internal override SqlExpression VisitIn(SqlIn sin)
{
// Treat the IN as a series of binary comparison expressions (and coerce if necessary).
// Check to see if any expressions need to change as a result of coercion, where we start
// with "sin.Expression IN sin.Values" and coerced expressions are "test IN newValues".
SqlExpression test = sin.Expression;
bool requiresCoercion = false;
var newValues = new Collections.Generic.List <SqlExpression>(sin.Values.Count);
ProviderType valueType = null;
for (int i = 0, n = sin.Values.Count; i < n; i++)
{
SqlExpression value = sin.Values[i];
this.CoerceBinaryArgs(ref test, ref value);
if (value != sin.Values[i])
{
// Build up 'widest' type by repeatedly applying PredictType
valueType = null == valueType
? value.SqlType
: this.typeProvider.PredictTypeForBinary(SqlNodeType.EQ, value.SqlType, valueType);
requiresCoercion = true;
}
newValues.Add(value);
}
if (test != sin.Expression)
{
requiresCoercion = true;
}
if (requiresCoercion)
{
ProviderType providerType = this.typeProvider.PredictTypeForBinary(SqlNodeType.EQ, test.SqlType, valueType);
sin = new SqlIn(sin.ClrType, providerType, test, newValues, sin.SourceExpression);
}
return(sin);
}
public override bool IsValid(object value)
{
if (value == null)
{
return(true);
}
int MaxContentLength = 1024 * 1024 * 3; //3 MB
Collections.Generic.List <string> AllowedFileExtensions = new Collections.Generic.List <string> {
".jpg", ".gif", ".png"
};
var file = value as HttpPostedFileBase;
if (file == null)
{
return(false);
}
else if (!AllowedFileExtensions.Contains(file.FileName.ToLower().Substring(file.FileName.LastIndexOf('.'))))
{
ErrorMessage = "Accepts jpg, .png, .gif up to 3MB.";// + string.Join(", ", AllowedFileExtensions);
return(false);
}
else if (file.ContentLength > MaxContentLength)
{
ErrorMessage = "Your Photo is too large, maximum allowed size is : " + (MaxContentLength / 1024).ToString() + "MB";
return(false);
}
else
{
return(true);
}
}
public void ListBoxItemAccessibleObject_DataBoundAccessibleName()
{
// Regression test for https://github.com/dotnet/winforms/issues/3706
using var form = new Form
{
BindingContext = new BindingContext()
};
using var control = new ListBox
{
Parent = form,
DisplayMember = TestDataSources.PersonDisplayMember,
DataSource = TestDataSources.GetPersons()
};
ListBox.ListBoxAccessibleObject accessibleObject =
Assert.IsType <ListBox.ListBoxAccessibleObject>(control.AccessibilityObject);
Collections.Generic.List <Person> persons = TestDataSources.GetPersons();
Assert.Equal(persons.Count, accessibleObject.GetChildCount());
for (int i = 0; i < persons.Count; i++)
{
Person person = persons[i];
AccessibleObject itemAccessibleObject = accessibleObject.GetChild(i);
Assert.IsType <ListBox.ListBoxItemAccessibleObject>(itemAccessibleObject);
Assert.Equal(person.Name, itemAccessibleObject.Name);
}
Assert.False(control.IsHandleCreated);
}
public System.Collections.Generic.IEnumerable <MethodInfo> GetDeclaredMethods(string name)
{
System.Collections.Generic.List <MethodInfo> ls = new Collections.Generic.List <MethodInfo>();
foreach (MethodInfo mi in this.DeclaredMethods)
{
if (string.Equals(mi.Name, name, StringComparison.Ordinal))
{
ls.Add(mi);
}
}
return(ls);
}
/// <summary>
/// 扫描文件列表
/// </summary>
/// <param name="path">文件路径,支持*匹配,多个路径用分号隔开,参数无效时直接反回空列表。</param>
/// <param name="appPath">相对目录,默认为AppHelper.AppPath</param>
