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2022-09-21gdb: remove TYPE_TARGET_TYPESimon Marchi1-1/+1
Remove the macro, replace all uses by calls to type::target_type. Change-Id: Ie51d3e1e22f94130176d6abd723255282bb6d1ed
2022-04-20Replace symbol_objfile with symbol::objfileTom Tromey1-1/+1
This turns symbol_objfile into a method on symbol.
2022-04-04Add context-sensitive field name completion to Ada parserTom Tromey1-1/+9
This updates the Ada expression parser to implement context-sensitive field name completion. This is PR ada/28727. This is somewhat complicated due to some choices in the Ada lexer -- it chooses to represent a sequence of "."-separated identifiers as a single token, so the parser must partially recreate the completer's logic to find the completion word boundaries. Despite the minor warts in this patch, though, it is a decent improvement. It's possible that the DWARF reader rewrite will help fix the package completion problem pointed out in this patch as well. Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=28727
2022-04-04Refactor expression completionTom Tromey1-7/+5
This refactors the gdb expression completion code to make it easier to add more types of completers. In the old approach, just two kinds of completers were supported: field names for some sub-expression, or tag names (like "enum something"). The data for each kind was combined in single structure, "expr_completion_state", and handled explicitly by complete_expression. In the new approach, the parser state just holds an object that is responsible for implementing completion. This way, new completion types can be added by subclassing this base object. The structop completer is moved into structop_base_operation, and new objects are defined for use by the completion code. This moves much of the logic of expression completion out of completer.c as well.
2022-03-29Unify gdb printf functionsTom Tromey1-1/+1
Now that filtered and unfiltered output can be treated identically, we can unify the printf family of functions. This is done under the name "gdb_printf". Most of this patch was written by script.
2022-03-21gdb/x86: handle stap probe arguments in xmm registersAndrew Burgess1-0/+31
On x86 machines with xmm register, and with recent versions of systemtap (and gcc?), it can occur that stap probe arguments will be placed into xmm registers. I notice this happening on a current Fedora Rawhide install with the following package versions installed: $ rpm -q glibc systemtap gcc glibc-2.35.9000-10.fc37.x86_64 systemtap-4.7~pre16468670g9f253544-1.fc37.x86_64 gcc-12.0.1-0.12.fc37.x86_64 If I check the probe data in libc, I see this: $ readelf -n /lib64/libc.so.6 ... stapsdt 0x0000004d NT_STAPSDT (SystemTap probe descriptors) Provider: libc Name: pthread_start Location: 0x0000000000090ac3, Base: 0x00000000001c65c4, Semaphore: 0x0000000000000000 Arguments: 8@%xmm1 8@1600(%rbx) 8@1608(%rbx) stapsdt 0x00000050 NT_STAPSDT (SystemTap probe descriptors) Provider: libc Name: pthread_create Location: 0x00000000000912f1, Base: 0x00000000001c65c4, Semaphore: 0x0000000000000000 Arguments: 8@%xmm1 8@%r13 8@8(%rsp) 8@16(%rsp) ... Notice that for both of these probes, the first argument is a uint64_t stored in the xmm1 register. Unfortunately, if I try to use this probe within GDB, then I can't view the first argument. Here's an example session: $ gdb $(which gdb) (gdb) start ... (gdb) info probes stap libc pthread_create ... (gdb) break *0x00007ffff729e2f1 # Use address of probe. (gdb) continue ... (gdb) p $_probe_arg0 Invalid cast. What's going wrong? If I re-run my session, but this time use 'set debug stap-expression 1', this is what I see: (gdb) set debug stap-expression 1 (gdb) p $_probe_arg0 Operation: UNOP_CAST Operation: OP_REGISTER String: xmm1 Type: uint64_t Operation: UNOP_CAST Operation: OP_REGISTER String: r13 Type: uint64_t Operation: UNOP_CAST Operation: UNOP_IND Operation: UNOP_CAST Operation: BINOP_ADD Operation: OP_LONG Type: long Constant: 0x0000000000000008 Operation: OP_REGISTER String: rsp Type: uint64_t * Type: uint64_t Operation: UNOP_CAST Operation: UNOP_IND Operation: UNOP_CAST Operation: BINOP_ADD Operation: OP_LONG Type: long Constant: 0x0000000000000010 Operation: OP_REGISTER String: rsp Type: uint64_t * Type: uint64_t Invalid cast. (gdb) The important bit is this: Operation: UNOP_CAST Operation: OP_REGISTER String: xmm1 Type: uint64_t Which is where we cast the xmm1 register to uint64_t. And the final piece of the puzzle is: (gdb) ptype $xmm1 type = union vec128 { v8bf16 v8_bfloat16; v4f v4_float; v2d v2_double; v16i8 v16_int8; v8i16 v8_int16; v4i32 v4_int32; v2i64 v2_int64; uint128_t uint128; } So, we are attempting to cast a union type to a scalar type, which is not supporting in C/C++, and as a consequence GDB's expression evaluator throws an error when we attempt to do this. The first approach I considered for solving this problem was to try and make use of gdbarch_stap_adjust_register. We already have a gdbarch method (gdbarch_stap_adjust_register) that allows