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27cd40a456
As reported here: https://reviews.llvm.org/D75153#1987272 Before, each instance of llvm-cov was creating one thread per hardware core, which wasn't needed probably because the number of inputs were small. This was probably causing a thread rlimit issue on large core count systems. After this patch, the previous behavior is restored (to what was before rG8404aeb5): If --num-threads is not specified, we create one thread per input, up to num.cores. When specified, --num-threads indicates any number of threads, with no upper limit. Differential Revision: https://reviews.llvm.org/D78408
243 lines
10 KiB
C++
243 lines
10 KiB
C++
//===- CoverageExporterJson.cpp - Code coverage export --------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements export of code coverage data to JSON.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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//
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// The json code coverage export follows the following format
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// Root: dict => Root Element containing metadata
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// -- Data: array => Homogeneous array of one or more export objects
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// -- Export: dict => Json representation of one CoverageMapping
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// -- Files: array => List of objects describing coverage for files
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// -- File: dict => Coverage for a single file
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// -- Segments: array => List of Segments contained in the file
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// -- Segment: dict => Describes a segment of the file with a counter
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// -- Expansions: array => List of expansion records
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// -- Expansion: dict => Object that descibes a single expansion
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// -- CountedRegion: dict => The region to be expanded
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// -- TargetRegions: array => List of Regions in the expansion
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// -- CountedRegion: dict => Single Region in the expansion
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// -- Summary: dict => Object summarizing the coverage for this file
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// -- LineCoverage: dict => Object summarizing line coverage
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// -- FunctionCoverage: dict => Object summarizing function coverage
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// -- RegionCoverage: dict => Object summarizing region coverage
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// -- Functions: array => List of objects describing coverage for functions
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// -- Function: dict => Coverage info for a single function
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// -- Filenames: array => List of filenames that the function relates to
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// -- Summary: dict => Object summarizing the coverage for the entire binary
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// -- LineCoverage: dict => Object summarizing line coverage
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// -- FunctionCoverage: dict => Object summarizing function coverage
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// -- InstantiationCoverage: dict => Object summarizing inst. coverage
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// -- RegionCoverage: dict => Object summarizing region coverage
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//
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//===----------------------------------------------------------------------===//
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#include "CoverageExporterJson.h"
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#include "CoverageReport.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/JSON.h"
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#include "llvm/Support/ThreadPool.h"
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#include "llvm/Support/Threading.h"
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#include <algorithm>
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#include <limits>
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#include <mutex>
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#include <utility>
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/// The semantic version combined as a string.
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#define LLVM_COVERAGE_EXPORT_JSON_STR "2.0.1"
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/// Unique type identifier for JSON coverage export.
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#define LLVM_COVERAGE_EXPORT_JSON_TYPE_STR "llvm.coverage.json.export"
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using namespace llvm;
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namespace {
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// The JSON library accepts int64_t, but profiling counts are stored as uint64_t.
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// Therefore we need to explicitly convert from unsigned to signed, since a naive
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// cast is implementation-defined behavior when the unsigned value cannot be
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// represented as a signed value. We choose to clamp the values to preserve the
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// invariant that counts are always >= 0.
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int64_t clamp_uint64_to_int64(uint64_t u) {
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return std::min(u, static_cast<uint64_t>(std::numeric_limits<int64_t>::max()));
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}
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json::Array renderSegment(const coverage::CoverageSegment &Segment) {
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return json::Array({Segment.Line, Segment.Col,
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clamp_uint64_to_int64(Segment.Count), Segment.HasCount,
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Segment.IsRegionEntry, Segment.IsGapRegion});
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}
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json::Array renderRegion(const coverage::CountedRegion &Region) {
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return json::Array({Region.LineStart, Region.ColumnStart, Region.LineEnd,
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Region.ColumnEnd, clamp_uint64_to_int64(Region.ExecutionCount),
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Region.FileID, Region.ExpandedFileID,
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int64_t(Region.Kind)});
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}
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json::Array renderRegions(ArrayRef<coverage::CountedRegion> Regions) {
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json::Array RegionArray;
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for (const auto &Region : Regions)
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RegionArray.push_back(renderRegion(Region));
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return RegionArray;
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}
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json::Object renderExpansion(const coverage::ExpansionRecord &Expansion) {
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return json::Object(
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{{"filenames", json::Array(Expansion.Function.Filenames)},
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// Mark the beginning and end of this expansion in the source file.
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{"source_region", renderRegion(Expansion.Region)},
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// Enumerate the coverage information for the expansion.