/// <returns>返回匹配到的文件列表,文件路径为绝对路径</returns>
public static System.Collections.Generic.List <string> Scan(string path, string appPath)
{
var list = new Collections.Generic.List <string>();
if (string.IsNullOrEmpty(appPath))
{
appPath = AppHelper.AppPath;
}
if (string.IsNullOrEmpty(path))
{
return(list);
}
string[] paths = path.Split(';', ';');
foreach (string p in paths)
{
if (string.IsNullOrEmpty(p))
{
continue;
}
if (p.IndexOf('*') > -1)
{
try {
list.AddRange(Directory.GetFiles(appPath, p, System.IO.SearchOption.TopDirectoryOnly));
} catch (System.IO.DirectoryNotFoundException) {
}
}
else
{
string p10;
if (p.IndexOf(':') == -1 && !p.StartsWith("~/"))
{
p10 = System.IO.Path.Combine(appPath, p);
}
else
{
p10 = AppHelper.MapPath(p);
}
if (!System.IO.File.Exists(p10))
{
continue;
}
list.Add(p10);
}
}
return(list);
}
public byte[] Execute(byte[] buffer)
{
stream.Write(buffer, 0, buffer.Length);
System.Collections.Generic.List <byte> lst = new Collections.Generic.List <byte>();
if (stream.CanRead)
{
byte[] buff = new byte[1024];
int n = 0;
do
{
n = stream.Read(buff, 0, buff.Length);
for (int i = 0; i < n; ++i)
{
lst.Add(buff[i]);
}
}while (stream.DataAvailable);
}
return(lst.ToArray());
}
/// <internalonly/>
/// <devdoc>
/// <para>Gets a collection of standard values for the reference data type.</para>
/// </devdoc>
public override StandardValuesCollection GetStandardValues(ITypeDescriptorContext context)
{
System.Collections.Generic.List <PropertyInfo> result = new Collections.Generic.List <PropertyInfo>();
if (context.Instance is System.Windows.Forms.Control)
{
System.Windows.Forms.Control tmp = (System.Windows.Forms.Control)context.Instance;
System.Windows.Forms.Form frm = null;
while (frm == null && tmp.Parent != null)
{
if (tmp.Parent is System.Windows.Forms.Form)
{
frm = (System.Windows.Forms.Form)tmp.Parent;
}
else
{
tmp = tmp.Parent;
}
}
if (frm != null && frm is HKLabs.form3)
{
HKLabs.form3 f3 = (HKLabs.form3)frm;
if (f3.AAA != null)
{
PropertyInfo[] p = f3.AAA.GetProperties();
foreach (PropertyInfo tmpP in p)
{
if (tmpP.CanWrite && tmpP.CanRead)
{
result.Add(tmpP);
}
}
}
}
}
result.Sort((p1, p2) =>
{
return(String.Compare(p1.Name, p2.Name, false, CultureInfo.InvariantCulture));
});
return(new StandardValuesCollection(result.ToArray()));
}
/// <internalonly/>
/// <devdoc>
/// <para>获取所有下拉列表项</para>
/// </devdoc>
public override StandardValuesCollection GetStandardValues(ITypeDescriptorContext context)
{
System.Collections.Generic.List <Type> result = new Collections.Generic.List <Type>();
Type[] t = Assembly.GetExecutingAssembly().GetTypes();
if (t != null)
{
for (int i = 0; i < t.Length; i++)
{
//if (t[i].BaseType.Name == typeof(HKLabs.Tabel).Name ||
// t[i].Name == typeof(HKLabs.Tabel).Name)
//{
result.Add(t[i]);
//}
}
}
result.Sort((itemName1, itemName2) =>
{
return(string.Compare(itemName1.Name, itemName2.Name, false, CultureInfo.InvariantCulture));
});
return(new StandardValuesCollection(result.ToArray()));
}
internal bool TryGetImplementedInterfaces(int ccwTemplateIndex, out IEnumerable <RuntimeTypeHandle> interfaces)
{
if (ccwTemplateIndex >= 0)
{
interfaces = new Collections.Generic.List <RuntimeTypeHandle>();
//
// Walk the interface list
//
interfaces = new ArraySegment <RuntimeTypeHandle>(
m_supportedInterfaceList,
m_ccwTemplateData[ccwTemplateIndex].SupportedInterfaceListBeginIndex,
