Ops indicates which operations are of interest, and is a list of one or more of the following items:
When the trace triggers, depending on the operations being traced, a number of arguments are appended to command so that the actual command is as follows:
command oldName newName opOldName and newName give the traced command's current (old) name, and the name to which it is being renamed (the empty string if this is a 'delete' operation). Op indicates what operation is being performed on the command, and is one of rename or delete as defined above. The trace operation cannot be used to stop a command from being deleted. Tcl will always remove the command once the trace is complete. Recursive renaming or deleting will not cause further traces of the same type to be evaluated, so a delete trace which itself deletes the command, or a rename trace which itself renames the command will not cause further trace evaluations to occur. Both oldName and newName are fully qualified with any namespace(s) in which they appear.
Ops indicates which operations are of interest, and is a list of one or more of the following items:
When the trace triggers, depending on the operations being traced, a number of arguments are appended to command so that the actual command is as follows:
For enter and enterstep operations:
command command-string opCommand-string gives the complete current command being executed (the traced command for a enter operation, an arbitrary command for a enterstep operation), including all arguments in their fully expanded form. Op indicates what operation is being performed on the command execution, and is one of enter or enterstep as defined above. The trace operation can be used to stop the command from executing, by deleting the command in question. Of course when the command is subsequently executed, an 'invalid command' error will occur.
For leave and leavestep operations:
command command-string code result opCommand-string gives the complete current command being executed (the traced command for a enter operation, an arbitrary command for a enterstep operation), including all arguments in their fully expanded form. Code gives the result code of that execution, and result the result string. Op indicates what operation is being performed on the command execution, and is one of leave or leavestep as defined above. Note that the creation of many enterstep or leavestep traces can lead to unintuitive results, since the invoked commands from one trace can themselves lead to further command invocations for other traces.
Command executes in the same context as the code that invoked the traced operation: thus the command, if invoked from a procedure, will have access to the same local variables as code in the procedure. This context may be different than the context in which the trace was created. If command invokes a procedure (which it normally does) then the procedure will have to use upvar or uplevel commands if it wishes to access the local variables of the code which invoked the trace operation.
While command is executing during an execution trace, traces on name are temporarily disabled. This allows the command to execute name in its body without invoking any other traces again. If an error occurs while executing the command body, then the command name as a whole will return that same error.
When multiple traces are set on name, then for enter and enterstep operations, the traced commands are invoked in the reverse order of how the traces were originally created; and for leave and leavestep operations, the traced commands are invoked in the original order of creation.
The behavior of execution traces is currently undefined for a command name imported into another namespace.
Ops indicates which operations are of interest, and is a list of one or more of the following items:
When the trace triggers, three arguments are appended to command so that the actual command is as follows:
command name1 name2 opName1 and name2 give the name(s) for the variable being accessed: if the variable is a scalar then name1 gives the variable's name and name2 is an empty string; if the variable is an array element then name1 gives the name of the array and name2 gives the index into the array; if an entire array is being deleted and the trace was registered on the overall array, rather than a single element, then name1 gives the array name and name2 is an empty string. Name1 and name2 are not necessarily the same as the name used in the trace variable command: the upvar command allows a procedure to reference a variable under a different name. Op indicates what operation is being performed on the variable, and is one of read, write, or unset as defined above.
Command executes in the same context as the code that invoked the traced operation: if the variable was accessed as part of a Tcl procedure, then command will have access to the same local variables as code in the procedure. This context may be different than the context in which the trace was created. If command invokes a procedure (which it normally does) then the procedure will have to use upvar or uplevel if it wishes to access the traced variable. Note also that name1 may not necessarily be the same as the name used to set the trace on the variable; differences can occur if the access is made through a variable defined with the upvar command.
For read and write traces, command can modify the variable to affect the result of the traced operation. If command modifies the value of a variable during a read or write trace, then the new value will be returned as the result of the traced operation. The return value from command is ignored except that if it returns an error of any sort then the traced operation also returns an error with the same error message returned by the trace command (this mechanism can be used to implement read-only variables, for example). For write traces, command is invoked after the variable's value has been changed; it can write a new value into the variable to override the original value specified in the write operation. To implement read-only variables, command will have to restore the old value of the variable.
While command is executing during a read or write trace, traces on the variable are temporarily disabled. This means that reads and writes invoked by command will occur directly, without invoking command (or any other traces) again. However, if command unsets the variable then unset traces will be invoked.
When an unset trace is invoked, the variable has already been deleted: it will appear to be undefined with no traces. If an unset occurs because of a procedure return, then the trace will be invoked in the variable context of the procedure being returned to: the stack frame of the returning procedure will no longer exist. Traces are not disabled during unset traces, so if an unset trace command creates a new trace and accesses the variable, the trace will be invoked. Any errors in unset traces are ignored.
If there are multiple traces on a variable they are invoked in order of creation, most-recent first. If one trace returns an error, then no further traces are invoked for the variable. If an array element has a trace set, and there is also a trace set on the array as a whole, the trace on the overall array is invoked before the one on the element.
Once created, the trace remains in effect either until the trace is removed with the trace remove variable command described below, until the variable is unset, or until the interpreter is deleted. Unsetting an element of array will remove any traces on that element, but will not remove traces on the overall array.
This command returns an empty string.
For backwards compatibility, three other subcommands are available:
These subcommands are deprecated and will likely be removed in a future version of Tcl. They use an older syntax in which array, read, write, unset are replaced by a, r, w and u respectively, and the ops argument is not a list, but simply a string concatenation of the operations, such as rwua.
proc tracer {varname args} {
upvar #0 $varname var
puts "$varname was updated to be \"$var\""
}
trace add variable foo write "tracer foo"
trace add variable bar write "tracer bar"
Ensure that the global variable foobar always contains the product of the global variables foo and bar:
proc doMult args {
global foo bar foobar
set foobar [expr {$foo * $bar}]
}
trace add variable foo write doMult
trace add variable bar write doMult
Copyright © 1993 The Regents of the University of California. Copyright © 1994-1996 Sun Microsystems, Inc. Copyright © 2000 Ajuba Solutions. Copyright © 1995-1997 Roger E. Critchlow Jr.