gecko-dev/xpcom/glue/nsBaseHashtable.h
Ehsan Akhgari e368dc9c85 Bug 579517 - Part 1: Automated conversion of NSPR numeric types to stdint types in Gecko; r=bsmedberg
This patch was generated by a script.  Here's the source of the script for
future reference:

function convert() {
echo "Converting $1 to $2..."
find . ! -wholename "*nsprpub*" \
       ! -wholename "*security/nss*" \
       ! -wholename "*/.hg*" \
       ! -wholename "obj-ff-dbg*" \
       ! -name nsXPCOMCID.h \
       ! -name prtypes.h \
         -type f \
      \( -iname "*.cpp" \
         -o -iname "*.h" \
         -o -iname "*.c" \
         -o -iname "*.cc" \
         -o -iname "*.idl" \
         -o -iname "*.ipdl" \
         -o -iname "*.ipdlh" \
         -o -iname "*.mm" \) | \
    xargs -n 1 sed -i -e "s/\b$1\b/$2/g"
}

convert PRInt8 int8_t
convert PRUint8 uint8_t
convert PRInt16 int16_t
convert PRUint16 uint16_t
convert PRInt32 int32_t
convert PRUint32 uint32_t
convert PRInt64 int64_t
convert PRUint64 uint64_t

convert PRIntn int
convert PRUintn unsigned

convert PRSize size_t

convert PROffset32 int32_t
convert PROffset64 int64_t

convert PRPtrdiff ptrdiff_t

convert PRFloat64 double
2012-08-22 11:56:38 -04:00

535 lines
16 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef nsBaseHashtable_h__
#define nsBaseHashtable_h__
#include "nsTHashtable.h"
#include "prlock.h"
#include "nsDebug.h"
template<class KeyClass,class DataType,class UserDataType>
class nsBaseHashtable; // forward declaration
/**
* the private nsTHashtable::EntryType class used by nsBaseHashtable
* @see nsTHashtable for the specification of this class
* @see nsBaseHashtable for template parameters
*/
template<class KeyClass,class DataType>
class nsBaseHashtableET : public KeyClass
{
public:
DataType mData;
friend class nsTHashtable< nsBaseHashtableET<KeyClass,DataType> >;
private:
typedef typename KeyClass::KeyType KeyType;
typedef typename KeyClass::KeyTypePointer KeyTypePointer;
nsBaseHashtableET(KeyTypePointer aKey);
nsBaseHashtableET(nsBaseHashtableET<KeyClass,DataType>& toCopy);
~nsBaseHashtableET();
};
/**
* templated hashtable for simple data types
* This class manages simple data types that do not need construction or
* destruction.
*
* @param KeyClass a wrapper-class for the hashtable key, see nsHashKeys.h
* for a complete specification.
* @param DataType the datatype stored in the hashtable,
* for example, uint32_t or nsCOMPtr. If UserDataType is not the same,
* DataType must implicitly cast to UserDataType
* @param UserDataType the user sees, for example uint32_t or nsISupports*
*/
template<class KeyClass,class DataType,class UserDataType>
class nsBaseHashtable :
protected nsTHashtable< nsBaseHashtableET<KeyClass,DataType> >
{
typedef mozilla::fallible_t fallible_t;
public:
typedef typename KeyClass::KeyType KeyType;
typedef nsBaseHashtableET<KeyClass,DataType> EntryType;
// default constructor+destructor are fine
/**
* Initialize the object.
* @param initSize the initial number of buckets in the hashtable,
* default 16
* locking on all class methods
* @return true if the object was initialized properly.
*/
void Init(uint32_t initSize = PL_DHASH_MIN_SIZE)
{ nsTHashtable<EntryType>::Init(initSize); }
bool Init(const fallible_t&) NS_WARN_UNUSED_RESULT
{ return Init(PL_DHASH_MIN_SIZE, fallible_t()); }
bool Init(uint32_t initSize, const fallible_t&) NS_WARN_UNUSED_RESULT
{ return nsTHashtable<EntryType>::Init(initSize, fallible_t()); }
/**
* Check whether the table has been initialized.
* This function is especially useful for static hashtables.
* @return true if the table has been initialized.
*/
bool IsInitialized() const { return !!this->mTable.entrySize; }
/**
* Return the number of entries in the table.
* @return number of entries
*/
uint32_t Count() const
{ return nsTHashtable<EntryType>::Count(); }
/**
* retrieve the value for a key.
* @param aKey the key to retreive
* @param pData data associated with this key will be placed at this
