third_party/llvm-16.0/llvm/lib/DebugInfo/Symbolize/Markup.cpp - SwiftShader - Git at Google

 //===- lib/DebugInfo/Symbolize/Markup.cpp ------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// This file defines the log symbolizer markup data model and parser.
 ///
 //===----------------------------------------------------------------------===//

 #include "llvm/DebugInfo/Symbolize/Markup.h"

 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/StringExtras.h"

 namespace llvm {
 namespace symbolize {

 // Matches the following:
 //   "\033[0m"
 //   "\033[1m"
 //   "\033[30m" -- "\033[37m"
 static const char SGRSyntaxStr[] = "\033\\[([0-1]|3[0-7])m";

 MarkupParser::MarkupParser(StringSet<> MultilineTags)
     : MultilineTags(std::move(MultilineTags)), SGRSyntax(SGRSyntaxStr) {}

 static StringRef takeTo(StringRef Str, StringRef::iterator Pos) {
   return Str.take_front(Pos - Str.begin());
 }
 static void advanceTo(StringRef &Str, StringRef::iterator Pos) {
   Str = Str.drop_front(Pos - Str.begin());
 }

 void MarkupParser::parseLine(StringRef Line) {
   Buffer.clear();
   NextIdx = 0;
   FinishedMultiline.clear();
   this->Line = Line;
 }

 std::optional<MarkupNode> MarkupParser::nextNode() {
   // Pull something out of the buffer if possible.
   if (!Buffer.empty()) {
     if (NextIdx < Buffer.size())
       return std::move(Buffer[NextIdx++]);
     NextIdx = 0;
     Buffer.clear();
   }

   // The buffer is empty, so parse the next bit of the line.

   if (Line.empty())
     return std::nullopt;

   if (!InProgressMultiline.empty()) {
     if (std::optional<StringRef> MultilineEnd = parseMultiLineEnd(Line)) {
       llvm::append_range(InProgressMultiline, *MultilineEnd);
       assert(FinishedMultiline.empty() &&
              "At most one multi-line element can be finished at a time.");
       FinishedMultiline.swap(InProgressMultiline);
       // Parse the multi-line element as if it were contiguous.
       advanceTo(Line, MultilineEnd->end());
       return *parseElement(FinishedMultiline);
     }

     // The whole line is part of the multi-line element.
     llvm::append_range(InProgressMultiline, Line);
     Line = Line.drop_front(Line.size());
     return std::nullopt;
   }

   // Find the first valid markup element, if any.
   if (std::optional<MarkupNode> Element = parseElement(Line)) {
     parseTextOutsideMarkup(takeTo(Line, Element->Text.begin()));
     Buffer.push_back(std::move(*Element));
     advanceTo(Line, Element->Text.end());
     return nextNode();
   }

   // Since there were no valid elements remaining, see if the line opens a
   // multi-line element.
   if (std::optional<StringRef> MultilineBegin = parseMultiLineBegin(Line)) {
     // Emit any text before the element.
     parseTextOutsideMarkup(takeTo(Line, MultilineBegin->begin()));

     // Begin recording the multi-line element.
     llvm::append_range(InProgressMultiline, *MultilineBegin);
     Line = Line.drop_front(Line.size());
     return nextNode();
   }

   // The line doesn't contain any more markup elements, so emit it as text.
   parseTextOutsideMarkup(Line);
   Line = Line.drop_front(Line.size());
   return nextNode();
 }

 void MarkupParser::flush() {
   Buffer.clear();
   NextIdx = 0;
   Line = {};
   if (InProgressMultiline.empty())
     return;
   FinishedMultiline.swap(InProgressMultiline);
   parseTextOutsideMarkup(FinishedMultiline);
 }

