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GCC 4.7 fix.

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This partially resolves bug report 958.
Thanks to Francois Andriot.
pull/1/head
Darrell Anderson 12 years ago
parent cd3c62a5cf
commit 5ad5528b30
2 changed files with 101 additions and 103 deletions
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2
kmrml/kmrml/mrml_elements.h
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@ -157,7 +157,7 @@ namespace KMrml
TQDomElement elem = list.item( i ).toElement(); TQDomElement elem = list.item( i ).toElement();
t item( elem ); t item( elem );
if ( item.isValid() ) if ( item.isValid() )
append( item ); this->append( item );
} }
} }

202
kviewshell/plugins/djvu/libdjvu/GContainer.h
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@ -133,6 +133,93 @@ namespace DJVU {
#$Id: GContainer.h,v 1.15 2004/05/13 15:16:34 leonb Exp $# */ #$Id: GContainer.h,v 1.15 2004/05/13 15:16:34 leonb Exp $# */
//@{ //@{
// ------------------------------------------------------------
// HASH FUNCTIONS
// ------------------------------------------------------------
/** @name Hash functions
These functions let you use template class \Ref{GMap} with the
corresponding elementary types. The returned hash code may be reduced to
an arbitrary range by computing its remainder modulo the upper bound of
the range.
@memo Hash functions for elementary types. */
//@{
/** Hashing function (unsigned int). */
static inline unsigned int
hash(const unsigned int & x)
{
return x;
}
/** Hashing function (int). */
static inline unsigned int
hash(const int & x)
{
return (unsigned int)x;
}
/** Hashing function (long). */
static inline unsigned int
hash(const long & x)
{
return (unsigned int)x;
}
/** Hashing function (unsigned long). */
static inline unsigned int
hash(const unsigned long & x)
{
return (unsigned int)x;
}
/** Hashing function (void *). */
static inline unsigned int
hash(void * const & x)
{
return (unsigned long) x;
}
/** Hashing function (const void *). */
static inline unsigned int
hash(const void * const & x)
{
return (unsigned long) x;
}
/** Hashing function (float). */
static inline unsigned int
hash(const float & x)
{
// optimizer will get rid of unnecessary code
unsigned int *addr = (unsigned int*)&x;
if (sizeof(float)<2*sizeof(unsigned int))
return addr[0];
else
return addr[0]^addr[1];
}
/** Hashing function (double). */
static inline unsigned int
hash(const double & x)
{
// optimizer will get rid of unnecessary code
unsigned int *addr = (unsigned int*)&x;
if (sizeof(double)<2*sizeof(unsigned int))
return addr[0];
else if (sizeof(double)<4*sizeof(unsigned int))
return addr[0]^addr[1];
else
return addr[0]^addr[1]^addr[2]^addr[3];
}
//@}
//@}
//@}
// ------------ THE END
// ------------------------------------------------------------ // ------------------------------------------------------------
@ -887,21 +974,21 @@ public:
/** Inserts an element after the last element of the list. /** Inserts an element after the last element of the list.
The new element is initialized with a copy of argument #elt#. */ The new element is initialized with a copy of argument #elt#. */
void append(const TYPE &elt) void append(const TYPE &elt)
{ GListImpl<TI>::append(newnode((const TI&)elt)); } { GListImpl<TI>::append(this->newnode((const TI&)elt)); }
/** Inserts an element before the first element of the list. /** Inserts an element before the first element of the list.
