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docs/debugger.pod - The Parrot Debugger
This document describes parrot_debugger, the Parrot Debugger.
Starting from version 0.0.6 Parrot has its own debugger, which is modeled after Perl's one. Its name is parrot_debugger, and is an interactive environment that let you step through bytecode, set breakpoints, evaluate assembly instructions and peek at the interpreter status.
A good (well, at least some) knowledge of the Parrot internals is obviously required to read this document. Some familiarity with debugging principles is also mandatory beyond this point.
The debugger is not built with Parrot, but you should make it with its specific target:
make parrot_debugger
(where make
is the same make
incarnation you used to build Parrot).
If everything goes well, you should come up with a parrot_debugger executable in the same directory as the Parrot program.
To start the debugger type:
parrot_debugger file.pbc
That is, parrot_debugger takes exactly one argument, which is the Parrot bytecode that you're going to debug. parrot_debugger will automatically load and disassemble the bytecode file for you.
Note that you can't pass command line arguments to your program when you invoke the debugger. See the run (r)
command below for this.
After the version banner, you'll see the friendly debugger prompt:
(pdb)
parrot_debugger is ready to receive commands and give output. To list the available commands type 'h'. To quit the debugger type 'q'.
As with the Perl debugger, whenever it halts and shows you a line of code, it is always the line it's about to execute, not the one that it has just executed.
Always remember that you can enter 'h' to get a list of commands (this document may be outdated in respect to the actual debugger, so let it speak for itself).
Most commands can be shortened to their first letter. When available, this is signaled by the letter in parentheses after the command name Thus, help (h)
means that the command can be given as 'help' or just 'h'. On the other hand, load
can only be given as 'load', verbatim. And the debugger is case sensitive.
A blank line always repeats the last command entered.
Also note that at this point in its development, parrot_debugger has very poor error checking on commands and their arguments, so type carefully or something bad will happen. Feel free to report bugs, or better yet patch the source code (see "FILES" below).
load
into proper Parrot assembler. load FILE
list [FROM] [NUM]
FROM
is from where the last list command ended (or the first line if this is the first invocation) and NUM
is 10. That is, it lists the source code ten lines at a time.L1 .. Ln
and opcodes are fully qualified (eg. set_i_ic
instead of just set
). See also eval (e)
. # lists the first three source code lines
(pdb) l 1 3
1 set_i_ic I1,0
2 L3: print_sc "fact of "
3 print_i I1
run [ARGUMENTS]
continue (c)
command. (pdb) r
Restarting
fact of 0 is: 1
fact of 1 is: 1
fact of 2 is: 2
fact of 3 is: 6
fact of 4 is: 24
fact of 5 is: 120
fact of 6 is: 720
Program exited.
b LINE [if CONDITION]
delete (d)
command (see below). # sets a breakpoint on line 10 (will be breakpoint 0)
(pdb) b 10
Breakpoint 0 at line 10
# another breakpoint on line 11 (will be breakpoint 1)
(pdb) b 11
Breakpoint 1 at line 11
# break at line 4 if I16 is less than or equal to 123456
(pdb) b 4 if I16 <= 123456
Breakpoint 2 at line 4
# break at line 4 if N27 is greater than 5.23
(pdb) b 5 if N27 > 5.23
Breakpoint 3 at line 5
# break at line 4 if S2 is equal to S13
(pdb) b 6 if S2 == S13
Breakpoint 4 at line 6
# break at line 4 if S5 is equal to "stop"
(pdb) b 7 if S2 == "stop"
Breakpoint 5 at line 7
w CONDITION
break
d NUM
NUM
argument is the breakpoint number (from 0 to N) as emitted by the break (b)
command. It is NOT the line that has the breakpoint. # delete the first breakpoint (was on line 10, see example above)
(pdb) d 0
delete
command. Disabled breakpoints can be re-enabled with enable
. enable [NUM]
NUM
is the number of the breakpoint. continue [NUM]
NUM
breakpoints it encounters.run (r)
to execute it again. next [NUM]
NUM
defaults to 1, but you can give a number of instructions to execute before stopping again. eval INSTRUCTION
(pdb) e set I0, 42
(pdb) e print I0
42
(pdb) p i
I0 = 42
I1 = 0
...
trace [NUM]
NUM
instructions (default is 1) just as next (n)
does, but printing additional trace information. This is the same as the information you get when running Parrot with the -t
option. # executes 2 instructions and trace them
(pdb) t 2
PC=0; OP=67 (set_i_ic); ARGS=(I1=0, 0)
PC=3; OP=24 (print_sc); ARGS=("fact of ")
fact of
3 print_i I1
print VALUE
VALUE
may be:I3
i
, n
, s
, or p
P0[1]
# prints the content of I2
(pdb) p i2
Integer Registers:
I2 = 0
# prints the content of P0
(pdb) p P0
PMC Registers:
P0 = [ResizablePMCArray]
# prints the content of all string registers
(pdb) p s
String Registers:
0 =
Buflen = 4
Flags = 0
Bufused = 4
Strlen = 4
Offset = 0
String = Just
1 =
Buflen = 8
Flags = 0
Bufused = 7
Strlen = 7
String = another
2 =
Buflen = 8
Flags = 0
Bufused = 6
Strlen = 6
String = Parrot
3 =
Buflen = 8
Flags = 0
Bufused = 6
Strlen = 6
String = hacker
4 =
5 =
6 =
7 =
8 =
# ... and so on
(pdb) info
Total memory allocated = 81936
DOD runs = 6
Collect runs = 0
Active PMCs = 8197
Active buffers = 7
Total PMCs = 21840
Total buffers = 48
Header allocations since last collect = 0
Memory allocations since last collect = 2
help [COMMAND]
COMMAND
is omitted, prints a list of the available commands.main
function.PDB_run_command
function and go down from there for the real meat.Parrot_debug
, the function which launches the debugger, is implemented here.
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