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mercury/browser/debugger_interface.m
Mark Brown 8e0eb72c15 Various improvements to mdb's interactive query mechanism. 
Estimated hours taken: 26

Implement the following improvements:
  - Pass mdb variable bindings to the interactive query processor,
    allowing queries to make use of live values.
  - Catch exceptions thrown by queries, rather than crashing mdb.
  - Write outputs using io.write_cc/3.
  - Don't output underscore variables, avoiding spurious warnings.
  - More protection of the user's namespace.
  - Updated the cleanup code.

browser/interactive_query.m:
    The interface now accepts corresponding lists of names and values,
    which are matched up with variables occurring in the queries.

    Replace the code generator with one that supports passing data
    to and from the query, and catching exceptions from the query.
    Pass the appropriate data at the time the query predicate is called.
    Distinguish between failure of the query and failure of the dynamic
    casts used to instantiate the query inputs.

    Use module qualifiers to avoid clashing with user imports. (Should the
    generated code use use_module, just in case?)

    Perform I/O, failure handling and exception handling in the caller
    instead of in the generated code. This is faster, more maintainable,
    and means that errors are caught earlier.

    Place source_file and line directives more carefully so as to ensure
    more consistent error messages, and to help distinguish errors in the
    template from errors in the query.

    Factor out the query command parser to avoid double maintenance.

browser/debugger_interface.m:
    Conform to above changes.

trace/mercury_trace_vars.[ch]:
    Export MR_trace_return_bindings, which constructs Mercury lists
    of the variable names and values in the current environment.

trace/mercury_trace_browse.c:
    Pass bindings from trace/mercury_trace_vars through to the interactive
    query processor.

tests/debugger/interactive.{m,inp,exp}:
    Update for changes to existing functionality. Additionally test the
    new functionality.

doc/user_guide.texi:
    Document the new behaviour.