The new element is initialized with a copy of argument #elt#. */ The new element is initialized with a copy of argument #elt#. */
void prepend(const TYPE &elt) void prepend(const TYPE &elt)
{ GListImpl<TI>::prepend(newnode((const TI&)elt)); } { GListImpl<TI>::prepend(this->newnode((const TI&)elt)); }
/** Inserts a new element after the list element at position #pos#. When /** Inserts a new element after the list element at position #pos#. When
position #pos# is null the element is inserted at the beginning of the position #pos# is null the element is inserted at the beginning of the
list. The new element is initialized with a copy of #elt#. */ list. The new element is initialized with a copy of #elt#. */
void insert_after(GPosition pos, const TYPE &elt) void insert_after(GPosition pos, const TYPE &elt)
{ GListImpl<TI>::insert_after(pos, newnode((const TI&)elt)); } { GListImpl<TI>::insert_after(pos, this->newnode((const TI&)elt)); }
/** Inserts a new element before the list element at position #pos#. When /** Inserts a new element before the list element at position #pos#. When
position #pos# is null the element is inserted at the end of the position #pos# is null the element is inserted at the end of the
list. The new element is initialized with a copy of #elt#. */ list. The new element is initialized with a copy of #elt#. */
void insert_before(GPosition pos, const TYPE &elt) void insert_before(GPosition pos, const TYPE &elt)
{ GListImpl<TI>::insert_before(pos, newnode((const TI&)elt)); } { GListImpl<TI>::insert_before(pos, this->newnode((const TI&)elt)); }
/** Inserts an element of another list into this list. This function /** Inserts an element of another list into this list. This function
removes the element at position #frompos# in list #frompos#, inserts it removes the element at position #frompos# in list #frompos#, inserts it
in the current list before the element at position #pos#, and advances in the current list before the element at position #pos#, and advances
@ -1039,7 +1126,7 @@ public:
GPosition contains(const K &key) const GPosition contains(const K &key) const
{ return GPosition( get(key), (void*)this); } { return GPosition( get(key), (void*)this); }
void del(const K &key) void del(const K &key)
{ deletenode(get(key)); } { this->deletenode(this->get(key)); }
}; };
template<class K> template<class K>
@ -1067,7 +1154,7 @@ GSetImpl<K>::get(const K &key) const
template<class K> GCONT HNode * template<class K> GCONT HNode *
GSetImpl<K>::get_or_throw(const K &key) const GSetImpl<K>::get_or_throw(const K &key) const
{ {
HNode *m = get(key); HNode *m = this->get(key);
if (!m) if (!m)
{ {
G_THROW( ERR_MSG("GContainer.cannot_add") ); G_THROW( ERR_MSG("GContainer.cannot_add") );
@ -1078,14 +1165,14 @@ GSetImpl<K>::get_or_throw(const K &key) const
template<class K> inline GCONT HNode * template<class K> inline GCONT HNode *
GSetImpl<K>::get_or_throw(const K &key) const GSetImpl<K>::get_or_throw(const K &key) const
{ {
return get(key); return this->get(key);
} }
#endif #endif
template<class K> GCONT HNode * template<class K> GCONT HNode *
GSetImpl<K>::get_or_create(const K &key) GSetImpl<K>::get_or_create(const K &key)
{ {
HNode *m = get(key); HNode *m = this->get(key);
if (m) return m; if (m) return m;
SNode *n = (SNode*) operator new (sizeof(SNode)); SNode *n = (SNode*) operator new (sizeof(SNode));
#if GCONTAINER_ZERO_FILL #if GCONTAINER_ZERO_FILL
@ -1093,7 +1180,7 @@ GSetImpl<K>::get_or_create(const K &key)
#endif #endif
new ((void*)&(n->key)) K ( key ); new ((void*)&(n->key)) K ( key );
n->hashcode = hash((const K&)(n->key)); n->hashcode = hash((const K&)(n->key));
installnode(n); this->installnode(n);
return n; return n;
} }
@ -1122,7 +1209,7 @@ GMapImpl<K,TI>::GMapImpl(const GCONT Traits &traits)
template<class K, class TI> GCONT HNode * template<class K, class TI> GCONT HNode *
GMapImpl<K,TI>::get_or_create(const K &key) GMapImpl<K,TI>::get_or_create(const K &key)
{ {
GCONT HNode *m = get(key); GCONT HNode *m = this->get(key);
if (m) return m; if (m) return m;