us to tweak the name of the register that we access. Currently only x86 architectures use this to transform things like ax to eax in some cases. I wondered, what if we change gdbarch_stap_adjust_register to do more than just change the register names? What if this method instead became gdbarch_stap_read_register. This new method would return a operation_up, and would take the register name, and the type we are trying to read from the register, and return the operation that actually reads the register. The default implementation of this method would just use user_reg_map_name_to_regnum, and then create a register_operation, like we already do in stap_parse_register_operand. But, for x86 architectures this method would fist possibly adjust the register name, then do the default action to read the register. Finally, for x86 this method would spot when we were accessing an xmm register, and, based on the type being pulled from the register, would extract the correct field from the union. The benefit of this approach is that it would work with the expression types that GDB currently supports. The draw back would be that this approach would not be very generic. We'd need code to handle each sub-field size with an xmm register. If other architectures started using vector registers for probe arguments, those architectures would have to create their own gdbarch_stap_read_register method. And finally, the type of the xmm registers comes from the type defined in the target description, there's a risk that GDB might end up hard-coding the names of type sub-fields, then if a target uses a different target description, with different field names for xmm registers, the stap probes would stop working. And so, based on all the above draw backs, I rejected this first approach. My second plan involves adding a new expression type to GDB called unop_extract_operation. This new expression takes a value and a type, during evaluation the value contents are fetched, and then a new value is extracted from the value contents (based on type). This is similar to the following C expression: result_value = *((output_type *) &input_value); Obviously we can't actually build this expression in this case, as the input_value is in a register, but hopefully the above makes it clearer what I'm trying to do. The benefit of the new expression approach is that this code can be shared across all architectures, and it doesn't care about sub-field names within the union type. The draw-backs that I see are potential future problems if arguments are not stored within the least significant bytes of the register. However if/when that becomes an issue we can adapt the gdbarch_stap_read_register approach to allow architectures to control how a value is extracted. For testing, I've extended the existing gdb.base/stap-probe.exp test to include a function that tries to force an argument into an xmm register. Obviously, that will only work on a x86 target, so I've guarded the new function with an appropriate GCC define. In the exp script we use readelf to check if the probe exists, and is using the xmm register. If the probe doesn't exist then the associated tests are skipped. If the probe exists, put isn't using the xmm register (which will depend on systemtap/gcc versions), then again, the tests are skipped. Otherwise, we can run the test. I think the cost of running readelf is pretty low, so I don't feel too bad making all the non-xmm targets running this step. I found that on a Fedora 35 install, with these packages installed, I was able to run this test and have the probe argument be placed in an xmm register: $ rpm -q systemtap gcc glibc systemtap-4.6-4.fc35.x86_64 gcc-11.2.1-9.fc35.x86_64 glibc-2.34-7.fc35.x86_64 Finally, as this patch adds a new operation type, then I need to consider how to generate an agent expression for the new operation type. I have kicked the can down the road a bit on this. In the function stap_parse_register_operand, I only create a unop_extract_operation in the case where the register type is non-scalar, this means that in most cases I don't need to worry about generating an agent expression at all. In the xmm register case, when an unop_extract_operation will be created, I have sketched out how the agent expression could be handled, however, this code is currently not reached. When we try to generate the agent expression to place the xmm register on the stack, GDB hits this error: (gdb) trace -probe-stap test:xmmreg Tracepoint 1 at 0x401166 (gdb) actions Enter actions for tracepoint 1, one per line. End with a line saying just "end". >collect $_probe_arg0 Value not scalar: cannot be an rvalue. This is because GDB doesn't currently support placing non-scalar types on the agent expression evaluation stack. Solving this is clearly related to the original problem, but feels a bit like a second problem. I'd like to get feedback on whether my approach to solving the original problem is acceptable or not before I start looking at how to handle xmm registers within agent expressions.
