kc3-lang/libxkbcommon/bench/compile-keymap.c

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• Hash : 7c9f8668
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  Date : 2025-09-30T13:10:13
  

  tools: Add option drop unused bits
  

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• bench/compile-keymap.c

• /*
   * Copyright © 2024 Pierre Le Marre <dev@wismill.eu>
   * SPDX-License-Identifier: MIT
   */
  
  #include "config.h"
  
  #include <fcntl.h>
  #include <time.h>
  #include <getopt.h>
  
  #include "xkbcommon/xkbcommon.h"
  
  #include "utils.h"
  #include "keymap-formats.h"
  
  #include "bench.h"
  
  #define DEFAULT_ITERATIONS 3000
  #define DEFAULT_STDEV 0.05
  
  static void
  usage(FILE *fp, char **argv)
  {
      fprintf(fp, "Usage: %s [OPTIONS]\n"
             "\n"
             "Benchmark compilation of the given RMLVO\n"
             "\n"
             "Options:\n"
             " --help\n"
             "    Print this help and exit\n"
             " --iter\n"
             "    Exact number of iterations to run\n"
             " --stdev\n"
             "    Minimal relative standard deviation (percentage) to reach.\n"
             "    (default: %f)\n"
             "Note: --iter and --stdev are mutually exclusive.\n"
             "\n"
             "XKB-specific options:\n"
             " --input-format <format>\n"
             "    The keymap format to use for parsing (default: %d)\n"
  #ifdef KEYMAP_DUMP
             " --output-format <format>\n"
             "    The keymap format to use for serializing (default: %d)\n"
  #endif
             " --pretty\n"
             "    Enable pretty-printing in keymap serialization\n"
             " --keep-unused\n"
             "    Keep unused bits in keymap serialization\n"
             " --keymap\n"
             "    Load the corresponding XKB file, ignore RMLVO options.\n"
             " --rules <rules>\n"
             "    The XKB ruleset (default: '%s')\n"
             " --model <model>\n"
             "    The XKB model (default: '%s')\n"
             " --layout <layout>\n"
             "    The XKB layout (default: '%s')\n"
             " --variant <variant>\n"
             "    The XKB layout variant (default: '%s')\n"
             " --options <options>\n"
             "    The XKB options (default: '%s')\n"
             "\n",
             argv[0], DEFAULT_STDEV * 100, DEFAULT_INPUT_KEYMAP_FORMAT,
  #ifdef KEYMAP_DUMP
             DEFAULT_OUTPUT_KEYMAP_FORMAT,
  #endif
             DEFAULT_XKB_RULES, DEFAULT_XKB_MODEL, DEFAULT_XKB_LAYOUT,
             DEFAULT_XKB_VARIANT ? DEFAULT_XKB_VARIANT : "<none>",
             DEFAULT_XKB_OPTIONS ? DEFAULT_XKB_OPTIONS : "<none>");
  }
  
  static struct xkb_keymap *
  load_keymap(struct xkb_context *ctx, const char *keymap_path,
              const struct xkb_rule_names * rmlvo, enum xkb_keymap_format format,
              enum xkb_keymap_compile_flags flags)
  {
      if (keymap_path) {
          FILE *file = fopen(keymap_path, "r");
          if (!file) {
              fprintf(stderr, "ERROR: cannot open file: %s\n", keymap_path);
              return NULL;
          }
          struct xkb_keymap *keymap = xkb_keymap_new_from_file(
              ctx, file, format, XKB_KEYMAP_COMPILE_NO_FLAGS
          );
          fclose(file);
          return keymap;
      } else {
          return xkb_keymap_new_from_names2(ctx, rmlvo, format,
                                            XKB_KEYMAP_COMPILE_NO_FLAGS);
      }
  }
  
  int
  main(int argc, char **argv)
  {
      struct xkb_context *context;
      struct bench bench;
      struct bench_time elapsed;
      struct estimate est;
      enum xkb_keymap_format keymap_input_format = DEFAULT_INPUT_KEYMAP_FORMAT;
  #ifdef KEYMAP_DUMP
      enum xkb_keymap_format keymap_output_format = DEFAULT_OUTPUT_KEYMAP_FORMAT;
  #endif
      enum xkb_keymap_serialize_flags serialize_flags = XKB_KEYMAP_SERIALIZE_NO_FLAGS;
      bool explicit_iterations = false;
      int ret = 0;
      char *keymap_path = NULL;
      struct xkb_rule_names rmlvo = {
          .rules = DEFAULT_XKB_RULES,
          .model = DEFAULT_XKB_MODEL,
          /* layout and variant are tied together, so we either get user-supplied for
           * both or default for both, see below */
          .layout = NULL,
          .variant = NULL,
          .options = DEFAULT_XKB_OPTIONS,
      };
      unsigned int max_iterations = DEFAULT_ITERATIONS;
      double stdev = DEFAULT_STDEV;
  