MNode *n = (MNode*) operator new (sizeof(MNode)); MNode *n = (MNode*) operator new (sizeof(MNode));
#if GCONTAINER_ZERO_FILL #if GCONTAINER_ZERO_FILL
@ -1131,7 +1218,7 @@ GMapImpl<K,TI>::get_or_create(const K &key)
new ((void*)&(n->key)) K (key); new ((void*)&(n->key)) K (key);
new ((void*)&(n->val)) TI (); new ((void*)&(n->val)) TI ();
n->hashcode = hash((const K&)(n->key)); n->hashcode = hash((const K&)(n->key));
installnode(n); this->installnode(n);
return n; return n;
} }
@ -1197,13 +1284,13 @@ public:
contains key #key#. This variant of #operator[]# is necessary when contains key #key#. This variant of #operator[]# is necessary when
dealing with a #const GMAP<KTYPE,VTYPE>#. */ dealing with a #const GMAP<KTYPE,VTYPE>#. */
const VTYPE& operator[](const KTYPE &key) const const VTYPE& operator[](const KTYPE &key) const
{ return (const VTYPE&)(((const typename GMapImpl<KTYPE,TI>::MNode*)(get_or_throw(key)))->val); } { return (const VTYPE&)(((const typename GMapImpl<KTYPE,TI>::MNode*)(this->get_or_throw(key)))->val); }
/** Returns a reference to the value of the map entry for key #key#. This /** Returns a reference to the value of the map entry for key #key#. This
reference can be used for both reading (as "#a[n]#") and modifying (as reference can be used for both reading (as "#a[n]#") and modifying (as
"#a[n]=v#"). If there is no entry for key #key#, a new entry is created "#a[n]=v#"). If there is no entry for key #key#, a new entry is created
for that key with the null constructor #VTYPE::VTYPE()#. */ for that key with the null constructor #VTYPE::VTYPE()#. */
VTYPE& operator[](const KTYPE &key) VTYPE& operator[](const KTYPE &key)
{ return (VTYPE&)(((typename GMapImpl<KTYPE,TI>::MNode*)(get_or_create(key)))->val); } { return (VTYPE&)(((typename GMapImpl<KTYPE,TI>::MNode*)(this->get_or_create(key)))->val); }
/** Destroys the map entry for position #pos#. /** Destroys the map entry for position #pos#.
Nothing is done if position #pos# is not a valid position. */ Nothing is done if position #pos# is not a valid position. */
void del(GPosition &pos) void del(GPosition &pos)
@ -1266,95 +1353,6 @@ public:
}; };
// ------------------------------------------------------------
// HASH FUNCTIONS
// ------------------------------------------------------------
/** @name Hash functions
These functions let you use template class \Ref{GMap} with the
corresponding elementary types. The returned hash code may be reduced to
an arbitrary range by computing its remainder modulo the upper bound of
the range.
@memo Hash functions for elementary types. */
//@{
/** Hashing function (unsigned int). */
static inline unsigned int
hash(const unsigned int & x)
{
return x;
}
/** Hashing function (int). */
static inline unsigned int
hash(const int & x)
{
return (unsigned int)x;
}
/** Hashing function (long). */
static inline unsigned int
hash(const long & x)
{
return (unsigned int)x;
}
/** Hashing function (unsigned long). */
static inline unsigned int
hash(const unsigned long & x)
{
return (unsigned int)x;
}
/** Hashing function (void *). */
static inline unsigned int
hash(void * const & x)
{
return (unsigned long) x;
}
/** Hashing function (const void *). */
static inline unsigned int
hash(const void * const & x)
{
return (unsigned long) x;
}
/** Hashing function (float). */
static inline unsigned int
hash(const float & x)
{
// optimizer will get rid of unnecessary code
unsigned int *addr = (unsigned int*)&x;
if (sizeof(float)<2*sizeof(unsigned int))
return addr[0];
else
return addr[0]^addr[1];
}
/** Hashing function (double). */
static inline unsigned int
hash(const double & x)
{
// optimizer will get rid of unnecessary code
unsigned int *addr = (unsigned int*)&x;
if (sizeof(double)<2*sizeof(unsigned int))
return addr[0];
else if (sizeof(double)<4*sizeof(unsigned int))
return addr[0]^addr[1];
else
return addr[0]^addr[1]^addr[2]^addr[3];
}
//@}
//@}
//@}
// ------------ THE END
#ifdef HAVE_NAMESPACES #ifdef HAVE_NAMESPACES
} }
# ifndef NOT_USING_DJVU_NAMESPACE # ifndef NOT_USING_DJVU_NAMESPACE

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