2022-03-16Remove eval_op_concatTom Tromey1-5/+1
eval_op_concat has code to search for an operator overload of BINOP_CONCAT. However, the operator overloading code is specific to C++, which does not have this operator. And, binop_types_user_defined_p rejects this case right at the start, and value_x_binop does not handle this case. I think this code has been dead for a very long time. This patch removes it and hoists the remaining call into concatenation::evaluate, removing eval_op_concat entirely.
2022-03-16Remove eval_op_stringTom Tromey1-10/+1
eval_op_string is only used in a single place -- the implementation of string_operation. This patch turns it into the string_operation::evaluate method, removing a bit of extraneous code.
2022-02-06gdb: remove SYMBOL_CLASS macro, add getterSimon Marchi1-1/+1
Change-Id: I83211d5a47efc0564386e5b5ea4a29c00b1fd46a
2022-01-01Automatic Copyright Year update after running gdb/copyright.pyJoel Brobecker1-1/+1
This commit brings all the changes made by running gdb/copyright.py as per GDB's Start of New Year Procedure. For the avoidance of doubt, all changes in this commits were performed by the script.
2021-04-15Use block_symbol in var_value_operationTom Tromey1-8/+25
I noticed that var_value_operation takes a block and a symbol, and most callers destructure a block_symbol to pass in. It seems better for this class to simply hold a block_symbol instead. Tested on x86-64 Fedora 32. gdb/ChangeLog 2021-04-15 Tom Tromey <tromey@adacore.com> * rust-exp.y (rust_parser::convert_ast_to_expression): Update. * parse.c (parser_state::push_symbol, parser_state::push_dollar): Update. * p-exp.y (variable): Update. * m2-exp.y (variable): Update. * go-exp.y (variable): Update. * expprint.c (dump_for_expression): New overload. * expop.h (check_objfile): New overload. (check_constant): New overload. (class var_value_operation): Use block_symbol. <get_symbol>: Rewrite. * eval.c (var_value_operation::evaluate) (var_value_operation::evaluate_funcall) (var_value_operation::evaluate_for_address) (var_value_operation::evaluate_for_address) (var_value_operation::evaluate_with_coercion) (var_value_operation::evaluate_for_sizeof) (var_value_operation::evaluate_for_cast): Update. * d-exp.y (PrimaryExpression): Update. * c-exp.y (variable): Update. * ax-gdb.c (var_value_operation::do_generate_ax): Update. * ada-lang.c (ada_var_value_operation::evaluate_for_cast) (ada_var_value_operation::evaluate) (ada_var_value_operation::resolve) (ada_funcall_operation::resolve): Update. * ada-exp.y (write_var_from_sym, write_object_renaming) (write_ambiguous_var, write_var_or_type, write_name_assoc) (maybe_overload): Update. * ada-exp.h (class ada_var_value_operation) <get_block>: Rewrite.