NEWS:
    Announce the new behaviour.
2016-02-07 04:09:04 +11:00

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%-----------------------------------------------------------------------------%
% vim: ft=mercury ts=4 sw=4 et
%-----------------------------------------------------------------------------%
% Copyright (C) 1998-2001, 2003, 2005-2006, 2011 The University of Melbourne.
% This file may only be copied under the terms of the GNU Library General
% Public License - see the file COPYING.LIB in the Mercury distribution.
%-----------------------------------------------------------------------------%
%
% File: debugger_interface.m.
% Authors: fjh, jahier.
%
% Purpose:
% This module provide support routines needed by
% runtime/mercury_trace_external.c for interfacing to an external
% (in a different process) debugger, in particular an Opium-style debugger.
%
% This module corresponds to what is called the "Query Handler" in Opium.
%
%-----------------------------------------------------------------------------%
:- module mdb.debugger_interface.
:- interface.
% This module exports the following C functions:
% ML_DI_output_current_slots_user
% ML_DI_output_current_slots_comp
% ML_DI_output_current_vars
% ML_DI_output_current_nth_var
% ML_DI_output_current_live_var_names
% ML_DI_found_match_user
% ML_DI_found_match_comp
% ML_DI_read_request_from_socket
% These are used by trace/mercury_trace_external.c.
:- pred dummy_pred_to_avoid_warning_about_nothing_exported is det.
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- implementation.
:- import_module mdb.interactive_query.
:- import_module mdb.util.
:- import_module mdbcomp.
:- import_module mdbcomp.goal_path.
:- import_module mdbcomp.prim_data.
:- import_module io.
:- import_module list.
:- import_module require.
:- import_module univ.
dummy_pred_to_avoid_warning_about_nothing_exported.
% The stuff defined below is also defined in modules prog_data, hlds_data.
:- type arity == int.
:- type determinism == int.
% encoded as specified in ../runtime/mercury_stack_layout.h
% and ../compiler/stack_layout.m.
% Depending whether the Opium side is requesting for a user defined procedure
% or a compiler generated one, the event has not exactly the same structure.
% The differences between the two types of event are gathered in a forward_move
% slot of that type.
:- type pred_match
---> match_user_pred(
% match user-defined preds only
match(pred_or_func),
match(string) % declaration module name
)
; match_compiler_generated_pred(
% match compiler-generated preds only
match(string), % type name
match(string) % type module name
)
; match_any_pred.
% match either user-defined or compiler-generated preds
% This is known as "debugger_query" in the Opium documentation.
% The debugger_request type is used for request sent from the debugger process
% to the Mercury program being debugged. This type would need to be extended
% to handle spypoints, etc.
:- type debugger_request
---> hello_reply % yes, I'm here
; forward_move(
% A `forward_move' request instructs the debuggee
% to step forward until we reach a trace event
% which matches the specified attributes.
match(event_number),
match(call_number),
match(depth_number),
match(trace_port),
pred_match,
match(string), % definition module name
match(string), % pred name
match(arity),
match(int), % mode number
match(determinism),
match(list(univ)), % the arguments
% XXX we could provide better ways of
% matching on arguments
match(goal_path_string)
)
; current_slots
% A `current_slots' request instructs the debuggee to
% retrieve the attributes of the current trace
% event (except for argument slot) and report them
% to the debugger via the socket.
; current_vars
% A `current_vars' request instructs the debuggee to
% retrieve the list of values and the list of internal
% names of live variables of the current event and
% report it to the debugger via the socket.
% XXX should provide a way of getting
% just part of the arguments
% (to reduce unnecessary socket traffic)
; current_live_var_names
% A `current_live_var_names' request instructs the debuggee to
% retrieve the list of internal names of the currently
% live variables and a list of their corresponding types.
; current_nth_var(int)