* pointer. If you only need to check if the key exists, pData
* may be null.
* @return true if the key exists. If key does not exist, pData is not
* modified.
*/
bool Get(KeyType aKey, UserDataType* pData) const
{
EntryType* ent = this->GetEntry(aKey);
if (!ent)
return false;
if (pData)
*pData = ent->mData;
return true;
}
/**
* For pointer types, get the value, returning nullptr if the entry is not
* present in the table.
*
* @param aKey the key to retrieve
* @return The found value, or nullptr if no entry was found with the given key.
* @note If nullptr values are stored in the table, it is not possible to
* distinguish between a nullptr value and a missing entry.
*/
UserDataType Get(KeyType aKey) const
{
EntryType* ent = this->GetEntry(aKey);
if (!ent)
return 0;
return ent->mData;
}
/**
* put a new value for the associated key
* @param aKey the key to put
* @param aData the new data
* @return always true, unless memory allocation failed
*/
void Put(KeyType aKey, UserDataType aData)
{
if (!Put(aKey, aData, fallible_t()))
NS_RUNTIMEABORT("OOM");
}
bool Put(KeyType aKey, UserDataType aData, const fallible_t&) NS_WARN_UNUSED_RESULT
{
EntryType* ent = this->PutEntry(aKey);
if (!ent)
return false;
ent->mData = aData;
return true;
}
/**
* remove the data for the associated key
* @param aKey the key to remove from the hashtable
*/
void Remove(KeyType aKey) { this->RemoveEntry(aKey); }
/**
* function type provided by the application for enumeration.
* @param aKey the key being enumerated
* @param aData data being enumerated
* @parm userArg passed unchanged from Enumerate
* @return either
* @link PLDHashOperator::PL_DHASH_NEXT PL_DHASH_NEXT @endlink or
* @link PLDHashOperator::PL_DHASH_STOP PL_DHASH_STOP @endlink
*/
typedef PLDHashOperator
(* EnumReadFunction)(KeyType aKey,
UserDataType aData,
void* userArg);
/**
* enumerate entries in the hashtable, without allowing changes
* @param enumFunc enumeration callback
* @param userArg passed unchanged to the EnumReadFunction
*/
uint32_t EnumerateRead(EnumReadFunction enumFunc, void* userArg) const
{
NS_ASSERTION(this->mTable.entrySize,
"nsBaseHashtable was not initialized properly.");
s_EnumReadArgs enumData = { enumFunc, userArg };
return PL_DHashTableEnumerate(const_cast<PLDHashTable*>(&this->mTable),
s_EnumReadStub,
&enumData);
}
/**
* function type provided by the application for enumeration.
* @param aKey the key being enumerated
* @param aData Reference to data being enumerated, may be altered. e.g. for
* nsInterfaceHashtable this is an nsCOMPtr reference...
* @parm userArg passed unchanged from Enumerate
* @return bitflag combination of
* @link PLDHashOperator::PL_DHASH_REMOVE @endlink,
* @link PLDHashOperator::PL_DHASH_NEXT PL_DHASH_NEXT @endlink, or
* @link PLDHashOperator::PL_DHASH_STOP PL_DHASH_STOP @endlink
*/
typedef PLDHashOperator
(* EnumFunction)(KeyType aKey,
DataType& aData,
void* userArg);
/**
* enumerate entries in the hashtable, allowing changes. This
* functions write-locks the hashtable.
* @param enumFunc enumeration callback
* @param userArg passed unchanged to the EnumFunction
*/
uint32_t Enumerate(EnumFunction enumFunc, void* userArg)
{
NS_ASSERTION(this->mTable.entrySize,
"nsBaseHashtable was not initialized properly.");
s_EnumArgs enumData = { enumFunc, userArg };
return PL_DHashTableEnumerate(&this->mTable,
s_EnumStub,
&enumData);
}
/**
* reset the hashtable, removing all entries
*/
void Clear() { nsTHashtable<EntryType>::Clear(); }
/**
* client must provide a SizeOfEntryExcludingThisFun function for
* SizeOfExcludingThis.
* @param aKey the key being enumerated
* @param aData Reference to data being enumerated.
* @param mallocSizeOf the function used to measure heap-allocated blocks
* @param userArg passed unchanged from SizeOf{In,Ex}cludingThis
* @return summed size of the things pointed to by the entries
*/
typedef size_t
(* SizeOfEntryExcludingThisFun)(KeyType aKey,
const DataType &aData,
