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SQLDatabase.m
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SQLDatabase.m
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//
// SQLDatabase.m
// SQLite Test
//
// Created by Dustin Mierau on Tue Apr 02 2002.
// Copyright (c) 2002 Blackhole Media, Inc. All rights reserved.
//
#import "SQLDatabase.h"
#import "SQLDatabasePrivate.h"
@implementation SQLDatabase
+(id)databaseWithFile:(NSString*)inPath
{
return [[[SQLDatabase alloc] initWithFile:inPath] autorelease];
}
#pragma mark -
-(id)initWithFile:(NSString*)inPath
{
if( ![super init])
return nil;
mPath = [inPath copy];
mDatabase = NULL;
lastError = SQLITE_OK;
return self;
}
-(id)init
{
if( ![super init])
return nil;
mPath = NULL;
mDatabase = NULL;
return self;
}
-(void)dealloc
{
[self close];
[mPath release];
[super dealloc];
}
#pragma mark -
// This is a VERY rudimentary regexp handler that only recognises \w prefix in the
// regexp string to match a word. Later we can add more functionality once the
// phrase parser is capable of supporting that functionality.
static void sqlite3_regexp(sqlite3_context *DB, int argc, sqlite3_value **argv)
{
int retval = 0;
if (argc == 2)
{
const char * regexp = (const char*)sqlite3_value_text(argv[0]);
const char * str = (const char*)sqlite3_value_text(argv[1]);
if (regexp && str && *regexp && *str)
{
BOOL wordmatch = NO;
if (*regexp == '\\' && *(regexp+1) == 'w')
{
regexp += 2;
wordmatch = YES;
}
char * match = strcasestr(str, regexp);
if (match)
{
if (!wordmatch)
retval = 1;
else
{
const char * endmatch = match + strlen(regexp);
const char * endstr = str + strlen(str);
if (match == str || isspace(*(match-1)))
{
if (endmatch == endstr || isspace(*endmatch))
retval = 1;
}
}
}
}
}
sqlite3_result_int(DB, retval);
}
-(BOOL)open
{
if (sqlite3_open( [mPath fileSystemRepresentation], &mDatabase) == SQLITE_OK)
{
[[self performQuery:@"pragma cache_size=2000;"] release];
[[self performQuery:@"pragma default_cache_size=30000;"] release];
[[self performQuery:@"pragma temp_store=1;"] release];
[[self performQuery:@"pragma auto_vacuum=0;"] release];
if (sqlite3_create_function(mDatabase, "regexp", 2, SQLITE_UTF8, NULL, sqlite3_regexp, NULL, NULL) == SQLITE_OK)
return YES;
}
return NO;
}
-(void)close
{
if( !mDatabase )
return;
sqlite3_close( mDatabase );
mDatabase = NULL;
}
#pragma mark -
+ (NSString*)prepareStringForQuery:(NSString*)inString
{
NSMutableString* string;
NSRange range = NSMakeRange( 0, [inString length]);
NSRange subRange;
subRange = [inString rangeOfString:@"'" options:NSLiteralSearch range:range];
if( subRange.location == NSNotFound )
return inString;
string = [NSMutableString stringWithString:inString];
for( ; subRange.location != NSNotFound && range.length > 0; )
{
subRange = [string rangeOfString:@"'" options:NSLiteralSearch range:range];
if( subRange.location != NSNotFound )
[string replaceCharactersInRange:subRange withString:@"''"];
range.location = subRange.location + 2;
range.length = ( [string length] < range.location ) ? 0 : ( [string length] - range.location );
}
return string;
}
-(int)lastInsertRowId
{
if( !mDatabase )
return -1;
return sqlite3_last_insert_rowid( mDatabase );
}
-(int)lastError
{
return lastError;
}
#ifdef LOG_QUERY_TIMES
// These routines should perhaps be in a different file?
// GetStartTime() returns the current time in seconds as a double.
// It's named GetStartTime instead of GetCurrentTime() since it is
// used only for timing.
static double GetStartTime()
{
UnsignedWide microsecondsValue;
Microseconds( µsecondsValue );
double twoPower32 = 4294967296.0;
double doubleValue;
double upperHalf = (double)microsecondsValue.hi;
double lowerHalf = (double)microsecondsValue.lo;
doubleValue = (upperHalf * twoPower32) + lowerHalf;
return doubleValue * 0.000001;
}
// LogElapsedTime() dumps the query and elapsed time in seconds
// to the console.
static void LogElapsedTime( NSString * query, double startTime )
{
double elapsedTime = GetStartTime() - startTime;
NSLog( @"Query (%f secs): %@", elapsedTime, query );
}
#endif
-(SQLResult*)performQuery:(NSString*)inQuery
{
SQLResult* sqlResult = nil;
char** results;
int columns;
int rows;
if( !mDatabase )
return nil;
#ifdef LOG_QUERY_TIMES
double startTime = GetStartTime();
#endif
lastError = sqlite3_get_table( mDatabase, [inQuery UTF8String], &results, &rows, &columns, NULL );
if( lastError != SQLITE_OK )
sqlite3_free_table( results );
else
{
sqlResult = [[SQLResult alloc] initWithTable:results rows:rows columns:columns];
if( !sqlResult )
sqlite3_free_table( results );
}
#ifdef LOG_QUERY_TIMES
LogElapsedTime( inQuery, startTime );
#endif
return sqlResult;
}
-(SQLResult*)performQueryWithFormat:(NSString*)inFormat, ...
{
SQLResult* sqlResult = nil;
NSString* query = nil;
va_list arguments;
if( inFormat == nil )
return nil;
va_start( arguments, inFormat );
query = [[NSString alloc] initWithFormat:inFormat arguments:arguments];
sqlResult = [self performQuery:query];
[query release];
va_end( arguments );
return sqlResult;
}
@end