2021-03-08Use bound_minimal_symbol in var_msym_value_operationTom Tromey1-20/+8
This changes var_msym_value_operation to use a bound_minimal_symbol rather than separate minsym and objfile parameters. The main benefit of this is removing the possibly-confusing check_objfile overload for a plain minimal symbol. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * parse.c (parser_state::push_symbol, parser_state::push_dollar): Update. * p-exp.y (variable): Update. * go-exp.y (variable): Update. * expprint.c (dump_for_expression): Use bound_minimal_symbol. Remove overload for objfile. * expop.h (eval_op_var_msym_value): Use bound_minimal_symbol parameter. (check_objfile): Likewise. (dump_for_expression): Likewise. Remove overload for objfile. (class var_msym_value_operation): Use bound_minimal_symbol. * eval.c (eval_op_var_msym_value): Use bound_minimal_symbol parameter. (var_msym_value_operation::evaluate_for_address) (var_msym_value_operation::evaluate_for_sizeof) (var_msym_value_operation::evaluate_for_cast): Update. * d-exp.y (PrimaryExpression): Update. * c-exp.y (variable): Update. * ax-gdb.c (var_msym_value_operation::do_generate_ax): Update. * ada-lang.c (ada_var_msym_value_operation::evaluate_for_cast): Update. * ada-exp.y (write_var_or_type): Update.
2021-03-08Remove EVAL_SKIPTom Tromey1-15/+4
EVAL_SKIP was needed in the old expression implementation due to its linearized tree structure. This is not needed in the new implementation, because it is trivial to not evaluate a subexpression. This patch removes the last vestiges of EVAL_SKIP. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * value.h (eval_skip_value): Don't declare. * opencl-lang.c (eval_opencl_assign): Update. * m2-lang.c (eval_op_m2_high, eval_op_m2_subscript): Update. * f-lang.c (eval_op_f_abs, eval_op_f_mod, eval_op_f_ceil) (eval_op_f_floor, eval_op_f_modulo, eval_op_f_cmplx): Remove. * expression.h (enum noside) <EVAL_SKIP>: Remove. * expop.h (typeof_operation::evaluate) (decltype_operation::evaluate, unop_addr_operation::evaluate) (unop_sizeof_operation::evaluate, assign_operation::evaluate) (cxx_cast_operation::evaluate): Update. * eval.c (eval_skip_value): Remove. (eval_op_scope, eval_op_var_entry_value) (eval_op_func_static_var, eval_op_string, eval_op_objc_selector) (eval_op_concat, eval_op_ternop, eval_op_structop_struct) (eval_op_structop_ptr, eval_op_member, eval_op_add, eval_op_sub) (eval_op_binary, eval_op_subscript, eval_op_equal) (eval_op_notequal, eval_op_less, eval_op_gtr, eval_op_geq) (eval_op_leq, eval_op_repeat, eval_op_plus, eval_op_neg) (eval_op_complement, eval_op_lognot, eval_op_ind) (eval_op_memval, eval_op_preinc, eval_op_predec) (eval_op_postinc, eval_op_postdec, eval_op_type) (eval_binop_assign_modify, eval_op_objc_msgcall) (eval_multi_subscript, logical_and_operation::evaluate) (logical_or_operation::evaluate, array_operation::evaluate) (operation::evaluate_for_cast) (var_msym_value_operation::evaluate_for_cast) (var_value_operation::evaluate_for_cast): Update. * c-lang.c (c_string_operation::evaluate): Update. * c-exp.h (objc_nsstring_operation::evaluate) (objc_selector_operation::evaluate): Update. * ada-lang.c (ada_assign_operation::evaluate) (eval_ternop_in_range, ada_unop_neg, ada_unop_in_range) (ada_atr_size): Update.
