Commit edd079d9f6 exposed a pre-existing bug
in convert_doublest_to_floatformat. In the specific case of converting
a zero value to a floatformat using a "special" byteorder (i.e. neither
floatformat_little nor floatformat_big), the output buffer was actually
left uninitialized.
gdb/ChangeLog:
2017-11-03 Ulrich Weigand <uweigand@de.ibm.com>
* doublest.c (convert_doublest_to_floatformat): Fix uninitialized
output when converting a zero value to a special byteorder format.
I see the following test fail in gdb (configured --with-expat=no),
-list-thread-groups --available^M
&"warning: Can not parse XML OS data; XML support was disabled at compile time\n"^M
^error,msg="Can not fetch data now."^M
(gdb) ^M
FAIL: gdb.mi/list-thread-groups-available.exp: list available thread groups (unexpected output)
This patch skips it if XML parsing in GDB is disabled, like what you did
in gdb.mi/mi-info-os.exp.
gdb/testsuite:
2017-11-03 Yao Qi <yao.qi@linaro.org>
* gdb.mi/list-thread-groups-available.exp: Skip it if XML parsing
in GDB is disabled.
The address space is useless to readonly regcache, so this patch removes
the parameter to construct readonly regcache.
address_space was added in regcache by 6c95b8d, but for read-write
regcache. regcache::aspace is used for various breakpoint/watchpoint
checking, and these regcache are not read-only regcache.
gdb:
2017-11-02 Yao Qi <yao.qi@linaro.org>
* frame.c (do_frame_register_read): Remove aspace.
* jit.c (jit_frame_sniffer): Likwise.
* ppc-linux-tdep.c (ppu2spu_sniffer): Likewise.
* regcache.c (regcache::regcache): Pass nullptr.
(regcache_print): Caller updated.
* regcache.h (regcache::regcache): Remove one constructor
parameter aspace.
struct regcache_descr has fields nr_raw_registers and gdbarch, and
nr_raw_registers can be got via gdbarch_num_regs (gdbarch), so it looks
nr_raw_registers is redundant. This patch removes it and adds a protected
method num_raw_registers.
gdb:
2017-11-02 Yao Qi <yao.qi@linaro.org>
* regcache.c (struct regcache_descr) <nr_raw_registers>: Remove.
(init_regcache_descr): Use gdbarch_num_regs.
(regcache::regcache): Likewise.
(regcache::get_register_status): Likewise.
(regcache::assert_raw_regnum): Likewise.
(regcache::cooked_read): Likewise.
(regcache::cooked_read_value): Likewise.
(regcache::cooked_write): Likewise.
(regcache::dump): Likewise.
(regcache::num_raw_registers): New method.
* regcache.h (class regcache) <num_raw_registers>: New.
class regcache has some methods checking the range of register number,
this patch is to move it in a new method assert_regnum.
gdb:
2017-11-02 Yao Qi <yao.qi@linaro.org>
* regcache.c (regcache::assert_regnum): New method.
(regcache::invalidate): Call assert_regnum.
(regcache::raw_update): Likewise.
(regcache::raw_write): Likewise.
(regcache::raw_read_part): Likewise.
(regcache::raw_write_part): Likewise.
(regcache::raw_supply): Likewise.
(regcache::raw_supply_integer): Likewise.
(regcache::raw_supply_zeroed): Likewise.
(regcache::raw_collect): Likewise.
(regcache::raw_collect_integer): Likewise.
* regcache.h (regcache::assert_regnum): Declare.
These code wrapped by "#if 0" was added by af030b9a, which added the new
command to dump registers in 2002. The email didn't mention this either
https://sourceware.org/ml/gdb-patches/2002-08/msg00227.html It was there
for 15 years, and nobody needs it, so we can remove it.
gdb:
2017-11-02 Yao Qi <yao.qi@linaro.org>
* regcache.c (regcache::dump): Remove code.
struct regcache_descr has two fields sizeof_raw_register_status
and sizeof_cooked_register_status, but they equal to nr_cooked_registers
and nr_raw_registers respectively, so this patch removes them.
gdb:
2017-11-02 Yao Qi <yao.qi@linaro.org>
* regcache.c (struct regcache_descr) <sizeof_raw_register_status>:
Remove.
<sizeof_cooked_register_status>: Remove.
(init_regcache_descr): Update.
(regcache::regcache): Use nr_cooked_registers and nr_raw_registers.
(regcache::save): Likewise.
(regcache::dump): Likewise.
FT32B is a new FT32 family member.
