llvm-mirror/tools/llvm-cov/CoverageSummaryInfo.cpp

//===- CoverageSummaryInfo.cpp - Coverage summary for function/file -------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// These structures are used to represent code coverage metrics
// for functions/files.
//
//===----------------------------------------------------------------------===//

#include "CoverageSummaryInfo.h"

using namespace llvm;
using namespace coverage;

FunctionCoverageSummary
FunctionCoverageSummary::get(const coverage::FunctionRecord &Function) {
  // Compute the region coverage.
  size_t NumCodeRegions = 0, CoveredRegions = 0;
  for (auto &CR : Function.CountedRegions) {
    if (CR.Kind != CounterMappingRegion::CodeRegion)
      continue;
    ++NumCodeRegions;
    if (CR.ExecutionCount != 0)
      ++CoveredRegions;
  }

  // Compute the line coverage
  size_t NumLines = 0, CoveredLines = 0;
  for (unsigned FileID = 0, E = Function.Filenames.size(); FileID < E;
       ++FileID) {
    // Find the line start and end of the function's source code
    // in that particular file
    unsigned LineStart = std::numeric_limits<unsigned>::max();
    unsigned LineEnd = 0;
    for (auto &CR : Function.CountedRegions) {
      if (CR.FileID != FileID)
        continue;
      LineStart = std::min(LineStart, CR.LineStart);
      LineEnd = std::max(LineEnd, CR.LineEnd);
    }
    unsigned LineCount = LineEnd - LineStart + 1;

    // Get counters
    llvm::SmallVector<uint64_t, 16> ExecutionCounts;
    ExecutionCounts.resize(LineCount, 0);
    for (auto &CR : Function.CountedRegions) {
      if (CR.FileID != FileID)
        continue;
      // Ignore the lines that were skipped by the preprocessor.
      auto ExecutionCount = CR.ExecutionCount;
      if (CR.Kind == CounterMappingRegion::SkippedRegion) {
        LineCount -= CR.LineEnd - CR.LineStart + 1;
        ExecutionCount = 1;
      }
      for (unsigned I = CR.LineStart; I <= CR.LineEnd; ++I)
        ExecutionCounts[I - LineStart] = ExecutionCount;
    }
    CoveredLines += LineCount - std::count(ExecutionCounts.begin(),
                                           ExecutionCounts.end(), 0);
    NumLines += LineCount;
  }
  return FunctionCoverageSummary(
      Function.Name, Function.ExecutionCount,
      RegionCoverageInfo(CoveredRegions, NumCodeRegions),
      LineCoverageInfo(CoveredLines, NumLines));
}

FunctionCoverageSummary
FunctionCoverageSummary::get(const InstantiationGroup &Group,
                             ArrayRef<FunctionCoverageSummary> Summaries) {
  std::string Name;
  if (Group.hasName()) {
    Name = Group.getName();
  } else {
    llvm::raw_string_ostream OS(Name);
    OS << "Definition at line " << Group.getLine() << ", column "
       << Group.getColumn();
  }

  FunctionCoverageSummary Summary(std::move(Name));
  Summary.ExecutionCount = Group.getTotalExecutionCount();
  Summary.RegionCoverage = Summaries[0].RegionCoverage;
  Summary.LineCoverage = Summaries[0].LineCoverage;
  for (const auto &FCS : Summaries.drop_front()) {
    Summary.RegionCoverage.Covered =
        std::max(FCS.RegionCoverage.Covered, Summary.RegionCoverage.Covered);
    Summary.RegionCoverage.NotCovered = std::min(
        FCS.RegionCoverage.NotCovered, Summary.RegionCoverage.NotCovered);
    Summary.LineCoverage.Covered =
        std::max(FCS.LineCoverage.Covered, Summary.LineCoverage.Covered);
    Summary.LineCoverage.NotCovered =
        std::min(FCS.LineCoverage.NotCovered, Summary.LineCoverage.NotCovered);
  }
  return Summary;
}
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`//===- CoverageSummaryInfo.cpp - Coverage summary for function/file -------===//`
			`//`
			`// The LLVM Compiler Infrastructure`
			`//`
			`// This file is distributed under the University of Illinois Open Source`
			`// License. See LICENSE.TXT for details.`
			`//`
			`//===----------------------------------------------------------------------===//`
			`//`
			`// These structures are used to represent code coverage metrics`
			`// for functions/files.`
			`//`
			`//===----------------------------------------------------------------------===//`