2021-03-08Add an expr::operation_up to struct expressionTom Tromey1-1/+48
This adds an expr::operation_up to struct expression, and then modifies various parts of GDB to use this member when it is non-null. The list of such spots was a bit surprising to me, and found only after writing most of the code and then noticing what no longer compiled. In a few spots, new accessor methods are added to operation subclasses, so that code that dissects an expression will work with the new scheme. After this change, code that constructs an expression can be switched to the new form without breaking. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * ada-exp.h (class ada_var_value_operation) <get_symbol>: Remove; now in superclass. * value.h (fetch_subexp_value): Add "op" parameter. * value.c (init_if_undefined_command): Update. * tracepoint.c (validate_actionline, encode_actions_1): Update. * stap-probe.c (stap_probe::compile_to_ax): Update. * printcmd.c (set_command): Update. * ppc-linux-nat.c (ppc_linux_nat_target::check_condition): Update. * parser-defs.h (struct expr_builder) <set_operation>: New method. * parse.c (parse_exp_in_context, exp_uses_objfile): Update. * expression.h (struct expression) <first_opcode>: Update. <op>: New member. * expprint.c (dump_raw_expression, dump_prefix_expression): Update. * expop.h (class var_value_operation) <get_symbol>: New method. (class register_operation) <get_name>: New method. (class equal_operation): No longer a typedef, now a subclass. (class unop_memval_operation) <get_type>: New method. (class assign_operation) <get_lhs>: New method. (class unop_cast_operation) <get_type>: New method. * eval.c (evaluate_expression, evaluate_type) (evaluate_subexpression_type): Update. (fetch_subexp_value): Add "op" parameter. (parse_and_eval_type): Update. * dtrace-probe.c (dtrace_probe::compile_to_ax): Update. * breakpoint.c (update_watchpoint, watchpoint_check) (watchpoint_exp_is_const, watch_command_1): Update. * ax-gdb.c (gen_trace_for_expr, gen_eval_for_expr, gen_printf): Update.
2021-03-08Implement Ada assignmentTom Tromey1-0/+7
Assignment is the most complicated Ada expression, because implementing aggregate assignment involves several specialized opcodes. This patch does this implementation by introducing new abstract classes that are used to represent the various parts of aggregate assignment. This makes the code somewhat cleaner, and, by avoiding the over-use of 'operation' subclasses, avoids the need for dissection using dynamic_cast (though a few are still needed here). I believe this patch fixes a latent bug in the handling of aggregate_assign_from_choices. That code does: if (op == OP_DISCRETE_RANGE) { choice_pos += 1; lower = value_as_long (ada_evaluate_subexp (NULL, exp, pos, EVAL_NORMAL)); upper = value_as_long (ada_evaluate_subexp (NULL, exp, pos, EVAL_NORMAL)); } However, I think 'choice_pos' should be used in the calls, rather than 'pos'. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expprint.c (dump_for_expression): New overload. * expop.h (check_objfile, dump_for_expression): Declare new overloads. * ada-lang.c (check_objfile): New overload. (assign_component, ada_aggregate_component::uses_objfile) (ada_aggregate_component::dump, ada_aggregate_component::assign) (ada_aggregate_component::assign_aggregate) (ada_positional_component::uses_objfile) (ada_positional_component::dump, ada_positional_component::assign) (ada_discrete_range_association::uses_objfile) (ada_discrete_range_association::dump) (ada_discrete_range_association::assign) (ada_name_association::uses_objfile, ada_name_association::dump) (ada_name_association::assign) (ada_choices_component::uses_objfile, ada_choices_component::dump) (ada_choices_component::assign) (ada_others_component::uses_objfile, ada_others_component::dump) (ada_others_component::assign, ada_assign_operation::evaluate): New methods. * ada-exp.h (ada_string_operation) <get_name>: New method. (class ada_assign_operation): New. (class ada_component): New. (ada_component_up): New typedef. (class ada_aggregate_operation, class ada_aggregate_component) (class ada_positional_component, class ada_others_component) (class ada_association): New. (ada_association_up): New typedef. (class ada_choices_component) (class ada_discrete_range_association) (class ada_name_association): New.
