using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Text;
using System.Text.RegularExpressions;
using System.Reflection;
using System.Diagnostics.CodeAnalysis;
namespace System.Data.Linq.SqlClient {
public static class SqlMethods {
///
/// Counts the number of year boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(YEAR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of year boundaries crossed between the dates.
public static int DateDiffYear(DateTime startDate, DateTime endDate) {
return endDate.Year - startDate.Year;
}
///
/// Counts the number of year boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(YEAR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of year boundaries crossed between the dates.
public static int? DateDiffYear(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffYear(startDate.Value,endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of year boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(YEAR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of year boundaries crossed between the dates.
public static int DateDiffYear(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffYear(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of year boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(YEAR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of year boundaries crossed between the dates.
public static int? DateDiffYear(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffYear(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of month boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MONTH,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of month boundaries crossed between the dates.
public static int DateDiffMonth(DateTime startDate, DateTime endDate) {
return 12 * (endDate.Year - startDate.Year) + endDate.Month - startDate.Month;
}
///
/// Counts the number of month boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MONTH,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of month boundaries crossed between the dates.
public static int? DateDiffMonth(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffMonth(startDate.Value, endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of month boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MONTH,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of month boundaries crossed between the dates.
public static int DateDiffMonth(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffMonth(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of month boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MONTH,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of month boundaries crossed between the dates.
public static int? DateDiffMonth(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffMonth(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of day boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(DAY,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of day boundaries crossed between the dates.
public static int DateDiffDay(DateTime startDate, DateTime endDate) {
TimeSpan diff = endDate.Date - startDate.Date;
return diff.Days;
}
///
/// Counts the number of day boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(DAY,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of day boundaries crossed between the dates.
public static int? DateDiffDay(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffDay(startDate.Value, endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of day boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(DAY,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of day boundaries crossed between the dates.
public static int DateDiffDay(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffDay(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of day boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(DAY,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of day boundaries crossed between the dates.
public static int? DateDiffDay(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffDay(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of hour boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(HOUR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of hour boundaries crossed between the dates.
public static int DateDiffHour(DateTime startDate, DateTime endDate) {
checked {
return DateDiffDay(startDate, endDate) * 24 + endDate.Hour - startDate.Hour;
}
}
///
/// Counts the number of hour boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(HOUR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of hour boundaries crossed between the dates.
public static int? DateDiffHour(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffHour(startDate.Value, endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of hour boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(HOUR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of hour boundaries crossed between the dates.
public static int DateDiffHour(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffHour(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of hour boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(HOUR,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of hour boundaries crossed between the dates.
public static int? DateDiffHour(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffHour(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of minute boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MINUTE,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of minute boundaries crossed between the dates.
public static int DateDiffMinute(DateTime startDate, DateTime endDate) {
checked {
return DateDiffHour(startDate, endDate) * 60 + endDate.Minute - startDate.Minute;
}
}
///
/// Counts the number of minute boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MINUTE,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of minute boundaries crossed between the dates.
public static int? DateDiffMinute(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffMinute(startDate.Value, endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of minute boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MINUTE,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of minute boundaries crossed between the dates.
public static int DateDiffMinute(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffMinute(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of minute boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MINUTE,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of minute boundaries crossed between the dates.
public static int? DateDiffMinute(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffMinute(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of second boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(SECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of second boundaries crossed between the dates.
public static int DateDiffSecond(DateTime startDate, DateTime endDate) {
checked {
return DateDiffMinute(startDate, endDate) * 60 + endDate.Second - startDate.Second;
}
}
///
/// Counts the number of second boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(SECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of second boundaries crossed between the dates.
public static int? DateDiffSecond(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffSecond(startDate.Value, endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of second boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(SECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of second boundaries crossed between the dates.
public static int DateDiffSecond(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffSecond(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of second boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(SECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of second boundaries crossed between the dates.
public static int? DateDiffSecond(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffSecond(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of millisecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MILLISECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of millisecond boundaries crossed between the dates.
public static int DateDiffMillisecond(DateTime startDate, DateTime endDate) {
checked {
return DateDiffSecond(startDate, endDate) * 1000 + endDate.Millisecond - startDate.Millisecond;
}
}
///
/// Counts the number of millisecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MILLISECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of millisecond boundaries crossed between the dates.
public static int? DateDiffMillisecond(DateTime? startDate, DateTime? endDate) {
if (startDate.HasValue && endDate.HasValue) {
return DateDiffMillisecond(startDate.Value, endDate.Value);
} else {
return null;
}
}
///
/// Counts the number of millisecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MILLISECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of millisecond boundaries crossed between the dates.
public static int DateDiffMillisecond(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffMillisecond(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of millisecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MILLISECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of millisecond boundaries crossed between the dates.
public static int? DateDiffMillisecond(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffMillisecond(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of microsecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MICROSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of microsecond boundaries crossed between the dates.