This patch adds support for the compressed instructions to gdb and sim.
gdb/ChangeLog:
* ft32-tdep.c (ft32_fetch_instruction): New function.
(ft32_analyze_prologue): Use ft32_fetch_instruction().
sim/ChangeLog:
* ft32/interp.c (step_once): Add ft32 shortcode decoder.
As reported here
https://sourceware.org/ml/gdb/2017-10/msg00020.html
the output of certain commands, like backtrace, doesn't appear anywhere
when it is run as a breakpoint command and when using MI.
The reason is that the current_uiout is set to the mi_ui_out while these
commands run, whereas we want the output as CLI output. Some commands
like "print" work, because they use printf_filtered (gdb_stdout, ...)
directly, bypassing the current ui_out.
The fix I did is to force setting the cli_uiout as the current_uiout
when calling execute_control_command. I am not sure if this is the
right way to fix the problem, comments about the approach would be
appreciated.
I enhanced gdb.mi/mi-break.exp to test the backtrace command.
Regtested on the buildbot.
gdb/ChangeLog:
* cli/cli-script.c (execute_control_command): Rename to ...
(execute_control_command_1): ... this.
(execute_control_command): New function.
gdb/testsuite/ChangeLog:
* gdb.mi/mi-break.exp (test_breakpoint_commands): Test backtrace
as a breakpoint command.
We are passing a const char * to a const char * parameter, the
const_cast is not necessary.
gdb/ChangeLog:
* tracepoint.c (tfind_command): Remove const_cast.
'make tags' fails with the following error:
make[2]: Entering directory '/local-ssd/mgulick/gdb/git/binutils-gdb/gdb'
make[2]: *** No rule to make target 'gdb.h', needed by 'TAGS'. Stop.
make[2]: Leaving directory '/local-ssd/mgulick/gdb/git/binutils-gdb/gdb'
The file gdb/gdb.h was removed in commit
65630365f7.
gdb/ChangeLog:
2017-10-30 Mike Gulick <mgulick@mathworks.com>
* Makefile.in (HFILES_NO_SRCDIR): Remove reference to gdb.h.
When compiling with clang or gcc 8, we see warnings like this:
/home/emaisin/src/binutils-gdb/gdb/arm-tdep.c:10013:13: error: comparison of 0 <= unsigned expression is always true [-Werror,-Wtautological-compare]
if (0 <= insn_op1 && 3 >= insn_op1)
~ ^ ~~~~~~~~
/home/emaisin/src/binutils-gdb/gdb/arm-tdep.c:11722:20: error: comparison of unsigned expression >= 0 is always true [-Werror,-Wtautological-compare]
else if (opB >= 0 && opB <= 2)
~~~ ^ ~
This is because an unsigned integer (opB in this case) will always be >=
0. It is still useful to keep both bounds of the range in the
expression, even if one is at the edge of the data type range. This
patch introduces a utility function in_inclusive_range that gets rid of
the warning while conveying that we are checking for a range.
Tested by rebuilding.
gdb/ChangeLog:
* common/common-utils.h (in_inclusive_range): New function.
* arm-tdep.c (arm_record_extension_space): Use
in_inclusive_range.
(thumb_record_ld_st_reg_offset): Use in_inclusive_range.
* cris-tdep.c (cris_spec_reg_applicable): Use
in_inclusive_range.
Simplify the code a little bit using std::string + string_appendf.
gdb/ChangeLog:
2017-10-30 Pedro Alves <palves@redhat.com>
Simon Marchi <simon.marchi@ericsson.com>
* remote.c (remote_set_syscall_catchpoint): Build a std::string
instead of a gdb::unique_xmalloc_ptr, using string_appendf.
string_appendf is like string_printf, but instead of allocating a new
string, it appends to an existing string. This allows reusing a
std::string's memory buffer across several calls, for example.
gdb/ChangeLog:
2017-10-30 Pedro Alves <palves@redhat.com>
* common/common-utils.c (string_appendf, string_vappendf): New
functions.
* common/common-utils.h (string_appendf, string_vappendf): New
declarations.
* unittests/common-utils-selftests.c (string_appendf_func)
(test_appendf_func, string_vappendf_wrapper, string_appendf_tests)
(string_vappendf_tests): New functions.
(_initialize_common_utils_selftests): Register "string_appendf" and
"string_vappendf tests".
Merge the string_printf and string_vprintf tests, running them all
against both functions.
gdb/ChangeLog:
2017-10-30 Pedro Alves <palves@redhat.com>
* unittests/common-utils-selftests.c (format_func): New typedef.
