程序健壮性最基本要求就是程序错误的处理与捕捉,在ASP.NET中,错误的处理有和其他编程语言一样的机制,可以使用Try…Catch…Finally等方式,这一点和ASP相比具有较大的进步。而且,使用这些错误处理方法,可以大大提高程序的可读性和程序调试速度,在这几个优势结合的情况下,我们更加应该注意这一点。
关于错误的处理,我们可以参考这篇文章:
Try...Catch...Finally in ASP.NET
Introduction
Error handling in Classic ASP was not the best. We were having only limited options available for error handling in Classic ASP such as, "On Error Resume Next". In ASP 3.0 we saw the new ASP object called Error Object. But we were not able to handle all exception/errors efficiently. Now in ASP.NET we have a new error handling mechanism which was already their in other languages such as C, C++ and JAVA. We can also call the try...catch mechanism as "Exception Handling"
What is Try...Catch....Finally
This is a new error handling mechanism in VB.NET, so as in ASP.NET. Well we have three blocks of code, were each block has it own functionality. The Try...Catch...Finally block of code surrounds the code where an exception might occur. The simple Try statement comes before the block of code, the Catch block of code is where we specify what type of error to look for, and the Finally block of code is always executed and contains cleanup routines for exception situations. Since the catch block is specific to the type of error we want to catch, we will often use multiple Catch blocks in our Try...Catch...Finally structure.
A simple Database operation
Dim mySqlConnection as New SqlConnection (ConnectionString)
Dim mySqlCommand as SqlCommand
Dim strSql as String
strSql = "insert into yourtable (f1, f2) values ('f1', 'f2')"
mySqlCommand = new SqlCommand(strSql, mySqlConnection)
Try
mySqlConnection.Open()
mySqlCommand.ExecuteReader(CommandBehavior.CloseConnection)
Message.text = "New Forward information added"
Catch SQLexc as sqlexception
Message.text = Message.text + sqlexc.tostring()
Catch exc as exception
if Instr(1, exc.tostring, "duplicate key") > 0 then
Message.text = Message.text + "Cannot insert duplicate values."
else
Message.text = Message.text + exc.tostring()
end if
Finally
mySqlConnection.Close()
End Try
What does the above example exactly do?
Well, in the above example we were trying to insert some values to a database table. The possible chances while performing a database operation are invalid connection string, database server too busy resulting in connection time out, database server not currently running etc etc. We should anticipate all these errors while performing a database operation. So, we have a Try block, which contains the statements such as opening the connection and executing the operation. Basically, we have two major statements inside the try block which may result in an exception/error.
As I said, any exception can occur during a database operation. Catching all these exception is now very easy with the Catch block. All we need is to have a Catch block. We can have any number of Catch blocks. Each Catch block may have a different error/exception trapping mechanism. In the above example, we have two catch blocks, one which captures a general exception and the other one which traps the SqlException.
When all the statements inside the catch blocks are executed, the finally block comes into the picture. As I said earlier, finally block contains cleanup routines for exception situations.
Exit Try statement
We can also have the Exit Try statement inside any of the try...catch block. The objective of this statement is to break out of the Try or Catch block. Once the Exit Try statement is executed, the control goes to the Finally block. So, Exit Try statement can be best used were we need to execute the cleanup routines.
How about nested Try statments?
We can have nested Try and Catch blocks. Can you imagine, when we should use nested try statements. Well, errors can occur within the Catch portion of the Try structures, and cause further exception to occur. The ability to nest try structures is available so that we can use a second Try structure to cover exceptions.
