gecko-dev/lib/libaddr/absearch.cpp

488 строки
13 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
/* file: absearch.cpp
** Some portions derive from public domain IronDoc code and interfaces.
**
** Changes:
** <1> 05Jan1998 first implementation
** <0> 23Dec1997 first interface draft
*/
#ifndef _ABTABLE_
#include "abtable.h"
#endif
#ifndef _ABMODEL_
#include "abmodel.h"
#endif
/*3456789_123456789_123456789_123456789_123456789_123456789_123456789_12345678*/
/* ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- */
#if AB_CONFIG_TRACE_orDEBUG_orPRINT
static const char* ab_Search_kClassName /*i*/ = "ab_Search";
#endif /* end AB_CONFIG_TRACE_orDEBUG_orPRINT*/
// ````` ````` ````` ````` ````` ````` ````` `````
// virtual ab_Object methods
char* ab_Search::ObjectAsString(ab_Env* ev, char* outXmlBuf) const /*i*/
{
AB_USED_PARAMS_1(ev);
#if AB_CONFIG_TRACE_orDEBUG_orPRINT
sprintf(outXmlBuf,
"<ab:search:str me=\"^%lX\" c:c=\"%lu:lu\" row=\"#%lX\" st=\"^%lX\" rc=\"%lu\" a=\"%.9s\" u=\"%.9s\"/>",
(long) this, // me=\"^%lX\"
(long) mSearch_Capacity, // c:c=\"%lu
(long) mSearch_ColumnCount, // :lu\"
(long) mPart_RowUid, // row=\"#%lX\"
(long) mPart_Store, // st=\"^%lX\"
(unsigned long) mObject_RefCount, // rc=\"%lu\"
this->GetObjectAccessAsString(), // ac=\"%.9s\"
this->GetObjectUsageAsString() // us=\"%.9s\"
);
#else
*outXmlBuf = 0; /* empty string */
#endif /*AB_CONFIG_TRACE_orDEBUG_orPRINT*/
return outXmlBuf;
}
void ab_Search::CloseObject(ab_Env* ev) /*i*/
{
if ( this->IsOpenObject() )
{
this->MarkClosing();
this->CloseSearch(ev);
this->MarkShut();
}
}
void ab_Search::PrintObject(ab_Env* ev, ab_Printer* ioPrinter) const /*i*/
{
#ifdef AB_CONFIG_PRINT
ioPrinter->PutString(ev, "<ab:search>");
char xmlBuf[ ab_Object_kXmlBufSize + 2 ];
if ( this->IsOpenObject() )
{
ioPrinter->PushDepth(ev); // indent following content
ioPrinter->NewlineIndent(ev, /*count*/ 1);
ioPrinter->PutString(ev, this->ObjectAsString(ev, xmlBuf));
ioPrinter->NewlineIndent(ev, /*count*/ 1);
ioPrinter->PutString(ev, mPart_Store->ObjectAsString(ev, xmlBuf));
if ( mSearch_Row )
{
ioPrinter->NewlineIndent(ev, /*count*/ 1);
mSearch_Row->PrintObject(ev, ioPrinter);
}
if ( mSearch_ColumnCount && mSearch_Columns )
{
ab_column_uid* cols = mSearch_Columns - 1; // before
ab_column_uid* end = mSearch_Columns + mSearch_ColumnCount; // after
ioPrinter->PutString(ev, "<ab:search:columns>");
ioPrinter->PushDepth(ev); // indent following content
while ( ++cols < end )
{
ab_column_uid c = *cols;
const char* colString = AB_ColumnUid_AsString(c, ev->AsSelf());
if ( !colString )
colString = "";
ioPrinter->NewlineIndent(ev, /*count*/ 1);
ioPrinter->Print(ev, "<ab:column uid=\"#%lX\" name=\"%.64s\"/>",
(long) c, colString);
}
ioPrinter->PopDepth(ev); // stop indentation
ioPrinter->NewlineIndent(ev, /*count*/ 1);
ioPrinter->PutString(ev, "</ab:search:columns>");
}
if ( mSearch_ColumnCount && mSearch_Strings )
{
ab_String** strings = mSearch_Strings - 1; // before
ab_String** end = mSearch_Strings + mSearch_ColumnCount; // after
ioPrinter->PutString(ev, "<ab:search:strings>");
ioPrinter->PushDepth(ev); // indent following content
while ( ++strings < end )
{
ab_String* s = *strings;
if ( s )
{
ioPrinter->NewlineIndent(ev, /*count*/ 1);