(string_printf_tests, string_vprintf_tests): Tests factored out
and merged to ...
(test_format_func): ... this new function.
(string_printf_tests, string_vprintf_tests): Reimplement on top of
test_format_func.
gdb.h has been removed in
Eliminate catch_exceptions/catch_exceptions_with_msg
65630365f7
Remove the include in darwin-nat.c. Tested by rebuilding.
gdb/ChangeLog:
* darwin-nat.c: Remove include of gdb.h.
Fix:
In file included from /home/emaisin/src/binutils-gdb/gdb/xtensa-linux-nat.c:46:0:
/home/emaisin/src/binutils-gdb/gdb/xtensa-xtregs.c:37:1: error: ISO C++ forbids converting a string constant to 'char*' [-Werror=write-strings]
};
^
gdb/ChangeLog:
* xtensa-xtregs.c (xtensa_regtable_t) <name>: Constify.
thpy_get_inferior function should return a new reference to the
existing inferior object, and therefore should increment its refcount.
Fixed bug looks like this.
If multiple time call gdb.selected_thread ().inferior, gdb throws exception:
(gdb) pi gdb.selected_thread().inferior
<gdb.Inferior object at 0x7f1952bea698>
(gdb) pi gdb.selected_thread().inferior
Python Exception <type 'exceptions.AttributeError'> 'NoneType' object
has no attribute 'inferior':
Error while executing Python code.
(gdb) info threads
Id Target Id Frame
* 1 Thread 0x7f54f0474740 (LWP 584) "mc" 0x00007f54ef055c33 in
Replace it with for_each_thread. While at it, we can inline the
callback code. One little change is that I am using the
prev_general_thread variable instead of current_gen_ptid, since they
should have the same value.
gdb/gdbserver/ChangeLog:
* target.c (struct thread_search): Remove.
(thread_search_callback): Remove.
(prepare_to_access_memory): Use for_each_thread instead of
find_inferior. Inline code from thread_search_callback.
Change find_inferior with find_thread. Since we can now pass arguments
directly instead of through a void pointer, we don't need the
visit_actioned_threads_data structure anymore.
gdb/gdbserver/ChangeLog:
* server.c (struct visit_actioned_threads_data): Remove.
(visit_actioned_threads): Change prototype to take arguments
directly.
(resume): Use find_thread instead of find_inferior.
Replace one with find_thread, the other with for_each_thread.
gdb/gdbserver/ChangeLog:
* server.c (queue_stop_reply_callback): Change prototype, return
void.
(find_status_pending_thread_callback): Remove.
(handle_status): Replace find_inferior with find_thread and
for_each_thread.
Fix this, when building with clang:
/home/emaisin/src/binutils-gdb/gdb/unittests/common-utils-selftests.c:50:40: error: format string is not a string literal [-Werror,-Wformat-nonliteral]
std::string result = string_vprintf (fmt, vp);
^~~
gdb/ChangeLog:
* unittests/common-utils-selftests.c (format): Add
ATTRIBUTE_PRINTF.
This patch C++ifies the structures in xml-syscall.c, by using
std::vector instead of VEC, and std::string instead of char*.
Using a unique_ptr in syscall_parse_xml allows to remove a cleanup.
Something that seems strange with the existing code, if you look at
syscalls_info_free_syscalls_desc and
syscalls_info_free_syscall_group_desc, they free the structure elements
(the strings and vectors), but they don't free the syscall_desc and
syscall_group_desc structure themselves. I don't see anything freeing
those currently. Any idea why? According to the comment above
syscalls_info_free_syscall_group_desc, it kinda looks like it's on
purpose. With this patch, those structures are deleted when the vector
that contains them gets deleted.
The only time I'm aware a syscalls_info structure gets deleted is in the
case the data directory changes during runtime, in init_syscalls_info.
If tried that use case (including under valgrind):
(gdb) catch syscall
(gdb) set data-directory another-data-directory
(gdb) catch syscall
I confirmed that the syscalls_info structure got deleted and recreated,
and everything seemed fine.
Regtested on the buildbot.
gdb/ChangeLog:
* xml-syscall.c (struct syscall_desc): Add constructor.
<name>: Change type to std::string.
(syscall_desc_up): New typedef.
(syscall_desc_p): Remove typeder.
(DEF_VEC_P(syscall_desc_p)): Remove.
(struct syscall_group_desc): Add constructor.
<name>: Change type to std::string.