public static int DateDiffMicrosecond(DateTime startDate, DateTime endDate)
{
checked
{
return (int)((endDate.Ticks - startDate.Ticks) / 10);
}
}
///
/// Counts the number of microsecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MICROSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of microsecond boundaries crossed between the dates.
public static int? DateDiffMicrosecond(DateTime? startDate, DateTime? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffMicrosecond(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of microsecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MICROSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of microsecond boundaries crossed between the dates.
public static int DateDiffMicrosecond(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffMicrosecond(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of microsecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(MICROSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of microsecond boundaries crossed between the dates.
public static int? DateDiffMicrosecond(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffMicrosecond(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of nanosecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(NANOSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of nanosecond boundaries crossed between the dates.
public static int DateDiffNanosecond(DateTime startDate, DateTime endDate)
{
checked
{
return (int)((endDate.Ticks - startDate.Ticks) * 100);
}
}
///
/// Counts the number of nanosecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(NANOSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of nanosecond boundaries crossed between the dates.
public static int? DateDiffNanosecond(DateTime? startDate, DateTime? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffNanosecond(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// Counts the number of nanosecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(NANOSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of nanosecond boundaries crossed between the dates.
public static int DateDiffNanosecond(DateTimeOffset startDate, DateTimeOffset endDate)
{
return DateDiffNanosecond(startDate.UtcDateTime, endDate.UtcDateTime);
}
///
/// Counts the number of nanosecond boundaries crossed between the startDate and endDate.
/// Corresponds to SQL Server's DATEDIFF(NANOSECOND,startDate,endDate).
///
/// Starting date for the calculation.
/// Ending date for the calculation.
/// Number of nanosecond boundaries crossed between the dates.
public static int? DateDiffNanosecond(DateTimeOffset? startDate, DateTimeOffset? endDate)
{
if (startDate.HasValue && endDate.HasValue)
{
return DateDiffNanosecond(startDate.Value, endDate.Value);
}
else
{
return null;
}
}
///
/// This function is translated to Sql Server's LIKE function.
/// It cannot be used on the client.
///
/// The string that is to be matched.
/// The pattern which may involve wildcards %,_,[,],^.
/// true if there is a match.
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "pattern", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "matchExpression", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
public static bool Like(string matchExpression, string pattern) {
throw Error.SqlMethodOnlyForSql(MethodInfo.GetCurrentMethod());
}
///
/// This function is translated to Sql Server's LIKE function.
/// It cannot be used on the client.
///
/// The string that is to be matched.
/// The pattern which may involve wildcards %,_,[,],^.
/// The escape character to use in front of %,_,[,],^ if they are not used as wildcards.
/// true if there is a match.
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "pattern", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "matchExpression", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "escapeCharacter", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
public static bool Like(string matchExpression, string pattern, char escapeCharacter) {
throw Error.SqlMethodOnlyForSql(MethodInfo.GetCurrentMethod());
}
///
/// This function is translated to Sql Server's DATALENGTH function. It differs
/// from LEN in that it includes trailing spaces and will count UNICODE characters
/// per byte.
/// It cannot be used on the client.
///
/// The string to take the length of.
/// length of the string
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "value", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
internal static int RawLength(string value) {
throw Error.SqlMethodOnlyForSql(MethodInfo.GetCurrentMethod());
}
///
/// This function is translated to Sql Server's DATALENGTH function.
/// It cannot be used on the client.
///
/// The byte array to take the length of.
/// length of the array
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "value", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
internal static int RawLength(byte[] value) {
throw Error.SqlMethodOnlyForSql(MethodInfo.GetCurrentMethod());
}
///
/// This function is translated to Sql Server's DATALENGTH function.
/// It cannot be used on the client.
///
/// The Binary value to take the length of.
/// length of the Binary
[SuppressMessage("Microsoft.Usage", "CA1801:ReviewUnusedParameters", MessageId = "value", Justification = "Microsoft: Method is a placeholder for a server-side method.")]
