llvm-project/llvm/tools/llvm-cov/CoverageExporterJson.cpp

422 lines
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C++

//===- CoverageExporterJson.cpp - Code coverage export --------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements export of code coverage data to JSON.
//
//===----------------------------------------------------------------------===//
//===----------------------------------------------------------------------===//
//
// The json code coverage export follows the following format
// Root: dict => Root Element containing metadata
// -- Data: array => Homogeneous array of one or more export objects
// ---- Export: dict => Json representation of one CoverageMapping
// ------ Files: array => List of objects describing coverage for files
// -------- File: dict => Coverage for a single file
// ---------- Segments: array => List of Segments contained in the file
// ------------ Segment: dict => Describes a segment of the file with a counter
// ---------- Expansions: array => List of expansion records
// ------------ Expansion: dict => Object that descibes a single expansion
// -------------- CountedRegion: dict => The region to be expanded
// -------------- TargetRegions: array => List of Regions in the expansion
// ---------------- CountedRegion: dict => Single Region in the expansion
// ---------- Summary: dict => Object summarizing the coverage for this file
// ------------ LineCoverage: dict => Object summarizing line coverage
// ------------ FunctionCoverage: dict => Object summarizing function coverage
// ------------ RegionCoverage: dict => Object summarizing region coverage
// ------ Functions: array => List of objects describing coverage for functions
// -------- Function: dict => Coverage info for a single function
// ---------- Filenames: array => List of filenames that the function relates to
// ---- Summary: dict => Object summarizing the coverage for the entire binary
// ------ LineCoverage: dict => Object summarizing line coverage
// ------ FunctionCoverage: dict => Object summarizing function coverage
// ------ InstantiationCoverage: dict => Object summarizing inst. coverage
// ------ RegionCoverage: dict => Object summarizing region coverage
//
//===----------------------------------------------------------------------===//
#include "CoverageReport.h"
#include "CoverageSummaryInfo.h"
#include "CoverageViewOptions.h"
#include "llvm/ProfileData/Coverage/CoverageMapping.h"
#include <stack>
/// \brief The semantic version combined as a string.
#define LLVM_COVERAGE_EXPORT_JSON_STR "2.0.0"
/// \brief Unique type identifier for JSON coverage export.
#define LLVM_COVERAGE_EXPORT_JSON_TYPE_STR "llvm.coverage.json.export"
using namespace llvm;
using namespace coverage;
class CoverageExporterJson {
/// \brief Output stream to print JSON to.
raw_ostream &OS;
/// \brief The full CoverageMapping object to export.
const CoverageMapping &Coverage;
/// \brief States that the JSON rendering machine can be in.
enum JsonState { None, NonEmptyElement, EmptyElement };
/// \brief Tracks state of the JSON output.
std::stack<JsonState> State;
/// \brief Emit a serialized scalar.
void emitSerialized(const int64_t Value) { OS << Value; }
/// \brief Emit a serialized string.
void emitSerialized(const std::string &Value) {
OS << "\"";
for (char C : Value) {
if (C != '\\')
OS << C;
else
OS << "\\\\";
}
OS << "\"";
}
/// \brief Emit a comma if there is a previous element to delimit.
void emitComma() {
if (State.top() == JsonState::NonEmptyElement) {
OS << ",";
} else if (State.top() == JsonState::EmptyElement) {
State.pop();
assert((State.size() >= 1) && "Closed too many JSON elements");
State.push(JsonState::NonEmptyElement);
}
}
/// \brief Emit a starting dictionary/object character.
void emitDictStart() {
emitComma();
State.push(JsonState::EmptyElement);
OS << "{";
}
/// \brief Emit a dictionary/object key but no value.
void emitDictKey(const std::string &Key) {
emitComma();
emitSerialized(Key);
OS << ":";
State.pop();
assert((State.size() >= 1) && "Closed too many JSON elements");
// We do not want to emit a comma after this key.