<syscalls>: Change type to std::vector.
(syscall_group_desc_up): New typedef.
(syscall_group_desc_p): Remove typedef.
(DEF_VEC_P(syscall_group_desc_p)): Remove.
(struct syscalls_info) <syscalls>: Change type to std::vector of
unique_ptr.
<groups>: Likewise.
<my_gdb_datadir>: Change type to std::string.
(syscalls_info_up): New typedef.
(allocate_syscalls_info): Remove.
(syscalls_info_free_syscalls_desc): Remove.
(syscalls_info_free_syscall_group_desc): Remove.
(free_syscalls_info): Remove.
(make_cleanup_free_syscalls_info): Remove.
(syscall_group_create_syscall_group_desc): Adjust.
(syscall_group_add_syscall): Adjust.
(syscall_create_syscall_desc): Adjust.
(syscall_parse_xml): Adjust, use unique_ptr instead of cleanup.
(init_syscalls_info): Adjust.
(syscall_group_get_group_by_name): Adjust.
(xml_get_syscall_number): Adjust.
(xml_get_syscall_name): Adjust.
(xml_list_of_syscalls): Adjust.
(xml_list_syscalls_by_group): Adjust.
(xml_list_of_groups): Adjust.
Allocate with new and free with delete. This allows using an
std::vector in the following patch.
I renamed free_breakpoint_probes to free_breakpoint_objfile_data,
because it now doesn't only free the probes vector, but also the
breakpoint_objfile_data structure itself.
gdb/ChangeLog:
* breakpoint.c (breakpoint_objfile_data): Initialize fields.
(get_breakpoint_objfile_data): Allocate breakpoint_objfile_data
with new.
(free_breakpoint_probes): Rename to ...
(free_breakpoint_objfile_data): ... this, and call delete on
bp_objfile_data..
Direct replacement with std::vector. This allows removing a cleanup as
well.
Regtested on the buildbot.
gdb/ChangeLog:
* auto-load.c: Don't include gdb_vecs.h, include algorithm.
(loaded_script_ptr): Remove typedef.
(DEF_VEC_P (loaded_script_ptr)): Remove.
(struct collect_matching_scripts_data): Add constructor.
<scripts_p>: Change type to (pointer to) std::vector.
(collect_matching_scripts_data): Adjust.
(sort_scripts_by_name): Make suitable for std::sort.
(print_scripts): Don't sort vector, adjust to std::vector.
(auto_load_info_scripts): Sort vectors, adjust to std::vector.
This patch removes VEC(filename_language), replacing its usage with
std::vector. filename_language::ext is changed to an std::string at the
same time.
Regtested on the buildbot.
gdb/ChangeLog:
* symfile.c (filename_language): Make struct, not typedef. Add
constructor.
<ext>: Change type to std::string.
(DEF_VEC_O (filename_language)): Remove.
(filename_language_table): Change type to std::vector.
(add_filename_language): Adjust.
(set_ext_lang_command): Adjust.
(info_ext_lang_command): Adjust.
(deduce_language_from_filename): Adjust.
(class scoped_restore_filename_language_table): Remove.
(test_filename_language): Use scoped_restore.
(test_set_ext_lang_command): Use scoped_restore, adjust to
std::vector change.
The next patch touches the filename_language area, but I noticed there
is no test exercising that. This patch adds some selftests for
add_filename_language, deduce_language_from_filename and
set_ext_lang_command. Because these tests add entries to the global
filename_language_table vector, it is not possible to run them
successfully multiple times in a same GDB instance. They can
potentially interfere with each other for the same reason. I therefore
added the scoped_restore_filename_language_table class that is used to
make sure tests leave that global vector in the same state they found it
(it is replaced in the following patch by a simple scoped_restore).
gdb/ChangeLog:
* symfile.c: Include selftest.h.
(class scoped_restore_filename_language_table): New.
(test_filename_language): New test.
(test_set_ext_lang_command): New test.
(_initialize_symfile): Register tests.
Currently, "info break" can show some (perhaps) unexpected results when
setting a breakpoint on an inlined function:
(gdb) list
1 #include <stdio.h>
2
3 static inline void foo()
4 {
5 printf("Hello world\n");
6 }
7
8 int main()
9 {
10 foo();
11 return 0;
12 }
13
(gdb) b foo
Breakpoint 1 at 0x400434: file foo.c, line 5.
