假设我有一个字符串:
MyString = "OU=Level3,OU=Level2,OU=Level1,DC=domain,DC=com";
然后我想知道在这个字符串中出现多少次子串“OU =”。使用单个字符,可能有类似的内容:
int count = MyString.Split("OU=").Length - 1;
但Split
仅适用于char
,而不适用于string
。
另外如何找到n次出现的位置?例如,第2个"OU="
在字符串中的位置?
如何解决此问题?
答案 0 :(得分:131)
Regex.Matches(input, "OU=").Count
答案 1 :(得分:13)
您可以使用IndexOf
找到所有事件及其位置:
string MyString = "OU=Level3,OU=Level2,OU=Level1,DC=domain,DC=com";
string stringToFind = "OU=";
List<int> positions = new List<int>();
int pos = 0;
while ((pos < MyString.Length) && (pos = MyString.IndexOf(stringToFind, pos)) != -1)
{
positions.Add(pos);
pos += stringToFind.Length();
}
Console.WriteLine("{0} occurrences", positions.Count);
foreach (var p in positions)
{
Console.WriteLine(p);
}
您可以从正则表达式中获得相同的结果:
var matches = Regex.Matches(MyString, "OU=");
Console.WriteLine("{0} occurrences", matches.Count);
foreach (var m in matches)
{
Console.WriteLine(m.Index);
}
主要区别:
如果我在线写这篇文章,那就是经常不习惯的东西,我可能会选择正则表达式解决方案。如果我把它放到库中作为可以使用的东西,我可能会选择IndexOf解决方案。
答案 2 :(得分:6)
(大眼夹模式:打开强>)
您看起来像在解析LDAP查询!
您要解析它吗?
(大眼夹模式:关闭强>)
<强> “SplittingAndParsing”:强>
var MyString = "OU=Level3,OU=Level2,OU=Level1,DC=domain,DC=com";
var chunksAsKvps = MyString
.Split(',')
.Select(chunk =>
{
var bits = chunk.Split('=');
return new KeyValuePair<string,string>(bits[0], bits[1]);
});
var allOUs = chunksAsKvps
.Where(kvp => kvp.Key.Equals("OU", StringComparison.OrdinalIgnoreCase));
“通过PInvoke使用Win32”:
用法:
var parsedDn = Win32LDAP.ParseDN(str);
var allOUs2 = parsedDn
.Where(dn => dn.Key.Equals("OU", StringComparison.OrdinalIgnoreCase));
实用程序代码:
// I don't remember where I got this from, honestly...I *think* it came
// from another SO user long ago, but those details I've lost to history...
public class Win32LDAP
{
#region Constants
public const int ERROR_SUCCESS = 0;
public const int ERROR_BUFFER_OVERFLOW = 111;
#endregion Constants
#region DN Parsing
[DllImport("ntdsapi.dll", CharSet = CharSet.Unicode)]
protected static extern int DsGetRdnW(
ref IntPtr ppDN,
ref int pcDN,
out IntPtr ppKey,
out int pcKey,
out IntPtr ppVal,
out int pcVal
);
public static KeyValuePair<string, string> GetName(string distinguishedName)
{
IntPtr pDistinguishedName = Marshal.StringToHGlobalUni(distinguishedName);
try
{
IntPtr pDN = pDistinguishedName, pKey, pVal;
int cDN = distinguishedName.Length, cKey, cVal;
int lastError = DsGetRdnW(ref pDN, ref cDN, out pKey, out cKey, out pVal, out cVal);
if(lastError == ERROR_SUCCESS)
{
string key, value;
if(cKey < 1)
{
key = string.Empty;
}
else
{
key = Marshal.PtrToStringUni(pKey, cKey);
}
if(cVal < 1)
{
value = string.Empty;
}
else
{
value = Marshal.PtrToStringUni(pVal, cVal);
}
return new KeyValuePair<string, string>(key, value);
}
else
{
throw new Win32Exception(lastError);
}
}
finally
{
Marshal.FreeHGlobal(pDistinguishedName);
}
}
public static IEnumerable<KeyValuePair<string, string>> ParseDN(string distinguishedName)
{
List<KeyValuePair<string, string>> components = new List<KeyValuePair<string, string>>();
IntPtr pDistinguishedName = Marshal.StringToHGlobalUni(distinguishedName);
try
{
IntPtr pDN = pDistinguishedName, pKey, pVal;
int cDN = distinguishedName.Length, cKey, cVal;
do
{
int lastError = DsGetRdnW(ref pDN, ref cDN, out pKey, out cKey, out pVal, out cVal);
if(lastError == ERROR_SUCCESS)
{
string key, value;
if(cKey < 0)
{
key = null;
}
else if(cKey == 0)
{
key = string.Empty;
}
else
{
key = Marshal.PtrToStringUni(pKey, cKey);
}
if(cVal < 0)
{
value = null;
}
else if(cVal == 0)
{