State.push(JsonState::EmptyElement);
}
/// \brief Emit a dictionary/object key/value pair.
template <typename V>
void emitDictElement(const std::string &Key, const V &Value) {
emitComma();
emitSerialized(Key);
OS << ":";
emitSerialized(Value);
}
/// \brief Emit a closing dictionary/object character.
void emitDictEnd() {
State.pop();
assert((State.size() >= 1) && "Closed too many JSON elements");
OS << "}";
}
/// \brief Emit a starting array character.
void emitArrayStart() {
emitComma();
State.push(JsonState::EmptyElement);
OS << "[";
}
/// \brief Emit an array element.
template <typename V> void emitArrayElement(const V &Value) {
emitComma();
emitSerialized(Value);
}
/// \brief emit a closing array character.
void emitArrayEnd() {
State.pop();
assert((State.size() >= 1) && "Closed too many JSON elements");
OS << "]";
}
/// \brief Render the CoverageMapping object.
void renderRoot() {
// Start Root of JSON object.
emitDictStart();
emitDictElement("version", LLVM_COVERAGE_EXPORT_JSON_STR);
emitDictElement("type", LLVM_COVERAGE_EXPORT_JSON_TYPE_STR);
emitDictKey("data");
// Start List of Exports.
emitArrayStart();
// Start Export.
emitDictStart();
emitDictKey("files");
FileCoverageSummary Totals = FileCoverageSummary("Totals");
std::vector<std::string> SourceFiles;
for (StringRef SF : Coverage.getUniqueSourceFiles())
SourceFiles.emplace_back(SF);
auto FileReports =
CoverageReport::prepareFileReports(Coverage, Totals, SourceFiles);
renderFiles(SourceFiles, FileReports);
emitDictKey("functions");
renderFunctions(Coverage.getCoveredFunctions());
emitDictKey("totals");
renderSummary(Totals);
// End Export.
emitDictEnd();
// End List of Exports.
emitArrayEnd();
// End Root of JSON Object.
emitDictEnd();
assert((State.top() == JsonState::None) &&
"All Elements In JSON were Closed");
}
/// \brief Render an array of all the given functions.
void
renderFunctions(const iterator_range<FunctionRecordIterator> &Functions) {
// Start List of Functions.
emitArrayStart();
for (const auto &Function : Functions) {
// Start Function.
emitDictStart();
emitDictElement("name", Function.Name);
emitDictElement("count", Function.ExecutionCount);
emitDictKey("regions");
renderRegions(Function.CountedRegions);
emitDictKey("filenames");
// Start Filenames for Function.
emitArrayStart();
for (const auto &FileName : Function.Filenames)
emitArrayElement(FileName);
// End Filenames for Function.
emitArrayEnd();
// End Function.
emitDictEnd();
}
// End List of Functions.
emitArrayEnd();
}
/// \brief Render an array of all the source files, also pass back a Summary.
void renderFiles(ArrayRef<std::string> SourceFiles,
ArrayRef<FileCoverageSummary> FileReports) {
// Start List of Files.
emitArrayStart();
for (unsigned I = 0, E = SourceFiles.size(); I < E; ++I) {
// Render the file.
auto FileCoverage = Coverage.getCoverageForFile(SourceFiles[I]);
renderFile(FileCoverage, FileReports[I]);
}
// End List of Files.
emitArrayEnd();
}
/// \brief Render a single file.
void renderFile(const CoverageData &FileCoverage,
const FileCoverageSummary &FileReport) {
// Start File.
emitDictStart();
emitDictElement("filename", FileCoverage.getFilename());
emitDictKey("segments");
// Start List of Segments.
emitArrayStart();
for (const auto &Segment : FileCoverage)
renderSegment(Segment);
// End List of Segments.
emitArrayEnd();
emitDictKey("expansions");
// Start List of Expansions.
emitArrayStart();
for (const auto &Expansion : FileCoverage.getExpansions())
renderExpansion(Expansion);
// End List of Expansions.
emitArrayEnd();
emitDictKey("summary");
renderSummary(FileReport);
// End File.
emitDictEnd();
}
/// \brief Render a CoverageSegment.
void renderSegment(const CoverageSegment &Segment) {
// Start Segment.