nsMallocSizeOfFun mallocSizeOf,
void* userArg);
/**
* Measure the size of the table's entry storage and the table itself.
* If |sizeOfEntryExcludingThis| is non-nullptr, measure the size of things
* pointed to by entries.
*
* @param sizeOfEntryExcludingThis
* the <code>SizeOfEntryExcludingThisFun</code> function to call
* @param mallocSizeOf the function used to meeasure heap-allocated blocks
* @param userArg a point to pass to the
* <code>SizeOfEntryExcludingThisFun</code> function
* @return the summed size of the entries, the table, and the table's storage
*/
size_t SizeOfIncludingThis(SizeOfEntryExcludingThisFun sizeOfEntryExcludingThis,
nsMallocSizeOfFun mallocSizeOf, void *userArg = nullptr)
{
return mallocSizeOf(this) + this->SizeOfExcludingThis(sizeOfEntryExcludingThis,
mallocSizeOf, userArg);
}
/**
* Measure the size of the table's entry storage, and if
* |sizeOfEntryExcludingThis| is non-nullptr, measure the size of things pointed
* to by entries.
*
* @param sizeOfEntryExcludingThis the
* <code>SizeOfEntryExcludingThisFun</code> function to call
* @param mallocSizeOf the function used to measure heap-allocated blocks
* @param userArg a pointer to pass to the
* <code>SizeOfEntryExcludingThisFun</code> function
* @return the summed size of all the entries
*/
size_t SizeOfExcludingThis(SizeOfEntryExcludingThisFun sizeOfEntryExcludingThis,
nsMallocSizeOfFun mallocSizeOf, void *userArg = nullptr) const
{
if (!IsInitialized()) {
return 0;
}
if (sizeOfEntryExcludingThis) {
s_SizeOfArgs args = { sizeOfEntryExcludingThis, userArg };
return PL_DHashTableSizeOfExcludingThis(&this->mTable, s_SizeOfStub,
mallocSizeOf, &args);
}
return PL_DHashTableSizeOfExcludingThis(&this->mTable, NULL, mallocSizeOf);
}
protected:
/**
* used internally during EnumerateRead. Allocated on the stack.
* @param func the enumerator passed to EnumerateRead
* @param userArg the userArg passed to EnumerateRead
*/
struct s_EnumReadArgs
{
EnumReadFunction func;
void* userArg;
};
static PLDHashOperator s_EnumReadStub(PLDHashTable *table,
PLDHashEntryHdr *hdr,
uint32_t number,
void *arg);
struct s_EnumArgs
{
EnumFunction func;
void* userArg;
};
static PLDHashOperator s_EnumStub(PLDHashTable *table,
PLDHashEntryHdr *hdr,
uint32_t number,
void *arg);
struct s_SizeOfArgs
{
SizeOfEntryExcludingThisFun func;
void* userArg;
};
static size_t s_SizeOfStub(PLDHashEntryHdr *entry,
nsMallocSizeOfFun mallocSizeOf,
void *arg);
};
/**
* This class is a thread-safe version of nsBaseHashtable. It only exposes
* an infallible API.
*/
template<class KeyClass,class DataType,class UserDataType>
class nsBaseHashtableMT :
protected nsBaseHashtable<KeyClass,DataType,UserDataType>
{
public:
typedef typename
nsBaseHashtable<KeyClass,DataType,UserDataType>::EntryType EntryType;
typedef typename
nsBaseHashtable<KeyClass,DataType,UserDataType>::KeyType KeyType;
typedef typename
nsBaseHashtable<KeyClass,DataType,UserDataType>::EnumFunction EnumFunction;
typedef typename
nsBaseHashtable<KeyClass,DataType,UserDataType>::EnumReadFunction EnumReadFunction;
nsBaseHashtableMT() : mLock(nullptr) { }
~nsBaseHashtableMT();
void Init(uint32_t initSize = PL_DHASH_MIN_SIZE);
bool IsInitialized() const { return mLock != nullptr; }
uint32_t Count() const;
bool Get(KeyType aKey, UserDataType* pData) const;
void Put(KeyType aKey, UserDataType aData);
void Remove(KeyType aKey);
uint32_t EnumerateRead(EnumReadFunction enumFunc, void* userArg) const;
uint32_t Enumerate(EnumFunction enumFunc, void* userArg);
void Clear();
protected:
PRLock* mLock;
};
//
// nsBaseHashtableET definitions
//
template<class KeyClass,class DataType>
nsBaseHashtableET<KeyClass,DataType>::nsBaseHashtableET(KeyTypePointer aKey) :
KeyClass(aKey)
{ }
template<class KeyClass,class DataType>
nsBaseHashtableET<KeyClass,DataType>::nsBaseHashtableET
(nsBaseHashtableET<KeyClass,DataType>& toCopy) :
KeyClass(toCopy),
mData(toCopy.mData)
{ }
template<class KeyClass,class DataType>
