2 Commits

Author	SHA1	Message	Date
Zoltan Somogyi	47a1a02a92	Add vim modelines to most tools. ... tools/add_cont_lines: tools/appears: tools/assemble: tools/avg_frame_size: tools/build_srcdist: tools/cleanint: tools/compare_frame_sizes: tools/configure_mingw_cross: tools/cont: tools/ctor_rep_stats: tools/cur_param: tools/dd_speedtest: tools/divide: tools/extract_dd_stats: tools/file_name_translation_stats: tools/frame_sizes: tools/gdbrun: tools/half: tools/info_stats.awk: tools/linear: tools/lmc.in: tools/mai_stats: tools/make_arena: tools/next_param: tools/not: tools/optstages: tools/type_ctor_stats: Add vim mode lines. Replace tabs with spaces.	2021-04-27 03:54:27 +10:00
Zoltan Somogyi	189b9215ae	This diff implements stack slot optimization for the LLDS back end based on ... Estimated hours taken: 400 Branches: main This diff implements stack slot optimization for the LLDS back end based on the idea that after a unification such as A = f(B, C, D), saving the variable A on the stack indirectly also saves the values of B, C and D. Figuring out what subset of {B,C,D} to access via A and what subset to access via their own stack slots is a tricky optimization problem. The algorithm we use to solve it is described in the paper "Using the heap to eliminate stack accesses" by Zoltan Somogyi and Peter Stuckey, available in ~zs/rep/stackslot. That paper also describes (and has examples of) the source-to-source transformation that implements the optimization. The optimization needs to know what variables are flushed at call sites and at program points that establish resume points (e.g. entries to disjunctions and if-then-elses). We already had code to compute this information in live_vars.m, but this code was being invoked too late. This diff modifies live_vars.m to allow it to be invoked both by the stack slot optimization transformation and by the code generator, and allows its function to be tailored to the requirements of each invocation. The information computed by live_vars.m is specific to the LLDS back end, since the MLDS back ends do not (yet) have the same control over stack frame layout. We therefore store this information in a new back end specific field in goal_infos. For uniformity, we make all the other existing back end specific fields in goal_infos, as well as the similarly back end specific store map field of goal_exprs, subfields of this new field. This happens to significantly reduce the sizes of goal_infos. To allow a more meaningful comparison of the gains produced by the new optimization, do not save any variables across erroneous calls even if the new optimization is not enabled. compiler/stack_opt.m: New module containing the code that performs the transformation to optimize stack slot usage. compiler/matching.m: New module containing an algorithm for maximal matching in bipartite graphs, specialized for the graphs needed by stack_opt.m. compiler/mercury_compile.m: Invoke the new optimization if the options ask for it. compiler/stack_alloc.m: New module containing code that is shared between the old, non-optimizing stack slot allocation system and the new, optimizing stack slot allocation system, and the code for actually allocating stack slots in the absence of optimization. Live_vars.m used to have two tasks: find out what variables need to be saved on the stack, and allocating those variables to stack slots. Live_vars.m now does only the first task; stack_alloc.m now does the second, using code that used to be in live_vars.m. compiler/trace_params: Add a new function to test the trace level, which returns yes if we want to preserve the values of the input headvars. compiler/notes/compiler_design.html: Document the new modules (as well as trace_params.m, which wasn't documented earlier). compiler/live_vars.m: Delete the code that is now in stack_alloc.m and graph_colour.m. Separate out the kinds of stack uses due to nondeterminism: the stack slots used by nondet calls, and the stack slots used by resumption points, in order to allow the reuse of stack slots used by resumption points after execution has left their scope. This should allow the same stack slots to be used by different variables in the resumption point at the start of an else branch and nondet calls in the then branch, since the resumption point of the else branch is not in effect when the then branch is executed. If the new option --opt-no-return-calls is set, then say that we do not need to save any values across erroneous calls. Use type classes to allow the information generated by this module to be recorded in the way required by its invoker. Package up the data structures being passed around readonly into a single tuple. compiler/store_alloc.m: Allow this module to be invoked by stack_opt.m without invoking the follow_vars transformation, since applying follow_vars before the form of the HLDS code is otherwise final can be a pessimization. Make the module_info a part of the record containing the readonly data passed around during the traversal. compiler/common.m: Do not delete or move around unifications created by stack_opt.m. compiler/call_gen.m: compiler/code_info.m: compiler/continuation_info.m: compiler/var_locn.m: Allow the code generator to delete its last record of the location of a value when generating code to make an erroneous call, if the new --opt-no-return-calls option is set. compiler/code_gen.m: Use a more useful algorithm to create the messages/comments that we put into incr_sp instructions, e.g. by distinguishing between predicates and functions. This is to allow the new scripts in the tool directory to gather statistics about the effect of the optimization on stack frame sizes. library/exception.m: Make a hand-written incr_sp follow the new pattern. compiler/arg_info.m: Add predicates to figure out the set of input, output and unused arguments of a procedure in several different circumstances. Previously, variants of these predicates were repeated in several places. compiler/goal_util.m: Export some previously private utility predicates. compiler/handle_options.m: Turn off stack slot optimizations when debugging, unless --trace-optimized is set. Add a new dump format useful for debugging --optimize-saved-vars. compiler/hlds_llds.m: New module for handling all the stuff specific to the LLDS back end in HLDS goal_infos. compiler/hlds_goal.m: Move all the relevant stuff into the new back end specific field in goal_infos. compiler/notes/allocation.html: Update the documentation of store maps to reflect their movement into a subfield of goal_infos. compiler/*.m: Minor changes to accomodate the placement of all back end specific information about goals from goal_exprs and individual fields of goal_infos into a new field in goal_infos that gathers together all back end specific information. compiler/use_local_vars.m: Look for sequences in which several instructions use a fake register or stack slot as a base register pointing to a cell, and make those instructions use a local variable instead. Without this, a key assumption of the stack slot optimization, that accessing a field in a cell costs only one load or store instruction, would be much less likely to be true. (With this optimization, the assumption will be false only if the C compiler's code generator runs out of registers in a basic block, which for the code we generate should be unlikely even on x86s.) compiler/options.m: Make the old option --optimize-saved-vars ask for both the old stack slot optimization (implemented by saved_vars.m) that only eliminates the storing of constants in stack slots, and the new optimization. Add two new options --optimize-saved-vars-{const,cell} to turn on the two optimizations separately. Add a bunch of options to specify the parameters of the new optimizations, both in stack_opt.m and use_local_vars.m. These are for implementors only; they are deliberately not documented. Add a new option, --opt-no-return-cells, that governs whether we avoid saving variables on the stack at calls that cannot return, either by succeeding or by failing. This is for implementors only, and thus deliberately documented only in comments. It is enabled by default. compiler/optimize.m: Transmit the value of a new option to use_local_vars.m. doc/user_guide.texi: Update the documentation of --optimize-saved-vars. library/tree234.m: Undo a previous change of mine that effectively applied this optimization by hand. That change complicated the code, and now the compiler can do the optimization automatically. tools/extract_incr_sp: A new script for extracting stack frame sizes and messages from stack increment operations in the C code for LLDS grades. tools/frame_sizes: A new script that uses extract_incr_sp to extract information about stack frame sizes from the C files saved from a stage 2 directory by makebatch and summarizes the resulting information. tools/avg_frame_size: A new script that computes average stack frame sizes from the files created by frame_sizes. tools/compare_frame_sizes: A new script that compares the stack frame size information extracted from two different stage 2 directories by frame_sizes, reporting on both average stack frame sizes and on specific procedures that have different stack frame sizes in the two versions.	2002-03-28 03:44:41 +00:00