(gdb) i b
Num Type Disp Enb Address What
1 breakpoint keep y 0x0000000000400434 in main at foo.c:5
GDB reported that we understood what "foo" was, but we then report that the
breakpoint is actually set in main. While that is literally true, we can
do a little better.
This is accomplished by copying the symbol for which the breakpoint was set
into the bp_location. From there, print_breakpoint_location can use this
information to print out symbol information (if available) instead of calling
find_pc_sect_function.
With the patch installed,
(gdb) i b
Num Type Disp Enb Address What
1 breakpoint keep y 0x0000000000400434 in foo at foo.c:5
gdb/ChangeLog:
* breakpoint.c (print_breakpoint_location): Use the symbol saved
in the bp_location, falling back to find_pc_sect_function when
needed.
(add_location_to_breakpoint): Save sal->symbol.
* breakpoint.h (struct bp_location) <symbol>: New field.
* symtab.c (find_function_start_sal): Save the symbol into the SaL.
* symtab.h (struct symtab_and_line) <symbol>: New field.
gdb/testsuite/ChangeLog:
* gdb.opt/inline-break.exp (break_info_1): New procedure.
Test "info break" for every inlined function breakpoint.
LR is a caller-save register, so, if inline asm does BL (which touches
LR), we should mark LR clobbered.
gdb/testsuite:
2017-10-27 Yao Qi <yao.qi@linaro.org>
* gdb.arch/insn-reloc.c (can_relocate_bl): Mark "x30" clobbered.
Recursion detection for static members was broken. The implementation
uses a growing (and shrinking) obstack object to simulate a stack of
addresses (CORE_ADDR). Pushing addresses is implemented by calling
obstack_grow(), while popping is implemented by calling obstack_free().
The latter is problematic because obstack_free() expects a pointer to
the base of an object. When popping elements of the stack however,
obstack_free() was called with the new top, which potentially is not the
same as the base of the stack. This is unintended use and the effect is
that obstack->next_free and obstack->object_base members are assigned
the value of the new top, which equals an empty stack. Summary: popping
elements would always result in an empty stack, which breaks the
recursion detection.
The fix shrinks the stack using obstack_blank_fast() with a negative
value as described at the bottom of this page:
https://gcc.gnu.org/onlinedocs/libiberty/Extra-Fast-Growing.html "You
can use obstack_blank_fast with a “negative” size argument to make the
current object smaller. Just don’t try to shrink it beyond zero
length—there’s no telling what will happen if you do that. Earlier
versions of obstacks allowed you to use obstack_blank to shrink objects.
This will no longer work."
The reproducer is added to gdb.cp/classes.exp, which fails without this
patch.
gdb/ChangeLog:
* cp-valprint.c (cp_print_value_fields): Use obstack_blank_fast
to rewind obstack.
gdb/testsuite/ChangeLog:
* gdb.cp/classes.exp (test_static_members): Test printing
Outer::instance.
* gdb.cp/classes.c (struct Inner, struct Outer): New.
(Inner::instance, Outer::instance): New.
remote.c:remote_async_terminal_ours_p stopped being useful after
048094accc ("target remote: Don't rely on immediate_quit (introduce
quit handlers)") and commit 41fd2b0f5d ("Make input_fd be per UI"),
which turned remote's terminal_inferior/ours methods into nops.
gdb/ChangeLog:
2017-10-26 Pedro Alves <palves@redhat.com>
* remote.c (remote_async_terminal_ours_p): Delete.
(remote_open_1, remote_terminal_inferior, remote_terminal_ours):
Remove references to 'remote_async_terminal_ours_p'.
There is no regular_breakpoint_inserted_here_p definition at all, so
this patch removes the declaration.
gdb:
2017-10-26 Yao Qi <yao.qi@linaro.org>
* breakpoint.h (regular_breakpoint_inserted_here_p): Remove.
When parsing floating-point literals, the language parsers currently
use parse_float or some equivalent routine to parse the input string
into a DOUBLEST, which is then stored within a OP_DOUBLE expression
node. When evaluating the expression, the OP_DOUBLE is finally
converted into a value in target format.
On the other hand, *decimal* floating-point literals are parsed
directly into target format and stored that way in a OP_DECFLOAT
expression node. In order to eliminate the DOUBLEST, this patch
therefore unifies the handling of binary and decimal floating-
point literals and stores them both in target format within a
new OP_FLOAT expression node, replacing both OP_DOUBLE and
OP_DECFLOAT.
In order to store literals in target format, the parse_float
routine needs to know the type of the literal. All parsers
therefore need to be changed to determine the appropriate type
(e.g. by detecting suffixes) *before* calling parse_float,
instead of after it as today. However, this change is mostly
straightforward -- again, this is already done for decimal FP
today.