% A 'current_nth_var' request instructs the debuggee to
% retrieve the specified live variable.
; abort_prog
% just abort the program
; no_trace
% stop tracing, and run the program to completion
; retry
% Restarts execution at the call port of the call
% corresponding to the current event
; stack
% Print the ancestors stack.
; nondet_stack
% Prints the contents of the fixed slots of the
% frames on the nondet stack.
; stack_regs
% Print the contents of the virtual machine registers
% that point to the det and nondet stacks.
; error(string)
% Something went wrong when trying to get the next request.
; query(imports)
% To type interactive queries.
; cc_query(imports)
% To type cc interactive queries.
; io_query(imports)
% To type interactive queries that perform io.
; mmc_options(options_string)
% Options to compile queries with.
; browse(string)
% To call the term browser.
; link_collect(string)
% Dynamically link the collect module with the current execution.
; collect
% Execute the collect command.
; current_grade
% Retrieve the grade the current execution has been compiled with.
; collect_arg_on
% Switch the argument collecting on (for collect request).
; collect_arg_off.
% Switch the argument collecting off (for collect request).
:- type event_number == int.
:- type call_number == int.
:- type depth_number == int.
% `match' is called "get status" in the Opium documentation.
% This type defines a unary predicate which determines whether
% or not a particular value will be selected.
:- type match(T)
---> nop % nop: value = -
; exact(T) % exact(X): value = X
; neg(T) % neg(X): value \= X
; list(list(T)) % list(L): list.member(value, L)
; interval(T,T). % interval(Low, High): Low =< X, X =< High
% The debugger_response type is used for response sent
% to the debugger process from the Mercury program being debugged.
:- type debugger_response
---> hello
% sending hello
% are you there?
; start
% start the synchronous communication with the debugger
; forward_move_match_found
; forward_move_match_not_found
% responses to forward_move
% responses to current
; current_slots_user(
% responses to current_slots for user event
event_number,
call_number,
depth_number,
trace_port,
pred_or_func,
string, % declaration module name
string, % definition module name
string, % pred name
arity,
int, % mode number
determinism,
goal_path_string,
line_number
)
; current_slots_comp(
% responses to current_slots for compiler generated event
event_number,
call_number,
depth_number,
trace_port,
string, % name type
string, % module type
string, % definition module
string, % pred name
arity,
int, % mode number
determinism,
goal_path_string,
line_number
)
% responses to current_vars
; current_vars(list(univ), list(string))
% responses to current_nth_var
; current_nth_var(univ)
% responses to current_live_var_names
; current_live_var_names(list(string), list(string))
% response sent when the last event is reached
; last_event
% responses to a successful browse request session
; browser_end
% responses to a successful mmc_option request
; mmc_option_ok
% responses to requests that proceeded successfully
; ok
% responses to requests that went wrong
; error(string)
% responses to stack
% The protocol between the debugger and the debuggee is described is
% trace/mercury_trace_external.c.
; level(int) % stack level
; proc(string, string, string, int, int) % compiler generated proc
; proc(string, string, int, int) % user generated proc
; def_module(string)
; detail(int, int, int)
; (pred)
; (func)
; det(string)
; end_stack
% responses to stack_regs
; stack_regs(int, int, int)
% responses to link_collect
; link_collect_succeeded
; link_collect_failed
% responses to collect
; collect_linked
; collect_not_linked
% responses to current_grade
; grade(string)
% responses to collect
%; collected(collected_type)
% This is commented out because collected_type is unknown at
% compile time since it is defined by users in the dynamically
% linked collect module.
% sent if the execution is not terminated after a collect request
; execution_continuing
% sent if the execution is terminated after a collect request
; execution_terminated
% responses to collect_arg_on
; collect_arg_on_ok
% responses to collect_arg_off
; collect_arg_off_ok.