Links
http://www.vbweb.co.uk/show/1889/2/ http://www.oreillynet.com/pub/a/dotnet/2001/09/04/error_handling.html?page=2
关于错误的处理,我们可以参考这篇文章:
Try...Catch...Finally in ASP.NET
Introduction
Error handling in Classic ASP was not the best. We were having only limited options available for error handling in Classic ASP such as, "On Error Resume Next". In ASP 3.0 we saw the new ASP object called Error Object. But we were not able to handle all exception/errors efficiently. Now in ASP.NET we have a new error handling mechanism which was already their in other languages such as C, C++ and JAVA. We can also call the try...catch mechanism as "Exception Handling"
What is Try...Catch....Finally
This is a new error handling mechanism in VB.NET, so as in ASP.NET. Well we have three blocks of code, were each block has it own functionality. The Try...Catch...Finally block of code surrounds the code where an exception might occur. The simple Try statement comes before the block of code, the Catch block of code is where we specify what type of error to look for, and the Finally block of code is always executed and contains cleanup routines for exception situations. Since the catch block is specific to the type of error we want to catch, we will often use multiple Catch blocks in our Try...Catch...Finally structure.
A simple Database operation
Dim mySqlConnection as New SqlConnection (ConnectionString)
Dim mySqlCommand as SqlCommand
Dim strSql as String
strSql = "insert into yourtable (f1, f2) values ('f1', 'f2')"
mySqlCommand = new SqlCommand(strSql, mySqlConnection)
Try
mySqlConnection.Open()
mySqlCommand.ExecuteReader(CommandBehavior.CloseConnection)
Message.text = "New Forward information added"
Catch SQLexc as sqlexception
Message.text = Message.text + sqlexc.tostring()
Catch exc as exception
if Instr(1, exc.tostring, "duplicate key") > 0 then
Message.text = Message.text + "Cannot insert duplicate values."
else
Message.text = Message.text + exc.tostring()
end if
Finally
mySqlConnection.Close()
End Try
What does the above example exactly do?
Well, in the above example we were trying to insert some values to a database table. The possible chances while performing a database operation are invalid connection string, database server too busy resulting in connection time out, database server not currently running etc etc. We should anticipate all these errors while performing a database operation. So, we have a Try block, which contains the statements such as opening the connection and executing the operation. Basically, we have two major statements inside the try block which may result in an exception/error.
As I said, any exception can occur during a database operation. Catching all these exception is now very easy with the Catch block. All we need is to have a Catch block. We can have any number of Catch blocks. Each Catch block may have a different error/exception trapping mechanism. In the above example, we have two catch blocks, one which captures a general exception and the other one which traps the SqlException.
When all the statements inside the catch blocks are executed, the finally block comes into the picture. As I said earlier, finally block contains cleanup routines for exception situations.
Exit Try statement
We can also have the Exit Try statement inside any of the try...catch block. The objective of this statement is to break out of the Try or Catch block. Once the Exit Try statement is executed, the control goes to the Finally block. So, Exit Try statement can be best used were we need to execute the cleanup routines.
How about nested Try statments?
We can have nested Try and Catch blocks. Can you imagine, when we should use nested try statements. Well, errors can occur within the Catch portion of the Try structures, and cause further exception to occur. The ability to nest try structures is available so that we can use a second Try structure to cover exceptions.
Links
http://www.vbweb.co.uk/show/1889/2/ http://www.oreillynet.com/pub/a/dotnet/2001/09/04/error_handling.html?page=2
免责声明:本站文章均来自网站采集或用户投稿,网站不提供任何软件下载或自行开发的软件!
如有用户或公司发现本站内容信息存在侵权行为,请邮件告知! 858582#qq.com
桃源资源网 Design By www.nqtax.com
暂无“asp.net 的错误处理机制讲解”评论...
RTX 5090要首发 性能要翻倍!三星展示GDDR7显存
三星在GTC上展示了专为下一代游戏GPU设计的GDDR7内存。
首次推出的GDDR7内存模块密度为16GB,每个模块容量为2GB。其速度预设为32 Gbps(PAM3),但也可以降至28 Gbps,以提高产量和初始阶段的整体性能和成本效益。
据三星表示,GDDR7内存的能效将提高20%,同时工作电压仅为1.1V,低于标准的1.2V。通过采用更新的封装材料和优化的电路设计,使得在高速运行时的发热量降低,GDDR7的热阻比GDDR6降低了70%。