2021-03-08Introduce fortran_undeterminedTom Tromey1-0/+6
This adds class fortran_undetermined, which implements OP_F77_UNDETERMINED_ARGLIST. fortran_range_operation is also added here, as it is needed by fortran_undetermined. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_addr_operation) <get_expression>: New method. * f-lang.c (fortran_undetermined::value_subarray) (fortran_undetermined::evaluate): New methods. (fortran_prepare_argument): New overload. * f-exp.h (class fortran_range_operation) (class fortran_undetermined): New classes.
2021-03-08Implement function call operationsTom Tromey1-3/+61
This implement function call operations. The current function call code relies on some very lengthy code (evaluate_funcall is 398 lines...) to distinguish between the different opcodes that might appear in the callee position. Rather than try to replicate this, and have a function that tried to dissect many different kinds of operation subclass, this patch instead puts the work into the callee. A new operation::evaluate_funcall method is added, and then this is overridden in the classes that require special treatment. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expression.h (class operation) <evaluate_funcall>: New methods. * expop.h (class scope_operation) <evaluate_funcall>: New method. (class var_value_operation) <evaluate_funcall>: New method. (class structop_base_operation) <evaluate_funcall>: New method. (class var_msym_value_operation) <evaluate_funcall>: New method. (class structop_member_base): New class. (class structop_member_operation): Derive from structop_member_base. (class structop_mptr_operation): Derive from structop_member_base. (class funcall_operation): New class. * eval.c (operation::evaluate_funcall) (var_value_operation::evaluate_funcall) (scope_operation::evaluate_funcall) (structop_member_base::evaluate_funcall) (structop_base_operation::evaluate_funcall): New methods.
2021-03-08Introduce array_operationTom Tromey1-0/+22
This adds class array_operation, which implements OP_ARRAY. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class array_operation): New. * eval.c (array_operation::evaluate_struct_tuple) (array_operation::evaluate): New methods.
2021-03-08Introduce class adl_func_operationTom Tromey1-0/+19
This adds class adl_func_operation, which implements argument-dependent lookup function calls. Other function calls will be handled in a different way. However, because ADL calls were created in a single spot in the C++ parser, and because they had different semantics from the other cases, it was convenient to treat them specially. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class adl_func_operation): New. * eval.c (adl_func_operation::evaluate): New method.
2021-03-08Implement the "&&" and "||" operatorsTom Tromey1-0/+48
This implements the "&&" and "||" operators. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class logical_and_operation) (class logical_or_operation): New. * eval.c (logical_and_operation::evaluate) (logical_or_operation::evaluate): New methods. * ax-gdb.c (logical_and_operation::do_generate_ax) (logical_or_operation::do_generate_ax): New methods.
2021-03-08Introduce multi_subscript_operationTom Tromey1-0/+16
This adds class multi_subscript_operation, which implements MULTI_SUBSCRIPT. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class multi_subscript_operation): New. * eval.c (multi_subscript_operation::evaluate): New method.
2021-03-08Introduce var_value_operationTom Tromey1-0/+37
This adds class var_value_operation, which implements OP_VAR_VALUE. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class var_value_operation): New. * eval.c (var_value_operation::evaluate) (var_value_operation::evaluate_for_address) (var_value_operation::evaluate_with_coercion) (var_value_operation::evaluate_for_sizeof) (var_value_operation::evaluate_for_cast): New methods. * ax-gdb.c (var_value_operation::do_generate_ax): New method.
2021-03-08Implement C++ cast operationsTom Tromey1-0/+34
This adds class cxx_cast_operation, which is used to implement the C++ dynamic_cast and reinterpret_cast operations. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (cxx_cast_ftype): New typedef. (cxx_cast_operation): New template. (dynamic_cast_operation, reinterpret_cast_operation): New typedefs.
2021-03-08Introduce unop_cast_type_operationTom Tromey1-0/+31
This adds class unop_cast_type_operation, which implements UNOP_CAST_TYPE. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_cast_type_operation): New. * ax-gdb.c (unop_cast_type_operation::do_generate_ax): New method.