			`#include "CoverageSummaryInfo.h"`

			`using namespace llvm;`
			`using namespace coverage;`

			`FunctionCoverageSummary`
llvm-cov: Disentangle the coverage data logic from the display (NFC) This splits the logic for actually looking up coverage information from the logic that displays it. These were tangled rather thoroughly so this change is a bit large, but it mostly consists of moving things around. The coverage lookup logic itself now lives in the library, rather than being spread between the library and the tool. llvm-svn: 218184 2014-09-20 17:31:56 +02:00			`FunctionCoverageSummary::get(const coverage::FunctionRecord &Function) {`
test commit llvm-svn: 276401 2016-07-22 11:20:21 +02:00			`// Compute the region coverage.`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`size_t NumCodeRegions = 0, CoveredRegions = 0;`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`for (auto &CR : Function.CountedRegions) {`
			`if (CR.Kind != CounterMappingRegion::CodeRegion)`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`continue;`
			`++NumCodeRegions;`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`if (CR.ExecutionCount != 0)`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`++CoveredRegions;`
			`}`

			`// Compute the line coverage`
			`size_t NumLines = 0, CoveredLines = 0;`
			`for (unsigned FileID = 0, E = Function.Filenames.size(); FileID < E;`
			`++FileID) {`
			`// Find the line start and end of the function's source code`
			`// in that particular file`
			`unsigned LineStart = std::numeric_limits<unsigned>::max();`
			`unsigned LineEnd = 0;`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`for (auto &CR : Function.CountedRegions) {`
			`if (CR.FileID != FileID)`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`continue;`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`LineStart = std::min(LineStart, CR.LineStart);`
			`LineEnd = std::max(LineEnd, CR.LineEnd);`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`}`
			`unsigned LineCount = LineEnd - LineStart + 1;`