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{"target_regions", renderRegions(Expansion.Function.CountedRegions)}});
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}
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json::Object renderSummary(const FileCoverageSummary &Summary) {
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return json::Object(
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{{"lines",
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json::Object({{"count", int64_t(Summary.LineCoverage.getNumLines())},
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{"covered", int64_t(Summary.LineCoverage.getCovered())},
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{"percent", Summary.LineCoverage.getPercentCovered()}})},
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{"functions",
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json::Object(
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{{"count", int64_t(Summary.FunctionCoverage.getNumFunctions())},
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{"covered", int64_t(Summary.FunctionCoverage.getExecuted())},
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{"percent", Summary.FunctionCoverage.getPercentCovered()}})},
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{"instantiations",
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json::Object(
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{{"count",
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int64_t(Summary.InstantiationCoverage.getNumFunctions())},
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{"covered", int64_t(Summary.InstantiationCoverage.getExecuted())},
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{"percent", Summary.InstantiationCoverage.getPercentCovered()}})},
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{"regions",
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json::Object(
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{{"count", int64_t(Summary.RegionCoverage.getNumRegions())},
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{"covered", int64_t(Summary.RegionCoverage.getCovered())},
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{"notcovered", int64_t(Summary.RegionCoverage.getNumRegions() -
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Summary.RegionCoverage.getCovered())},
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{"percent", Summary.RegionCoverage.getPercentCovered()}})}});
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}
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json::Array renderFileExpansions(const coverage::CoverageData &FileCoverage,
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const FileCoverageSummary &FileReport) {
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json::Array ExpansionArray;
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for (const auto &Expansion : FileCoverage.getExpansions())
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ExpansionArray.push_back(renderExpansion(Expansion));
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return ExpansionArray;
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}
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json::Array renderFileSegments(const coverage::CoverageData &FileCoverage,
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const FileCoverageSummary &FileReport) {
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json::Array SegmentArray;
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for (const auto &Segment : FileCoverage)
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SegmentArray.push_back(renderSegment(Segment));
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return SegmentArray;
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}
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json::Object renderFile(const coverage::CoverageMapping &Coverage,
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const std::string &Filename,
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const FileCoverageSummary &FileReport,
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const CoverageViewOptions &Options) {
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json::Object File({{"filename", Filename}});
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if (!Options.ExportSummaryOnly) {
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// Calculate and render detailed coverage information for given file.
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auto FileCoverage = Coverage.getCoverageForFile(Filename);
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File["segments"] = renderFileSegments(FileCoverage, FileReport);
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if (!Options.SkipExpansions) {
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File["expansions"] = renderFileExpansions(FileCoverage, FileReport);
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}
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}
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File["summary"] = renderSummary(FileReport);
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return File;
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}
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json::Array renderFiles(const coverage::CoverageMapping &Coverage,
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ArrayRef<std::string> SourceFiles,
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ArrayRef<FileCoverageSummary> FileReports,
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const CoverageViewOptions &Options) {
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ThreadPoolStrategy S = hardware_concurrency(Options.NumThreads);
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if (Options.NumThreads == 0) {
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// If NumThreads is not specified, create one thread for each input, up to
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// the number of hardware cores.
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S = heavyweight_hardware_concurrency(SourceFiles.size());
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S.Limit = true;
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}
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ThreadPool Pool(S);
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json::Array FileArray;
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std::mutex FileArrayMutex;
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for (unsigned I = 0, E = SourceFiles.size(); I < E; ++I) {
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auto &SourceFile = SourceFiles[I];
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auto &FileReport = FileReports[I];
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Pool.async([&] {
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auto File = renderFile(Coverage, SourceFile, FileReport, Options);
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{
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std::lock_guard<std::mutex> Lock(FileArrayMutex);
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FileArray.push_back(std::move(File));
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}
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});
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}
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Pool.wait();
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return FileArray;
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}
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json::Array renderFunctions(
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const iterator_range<coverage::FunctionRecordIterator> &Functions) {
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json::Array FunctionArray;
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for (const auto &F : Functions)
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FunctionArray.push_back(
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json::Object({{"name", F.Name},
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{"count", clamp_uint64_to_int64(F.ExecutionCount)},
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{"regions", renderRegions(F.CountedRegions)},
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{"filenames", json::Array(F.Filenames)}}));
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return FunctionArray;
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}
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} // end anonymous namespace
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void CoverageExporterJson::renderRoot(const CoverageFilters &IgnoreFilters) {
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std::vector<std::string> SourceFiles;
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for (StringRef SF : Coverage.getUniqueSourceFiles()) {
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if (!IgnoreFilters.matchesFilename(SF))
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SourceFiles.emplace_back(SF);
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}
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renderRoot(SourceFiles);
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}
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void CoverageExporterJson::renderRoot(ArrayRef<std::string> SourceFiles) {
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FileCoverageSummary Totals = FileCoverageSummary("Totals");
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auto FileReports = CoverageReport::prepareFileReports(Coverage, Totals,
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SourceFiles, Options);
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auto Files = renderFiles(Coverage, SourceFiles, FileReports, Options);
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// Sort files in order of their names.
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std::sort(Files.begin(), Files.end(),
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[](const json::Value &A, const json::Value &B) {
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const json::Object *ObjA = A.getAsObject();
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const json::Object *ObjB = B.getAsObject();
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assert(ObjA != nullptr && "Value A was not an Object");
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assert(ObjB != nullptr && "Value B was not an Object");
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const StringRef FilenameA = ObjA->getString("filename").getValue();
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const StringRef FilenameB = ObjB->getString("filename").getValue();
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return FilenameA.compare(FilenameB) < 0;
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});
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auto Export = json::Object(
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{{"files", std::move(Files)}, {"totals", renderSummary(Totals)}});
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// Skip functions-level information if necessary.
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if (!Options.ExportSummaryOnly && !Options.SkipFunctions)
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Export["functions"] = renderFunctions(Coverage.getCoveredFunctions());
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auto ExportArray = json::Array({std::move(Export)});
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OS << json::Object({{"version", LLVM_COVERAGE_EXPORT_JSON_STR},
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{"type", LLVM_COVERAGE_EXPORT_JSON_TYPE_STR},
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{"data", std::move(ExportArray)}});
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}
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