internal static int RawLength(Binary value) {
throw Error.SqlMethodOnlyForSql(MethodInfo.GetCurrentMethod());
}
}
public static class SqlHelpers {
public static string GetStringContainsPattern(string text, char escape) {
bool usedEscapeChar = false;
return GetStringContainsPattern(text, escape, out usedEscapeChar);
}
internal static string GetStringContainsPattern(string text, char escape, out bool usedEscapeChar) {
if (text == null) {
throw Error.ArgumentNull("text");
}
return "%" + EscapeLikeText(text, escape, false, out usedEscapeChar) + "%";
}
internal static string GetStringContainsPatternForced(string text, char escape) {
if (text == null) {
throw Error.ArgumentNull("text");
}
bool usedEscapeChar = false;
return "%" + EscapeLikeText(text, escape, true, out usedEscapeChar) + "%";
}
public static string GetStringStartsWithPattern(string text, char escape) {
bool usedEscapeChar = false;
return GetStringStartsWithPattern(text, escape, out usedEscapeChar);
}
internal static string GetStringStartsWithPattern(string text, char escape, out bool usedEscapeChar) {
if (text == null) {
throw Error.ArgumentNull("text");
}
return EscapeLikeText(text, escape, false, out usedEscapeChar) + "%";
}
internal static string GetStringStartsWithPatternForced(string text, char escape) {
if (text == null) {
throw Error.ArgumentNull("text");
}
bool usedEscapeChar = false;
return EscapeLikeText(text, escape, true, out usedEscapeChar) + "%";
}
public static string GetStringEndsWithPattern(string text, char escape) {
bool usedEscapeChar = false;
return GetStringEndsWithPattern(text, escape, out usedEscapeChar);
}
internal static string GetStringEndsWithPattern(string text, char escape, out bool usedEscapeChar) {
if (text == null) {
throw Error.ArgumentNull("text");
}
return "%" + EscapeLikeText(text, escape, false, out usedEscapeChar);
}
internal static string GetStringEndsWithPatternForced(string text, char escape) {
if (text == null) {
throw Error.ArgumentNull("text");
}
bool usedEscapeChar = false;
return "%" + EscapeLikeText(text, escape, true, out usedEscapeChar);
}
private static string EscapeLikeText(string text, char escape, bool forceEscaping, out bool usedEscapeChar) {
usedEscapeChar = false;
if (!(forceEscaping || text.Contains("%") || text.Contains("_") || text.Contains("[") || text.Contains("^"))) {
return text;
}
StringBuilder sb = new StringBuilder(text.Length);
foreach (char c in text) {
if (c == '%' || c == '_' || c == '[' || c == '^' || c == escape) {
sb.Append(escape);
usedEscapeChar = true;
}
sb.Append(c);
}
return sb.ToString();
}
public static string TranslateVBLikePattern(string pattern, char escape) {
if (pattern == null) {
throw Error.ArgumentNull("pattern");
}
const char vbMany = '*';
const char sqlMany = '%';
const char vbSingle = '?';
const char sqlSingle = '_';
const char vbDigit = '#';
const string sqlDigit = "[0-9]";
const char vbOpenBracket = '[';
const char sqlOpenBracket = '[';
const char vbCloseBracket = ']';
const char sqlCloseBracket = ']';
const char vbNotList = '!';
const char sqlNotList = '^';
const char vbCharRange = '-';
const char sqlCharRange = '-';
// walk the string, performing conversions
StringBuilder result = new StringBuilder();
bool bracketed = false;
bool charRange = false;
bool possibleNotList = false;
int numBracketedCharacters = 0;
foreach (char patternChar in pattern) {
if (bracketed) {
numBracketedCharacters++;
// if we're in a possible NotList, anything other than a close bracket will confirm it
if (possibleNotList) {
if (patternChar != vbCloseBracket) {
result.Append(sqlNotList);
possibleNotList = false;
}
else {
result.Append(vbNotList);
possibleNotList = false;
}
}
switch (patternChar) {
case vbNotList: {
// translate to SQL's NotList only if the first character in the group
if (numBracketedCharacters == 1) {
// latch this, and detect the next cycle
possibleNotList = true;
}
else {
result.Append(patternChar);
}
break;
}
case vbCloseBracket: {
// close down the bracket group
bracketed = false;
possibleNotList = false;
result.Append(sqlCloseBracket);
break;
}
case vbCharRange: {
if (charRange) {
// we've seen the char range indicator already -- SQL
// doesn't support multiple ranges in the same group
throw Error.VbLikeDoesNotSupportMultipleCharacterRanges();
}
else {
// remember that we've seen this in the group
charRange = true;
result.Append(sqlCharRange);
break;
}
}
case sqlNotList: {
if (numBracketedCharacters == 1) {
// need to escape this one
result.Append(escape);
}
result.Append(patternChar);
break;
}
default: {
if (patternChar == escape) {
result.Append(escape);
result.Append(escape);
}
else {
result.Append(patternChar);
}
break;
}
}
}
else {
switch (patternChar) {
case vbMany: {
result.Append(sqlMany);
break;
}
case vbSingle: {
result.Append(sqlSingle);
break;
}
case vbDigit: {
result.Append(sqlDigit);
break;
}
case vbOpenBracket: {
// we're openning a bracketed group, so reset the group state
bracketed = true;
charRange = false;
numBracketedCharacters = 0;
result.Append(sqlOpenBracket);
break;
}
// SQL's special characters need to be escaped
case sqlMany:
case sqlSingle: {
result.Append(escape);
result.Append(patternChar);
break;
}
default: {
if (patternChar == escape) {
result.Append(escape);
result.Append(escape);
}
else {
result.Append(patternChar);
}
break;
}
}
}
}
if (bracketed) {
throw Error.VbLikeUnclosedBracket();
}
return result.ToString();
}
}
}