s->PrintObject(ev, ioPrinter);
}
}
ioPrinter->PopDepth(ev); // stop indentation
ioPrinter->NewlineIndent(ev, /*count*/ 1);
ioPrinter->PutString(ev, "</ab:search:strings>");
}
ioPrinter->PopDepth(ev); // stop indentation
}
else // use ab_Object::ObjectAsString() for non-objects:
{
ioPrinter->PutString(ev, this->ab_Object::ObjectAsString(ev, xmlBuf));
}
ioPrinter->NewlineIndent(ev, /*count*/ 1);
ioPrinter->PutString(ev, "</ab:search>");
#endif /*AB_CONFIG_PRINT*/
}
ab_Search::~ab_Search() /*i*/
{
AB_ASSERT(mSearch_Columns==0);
AB_ASSERT(mSearch_Strings==0);
AB_ASSERT(mSearch_Row==0);
#if AB_CONFIG_TRACE_orDEBUG_orPRINT
ab_Object* obj = mSearch_Row;
if ( obj )
obj->ObjectNotReleasedPanic(ab_Search_kClassName);
#endif /*AB_CONFIG_TRACE_orDEBUG_orPRINT*/
}
// ````` ````` ````` ````` ````` ````` ````` `````
// protected non-poly ab_Search methods
void ab_Search::CutSearchStorageSpace(ab_Env* ev) /*i*/
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "GrowSearchCapacity")
ab_String** strings = mSearch_Strings;
if ( strings )
{
mSearch_Strings = 0;
if ( strings != mSearch_ImmedStrings )
{
ab_String** cursor = strings - 1;
ab_String** end = strings + mSearch_ColumnCount; // after
while ( ++strings < end )
{
ab_String* s = *cursor;
if ( s )
{
s->ReleaseObject(ev);
*cursor = 0;
}
}
ev->HeapFree(strings);
}
}
ab_column_uid* cols = mSearch_Columns;
if ( cols )
{
mSearch_Columns = 0;
if ( cols != mSearch_ImmedCols )
ev->HeapFree(cols);
}
mSearch_Capacity = ab_Search_kImmedColCount;
mSearch_Columns = mSearch_ImmedCols;
mSearch_Strings = mSearch_ImmedStrings;
ab_Env_EndMethod(ev)
}
ab_bool ab_Search::GrowSearchCapacity(ab_Env* ev, /*i*/
ab_column_count inNewCapacity)
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "GrowSearchCapacity")
ab_error_uid newError = 0;
if ( this->IsOpenObject() && inNewCapacity > mSearch_Capacity )
{
if ( inNewCapacity < ab_Search_kMaxCapacity )
{
if ( mSearch_Strings && mSearch_Columns )
{
ab_column_uid* newCols = (ab_column_uid*)
ev->HeapAlloc(inNewCapacity * sizeof(ab_column_uid));
if ( newCols )
{
ab_String** newStrings = (ab_String**)
ev->HeapAlloc(inNewCapacity * sizeof(ab_String*));
if ( newStrings )
{
ab_num oldCount = mSearch_ColumnCount;
ab_num size = oldCount * sizeof(ab_column_uid);
memcpy(newCols, mSearch_Columns, size);
size = oldCount * sizeof(ab_String*);
memcpy(newStrings, mSearch_Strings, size);
this->CutSearchStorageSpace(ev);
mSearch_Capacity = inNewCapacity;
mSearch_Strings = newStrings;
mSearch_Columns = newCols;
}
else
{
// newError = AB_Env_kFaultOutOfMemory;
ev->HeapFree(newCols);
}
}
// else newError = AB_Env_kFaultOutOfMemory;
}
else newError = ab_Search_kFaultMissingArray;
}
else newError = ab_Search_kFaultOverMaxCapacity;
}
if ( newError )
ev->NewAbookFault(newError);
ab_Env_EndMethod(ev)
return ev->Good();
}
ab_bool ab_Search::InitCapacity(ab_Env* ev, ab_column_count inCapacity) /*i*/
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "InitCapacity")
ab_num size = ab_Search_kImmedColCount * sizeof(ab_column_uid);
XP_MEMSET(mSearch_ImmedCols, 0, size);
size = ab_Search_kImmedColCount * sizeof(ab_String*);
XP_MEMSET(mSearch_ImmedStrings, 0, size);
if ( inCapacity > ab_Search_kImmedColCount ) // need more capacity?