nsBaseHashtableET<KeyClass,DataType>::~nsBaseHashtableET()
{ }
//
// nsBaseHashtable definitions
//
template<class KeyClass,class DataType,class UserDataType>
PLDHashOperator
nsBaseHashtable<KeyClass,DataType,UserDataType>::s_EnumReadStub
(PLDHashTable *table, PLDHashEntryHdr *hdr, uint32_t number, void* arg)
{
EntryType* ent = static_cast<EntryType*>(hdr);
s_EnumReadArgs* eargs = (s_EnumReadArgs*) arg;
PLDHashOperator res = (eargs->func)(ent->GetKey(), ent->mData, eargs->userArg);
NS_ASSERTION( !(res & PL_DHASH_REMOVE ),
"PL_DHASH_REMOVE return during const enumeration; ignoring.");
if (res & PL_DHASH_STOP)
return PL_DHASH_STOP;
return PL_DHASH_NEXT;
}
template<class KeyClass,class DataType,class UserDataType>
PLDHashOperator
nsBaseHashtable<KeyClass,DataType,UserDataType>::s_EnumStub
(PLDHashTable *table, PLDHashEntryHdr *hdr, uint32_t number, void* arg)
{
EntryType* ent = static_cast<EntryType*>(hdr);
s_EnumArgs* eargs = (s_EnumArgs*) arg;
return (eargs->func)(ent->GetKey(), ent->mData, eargs->userArg);
}
template<class KeyClass,class DataType,class UserDataType>
size_t
nsBaseHashtable<KeyClass,DataType,UserDataType>::s_SizeOfStub
(PLDHashEntryHdr *hdr, nsMallocSizeOfFun mallocSizeOf, void *arg)
{
EntryType* ent = static_cast<EntryType*>(hdr);
s_SizeOfArgs* eargs = static_cast<s_SizeOfArgs*>(arg);
return (eargs->func)(ent->GetKey(), ent->mData, mallocSizeOf, eargs->userArg);
}
//
// nsBaseHashtableMT definitions
//
template<class KeyClass,class DataType,class UserDataType>
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::~nsBaseHashtableMT()
{
if (this->mLock)
PR_DestroyLock(this->mLock);
}
template<class KeyClass,class DataType,class UserDataType>
void
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Init(uint32_t initSize)
{
if (!nsTHashtable<EntryType>::IsInitialized())
nsTHashtable<EntryType>::Init(initSize);
this->mLock = PR_NewLock();
if (!this->mLock)
NS_RUNTIMEABORT("OOM");
}
template<class KeyClass,class DataType,class UserDataType>
uint32_t
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Count() const
{
PR_Lock(this->mLock);
uint32_t count = nsTHashtable<EntryType>::Count();
PR_Unlock(this->mLock);
return count;
}
template<class KeyClass,class DataType,class UserDataType>
bool
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Get(KeyType aKey,
UserDataType* pData) const
{
PR_Lock(this->mLock);
bool res =
nsBaseHashtable<KeyClass,DataType,UserDataType>::Get(aKey, pData);
PR_Unlock(this->mLock);
return res;
}
template<class KeyClass,class DataType,class UserDataType>
void
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Put(KeyType aKey,
UserDataType aData)
{
PR_Lock(this->mLock);
nsBaseHashtable<KeyClass,DataType,UserDataType>::Put(aKey, aData);
PR_Unlock(this->mLock);
}
template<class KeyClass,class DataType,class UserDataType>
void
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Remove(KeyType aKey)
{
PR_Lock(this->mLock);
nsBaseHashtable<KeyClass,DataType,UserDataType>::Remove(aKey);
PR_Unlock(this->mLock);
}
template<class KeyClass,class DataType,class UserDataType>
uint32_t
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::EnumerateRead
(EnumReadFunction fEnumCall, void* userArg) const
{
PR_Lock(this->mLock);
uint32_t count =
nsBaseHashtable<KeyClass,DataType,UserDataType>::EnumerateRead(fEnumCall, userArg);
PR_Unlock(this->mLock);
return count;
}
template<class KeyClass,class DataType,class UserDataType>
uint32_t
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Enumerate
(EnumFunction fEnumCall, void* userArg)
{
PR_Lock(this->mLock);
uint32_t count =
nsBaseHashtable<KeyClass,DataType,UserDataType>::Enumerate(fEnumCall, userArg);
PR_Unlock(this->mLock);
return count;
}
template<class KeyClass,class DataType,class UserDataType>
void
nsBaseHashtableMT<KeyClass,DataType,UserDataType>::Clear()
{
PR_Lock(this->mLock);
nsBaseHashtable<KeyClass,DataType,UserDataType>::Clear();
PR_Unlock(this->mLock);
}
#endif // nsBaseHashtable_h__