emitArrayStart();
emitArrayElement(Segment.Line);
emitArrayElement(Segment.Col);
emitArrayElement(Segment.Count);
emitArrayElement(Segment.HasCount);
emitArrayElement(Segment.IsRegionEntry);
// End Segment.
emitArrayEnd();
}
/// \brief Render an ExpansionRecord.
void renderExpansion(const ExpansionRecord &Expansion) {
// Start Expansion.
emitDictStart();
// Mark the beginning and end of this expansion in the source file.
emitDictKey("source_region");
renderRegion(Expansion.Region);
// Enumerate the coverage information for the expansion.
emitDictKey("target_regions");
renderRegions(Expansion.Function.CountedRegions);
emitDictKey("filenames");
// Start List of Filenames to map the fileIDs.
emitArrayStart();
for (const auto &Filename : Expansion.Function.Filenames)
emitArrayElement(Filename);
// End List of Filenames.
emitArrayEnd();
// End Expansion.
emitDictEnd();
}
/// \brief Render a list of CountedRegions.
void renderRegions(ArrayRef<CountedRegion> Regions) {
// Start List of Regions.
emitArrayStart();
for (const auto &Region : Regions)
renderRegion(Region);
// End List of Regions.
emitArrayEnd();
}
/// \brief Render a single CountedRegion.
void renderRegion(const CountedRegion &Region) {
// Start CountedRegion.
emitArrayStart();
emitArrayElement(Region.LineStart);
emitArrayElement(Region.ColumnStart);
emitArrayElement(Region.LineEnd);
emitArrayElement(Region.ColumnEnd);
emitArrayElement(Region.ExecutionCount);
emitArrayElement(Region.FileID);
emitArrayElement(Region.ExpandedFileID);
emitArrayElement(Region.Kind);
// End CountedRegion.
emitArrayEnd();
}
/// \brief Render a FileCoverageSummary.
void renderSummary(const FileCoverageSummary &Summary) {
// Start Summary for the file.
emitDictStart();
emitDictKey("lines");
// Start Line Coverage Summary.
emitDictStart();
emitDictElement("count", Summary.LineCoverage.NumLines);
emitDictElement("covered", Summary.LineCoverage.Covered);
emitDictElement("percent", Summary.LineCoverage.getPercentCovered());
// End Line Coverage Summary.
emitDictEnd();
emitDictKey("functions");
// Start Function Coverage Summary.
emitDictStart();
emitDictElement("count", Summary.FunctionCoverage.NumFunctions);
emitDictElement("covered", Summary.FunctionCoverage.Executed);
emitDictElement("percent", Summary.FunctionCoverage.getPercentCovered());
// End Function Coverage Summary.
emitDictEnd();
emitDictKey("instantiations");
// Start Instantiation Coverage Summary.
emitDictStart();
emitDictElement("count", Summary.InstantiationCoverage.NumFunctions);
emitDictElement("covered", Summary.InstantiationCoverage.Executed);
emitDictElement("percent",
Summary.InstantiationCoverage.getPercentCovered());
// End Function Coverage Summary.
emitDictEnd();
emitDictKey("regions");
// Start Region Coverage Summary.
emitDictStart();
emitDictElement("count", Summary.RegionCoverage.NumRegions);
emitDictElement("covered", Summary.RegionCoverage.Covered);
emitDictElement("notcovered", Summary.RegionCoverage.NotCovered);
emitDictElement("percent", Summary.RegionCoverage.getPercentCovered());
// End Region Coverage Summary.
emitDictEnd();
// End Summary for the file.
emitDictEnd();
}
public:
CoverageExporterJson(const CoverageMapping &CoverageMapping, raw_ostream &OS)
: OS(OS), Coverage(CoverageMapping) {
State.push(JsonState::None);
}
/// \brief Print the CoverageMapping.
void print() { renderRoot(); }
};
/// \brief Export the given CoverageMapping to a JSON Format.
void exportCoverageDataToJson(const CoverageMapping &CoverageMapping,
raw_ostream &OS) {
auto Exporter = CoverageExporterJson(CoverageMapping, OS);
Exporter.print();
}