The core of the literal parsing is moved into a new routine
floatformat_from_string, mirroring floatformat_to_string.
The parse_float routine now calls either floatformat_from_string
or decimal_from_sting, allowing it to handle any type of FP
literal.
All language parsers need to be updated. Some notes on
specific changes to the various languages:
- C: Decimal FP is now handled in parse_float, and no longer
needs to be handled specially.
- D: Straightforward.
- Fortran: Still used a hard-coded "atof", also replaced by
parse_float now. Continues to always use builtin_real_s8
as the type of literal, even though this is probably wrong.
- Go: This used to handle "f" and "l" suffixes, even though
the Go language actually doesn't support those. I kept this
support for now -- maybe revisit later. Note the the GDB
test suite for some reason actually *verifies* that GDB supports
those unsupported suffixes ...
- Pascal: Likewise -- this handles suffixes that are not
supported in the language standard.
- Modula-2: Like Fortran, used to use "atof".
- Rust: Mostly straightforward, except for a unit-testing hitch.
The code use to set a special "unit_testing" flag which would
cause "rust_type" to always return NULL. This makes it not
possible to encode a literal into target format (which type?).
The reason for this flag appears to have been that during
unit testing, there is no "rust_parser" context set up, which
means no "gdbarch" is available to use its types. To fix this,
I removed the unit_testing flag, and instead simply just set up
a dummy rust_parser context during unit testing.
- Ada: This used to check sizeof (DOUBLEST) to determine which
type to use for floating-point literal. This seems questionable
to begin with (since DOUBLEST is quite unrelated to target formats),
and in any case we need to get rid of DOUBLEST. I'm now simply
always using the largest type (builtin_long_double).
gdb/ChangeLog:
2017-10-25 Ulrich Weigand <uweigand@de.ibm.com>
* doublest.c (floatformat_from_string): New function.
* doublest.h (floatformat_from_string): Add prototype.
* std-operator.def (OP_DOUBLE, OP_DECFLOAT): Remove, replace by ...
(OP_FLOAT): ... this.
* expression.h: Do not include "doublest.h".
(union exp_element): Replace doubleconst and decfloatconst by
new element floatconst.
* ada-lang.c (resolve_subexp): Handle OP_FLOAT instead of OP_DOUBLE.
(ada_evaluate_subexp): Likewise.
* eval.c (evaluate_subexp_standard): Handle OP_FLOAT instead of
OP_DOUBLE and OP_DECFLOAT.
* expprint.c (print_subexp_standard): Likewise.
(dump_subexp_body_standard): Likewise.
* breakpoint.c (watchpoint_exp_is_const): Likewise.
* parse.c: Include "dfp.h".
(write_exp_elt_dblcst, write_exp_elt_decfloatcst): Remove.
(write_exp_elt_floatcst): New function.
(operator_length_standard): Handle OP_FLOAT instead of OP_DOUBLE
and OP_DECFLOAT.
(operator_check_standard): Likewise.
(parse_float): Do not accept suffix. Take type as input. Return bool.
Return target format buffer instead of host DOUBLEST.
Use floatformat_from_string and decimal_from_string to parse
either binary or decimal floating-point types.
(parse_c_float): Remove.
* parser-defs.h: Do not include "doublest.h".
(write_exp_elt_dblcst, write_exp_elt_decfloatcst): Remove.
(write_exp_elt_floatcst): Add prototype.
(parse_float): Update prototype.
(parse_c_float): Remove.
* c-exp.y: Do not include "dfp.h".
(typed_val_float): Use byte buffer instead of DOUBLEST.
(typed_val_decfloat): Remove.
(DECFLOAT): Remove.
(FLOAT): Use OP_FLOAT and write_exp_elt_floatcst.
(parse_number): Update to new parse_float interface.
Parse suffixes and determine type before calling parse_float.
Handle decimal and binary FP types the same way.
* d-exp.y (typed_val_float): Use byte buffer instead of DOUBLEST.
(FLOAT_LITERAL): Use OP_FLOAT and write_exp_elt_floatcst.
(parse_number): Update to new parse_float interface.
Parse suffixes and determine type before calling parse_float.
* f-exp.y: Replace dval by typed_val_float.
(FLOAT): Use OP_FLOAT and write_exp_elt_floatcst.
(parse_number): Use parse_float instead of atof.
