Index: llvm/trunk/CMakeLists.txt =================================================================== --- llvm/trunk/CMakeLists.txt +++ llvm/trunk/CMakeLists.txt @@ -1105,3 +1105,7 @@ add_subdirectory(utils/benchmark) add_subdirectory(benchmarks) endif() + +if (LLVM_INCLUDE_UTILS) + add_subdirectory(utils/llvm-locstats) +endif() Index: llvm/trunk/docs/CommandGuide/index.rst =================================================================== --- llvm/trunk/docs/CommandGuide/index.rst +++ llvm/trunk/docs/CommandGuide/index.rst @@ -74,3 +74,4 @@ llvm-build llvm-exegesis llvm-pdbutil + llvm-locstats Index: llvm/trunk/docs/CommandGuide/llvm-locstats.rst =================================================================== --- llvm/trunk/docs/CommandGuide/llvm-locstats.rst +++ llvm/trunk/docs/CommandGuide/llvm-locstats.rst @@ -0,0 +1,79 @@ +llvm-locstats - calculate statistics on DWARF debug location +============================================================ + +.. program:: llvm-locstats + +SYNOPSIS +-------- + +:program:`llvm-locstats` [*options*] [*filename*] + +DESCRIPTION +----------- + +:program:`llvm-locstats` works like a wrapper around :program:`llvm-dwarfdump`. +It parses :program:`llvm-dwarfdump` statistics regarding debug location by +pretty printing it in a more human readable way. + +The line 0% shows the number and the percentage of DIEs with no location +information, but the line 100% shows the information for DIEs where there is +location information in all code section bytes (where the variable or parameter +is in the scope). The line 50-59% shows the number and the percentage of DIEs +where the location information is between 50 and 59 percentage of its scope +covered. + +OPTIONS +------- + +.. option:: -only-variables + + Calculate the location statistics only for local variables. + +.. option:: -only-formal-parameters + + Calculate the location statistics only for formal parameters. + +.. option:: -ignore-debug-entry-values + + Ignore the location statistics on locations containing the + debug entry values DWARF operation. + +EXIT STATUS +----------- + +:program:`llvm-locstats` returns 0 if the input file were parsed +successfully. Otherwise, it returns 1. + +OUTPUT EXAMPLE +-------------- + +.. code-block:: none + + ================================================= + Debug Location Statistics + ================================================= + cov% samples percentage(~) + ------------------------------------------------- + 0% 1 16% + 1-9% 0 0% + 10-19% 0 0% + 20-29% 0 0% + 30-39% 0 0% + 40-49% 0 0% + 50-99% 1 16% + 60-69% 0 0% + 70-79% 0 0% + 80-89% 1 16% + 90-99% 0 0% + 100% 3 50% + ================================================= + -the number of debug variables processed: 6 + -PC ranges covered: 81% + ------------------------------------------------- + -total availability: 83% + ================================================= + +SEE ALSO +-------- + +:manpage:`llvm-dwarfdump(1)` Index: llvm/trunk/test/tools/llvm-dwarfdump/X86/locstats.ll =================================================================== --- llvm/trunk/test/tools/llvm-dwarfdump/X86/locstats.ll +++ llvm/trunk/test/tools/llvm-dwarfdump/X86/locstats.ll @@ -1,6 +1,9 @@ ; RUN: llc -debug-entry-values %s -o - -filetype=obj \ ; RUN: | llvm-dwarfdump -statistics - | FileCheck %s ; +; RUN: llc -debug-entry-values %s -o %t0.o -filetype=obj \ +; RUN: | llvm-locstats %t0.o | FileCheck %s --check-prefix=LOCSTATS +; ; CHECK: "entry value scope bytes covered":5 ; CHECK: "formal params scope bytes total":20 ; CHECK: "formal params scope bytes covered":20 @@ -84,6 +87,20 @@ ; CHECK: "vars (excluding the debug entry values) with 90-99% of its scope covered":0 ; CHECK: "vars (excluding the debug entry values) with 100% of its scope covered":1} ; +; Test the llvm-locstats output. +; LOCSTATS: 0% 1 16% +; LOCSTATS: 1-9% 0 0% +; LOCSTATS: 10-19% 0 0% +; LOCSTATS: 20-29% 0 0% +; LOCSTATS: 30-39% 0 0% +; LOCSTATS: 40-49% 0 0% +; LOCSTATS: 50-59% 1 16% +; LOCSTATS: 60-69% 0 0% +; LOCSTATS: 70-79% 0 0% +; LOCSTATS: 80-89% 1 16% +; LOCSTATS: 