      enum options {
          OPT_KEYMAP_INPUT_FORMAT,
          OPT_KEYMAP_OUTPUT_FORMAT,
          OPT_KEYMAP_PRETTY,
          OPT_KEYMAP_KEEP_UNUSED,
          OPT_KEYMAP,
          OPT_RULES,
          OPT_MODEL,
          OPT_LAYOUT,
          OPT_VARIANT,
          OPT_OPTION,
          OPT_ITERATIONS,
          OPT_STDEV,
      };
  
      static struct option opts[] = {
          {"help",             no_argument,            0, 'h'},
          {"input-format",     required_argument,      0, OPT_KEYMAP_INPUT_FORMAT},
  #ifdef KEYMAP_DUMP
          {"output-format",    required_argument,      0, OPT_KEYMAP_OUTPUT_FORMAT},
  #endif
          {"pretty",           no_argument,            0, OPT_KEYMAP_PRETTY},
          {"keep-unused",      no_argument,            0, OPT_KEYMAP_KEEP_UNUSED},
          {"keymap",           required_argument,      0, OPT_KEYMAP},
          {"rules",            required_argument,      0, OPT_RULES},
          {"model",            required_argument,      0, OPT_MODEL},
          {"layout",           required_argument,      0, OPT_LAYOUT},
          {"variant",          required_argument,      0, OPT_VARIANT},
          {"options",          required_argument,      0, OPT_OPTION},
          {"iter",             required_argument,      0, OPT_ITERATIONS},
          {"stdev",            required_argument,      0, OPT_STDEV},
          {0, 0, 0, 0},
      };
  
      while (1) {
          int c;
          int option_index = 0;
          c = getopt_long(argc, argv, "h", opts, &option_index);
          if (c == -1)
              break;
  
          switch (c) {
          case 'h':
              usage(stdout, argv);
              exit(EXIT_SUCCESS);
          case OPT_KEYMAP_INPUT_FORMAT:
              keymap_input_format = xkb_keymap_parse_format(optarg);
              if (!keymap_input_format) {
                  fprintf(stderr, "ERROR: invalid --input-format: \"%s\"\n", optarg);
                  usage(stderr, argv);
                  exit(EXIT_INVALID_USAGE);
              }
              break;
  #ifdef KEYMAP_DUMP
          case OPT_KEYMAP_OUTPUT_FORMAT:
              keymap_output_format = xkb_keymap_parse_format(optarg);
              if (!keymap_output_format) {
                  fprintf(stderr, "ERROR: invalid --output-format: \"%s\"\n", optarg);
                  usage(stderr, argv);
                  exit(EXIT_INVALID_USAGE);
              }
              break;
  #endif
          case OPT_KEYMAP_PRETTY:
              serialize_flags |= XKB_KEYMAP_SERIALIZE_PRETTY;
              break;
          case OPT_KEYMAP_KEEP_UNUSED:
              serialize_flags |= XKB_KEYMAP_SERIALIZE_KEEP_UNUSED;
              break;
          case OPT_KEYMAP:
              keymap_path = optarg;
              break;
          case OPT_RULES:
              rmlvo.rules = optarg;
              break;
          case OPT_MODEL:
              rmlvo.model = optarg;
              break;
          case OPT_LAYOUT:
              rmlvo.layout = optarg;
              break;
          case OPT_VARIANT:
              rmlvo.variant = optarg;
              break;
          case OPT_OPTION:
              rmlvo.options = optarg;
              break;
          case OPT_ITERATIONS:
              if (max_iterations == 0) {
                  usage(stderr, argv);
                  exit(EXIT_INVALID_USAGE);
              }
              {
                  const int max_iterations_raw = atoi(optarg);
                  if (max_iterations_raw <= 0)
                      max_iterations = DEFAULT_ITERATIONS;
                  else
                      max_iterations = (unsigned int) max_iterations_raw;
              }
              explicit_iterations = true;
              break;
          case OPT_STDEV:
              if (explicit_iterations) {
                  usage(stderr, argv);
                  exit(EXIT_INVALID_USAGE);
              }
              stdev = atof(optarg) / 100;
              if (stdev <= 0)
                  stdev = DEFAULT_STDEV;
              max_iterations = 0;
              break;
          default:
              usage(stderr, argv);
              exit(EXIT_INVALID_USAGE);
          }
      }
  
      /* Now fill in the layout */
      if (!rmlvo.layout || !*rmlvo.layout) {
          if (rmlvo.variant && *rmlvo.variant) {
              fprintf(stderr, "Error: a variant requires a layout\n");
              return EXIT_INVALID_USAGE;
          }
          rmlvo.layout = DEFAULT_XKB_LAYOUT;
          rmlvo.variant = DEFAULT_XKB_VARIANT;
      }
  
      context = xkb_context_new(XKB_CONTEXT_NO_FLAGS);
      if (!context)
          exit(1);
  
      struct xkb_keymap *keymap = load_keymap(context, keymap_path, &rmlvo,
                                              keymap_input_format,
                                              XKB_KEYMAP_COMPILE_NO_FLAGS);
  
      if (!keymap) {
          fprintf(stderr, "ERROR: Cannot compile keymap.\n");
          ret = EXIT_FAILURE;
          goto keymap_error;
      }
  