* go-exp.y (typed_val_float): Use byte buffer instead of DOUBLEST.
(parse_go_float): Remove.
(FLOAT): Use OP_FLOAT and write_exp_elt_floatcst.
(parse_number): Call parse_float instead of parse_go_float.
Parse suffixes and determine type before calling parse_float.
* p-exp.y (typed_val_float): Use byte buffer instead of DOUBLEST.
(FLOAT): Use OP_FLOAT and write_exp_elt_floatcst.
(parse_number): Update to new parse_float interface.
Parse suffixes and determine type before calling parse_float.
* m2-exp.y: Replace dval by byte buffer val.
(FLOAT): Use OP_FLOAT and write_exp_elt_floatcst.
(parse_number): Call parse_float instead of atof.
* rust-exp.y (typed_val_float): Use byte buffer instead of DOUBLEST.
(lex_number): Call parse_float instead of strtod.
(ast_dliteral): Use OP_FLOAT instead of OP_DOUBLE.
(convert_ast_to_expression): Handle OP_FLOAT instead of OP_DOUBLE.
Use write_exp_elt_floatcst.
(unit_testing): Remove static variable.
(rust_type): Do not check unit_testing.
(rust_lex_tests): Do not set uint_testing. Set up dummy rust_parser.
* ada-exp.y (type_float, type_double): Remove.
(typed_val_float): Use byte buffer instead of DOUBLEST.
(FLOAT): Use OP_FLOAT and write_exp_elt_floatcst.
* ada-lex.l (processReal): Use parse_float instead of sscanf.
I noticed gdb.base/new-ui.exp failing once here with:
FAIL: gdb.base/new-ui.exp: do_test: delete all breakpoints on extra console (got interactive prompt)
FAIL: gdb.base/new-ui.exp: do_test: main console: next causes no spurious output on other console
FAIL: gdb.base/new-ui.exp: do_test: main console: breakpoint hit reported on other console
The problem is 100% reproducible with check-read1:
$ make check-read1 TESTS="gdb.*/new-ui.exp"
testsuite/gdb.log shows:
delete
Delete all breakpoints? (y or n) [answered Y; input not from terminal]
(gdb) FAIL: gdb.base/new-ui.exp: do_test: delete all breakpoints on extra console (got interactive prompt)
This commit fixes the problem.
gdb/testsuite/ChangeLog:
2017-10-24 Pedro Alves <palves@redhat.com>
* gdb.base/new-ui.exp (do_test): Split "delete all breakpoints on
extra console" test in two stages.
A few tdep files use target-specific printing routines to output values in
the floating-point registers. To get rid of host floating-point code,
this patch changes them to use floatformat_to_string instead.
No functional change intended, the resulting output should look the same.
ChangeLog:
2017-10-24 Ulrich Weigand <uweigand@de.ibm.com>
* i387-tdep.c (print_i387_value): Use floatformat_to_string.
* sh64-tdep.c (sh64_do_fp_register): Likewise.
* mips-tdep.c (mips_print_fp_register): Likewise.
This patch adds support for handling format strings to both
floatformat_to_string and decimal_to_string, and then uses
those routines to implement ui_printf formatted printing.
There is already a subroutine printf_decfloat that ui_printf uses to
handle decimal FP. This is renamed to printf_floating and updated
to handle both binary and decimal FP. This includes the following
set of changes:
- printf_decfloat currently parses the format string again to determine
the intended target format. This seems superfluous since the common
parsing code in parse_format_string already did this, but then did
not pass the result on to its users. Fixed by splitting the decfloat_arg
argument class into three distinct classes, and passing them through.
- Now we can rename printf_decfloat to printf_floating and also call it
for the argument classes representing binary FP types.
- The code will now use the argclass to detect the type the value should
be printed at, and converts the input value to this type if necessary.
To remain compatible with current behavior, for binary FP the code
instead tries to re-interpret the input value as a FP type of the
same size if that exists. (Maybe this behavior is more confusing
than useful -- but this can be changed later if we want to ...)
- Finally, we can use floatformat_to_string / decimal_to_string passing
the format string to perform the formatted output using the desired
target FP type.
Note that we no longer generate different code depending on whether or not
the host supports "long double" -- this check is obsolete anyway since C++11
mandates "long double", and in any case a %lg format string is intended to
refer to the *target* long double type, not the host version.
Note also that formatted printing of DFP numbers may not work correctly,
since it attempts to use the host printf to do so (and makes unwarranted
assumptions about the host ABI while doing so!). This is no change to
the current behavior -- I simply moved the code from printf_decfloat to
the decimal_to_string routine in dfp.c. If we want to fix it in the
future, that is a more appropriate place anyway.