{
if ( inCapacity < ab_Search_kMaxCapacity ) // not unreasonably large?
{
this->GrowSearchCapacity(ev, inCapacity);
}
else ev->NewAbookFault(ab_Search_kFaultOverMaxCapacity);
}
ab_Env_EndMethod(ev)
return ev->Good();
}
// ````` ````` ````` ````` ````` ````` ````` `````
// public non-poly ab_Search methods
ab_Search::ab_Search(ab_Env* ev, const ab_Usage& inUsage, /*i*/
ab_Store* ioStore, const char* inStringValue,
const ab_column_uid* inColUidVector, ab_column_count inCapacity)
// inColUidVector is null terminated, so use the number of non-null
// uid's as instead of inCapacity if this number is larger (so a
// zero value can be passed for inCapacity when desired). Use
// the same ab_String made from inStringValue for all strings.
: ab_Part(ev, inUsage, ab_Session::GetGlobalSession()->NewTempRowUid(),
ioStore),
mSearch_Capacity( ab_Search_kImmedColCount ),
mSearch_ColumnCount( 0 ),
mSearch_Columns( mSearch_ImmedCols ),
mSearch_Strings( mSearch_ImmedStrings )
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, ab_Search_kClassName)
const ab_column_uid* cols = inColUidVector;
while ( *cols ) // find the vector's null terminator
++cols;
ab_column_count vectorLength = cols - inColUidVector;
const ab_column_uid* end = cols; // one after last non-null col
if ( vectorLength > inCapacity )
inCapacity = vectorLength + 1; // add 1 for gratuitous extra space
if ( this->InitCapacity(ev, inCapacity) )
{
ab_String* string = new(*ev)
ab_String(ev, ab_Usage::kHeap, inStringValue);
if ( string )
{
if ( ev->Good() )
{
cols = inColUidVector - 1;
while ( ++cols < end && ev->Good() )
{
this->AddSearchString(ev, string, *cols);
}
}
string->ReleaseObject(ev); // always release our reference
}
// else ev->NewAbookFault(AB_Env_kFaultOutOfMemory);
}
ab_Env_EndMethod(ev)
}
ab_Search::ab_Search(ab_Env* ev, const ab_Usage& inUsage, /*i*/
ab_Store* ioStore, ab_column_count inCapacity)
// expect to have inColHint columns added with AddSearchString()
: ab_Part(ev, inUsage, ab_Session::GetGlobalSession()->NewTempRowUid(),
ioStore),
mSearch_Capacity( ab_Search_kImmedColCount ),
mSearch_ColumnCount( 0 ),
mSearch_Columns( mSearch_ImmedCols ),
mSearch_Strings( mSearch_ImmedStrings )
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, ab_Search_kClassName)
this->InitCapacity(ev, inCapacity);
ab_Env_EndMethod(ev)
}
void ab_Search::CloseSearch(ab_Env* ev) /*i*/
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "CloseSearch")
ab_Object* obj = mSearch_Row;
if ( obj )
{
mSearch_Row = 0;
obj->ReleaseObject(ev);
}
this->CutSearchStorageSpace(ev);
this->ClosePart(ev);
ab_Env_EndMethod(ev)
}
ab_bool ab_Search::CutAllSearchStrings(ab_Env* ev) /*i*/
// return value equals ev->Good()
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "CutAllSearchStrings")
this->CutSearchStorageSpace(ev);
mSearch_ColumnCount = 0;
ab_Env_EndMethod(ev)
return ev->Good();
}
ab_bool ab_Search::AddSearchString(ab_Env* ev, ab_String* ioString, /*i*/
ab_column_uid inColUid)
// return value equals ev->Good()
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "AddSearchString")
if ( this->IsOpenObject() ) // string appears minimally valid?