2021-03-08Introduce unop_cast_operationTom Tromey1-0/+28
This adds class unop_cast_operation, which implements UNOP_CAST. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_cast_operation): New. * ax-gdb.c (unop_cast_operation::do_generate_ax): New method.
2021-03-08Introduce assign_modify_operationTom Tromey1-0/+36
This adds class assign_modify_operation, which implements BINOP_ASSIGN_MODIFY. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class assign_modify_operation): New. * eval.c (eval_binop_assign_modify): No longer static. * ax-gdb.c (assign_modify_operation::do_generate_ax): New method.
2021-03-08Introduce assign_operationTom Tromey1-0/+43
This adds class assign_operation, which implements BINOP_ASSIGN. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class assign_operation): New. * ax-gdb.c (assign_operation::do_generate_ax): New method.
2021-03-08Introduce type_instance_operationTom Tromey1-0/+17
This adds class type_instance_operation, which implements TYPE_INSTANCE. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class type_instance_operation): New. * eval.c (type_instance_operation::evaluate): New method.
2021-03-08Introduce op_this_operationTom Tromey1-0/+27
This adds class op_this_operation, which implements OP_THIS. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class op_this_operation): New. * ax-gdb.c (op_this_operation::do_generate_ax): New method.
2021-03-08Implement UNOP_MEMVAL and UNOP_MEMVAL_TYPETom Tromey1-0/+77
This adds class unop_memval_operation and unop_memval_type_operation, which implement UNOP_MEMVAL and UNOP_MEMVAL_TYPE. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_memval_operation) (class unop_memval_type_operation): New. * eval.c (eval_op_memval): No longer static. (unop_memval_operation::evaluate_for_address) (unop_memval_type_operation::evaluate_for_address) (unop_memval_operation::evaluate_for_sizeof) (unop_memval_type_operation::evaluate_for_sizeof): New methods. * ax-gdb.c (unop_memval_operation::do_generate_ax) (unop_memval_type_operation::do_generate_ax): New methods.
2021-03-08Introduce unop_alignof_operationTom Tromey1-0/+25
This adds class unop_alignof_operation, which implements UNOP_ALIGNOF. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_alignof_operation): New. * eval.c (eval_op_alignof): No longer static.
2021-03-08Introduce unop_sizeof_operationTom Tromey1-0/+29
This adds class unop_sizeof_operation, which implements UNOP_SIZEOF. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_sizeof_operation): New. * ax-gdb.c (unop_sizeof_operation::do_generate_ax): New method.
2021-03-08Introduce unop_addr_operationTom Tromey1-0/+36
This adds class unop_addr_operation, which implements UNOP_ADDR. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_addr_operation): New. * ax-gdb.c (gen_expr_unop) <case UNOP_ADDR>: New.
2021-03-08Introduce typeid_operationTom Tromey1-0/+29
This adds class typeid_operation, which implements OP_TYPEID. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class typeid_operation): New.
2021-03-08Introduce decltype_operationTom Tromey1-0/+47
This adds class decltype_operation, which implements OP_DECLTYPE. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class decltype_operation): New.
2021-03-08Introduce typeof_operationTom Tromey1-0/+25
This adds class typeof_operation, which implements OP_TYPEOF. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class typeof_operation): New.
2021-03-08Introduce type_operationTom Tromey1-0/+25
This adds class type_operation, which implements OP_TYPE. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class type_operation): New. * eval.c (eval_op_type): No longer static.
2021-03-08Introduce unop_ind_operationTom Tromey1-0/+54
This adds class unop_ind_operation, which implements UNOP_IND. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class unop_ind_base_operation) (class unop_ind_operation): New. * eval.c (eval_op_ind): No longer static. Remove "op" parameter. (unop_ind_base_operation::evaluate_for_address) (unop_ind_base_operation::evaluate_for_sizeof): New method. * ax-gdb.c (gen_expr_unop) <case UNOP_IND>: New.