%-----------------------------------------------------------------------------%
% send to the debugger (e.g. Opium) the wanted features.
% output_current_slots_user "ML_DI_output_current_slots_user":
% send to the debugger (e.g. Opium) the attributes of the current event
% except the list of arguments.
:- pragma foreign_export("C",
output_current_slots_user(in, in, in, in, in, in, in, in, in, in, in, in,
in, in, di, uo),
"ML_DI_output_current_slots_user").
:- pred output_current_slots_user(event_number::in, call_number::in,
depth_number::in, trace_port::in, pred_or_func::in,
/* declarated module name */ string::in,
/* definition module name */ string::in, /* pred name */ string::in,
arity::in, /* mode num */ int::in, determinism::in, goal_path_string::in,
line_number::in, io.output_stream::in, io::di, io::uo) is det.
output_current_slots_user(EventNumber, CallNumber, DepthNumber, Port,
PredOrFunc, DeclModuleName, DefModuleName, PredName, Arity, ModeNum,
Determinism, Path, LineNo, OutputStream, !IO) :-
CurrentTraceInfo = current_slots_user(EventNumber, CallNumber,
DepthNumber, Port, PredOrFunc, DeclModuleName, DefModuleName,
PredName, Arity, ModeNum, Determinism, Path, LineNo),
io.write(OutputStream, CurrentTraceInfo, !IO),
io.print(OutputStream, ".\n", !IO),
io.flush_output(OutputStream, !IO).
% output_current_slots_comp "ML_DI_output_current_slots_comp":
% send to the debugger (e.g. Opium) the attributes of the current event
% except the list of arguments.
:- pragma foreign_export("C",
output_current_slots_comp(in, in, in, in, in, in, in, in, in, in, in, in,
in, in, di, uo),
"ML_DI_output_current_slots_comp").
:- pred output_current_slots_comp(event_number::in, call_number::in,
depth_number::in, trace_port::in, /* name type */ string::in,
/* module type */ string::in, /* definition module */ string::in,
/* pred name */ string::in, arity::in, /* mode num */ int::in,
determinism::in, goal_path_string::in, line_number::in,
io.output_stream::in, io::di, io::uo) is det.
output_current_slots_comp(EventNumber, CallNumber, DepthNumber, Port,
NameType, ModuleType, DefModuleName, PredName, Arity,
ModeNum, Determinism, Path, LineNo, OutputStream, !IO) :-
CurrentTraceInfo = current_slots_comp(EventNumber, CallNumber,
DepthNumber, Port, NameType, ModuleType, DefModuleName,
PredName, Arity, ModeNum, Determinism, Path, LineNo),
io.write(OutputStream, CurrentTraceInfo, !IO),
io.print(OutputStream, ".\n", !IO),
io.flush_output(OutputStream, !IO).
% output_current_vars "ML_DI_output_current_vars":
% send to the debugger the list of the live variables of the current
% event.
:- pragma foreign_export("C", output_current_vars(in, in, in, di, uo),
"ML_DI_output_current_vars").
:- pred output_current_vars(list(univ)::in, list(string)::in,
io.output_stream::in, io::di, io::uo) is det.
output_current_vars(VarList, StringList, OutputStream, !IO) :-
CurrentTraceInfo = current_vars(VarList, StringList),
io.write(OutputStream, CurrentTraceInfo, !IO),
io.print(OutputStream, ".\n", !IO),
io.flush_output(OutputStream, !IO).
% output_current_nth_var "ML_DI_output_current_nth_var":
% send to the debugger the requested live variable of the current event.
:- pragma foreign_export("C", output_current_nth_var(in, in, di, uo),
"ML_DI_output_current_nth_var").
:- pred output_current_nth_var(univ::in, io.output_stream::in, io::di, io::uo)
is det.
output_current_nth_var(Var, OutputStream, !IO) :-
CurrentTraceInfo = current_nth_var(Var),
io.write(OutputStream, CurrentTraceInfo, !IO),
io.print(OutputStream, ".\n", !IO),
io.flush_output(OutputStream, !IO).
:- pragma foreign_export("C",
output_current_live_var_names(in, in, in, di, uo),
"ML_DI_output_current_live_var_names").
:- pred output_current_live_var_names(list(string)::in, list(string)::in,
io.output_stream::in, io::di, io::uo) is det.
output_current_live_var_names(LiveVarNameList, LiveVarTypeList, OutputStream,
!IO) :-
CurrentTraceInfo = current_live_var_names(LiveVarNameList,
LiveVarTypeList),
io.write(OutputStream, CurrentTraceInfo, !IO),
io.print(OutputStream, ".\n", !IO),
io.flush_output(OutputStream, !IO).
%-----------------------------------------------------------------------------%
:- pragma foreign_export("C", get_var_number(in) = out,
"ML_DI_get_var_number").
% This function is intended to retrieve the integer in