90-99% 0 0% +; LOCSTATS: 100% 3 50% +; ; The source code of the test case: ; extern void fn3(int *); ; extern void fn2 (int); Index: llvm/trunk/utils/llvm-locstats/CMakeLists.txt =================================================================== --- llvm/trunk/utils/llvm-locstats/CMakeLists.txt +++ llvm/trunk/utils/llvm-locstats/CMakeLists.txt @@ -0,0 +1,6 @@ +if (LLVM_BUILD_UTILS) + add_custom_target(llvm-locstats ALL + COMMAND ${CMAKE_COMMAND} -E copy ${LLVM_MAIN_SRC_DIR}/utils/llvm-locstats/llvm-locstats.py ${CMAKE_RUNTIME_OUTPUT_DIRECTORY}/llvm-locstats + ) + set_target_properties(llvm-locstats PROPERTIES FOLDER "Utils") +endif() Index: llvm/trunk/utils/llvm-locstats/llvm-locstats.py =================================================================== --- llvm/trunk/utils/llvm-locstats/llvm-locstats.py +++ llvm/trunk/utils/llvm-locstats/llvm-locstats.py @@ -0,0 +1,208 @@ +#!/usr/bin/env python +# +# This is a tool that works like debug location coverage calculator. +# It parses the llvm-dwarfdump --statistics output by reporting it +# in a more human readable way. +# + +from __future__ import print_function +import argparse +import os +import sys +from json import loads +from math import ceil +from subprocess import Popen, PIPE + +def coverage_buckets(): + yield '0%' + yield '1-9%' + for start in range(10, 91, 10): + yield '{0}-{1}%'.format(start, start + 9) + yield '100%' + +def locstats_output( + variables_total, + variables_total_locstats, + variables_with_loc, + scope_bytes_covered, + scope_bytes_from_first_def, + variables_coverage_map + ): + + pc_ranges_covered = int(ceil(scope_bytes_covered * 100.0) + / scope_bytes_from_first_def) + variables_coverage_per_map = {} + for cov_bucket in coverage_buckets(): + variables_coverage_per_map[cov_bucket] = \ + int(ceil(variables_coverage_map[cov_bucket] * 100.0) \ + / variables_total_locstats) + + print (' =================================================') + print (' Debug Location Statistics ') + print (' =================================================') + print (' cov% samples percentage(~) ') + print (' -------------------------------------------------') + for cov_bucket in coverage_buckets(): + print (' {0:6} {1:8d} {2:3d}%'. \ + format(cov_bucket, variables_coverage_map[cov_bucket], \ + variables_coverage_per_map[cov_bucket])) + print (' =================================================') + print (' -the number of debug variables processed: ' \ + + str(variables_total_locstats)) + print (' -PC ranges covered: ' + str(pc_ranges_covered) + '%') + + # Only if we are processing all the variables output the total + # availability. + if variables_total and variables_with_loc: + total_availability = int(ceil(variables_with_loc * 100.0) \ + / variables_total) + print (' -------------------------------------------------') + print (' -total availability: ' + str(total_availability) + '%') + print (' =================================================') + +def parse_program_args(parser): + parser.add_argument('-only-variables', action='store_true', + default=False, + help='calculate the location statistics only for ' + 'local variables' + ) + parser.add_argument('-only-formal-parameters', action='store_true', + default=False, + help='calculate the location statistics only for ' + 'formal parameters' + ) + parser.add_argument('-ignore-debug-entry-values', action='store_true', + default=False, + help='ignore the location statistics on locations with ' + 'entry values' + ) + parser.add_argument('file_name', type=str, help='file to process') + return parser.parse_args() + + +def Main(): + parser = argparse.ArgumentParser() + results = parse_program_args(parser) + + if len(sys.argv) < 2: + print ('error: Too few arguments.') + parser.print_help() + sys.exit(1) + + if results.only_variables and results.only_formal_parameters: + print ('error: Please use just one only* option.') + parser.print_help() + sys.exit(1) + + # These will be different due to different options enabled. + variables_total = None + variables_total_locstats = None + variables_with_loc = None + variables_scope_bytes_covered = None + variables_scope_bytes_from_first_def = None + variables_scope_bytes_entry_values = None + variables_coverage_map = {} + binary = results.file_name + + # Get the directory of the LLVM tools. + llvm_dwarfdump_cmd = os.path.join(os.path.dirname(__file__), \ + "llvm-dwarfdump") + # The statistics llvm-dwarfdump option. + llvm_dwarfdump_stats_opt = "--statistics" + + subproc = Popen([llvm_dwarfdump_cmd, llvm_dwarfdump_stats_opt, binary], \ + stdin=PIPE, stdout=PIPE, stderr=PIPE, \ + universal_newlines = True) + cmd_stdout, cmd_stderr = subproc.communicate() + + # Get the JSON and parse it. + json_parsed = None + + try: + json_parsed = loads(cmd_stdout) + except: + print ('error: No valid llvm-dwarfdump statistics found.') + sys.exit(1) + + if results.only_variables: + # Read the JSON only for local variables. + variables_total_locstats = \ + json_parsed['total vars procesed by location statistics'] + variables_scope_bytes_covered = \ + json_parsed['vars scope bytes covered'] + variables_scope_bytes_from_first_def = \ + json_parsed['vars scope bytes total'] + if not results.ignore_debug_entry_values: + for cov_bucket in coverage_buckets(): + cov_category = "vars with {} of its scope covered".format(cov_bucket) + variables_coverage_map[cov_bucket] = json_parsed[cov_category] + else: + variables_scope_bytes_entry_values = \ + json_parsed['vars entry value scope bytes covered'] + variables_scope_bytes_covered = variables_scope_bytes_covered \ + - variables_scope_bytes_entry_values + for cov_bucket in coverage_buckets(): + cov_category = \ + "vars (excluding the debug entry values) " \ + "with {} of its scope covered".format(cov_bucket) + variables_coverage_map[cov_bucket] = json_parsed[cov_category] + elif results.only_formal_parameters: + # Read the JSON only for formal parameters. + variables_total_locstats = \ + json_parsed['total params procesed by location statistics'] + variables_scope_bytes_covered = \ + json_parsed['formal params scope bytes covered'] + variables_scope_bytes_from_first_def = \ + json_parsed['formal params scope bytes total'] + if not results.ignore_debug_entry_values: + for cov_bucket in coverage_buckets(): + cov_category = "params with {} of its scope covered".format(cov_bucket) + variables_coverage_map[cov_bucket] = json_parsed[cov_category] + else: + variables_scope_bytes_entry_values = \ + json_parsed['formal params entry value scope bytes covered'] + variables_scope_bytes_covered = variables_scope_bytes_covered \ + - variables_scope_bytes_entry_values + for cov_bucket in coverage_buckets(): + cov_category = \ + "params (excluding the debug entry values) " \ + "with {} of its scope covered".format(cov_bucket) + else: + # Read the JSON for both local variables and formal parameters. + variables_total = \ + json_parsed['source variables'] + variables_with_loc = json_parsed['variables with location'] + variables_total_locstats = \ + json_parsed['total variables procesed by location statistics'] + variables_scope_bytes_covered = \ + json_parsed['scope bytes covered'] + variables_scope_bytes_from_first_def = \ + json_parsed['scope bytes total'] + if not results.ignore_debug_entry_values: + for cov_bucket in coverage_buckets(): + cov_category = "variables with {} of its scope covered". \ + format(cov_bucket) + variables_coverage_map[cov_bucket] = json_parsed[cov_category] + else: + variables_scope_bytes_entry_values = \ + json_parsed['entry value scope bytes covered'] + variables_scope_bytes_covered = variables_scope_bytes_covered \ + - variables_scope_bytes_entry_values + for cov_bucket in coverage_buckets(): + cov_category = "variables (excluding the debug entry values) " \ + "with {} of its scope covered". format(cov_bucket) + variables_coverage_map[cov_bucket] = json_parsed[cov_category] + + # Pretty print collected info. + locstats_output( + variables_total, + variables_total_locstats, + variables_with_loc, + variables_scope_bytes_covered, + variables_scope_bytes_from_first_def, + variables_coverage_map + ) + +if __name__ == '__main__': + Main() + sys.exit(0)