			`// Get counters`
			`llvm::SmallVector<uint64_t, 16> ExecutionCounts;`
			`ExecutionCounts.resize(LineCount, 0);`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`for (auto &CR : Function.CountedRegions) {`
			`if (CR.FileID != FileID)`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`continue;`
			`// Ignore the lines that were skipped by the preprocessor.`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`auto ExecutionCount = CR.ExecutionCount;`
			`if (CR.Kind == CounterMappingRegion::SkippedRegion) {`
			`LineCount -= CR.LineEnd - CR.LineStart + 1;`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`ExecutionCount = 1;`
			`}`
llvm-cov: Rename MappingRegion to coverage::CountedRegion (NFC) This name was too similar to CoverageMappingRegion, and the type really belongs in the coverage library anyway. llvm-svn: 217416 2014-09-09 07:32:14 +02:00			`for (unsigned I = CR.LineStart; I <= CR.LineEnd; ++I)`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`ExecutionCounts[I - LineStart] = ExecutionCount;`
			`}`
			`CoveredLines += LineCount - std::count(ExecutionCounts.begin(),`
			`ExecutionCounts.end(), 0);`
			`NumLines += LineCount;`
			`}`
			`return FunctionCoverageSummary(`
llvm-cov: Use the number of executed functions for the function coverage metric. This commit fixes llvm-cov's function coverage metric by using the number of executed functions instead of the number of fully covered functions. Differential Revision: http://reviews.llvm.org/D5196 llvm-svn: 218672 2014-09-30 14:45:13 +02:00			`Function.Name, Function.ExecutionCount,`
			`RegionCoverageInfo(CoveredRegions, NumCodeRegions),`
[llvm-cov] Delete the NonCodeLines field, it was always dead llvm-svn: 281882 2016-09-19 03:46:01 +02:00			`LineCoverageInfo(CoveredLines, NumLines));`
llvm-cov: add code coverage tool that's based on coverage mapping format and clang's pgo. This commit expands llvm-cov's functionality by adding support for a new code coverage tool that uses LLVM's coverage mapping format and clang's instrumentation based profiling. The gcov compatible tool can be invoked by supplying the 'gcov' command as the first argument, or by modifying the tool's name to end with 'gcov'. Differential Revision: http://reviews.llvm.org/D4445 llvm-svn: 216300 2014-08-23 00:56:03 +02:00			`}`
[llvm-cov] Track function and instantiation coverage separately These are distinct statistics which are useful to look at separately. Example: say you have a template function "foo" with 5 instantiations and only 3 of them are covered. Then this contributes (1/1) to the total function coverage and (3/5) to the total instantiation coverage. I.e, the old "Function Coverage" column has been renamed to "Instantiation Coverage", and the new "Function Coverage" aggregates information from the various instantiations of a function. One benefit of making this switch is that the Line and Region coverage columns will start making sense. Let's continue the example and assume that the 5 instantiations of "foo" cover {2, 4, 6, 8, 10} out of 10 lines respectively. The new line coverage for "foo" is (10/10), not (30/50). The old scenario got confusing because we'd report that there were more lines in a file than what was actually possible. llvm-svn: 281875 2016-09-19 02:38:23 +02:00
[Coverage] Add an API to retrive all instantiations of a function (NFC) The CoverageMapping::getInstantiations() API retrieved all function records corresponding to functions with more than one instantiation (e.g template functions with multiple specializations). However, there was no simple way to determine which function a given record was an instantiation of. This was an oversight, since it's useful to aggregate coverage information over all instantiations of a function. llvm-cov works around this by building a mapping of source locations to instantiation sets, but this duplicates logic that libCoverage already has (see FunctionInstantiationSetCollector). This change adds a new API, CoverageMapping::getInstantiationGroups(), which returns a list of InstantiationGroups. A group contains records for each instantiation of some particular function, and also provides utilities to get the total execution count within the group, the source location of the common definition, etc. This lets removes some hacky logic in llvm-cov by reusing FunctionInstantiationSetCollector and makes the CoverageMapping API friendlier for other clients. llvm-svn: 309904 2017-08-03 01:35:25 +02:00			`FunctionCoverageSummary`
			`FunctionCoverageSummary::get(const InstantiationGroup &Group,`
			`ArrayRef<FunctionCoverageSummary> Summaries) {`
			`std::string Name;`
			`if (Group.hasName()) {`
			`Name = Group.getName();`
			`} else {`
			`llvm::raw_string_ostream OS(Name);`
			`OS << "Definition at line " << Group.getLine() << ", column "`
			`<< Group.getColumn();`
			`}`

			`FunctionCoverageSummary Summary(std::move(Name));`
			`Summary.ExecutionCount = Group.getTotalExecutionCount();`
			`Summary.RegionCoverage = Summaries[0].RegionCoverage;`
			`Summary.LineCoverage = Summaries[0].LineCoverage;`
			`for (const auto &FCS : Summaries.drop_front()) {`
			`Summary.RegionCoverage.Covered =`
			`std::max(FCS.RegionCoverage.Covered, Summary.RegionCoverage.Covered);`
			`Summary.RegionCoverage.NotCovered = std::min(`
			`FCS.RegionCoverage.NotCovered, Summary.RegionCoverage.NotCovered);`
			`Summary.LineCoverage.Covered =`
			`std::max(FCS.LineCoverage.Covered, Summary.LineCoverage.Covered);`
			`Summary.LineCoverage.NotCovered =`
			`std::min(FCS.LineCoverage.NotCovered, Summary.LineCoverage.NotCovered);`
			`}`
			`return Summary;`
[llvm-cov] Track function and instantiation coverage separately These are distinct statistics which are useful to look at separately. Example: say you have a template function "foo" with 5 instantiations and only 3 of them are covered. Then this contributes (1/1) to the total function coverage and (3/5) to the total instantiation coverage. I.e, the old "Function Coverage" column has been renamed to "Instantiation Coverage", and the new "Function Coverage" aggregates information from the various instantiations of a function. One benefit of making this switch is that the Line and Region coverage columns will start making sense. Let's continue the example and assume that the 5 instantiations of "foo" cover {2, 4, 6, 8, 10} out of 10 lines respectively. The new line coverage for "foo" is (10/10), not (30/50). The old scenario got confusing because we'd report that there were more lines in a file than what was actually possible. llvm-svn: 281875 2016-09-19 02:38:23 +02:00			`}`