% "current_nth_var(int)" requests.
%
:- func get_var_number(debugger_request) = int.
get_var_number(DebuggerRequest) = VarNumber :-
( if DebuggerRequest = current_nth_var(Var) then
Var = VarNumber
else
unexpected($module, $pred, "not a current_nth_var request")
).
%-----------------------------------------------------------------------------%
:- pragma foreign_export("C",
found_match_user(in, in, in, in, in, in, in, in, in, in, in, in, in, in),
"ML_DI_found_match_user").
:- pred found_match_user(event_number::in, call_number::in, depth_number::in,
trace_port::in, pred_or_func::in, /* declarated module name */ string::in,
/* defined module name */ string::in, /* pred name */ string::in,
arity::in, /* mode num */ int::in, determinism::in,
/* the arguments */ list(univ)::in, goal_path_string::in,
debugger_request::in) is semidet.
found_match_user(EventNumber, CallNumber, DepthNumber, Port, PredOrFunc,
DeclModuleName, DefModuleName, PredName, Arity, ModeNum,
Determinism, Args, Path, DebuggerRequest) :-
% XXX We could provide better ways of matching on arguments.
( if
DebuggerRequest = forward_move(MatchEventNumber,
MatchCallNumber, MatchDepthNumber, MatchPort,
UserPredMatch, MatchDefModuleName, MatchPredName,
MatchArity, MatchModeNum, MatchDeterminism,
MatchArgs, MatchPath)
then
match(MatchEventNumber, EventNumber),
match(MatchCallNumber, CallNumber),
match(MatchDepthNumber, DepthNumber),
match(MatchPort, Port),
( if
UserPredMatch = match_user_pred(MatchPredOrFunc,
MatchDeclModuleName)
then
match(MatchPredOrFunc, PredOrFunc),
match(MatchDeclModuleName, DeclModuleName)
else
UserPredMatch = match_any_pred
),
match(MatchDefModuleName, DefModuleName),
match(MatchPredName, PredName),
match(MatchArity, Arity),
match(MatchModeNum, ModeNum),
match(MatchDeterminism, Determinism),
match(MatchArgs, Args),
match(MatchPath, Path)
else
unexpected($module, $pred, "forward_move expected")
).
% match(MatchPattern, Value) is true iff Value matches the specified
% pattern.
%
:- pred match(match(T)::in, T::in) is semidet.
match(nop, _).
match(exact(X), X).
match(neg(X), Y) :- X \= Y.
match(list(L), X) :- list.member(X, L).
match(interval(Low, High), X) :-
% X >= Low, X =< High
compare(LE, X, High),
( LE = (<) ; LE = (=) ),
compare(GE, X, Low),
( GE = (>) ; GE = (=) ).
:- pragma foreign_export("C",
found_match_comp(in, in, in, in, in, in, in, in, in, in, in, in, in, in),
"ML_DI_found_match_comp").
:- pred found_match_comp(event_number::in, call_number::in, depth_number::in,
trace_port::in, /* name type */ string::in, /* module type */ string::in,
/* definition module name */ string::in, /* pred name */ string::in,
arity::in, /* mode num */ int::in, determinism::in,
/* the arguments */ list(univ)::in, goal_path_string::in,
debugger_request::in) is semidet.
found_match_comp(EventNumber, CallNumber, DepthNumber, Port, NameType,
ModuleType, DefModuleName, PredName, Arity, ModeNum,
Determinism, Args, Path, DebuggerRequest) :-
% XXX We could provide better ways of matching on arguments.
( if
DebuggerRequest = forward_move(MatchEventNumber,
MatchCallNumber, MatchDepthNumber, MatchPort,
CompilerGeneratedPredMatch,
MatchDefModuleName, MatchPredName, MatchArity,
MatchModeNum, MatchDeterminism, MatchArgs, MatchPath)
then
match(MatchEventNumber, EventNumber),
match(MatchCallNumber, CallNumber),
match(MatchDepthNumber, DepthNumber),
match(MatchPort, Port),
( if
CompilerGeneratedPredMatch =
match_compiler_generated_pred(MatchNameType,
MatchModuleType)
then
match(MatchNameType, NameType),
match(MatchModuleType, ModuleType)
else
CompilerGeneratedPredMatch = match_any_pred
),
match(MatchDefModuleName, DefModuleName),
match(MatchPredName, PredName),
match(MatchArity, Arity),
match(MatchModeNum, ModeNum),
match(MatchDeterminism, Determinism),
match(MatchArgs, Args),
match(MatchPath, Path)
else
unexpected($module, $pred, "forward_move expected")
).
%-----------------------------------------------------------------------------%
:- pred read_request_from_socket(io.input_stream::in, debugger_request::out,
int::out, io::di, io::uo) is det.
:- pragma foreign_export("C",
read_request_from_socket(in, out, out, di, uo),
"ML_DI_read_request_from_socket").
read_request_from_socket(SocketStream, Request, RequestType, !IO) :-