{
if ( AB_Uid_IsColumn(inColUid) ) // uid seems to be for a column?
{
ab_column_count oldCount = mSearch_ColumnCount;
if ( oldCount >= mSearch_Capacity ) // need bigger arrays?
{
// at least two more than needed, and 25 percent more still:
ab_column_count newCap = oldCount + 2 + (mSearch_Capacity / 4);
this->GrowSearchCapacity(ev, newCap);
}
if ( ev->Good() && mSearch_Capacity > oldCount )
{
if ( mSearch_Columns && mSearch_Strings ) // arrays okay?
{
if ( ioString->AcquireObject(ev) ) // acquire succeeds?
{
mSearch_Strings[ oldCount ] = ioString;
mSearch_Columns[ oldCount ] = inColUid;
mSearch_ColumnCount = ++oldCount;
}
}
else ev->NewAbookFault(ab_Search_kFaultMissingArray);
}
}
else ev->NewAbookFault(AB_Column_kFaultNotColumnUid);
}
else ev->NewAbookFault(ab_Object_kFaultNotOpen);
ab_Env_EndMethod(ev)
return ev->Good();
}
// ````` ````` accessors ````` `````
ab_bool ab_Search::ChangeSearchRow(ab_Env* ev, ab_Row* ioRow) /*i*/
// note that passing in a null pointer for ioRow is allowed.
{
ab_Env_BeginMethod(ev, ab_Search_kClassName, "ChangeSearchRow")
if ( this->IsOpenObject() )
{
ab_Row* oldRow = mSearch_Row;
if ( oldRow )
{
mSearch_Row = 0;
oldRow->ReleaseObject(ev);
}
if ( ev->Good() && ioRow && ioRow->AcquireObject(ev) )
mSearch_Row = ioRow;
}
else ev->NewAbookFault(ab_Object_kFaultNotOpen);
ab_Env_EndMethod(ev)
return ev->Good();
}
ab_Row* ab_Search::GetSearchRow(ab_Env* ev) const /*i*/
{
ab_Row* outRow = 0;
ab_Env_BeginMethod(ev, ab_Search_kClassName, "GetSearchRow")
if ( this->IsOpenObject() )
{
outRow = mSearch_Row;
}
else ev->NewAbookFault(ab_Object_kFaultNotOpen);
ab_Env_EndMethod(ev)
return outRow;
}
ab_String* ab_Search::GetStringAt(ab_Env* ev, ab_pos inPos, /*i*/
ab_column_uid* outColUid) const
// inPos is a zero-based index from zero to GetSearchColumnCount()-1.
{
ab_String* outString = 0;
ab_Env_BeginMethod(ev, ab_Search_kClassName, "GetStringAt")
if ( this->IsOpenObject() )
{
if ( mSearch_ColumnCount && inPos < mSearch_ColumnCount )
{
if ( mSearch_Strings && mSearch_Columns )
{
outString = mSearch_Strings[ inPos ];
if ( outColUid )
*outColUid = mSearch_Columns[ inPos ];
}
else ev->NewAbookFault(ab_Search_kFaultMissingArray);
}
}
else ev->NewAbookFault(ab_Object_kFaultNotOpen);
ab_Env_EndMethod(ev)
return outString;
}