value = string.Empty;
}
else
{
value = Marshal.PtrToStringUni(pVal, cVal);
}
components.Add(new KeyValuePair<string, string>(key, value));
pDN = (IntPtr)(pDN.ToInt64() + UnicodeEncoding.CharSize); //skip over comma
cDN--;
}
else
{
throw new Win32Exception(lastError);
}
} while(cDN > 0);
return components;
}
finally
{
Marshal.FreeHGlobal(pDistinguishedName);
}
}
[DllImport("ntdsapi.dll", CharSet = CharSet.Unicode)]
protected static extern int DsQuoteRdnValueW(
int cUnquotedRdnValueLength,
string psUnquotedRdnValue,
ref int pcQuotedRdnValueLength,
IntPtr psQuotedRdnValue
);
public static string QuoteRDN(string rdn)
{
if (rdn == null) return null;
int initialLength = rdn.Length;
int quotedLength = 0;
IntPtr pQuotedRDN = IntPtr.Zero;
int lastError = DsQuoteRdnValueW(initialLength, rdn, ref quotedLength, pQuotedRDN);
switch (lastError)
{
case ERROR_SUCCESS:
{
return string.Empty;
}
case ERROR_BUFFER_OVERFLOW:
{
break; //continue
}
default:
{
throw new Win32Exception(lastError);
}
}
pQuotedRDN = Marshal.AllocHGlobal(quotedLength * UnicodeEncoding.CharSize);
try
{
lastError = DsQuoteRdnValueW(initialLength, rdn, ref quotedLength, pQuotedRDN);
switch(lastError)
{
case ERROR_SUCCESS:
{
return Marshal.PtrToStringUni(pQuotedRDN, quotedLength);
}
default:
{
throw new Win32Exception(lastError);
}
}
}
finally
{
if(pQuotedRDN != IntPtr.Zero)
{
Marshal.FreeHGlobal(pQuotedRDN);
}
}
}
[DllImport("ntdsapi.dll", CharSet = CharSet.Unicode)]
protected static extern int DsUnquoteRdnValueW(
int cQuotedRdnValueLength,
string psQuotedRdnValue,
ref int pcUnquotedRdnValueLength,
IntPtr psUnquotedRdnValue
);
public static string UnquoteRDN(string rdn)
{
if (rdn == null) return null;
int initialLength = rdn.Length;
int unquotedLength = 0;
IntPtr pUnquotedRDN = IntPtr.Zero;
int lastError = DsUnquoteRdnValueW(initialLength, rdn, ref unquotedLength, pUnquotedRDN);
switch (lastError)
{
case ERROR_SUCCESS:
{
return string.Empty;
}
case ERROR_BUFFER_OVERFLOW:
{
break; //continue
}
default:
{
throw new Win32Exception(lastError);
}
}
pUnquotedRDN = Marshal.AllocHGlobal(unquotedLength * UnicodeEncoding.CharSize);
try
{
lastError = DsUnquoteRdnValueW(initialLength, rdn, ref unquotedLength, pUnquotedRDN);
switch(lastError)
{
case ERROR_SUCCESS:
{
return Marshal.PtrToStringUni(pUnquotedRDN, unquotedLength);
}
default:
{
throw new Win32Exception(lastError);
}
}
}
finally
{
if(pUnquotedRDN != IntPtr.Zero)
{
Marshal.FreeHGlobal(pUnquotedRDN);
}
}
}
#endregion DN Parsing
}
public class DNComponent
{
public string Type { get; protected set; }
public string EscapedValue { get; protected set; }
public string UnescapedValue { get; protected set; }
public string WholeComponent { get; protected set; }
public DNComponent(string component, bool isEscaped)
{
string[] tokens = component.Split(new char[] { '=' }, 2);
setup(tokens[0], tokens[1], isEscaped);
}
public DNComponent(string key, string value, bool isEscaped)
{
setup(key, value, isEscaped);
}
private void setup(string key, string value, bool isEscaped)
{
Type = key;
if(isEscaped)
{
EscapedValue = value;
UnescapedValue = Win32LDAP.UnquoteRDN(value);
}
else
{
EscapedValue = Win32LDAP.QuoteRDN(value);
UnescapedValue = value;
}
WholeComponent = Type + "=" + EscapedValue;
}
public override bool Equals(object obj)
{
if (obj is DNComponent)
{
DNComponent dnObj = (DNComponent)obj;
return dnObj.WholeComponent.Equals(this.WholeComponent, StringComparison.CurrentCultureIgnoreCase);
}
return base.Equals(obj);