2021-03-08Implement unary increment and decrement operationsTom Tromey1-0/+50
This implements the unary increment and decrement operations, "++" and "--". gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (unop_incr_operation): New template. (preinc_operation, predec_operation, postinc_operation) (postdec_operation): New typedefs. * eval.c (eval_op_preinc, eval_op_predec, eval_op_postinc) (eval_op_postdec): No longer static.
2021-03-08Implement some unary operationsTom Tromey1-0/+77
This introduces a couple of new template classes and then uses them to implement some simple unary operations. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (unary_ftype): New typedef. (unop_operation, usual_ax_binop_operation): New templates. (unary_plus_operation, unary_neg_operation) (unary_complement_operation, unary_logical_not_operation): New typedefs. * eval.c (eval_op_plus, eval_op_neg, eval_op_complement) (eval_op_lognot): No longer static. * ax-gdb.c (gen_expr_unop): New function.
2021-03-08Introduce comma_operationTom Tromey1-0/+31
This adds class comma_operation, which implements BINOP_COMMA. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * ax-gdb.c (comma_operation::do_generate_ax): New method.
2021-03-08Introduce repeat_operationTom Tromey1-0/+20
This adds class repeat_operation, which implements BINOP_REPEAT. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class repeat_operation): New. * eval.c (eval_op_repeat): No longer static. Remove "op" parameter. (evaluate_subexp_standard): Update. * ax-gdb.c (repeat_operation::do_generate_ax): New method.
2021-03-08Implement binary comparison operationsTom Tromey1-0/+60
This implements the binary comparison operations via a template class. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class comparison_operation): New. (equal_operation, notequal_operation, less_operation) (gtr_operation, geq_operation, leq_operation): New typedefs. * eval.c (eval_op_equal, eval_op_notequal, eval_op_less) (eval_op_gtr, eval_op_geq, eval_op_leq): No longer static.
2021-03-08Introduce subscript_operationTom Tromey1-0/+16
This adds class subscript_operation, which implements BINOP_SUBSCRIPT. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class subscript_operation): New. * eval.c (eval_op_subscript): No longer static.
2021-03-08Introduce binop_operationTom Tromey1-0/+71
This adds two new template classes, binop_operation and usual_ax_binop_operation, and then uses these to implement a number of binary operations that follow similar patterns. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class binop_operation, class usual_ax_binop_operation): New. (exp_operation, intdiv_operation, mod_operation, mul_operation) (div_operation, rem_operation, lsh_operation, rsh_operation) (bitwise_and_operation, bitwise_ior_operation) (bitwise_xor_operation): New typedefs. * eval.c (eval_op_binary): No longer static.
2021-03-08Introduce sub_operationTom Tromey1-0/+40
This adds class sub_operation, which implements BINOP_SUB. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class sub_operation): New. * eval.c (eval_op_sub): No longer static. Remove "op" parameter. (evaluate_subexp_standard): Update.
2021-03-08Introduce add_operationTom Tromey1-0/+40
This adds class add_operation, which implements BINOP_ADD. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class add_operation): New. * eval.c (eval_op_add): No longer static. Remove "op" parameter. (evaluate_subexp_standard): Update.
2021-03-08Introduce concat_operationTom Tromey1-0/+26
This adds class concat_operation, which implements BINOP_CONCAT. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class concat_operation): New. * eval.c (eval_op_concat): No longer static. Remove "op" parameter. (evaluate_subexp_standard): Update.
2021-03-08Introduce structop_member_operation and structop_mptr_operationTom Tromey1-0/+48
This adds class structop_member_operation and structop_mptr_operation, which implement STRUCTOP_MEMBER and STRUCTOP_MPTR. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class structop_member_operation) (class structop_mptr_operation): New. * eval.c (eval_op_member): No longer static.
2021-03-08Introduce structop_ptr_operationTom Tromey1-0/+39
This adds class structop_ptr_operation, which implements STRUCTOP_PTR. gdb/ChangeLog 2021-03-08 Tom Tromey <tom@tromey.com> * expop.h (class structop_ptr_operation): New. * eval.c (eval_op_structop_ptr): No longer static. Remove "op" parameter.