ChangeLog:
2017-10-24 Ulrich Weigand <uweigand@de.ibm.com>
* common/format.h (enum argclass): Replace decfloat_arg by
dec32float_arg, dec64float_arg, and dec128float_arg.
* common/format.c (parse_format_string): Update to return
new decimal float argument classes.
* printcmd.c (printf_decfloat): Rename to ...
(printf_floating): ... this. Add argclass argument, and use it
instead of parsing the format string again. Add support for
binary floating-point values, using floatformat_to_string.
Convert value to the target format if it doesn't already match.
(ui_printf): Call printf_floating instead of printf_decfloat,
also for double_arg / long_double_arg. Pass argclass.
* dfp.c (decimal_to_string): Add format string argument.
* dfp.h (decimal_to_string): Likewise.
* doublest.c (floatformat_to_string): Add format string argument.
* doublest.h (floatformat_to_string): Likewise.
The print_floating routine currently makes a lot of assumptions about host
and target floating point formats. This patch cleans up many of those.
One problem is that print_floating may currently be called with types
that are not actually floating-point types, and it tries hard to output
those as floating-point values anyway. However, there is only one single
caller of print_floating where this can ever happen: print_scalar_formatted.
And in fact, it is much simpler to handle the case where the value to be
printed is not already of floating-point type right there.
So this patch changes print_scalar_formatted to handle the 'f' format
as follows:
- If the value to be printed is already of floating-point type, just
call print_floating on it.
- Otherwise, if there is a standard target floating-point type of
the same size as the value, call print_floating using that type.
- Otherwise, just print the value as if the 'f' format had not been
specified at all.
This has the overall effect to printing everything the same way as
the old code did, but is overall a lot simpler. (Also, it would
allow us to change the above strategy more easily, if that might
be a more intuitive user interface. For example, in the third
case above, maybe an error would be more appropriate?)
Given that change, print_floating can become much simpler. In particular,
we now always have a floating-point format that we can consult. This
means we can use the floating-point format to programmatically determine
the number of digits necessary to print the value.
The current code uses a hard-coded value of 9, 17, or 35 digits. Note
that this matches the DECIMAL_DIG values for IEEE-32, IEEE-64, and
IEEE-128. (Actually, for IEEE-128 the correct value is 36 -- the 35
seems to be an oversight.) The DECIMAL_DIG value is defined to be
the smallest number so that any number in the target format, when
printed to this number of digits and then scanned back into a binary
floating-point number, will result in the original value.
Now that we always have a FP format, we can just compute the DECIMAL_DIG
value using the formula from the C standard. This will be correct for
*all* FP formats, not just the above list, and it will be correct (as
opposed to current code) if the target formats differ from the host ones.
The patch moves the new logic to a new floatformat_to_string routine
(analogous to the existing decimal_to_string). The print_floating
routine now calls floatformat_to_string or decimal_to_string, making
the separate print_decimal_floating and generic_val_print_decfloat routines
unnecessary.
gdb/ChangeLog:
2017-10-24 Ulrich Weigand <uweigand@de.ibm.com>
* doublest.c (floatformat_precision): New routine.
(floatformat_to_string): Likewise.
* doublest.c (floatformat_to_string): Add prototype.
* printcmd.c (print_scalar_formatted): Only call print_floating
on floating-point types.
* valprint.c: Do not include "floatformat.h".
(generic_val_print_decfloat): Remove.
(generic_val_print): Call generic_val_print_float for both
TYPE_CODE_FLT and TYPE_CODE_DECFLOAT.
(print_floating): Use floatformat_to_string. Handle decimal float.
(print_decimal_floating): Remove, merge into floatformat_to_string.
* value.h (print_decimal_floating): Remove.
* Makefile.in: Do not build doublest.c with -Wformat-nonliteral.
When sorting pending blocks in end_symtab_get_static_block, blocks
with the same starting address must remain in the original order
to preserve inline function caller/callee relationships.
The original code seems to have implicitly relied on the fact that the
glibc qsort implemention actually (in the common case) provides a stable
sort, although this is not guaranteed by the standard. But the GNU
libstdc++ std::sort implementation is *not* stable.
gdb/ChangeLog:
2017-10-24 Ulrich Weigand <uweigand@de.ibm.com>
* buildsym.c (end_symtab_get_static_block): Use std::stable_sort.