io.read(SocketStream, MaybeRequest, !IO),
(
MaybeRequest = ok(Request0),
Request = Request0
;
MaybeRequest = error(ErrorMsg, _LineNum),
Request = error(ErrorMsg)
;
MaybeRequest = eof,
Request = error("end of file")
),
classify_request(Request, RequestType).
% debugging stuff.
% io.stderr_stream(StdErr, !IO),
% io.print(StdErr, "debugger_interface: Receive the Request:+", !IO),
% io.print(StdErr, Request, !IO),
% io.print(StdErr, "+ from opium\ndebugger_interface: RequestType = ", !IO),
% io.print(StdErr, RequestType, !IO),
% io.print(StdErr, ".\n", !IO).
%-----------------------------------------------------------------------------%
:- pred get_list_modules_to_import(debugger_request::in, int::out,
imports::out) is det.
:- pragma foreign_export("C", get_list_modules_to_import(in, out, out),
"ML_DI_get_list_modules_to_import").
get_list_modules_to_import(DebuggerRequest, ListLength, ModulesList) :-
( if DebuggerRequest = query(List) then
ModulesList = List
else if DebuggerRequest = cc_query(List) then
ModulesList = List
else if DebuggerRequest = io_query(List) then
ModulesList = List
else
unexpected($module, $pred, "not a query request")
),
length(ModulesList, ListLength).
%-----------------------------------------------------------------------------%
:- pred get_mmc_options(debugger_request::in, options_string::out) is det.
:- pragma foreign_export("C", get_mmc_options(in, out),
"ML_DI_get_mmc_options").
get_mmc_options(DebuggerRequest, Options) :-
( if DebuggerRequest = mmc_options(OptionsPrim) then
Options = OptionsPrim
else
unexpected($module, $pred, "not a mmc_options request")
).
%-----------------------------------------------------------------------------%
% This predicate allows mercury_trace_external.c to retrieve the name
% of the object file to link the current execution with from a
% `link_collect(ObjectFileName)' request.
%
:- pred get_object_file_name(debugger_request::in, string::out) is det.
:- pragma foreign_export("C", get_object_file_name(in, out),
"ML_DI_get_object_file_name").
get_object_file_name(DebuggerRequest, ObjectFileName) :-
( if DebuggerRequest = link_collect(ObjectFileNamePrime) then
ObjectFileName = ObjectFileNamePrime
else
unexpected($module, $pred, "not a link_collect request")
).
%-----------------------------------------------------------------------------%
:- pred init_mercury_string(string::out) is det.
:- pragma foreign_export("C", init_mercury_string(out),
"ML_DI_init_mercury_string").
init_mercury_string("").
%-----------------------------------------------------------------------------%
% This predicate allows mercury_trace_external.c to retrieve the name
% of the variable to browse from a `browse(var_name)' request.
%
:- pred get_variable_name(debugger_request::in, string::out) is det.
:- pragma foreign_export("C", get_variable_name(in, out),
"ML_DI_get_variable_name").
get_variable_name(DebuggerRequest, Options) :-
( if DebuggerRequest = browse(OptionsPrime) then
Options = OptionsPrime
else
unexpected($module, $pred, "not a browse request")
).
%------------------------------------------------------------------------------%
:- pred classify_request(debugger_request::in, int::out) is det.
% The numbers here should match the definition of
% MR_debugger_request_type in runtime/mercury_trace_external.c.
classify_request(hello_reply, 0).
classify_request(forward_move(_, _, _, _, _, _, _, _, _, _, _, _), 1).
classify_request(current_vars, 2).
classify_request(current_slots, 3).
classify_request(no_trace, 4).
classify_request(abort_prog, 5).
classify_request(error(_), 6).
classify_request(current_live_var_names, 7).
classify_request(current_nth_var(_), 8).
classify_request(retry, 9).
classify_request(stack, 10).
classify_request(nondet_stack, 11).
classify_request(stack_regs, 12).
classify_request(query(_),13).
classify_request(cc_query(_),14).
classify_request(io_query(_),15).
classify_request(mmc_options(_),16).
classify_request(browse(_),17).
classify_request(link_collect(_),18).
classify_request(collect,19).
classify_request(current_grade,20).
classify_request(collect_arg_on,21).
classify_request(collect_arg_off,22).
%-----------------------------------------------------------------------------%
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