Next: Functions In Python, Previous: Commands In Python, Up: Python API [Contents][Index]
You can implement new GDB parameters using Python. A new
parameter is implemented as an instance of the gdb.Parameter
class.
Parameters are exposed to the user via the set
and
show
commands. See Help.
There are many parameters that already exist and can be set in
GDB. Two examples are: set follow fork
and
set charset
. Setting these parameters influences certain
behavior in GDB. Similarly, you can define parameters that
can be used to influence behavior in custom Python scripts and commands.
The object initializer for Parameter
registers the new
parameter with GDB. This initializer is normally invoked
from the subclass’ own __init__
method.
name is the name of the new parameter. If name consists
of multiple words, then the initial words are looked for as prefix
parameters. An example of this can be illustrated with the
set print
set of parameters. If name is
print foo
, then print
will be searched as the prefix
parameter. In this case the parameter can subsequently be accessed in
GDB as set print foo
.
If name consists of multiple words, and no prefix parameter group can be found, an exception is raised.
command-class should be one of the ‘COMMAND_’ constants (see Commands In Python). This argument tells GDB how to categorize the new parameter in the help system.
parameter-class should be one of the ‘PARAM_’ constants defined below. This argument tells GDB the type of the new parameter; this information is used for input validation and completion.
If parameter-class is PARAM_ENUM
, then
enum-sequence must be a sequence of strings. These strings
represent the possible values for the parameter.
If parameter-class is not PARAM_ENUM
, then the presence
of a fourth argument will cause an exception to be thrown.
The help text for the new parameter is taken from the Python documentation string for the parameter’s class, if there is one. If there is no documentation string, a default value is used.
If this attribute exists, and is a string, then its value is used as
the help text for this parameter’s set
command. The value is
examined when Parameter.__init__
is invoked; subsequent changes
have no effect.
If this attribute exists, and is a string, then its value is used as
the help text for this parameter’s show
command. The value is
examined when Parameter.__init__
is invoked; subsequent changes
have no effect.
The value
attribute holds the underlying value of the
parameter. It can be read and assigned to just as any other
attribute. GDB does validation when assignments are made.
There are two methods that may be implemented in any Parameter
class. These are:
If this method exists, GDB will call it when a
parameter’s value has been changed via the set
API (for
example, set foo off). The value
attribute has already
been populated with the new value and may be used in output. This
method must return a string. If the returned string is not empty,
GDB will present it to the user.
If this method raises the gdb.GdbError
exception
(see Exception Handling), then GDB will print the
exception’s string and the set
command will fail. Note,
however, that the value
attribute will not be reset in this
case. So, if your parameter must validate values, it should store the
old value internally and reset the exposed value, like so:
class ExampleParam (gdb.Parameter): def __init__ (self, name): super (ExampleParam, self).__init__ (name, gdb.COMMAND_DATA, gdb.PARAM_BOOLEAN) self.value = True self.saved_value = True def validate(self): return False def get_set_string (self): if not self.validate(): self.value = self.saved_value raise gdb.GdbError('Failed to validate') self.saved_value = self.value
GDB will call this method when a parameter’s
show
API has been invoked (for example, show foo). The
argument svalue
receives the string representation of the
current value. This method must return a string.
When a new parameter is defined, its type must be specified. The
available types are represented by constants defined in the gdb
module:
gdb.PARAM_BOOLEAN
The value is a plain boolean. The Python boolean values, True
and False
are the only valid values.
gdb.PARAM_AUTO_BOOLEAN
The value has three possible states: true, false, and ‘auto’. In
Python, true and false are represented using boolean constants, and
‘auto’ is represented using None
.
gdb.PARAM_UINTEGER
The value is an unsigned integer. The value of 0 should be interpreted to mean “unlimited”.
gdb.PARAM_INTEGER
The value is a signed integer. The value of 0 should be interpreted to mean “unlimited”.
gdb.PARAM_STRING
The value is a string. When the user modifies the string, any escape sequences, such as ‘\t’, ‘\f’, and octal escapes, are translated into corresponding characters and encoded into the current host charset.
gdb.PARAM_STRING_NOESCAPE
The value is a string. When the user modifies the string, escapes are passed through untranslated.
gdb.PARAM_OPTIONAL_FILENAME
The value is a either a filename (a string), or None
.
gdb.PARAM_FILENAME
The value is a filename. This is just like
PARAM_STRING_NOESCAPE
, but uses file names for completion.
gdb.PARAM_ZINTEGER
The value is an integer. This is like PARAM_INTEGER
, except 0
is interpreted as itself.
gdb.PARAM_ZUINTEGER
The value is an unsigned integer. This is like PARAM_INTEGER
,
except 0 is interpreted as itself, and the value cannot be negative.
gdb.PARAM_ZUINTEGER_UNLIMITED
The value is a signed integer. This is like PARAM_ZUINTEGER
,
except the special value -1 should be interpreted to mean
“unlimited”. Other negative values are not allowed.
gdb.PARAM_ENUM
The value is a string, which must be one of a collection string constants provided when the parameter is created.
Next: Functions In Python, Previous: Commands In Python, Up: Python API [Contents][Index]