m_ccwTemplateData[ccwTemplateIndex].NumberOfSupportedInterface
);
return(true);
}
interfaces = null;
return(false);
}
/// <summary>Canonicalizes the specified Access Control List.</summary>
/// <param name="acl">The Access Control List.</param>
public static void Canonicalize(this RawAcl acl)
{
if (acl == null)
{
throw new ArgumentNullException(nameof(acl));
}
// Extract aces to list
var aces = new Collections.Generic.List <GenericAce>(acl.Cast <GenericAce>());
// Sort aces based on canonical order
aces.Sort((a, b) => Collections.Generic.Comparer <byte> .Default.Compare(GetComparisonValue(a), GetComparisonValue(b)));
// Add sorted aces back to ACL
while (acl.Count > 0)
{
acl.RemoveAce(0);
}
var aceIndex = 0;
aces.ForEach(ace => acl.InsertAce(aceIndex++, ace));
}
void IVSMSDeployHost.UpdateDeploymentBaseOptions(VSMSDeployObject srcVsMsDeployobject, VSMSDeployObject destVsMsDeployobject)
{
Collections.Generic.List <string> enableSkipDirectiveList = MSDeployUtility.ConvertStringIntoList(EnableSkipDirective);
Collections.Generic.List <string> disableSkipDirectiveList = MSDeployUtility.ConvertStringIntoList(DisableSkipDirective);
MsDeploy.Utility.AddSkipDirectiveToBaseOptions(srcVsMsDeployobject.BaseOptions, null, enableSkipDirectiveList, disableSkipDirectiveList, Log);
MsDeploy.Utility.AddSkipDirectiveToBaseOptions(destVsMsDeployobject.BaseOptions, null, enableSkipDirectiveList, disableSkipDirectiveList, Log);
if (!string.IsNullOrEmpty(DeploymentTraceLevel))
{
Diagnostics.TraceLevel deploymentTraceEventLevel =
(Diagnostics.TraceLevel)System.Enum.Parse(typeof(Diagnostics.TraceLevel), DeploymentTraceLevel, true);
srcVsMsDeployobject.BaseOptions.TraceLevel = deploymentTraceEventLevel;
destVsMsDeployobject.BaseOptions.TraceLevel = deploymentTraceEventLevel;
}
MsDeploy.Utility.AddSetParametersFilesVsMsDeployObject(srcVsMsDeployobject, ImportSetParametersItems);
MsDeploy.Utility.AddSimpleSetParametersVsMsDeployObject(srcVsMsDeployobject, SimpleSetParameterItems, OptimisticParameterDefaultValue);
MsDeploy.Utility.AddSetParametersVsMsDeployObject(srcVsMsDeployobject, SetParameterItems, OptimisticParameterDefaultValue);
AddAdditionalProviderOptions(destVsMsDeployobject);
}
internal override SqlExpression VisitIn(SqlIn sin)
{
// Treat the IN as a series of binary comparison expressions (and coerce if necessary).
// Check to see if any expressions need to change as a result of coercion, where we start
// with "sin.Expression IN sin.Values" and coerced expressions are "test IN newValues".
SqlExpression test = sin.Expression;
bool requiresCoercion = false;
var newValues = new Collections.Generic.List<SqlExpression>(sin.Values.Count);
ProviderType valueType = null;
for(int i = 0, n = sin.Values.Count; i < n; i++)
{
SqlExpression value = sin.Values[i];
this.CoerceBinaryArgs(ref test, ref value);
if(value != sin.Values[i])
{
// Build up 'widest' type by repeatedly applying PredictType
valueType = null == valueType
? value.SqlType
: this.typeProvider.PredictTypeForBinary(SqlNodeType.EQ, value.SqlType, valueType);
requiresCoercion = true;
}
newValues.Add(value);
}
if(test != sin.Expression)
{
requiresCoercion = true;
}
if(requiresCoercion)
{
ProviderType providerType = this.typeProvider.PredictTypeForBinary(SqlNodeType.EQ, test.SqlType, valueType);
sin = new SqlIn(sin.ClrType, providerType, test, newValues, sin.SourceExpression);
}
return sin;
}