail in any manner.
  \value ReadOnly Users cannot write or modify values in this detail.
  \value Irremovable Users cannot remove this detail from a contact.
 */


/*!
  Returns the access constraints associated with the detail.

  Some details may not be written to, while other details may
  not be removed from a contact.

  \sa QContactDetail::AccessConstraints
 */
QContactDetail::AccessConstraints QContactDetail::accessConstraints() const
{
    return d.constData()->m_access;
}

/*!
  \fn void QContactDetail::setContexts(const QStringList& contexts)

  This is a convenience function that sets the \c Context field of this detail to the given \a contexts.

  It is equivalent to the following code:
  \code
  setValue(QContactDetail::FieldContext, contexts);
  \endcode

  \sa setValue()
 */

/*!
  \fn void QContactDetail::setContexts(const QString& context)

  This is a convenience function that sets the \c Context field of this detail to the given \a context.
  It is useful if the detail is only valid in a single context.

  It is equivalent to the following code:
  \code
  setValue(FieldContext, QStringList(context));
  \endcode

  \sa setValue()
 */

/*!
  \fn QStringList QContactDetail::contexts() const

  This is a convenience function to return the \c Context field of this detail.

  It is equivalent to the following code:
  \code
  value<QStringList>(QContactDetail::FieldContext);
  \endcode

  \sa value()
 */


/*!
  \fn void QContactDetail::setDetailUri(const QString& detailUri)

  This is a convenience function that sets the \c DetailUri field of this detail to the given \a detailUri.
  In order to be linked to, a detail must have a specific and (per-contact) unique detail URI set.

  It is equivalent to the following code:
  \code
  setValue(FieldDetailUri, detailUri);
  \endcode

  \sa setValue()
 */

/*!
  \fn QString QContactDetail::detailUri() const

  This is a convenience function to return the \c DetailUri field of this detail.

  It is equivalent to the following code:
  \code
  value(QContactDetail::FieldDetailUri);
  \endcode

  \sa value()
 */


/*!
  \fn void QContactDetail::setLinkedDetailUris(const QStringList& linkedDetailUris)

  This is a convenience function that sets the \c LinkedDetailUris field of this detail to the given \a linkedDetailUris.

  It is equivalent to the following code:
  \code
  setValue(QContactDetail::FieldLinkedDetailUris, linkedDetailUris);
  \endcode

  \sa setValue()
 */

/*!
  \fn void QContactDetail::setLinkedDetailUris(const QString& linkedDetailUri)

  This is a convenience function that sets the \c LinkedDetailUris field of this detail to the given \a linkedDetailUri.
  It is useful if the detail is linked to a single other detail in the contact.

  It is equivalent to the following code:
  \code
  setValue(FieldLinkedDetailUris, QStringList(linkedDetailUri));
  \endcode

  \sa setValue()
 */

/*!
  \fn QStringList QContactDetail::linkedDetailUris() const

  This is a convenience function to return the \c Context field of this detail.

  It is equivalent to the following code:
  \code
  value<QStringList>(QContactDetail::FieldLinkedDetailUris);
  \endcode

  \sa value()
 */

QTM_END_NAMESPACE