  #ifndef KEYMAP_DUMP
      /* Cache the keymap input to mitigate I/O latency */
      char *keymap_str = NULL;
      size_t keymap_str_length = 0;
      FILE *keymap_file = NULL;
      if (keymap_path) {
          /* Load keymap file into memory */
          keymap_file = fopen(keymap_path, "r");
          if (!keymap_file) {
              fprintf(stderr, "ERROR: cannot open file: %s\n", keymap_path);
              ret = EXIT_FAILURE;
              goto keymap_error;
          }
          if (!map_file(keymap_file, &keymap_str, &keymap_str_length)) {
              fclose(keymap_file);
              ret = EXIT_FAILURE;
              goto keymap_error;
          }
      } else {
          /*
           * Serialize from RMLVO
           *
           * This has the caveat that the benchmarked input is different from the
           * original KcCGST files.
           */
          keymap_str = xkb_keymap_get_as_string2(
              keymap, XKB_KEYMAP_USE_ORIGINAL_FORMAT, serialize_flags
          );
          if (!keymap_str) {
              fprintf(stderr, "ERROR: cannot serialize keymap\n");
              ret = EXIT_FAILURE;
              goto keymap_error;
          }
          keymap_str_length = strlen(keymap_str);
      }
      xkb_keymap_unref(keymap);
  #endif
  
      /* Suspend stdout and stderr outputs */
      fflush(stdout);
      int stdout_old = dup(STDOUT_FILENO);
      int stdout_new = open("/dev/null", O_WRONLY);
      if (stdout_old == -1 || stdout_new == -1 ||
          dup2(stdout_new, STDOUT_FILENO) == -1) {
          perror("Stdout error");
          exit(EXIT_FAILURE);
      }
      close(stdout_new);
      fflush(stderr);
      int stderr_old = dup(STDERR_FILENO);
      int stderr_new = open("/dev/null", O_WRONLY);
      if (stderr_old == -1 || stderr_new == -1 ||
          dup2(stderr_new, STDERR_FILENO) == -1) {
          perror("Stderr error");
          exit(EXIT_FAILURE);
      }
      close(stderr_new);
  
      if (explicit_iterations) {
          stdev = 0;
          bench_start2(&bench);
          for (unsigned int i = 0; i < max_iterations; i++) {
  #ifdef KEYMAP_DUMP
              char *s = xkb_keymap_get_as_string2(keymap, keymap_output_format,
                                                  serialize_flags);
              assert(s);
              free(s);
  #else
              keymap = xkb_keymap_new_from_buffer(
                  context, keymap_str, keymap_str_length,
                  keymap_input_format, XKB_KEYMAP_COMPILE_NO_FLAGS
              );
              assert(keymap);
              xkb_keymap_unref(keymap);
  #endif
          }
          bench_stop2(&bench);
  
          bench_elapsed(&bench, &elapsed);
          est.elapsed = (bench_time_elapsed_nanoseconds(&elapsed)) / max_iterations;
          est.stdev = 0;
      } else {
          bench_start2(&bench);
  #ifdef KEYMAP_DUMP
          BENCH(stdev, max_iterations, elapsed, est,
              char *s = xkb_keymap_get_as_string2(keymap, keymap_output_format,
                                                  serialize_flags);
              assert(s);
              free(s);
          );
  #else
          BENCH(stdev, max_iterations, elapsed, est,
              keymap = xkb_keymap_new_from_buffer(
                  context, keymap_str, keymap_str_length,
                  keymap_input_format, XKB_KEYMAP_COMPILE_NO_FLAGS
              );
              assert(keymap);
              xkb_keymap_unref(keymap);
          );
  #endif
          bench_stop2(&bench);
      }
  
      /* Restore stdout and stderr outputs */
      fflush(stdout);
      dup2(stdout_old, STDOUT_FILENO);
      close(stdout_old);
      fflush(stderr);
      dup2(stderr_old, STDERR_FILENO);
      close(stderr_old);
  
  #ifdef KEYMAP_DUMP
      xkb_keymap_unref(keymap);
  #else
      if (keymap_str && keymap_file) {
          unmap_file(keymap_str, keymap_str_length);
          fclose(keymap_file);
      } else {
          free(keymap_str);
      }
  #endif
  
      struct bench_time total_elapsed;
      bench_elapsed(&bench, &total_elapsed);
      if (explicit_iterations) {
          fprintf(stderr,
                  "mean: %lld µs; compiled %u keymaps in %ld.%06lds\n",
                  est.elapsed / 1000, max_iterations,
                  total_elapsed.seconds, total_elapsed.nanoseconds / 1000);
      } else {
          fprintf(stderr,
                  "mean: %lld µs; stdev: %Lf%% (target: %f%%); "
                  "last run: compiled %u keymaps in %ld.%06lds; "
                  "total time: %ld.%06lds\n", est.elapsed / 1000,
                  (long double) est.stdev * 100.0 / (long double) est.elapsed,
                  stdev * 100,
                  max_iterations, elapsed.seconds, elapsed.nanoseconds / 1000,
                  total_elapsed.seconds, total_elapsed.nanoseconds / 1000);
      }
  
  keymap_error:
      xkb_context_unref(context);
      return ret;
  }
  

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