}
public override int GetHashCode()
{
return WholeComponent.GetHashCode();
}
}
public class DistinguishedName
{
public DNComponent[] Components
{
get
{
return components.ToArray();
}
}
private List<DNComponent> components;
private string cachedDN;
public DistinguishedName(string distinguishedName)
{
cachedDN = distinguishedName;
components = new List<DNComponent>();
foreach (KeyValuePair<string, string> kvp in Win32LDAP.ParseDN(distinguishedName))
{
components.Add(new DNComponent(kvp.Key, kvp.Value, true));
}
}
public DistinguishedName(IEnumerable<DNComponent> dnComponents)
{
components = new List<DNComponent>(dnComponents);
cachedDN = GetWholePath(",");
}
public bool Contains(DNComponent dnComponent)
{
return components.Contains(dnComponent);
}
public string GetDNSDomainName()
{
List<string> dcs = new List<string>();
foreach (DNComponent dnc in components)
{
if(dnc.Type.Equals("DC", StringComparison.CurrentCultureIgnoreCase))
{
dcs.Add(dnc.UnescapedValue);
}
}
return string.Join(".", dcs.ToArray());
}
public string GetDomainDN()
{
List<string> dcs = new List<string>();
foreach (DNComponent dnc in components)
{
if(dnc.Type.Equals("DC", StringComparison.CurrentCultureIgnoreCase))
{
dcs.Add(dnc.WholeComponent);
}
}
return string.Join(",", dcs.ToArray());
}
public string GetWholePath()
{
return GetWholePath(",");
}
public string GetWholePath(string separator)
{
List<string> parts = new List<string>();
foreach (DNComponent component in components)
{
parts.Add(component.WholeComponent);
}
return string.Join(separator, parts.ToArray());
}
public DistinguishedName GetParent()
{
if(components.Count == 1)
{
return null;
}
List<DNComponent> tempList = new List<DNComponent>(components);
tempList.RemoveAt(0);
return new DistinguishedName(tempList);
}
public override bool Equals(object obj)
{
if(obj is DistinguishedName)
{
DistinguishedName objDN = (DistinguishedName)obj;
if (this.Components.Length == objDN.Components.Length)
{
for (int i = 0; i < this.Components.Length; i++)
{
if (!this.Components[i].Equals(objDN.Components[i]))
{
return false;
}
}
return true;
}
return false;
}
return base.Equals(obj);
}
public override int GetHashCode()
{
return cachedDN.GetHashCode();
}
}
答案 3 :(得分:3)
应该有效
MyString = "OU=Level3,OU=Level2,OU=Level1,DC=domain,DC=com";
int count = Regex.Matches(MyString, "OU=").Count
答案 4 :(得分:3)
此扩展程序比正则表达式需要更少的资源。
public static int CountSubstring(this string text, string value)
{
int count = 0, minIndex = text.IndexOf(value, 0);
while (minIndex != -1)
{
minIndex = text.IndexOf(value, minIndex + value.Length);
count++;
}
return count;
}
用法:
MyString = "OU=Level3,OU=Level2,OU=Level1,DC=domain,DC=com";
int count = MyString.CountSubstring("OU=");
答案 5 :(得分:2)
int count = myString.Split(new []{','})
.Count(item => item.StartsWith(
"OU=", StringComparison.OrdinalIgnoreCase))
答案 6 :(得分:1)
以下是两个如何获得您正在寻找的结果的示例
var MyString = "OU=Level3,OU=Level2,OU=Level1,DC=domain,DC=com";
这个你会看到一个分离的值的列表,但它只有一个想法 表明使用String的拆分确实有效。
var split = MyString.Split(new string[] { "OU=", "," }, StringSplitOptions.RemoveEmptyEntries);
这个将拆分并仅将3个项目返回到List中,这样如果您不依赖于计数,您可以直观地验证它返回“OU =”的3个级别
var lstSplit = MyString.Split(new[] { ',' })
.Where(splitItem => splitItem.StartsWith(
"OU=", StringComparison.OrdinalIgnoreCase)).ToList();
答案 7 :(得分:0)
public static int CountOccurences(string needle, string haystack)
{
return (haystack.Length - haystack.Replace(needle, "").Length) / needle.Length;
}
将其与其他答案(正则表达式和“IndexOf”)进行基准比较,效果更快。