 // Finds and returns the next valid markup element in the given line. Returns
 // std::nullopt if the line contains no valid elements.
 std::optional<MarkupNode> MarkupParser::parseElement(StringRef Line) {
   while (true) {
     // Find next element using begin and end markers.
     size_t BeginPos = Line.find("{{{");
     if (BeginPos == StringRef::npos)
       return std::nullopt;
     size_t EndPos = Line.find("}}}", BeginPos + 3);
     if (EndPos == StringRef::npos)
       return std::nullopt;
     EndPos += 3;
     MarkupNode Element;
     Element.Text = Line.slice(BeginPos, EndPos);
     Line = Line.substr(EndPos);

     // Parse tag.
     StringRef Content = Element.Text.drop_front(3).drop_back(3);
     StringRef FieldsContent;
     std::tie(Element.Tag, FieldsContent) = Content.split(':');
     if (Element.Tag.empty())
       continue;

     // Parse fields.
     if (!FieldsContent.empty())
       FieldsContent.split(Element.Fields, ":");
     else if (Content.back() == ':')
       Element.Fields.push_back(FieldsContent);

     return Element;
   }
 }

 static MarkupNode textNode(StringRef Text) {
   MarkupNode Node;
   Node.Text = Text;
   return Node;
 }

 // Parses a region of text known to be outside any markup elements. Such text
 // may still contain SGR control codes, so the region is further subdivided into
 // control codes and true text regions.
 void MarkupParser::parseTextOutsideMarkup(StringRef Text) {
   if (Text.empty())
     return;
   SmallVector<StringRef> Matches;
   while (SGRSyntax.match(Text, &Matches)) {
     // Emit any text before the SGR element.
     if (Matches.begin()->begin() != Text.begin())
       Buffer.push_back(textNode(takeTo(Text, Matches.begin()->begin())));

     Buffer.push_back(textNode(*Matches.begin()));
     advanceTo(Text, Matches.begin()->end());
   }
   if (!Text.empty())
     Buffer.push_back(textNode(Text));
 }

 // Given that a line doesn't contain any valid markup, see if it ends with the
 // start of a multi-line element. If so, returns the beginning.
 std::optional<StringRef> MarkupParser::parseMultiLineBegin(StringRef Line) {
   // A multi-line begin marker must be the last one on the line.
   size_t BeginPos = Line.rfind("{{{");
   if (BeginPos == StringRef::npos)
     return std::nullopt;
   size_t BeginTagPos = BeginPos + 3;

   // If there are any end markers afterwards, the begin marker cannot belong to
   // a multi-line element.
   size_t EndPos = Line.find("}}}", BeginTagPos);
   if (EndPos != StringRef::npos)
     return std::nullopt;

   // Check whether the tag is registered multi-line.
   size_t EndTagPos = Line.find(':', BeginTagPos);
   if (EndTagPos == StringRef::npos)
     return std::nullopt;
   StringRef Tag = Line.slice(BeginTagPos, EndTagPos);
   if (!MultilineTags.contains(Tag))
     return std::nullopt;
   return Line.substr(BeginPos);
 }

 // See if the line begins with the ending of an in-progress multi-line element.
 // If so, return the ending.
 std::optional<StringRef> MarkupParser::parseMultiLineEnd(StringRef Line) {
   size_t EndPos = Line.find("}}}");
   if (EndPos == StringRef::npos)
     return std::nullopt;
   return Line.take_front(EndPos + 3);
 }

 } // end namespace symbolize
 } // end namespace llvm
	//===- lib/DebugInfo/Symbolize/Markup.cpp ------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// This file defines the log symbolizer markup data model and parser.
	///
	//===----------------------------------------------------------------------===//

	#include "llvm/DebugInfo/Symbolize/Markup.h"

	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/StringExtras.h"

	namespace llvm {
	namespace symbolize {

	// Matches the following:
	// "\033[0m"
	// "\033[1m"
	// "\033[30m" -- "\033[37m"
	static const char SGRSyntaxStr[] = "\033\\[([0-1]\|3[0-7])m";

	MarkupParser::MarkupParser(StringSet<> MultilineTags)
	: MultilineTags(std::move(MultilineTags)), SGRSyntax(SGRSyntaxStr) {}

	static StringRef takeTo(StringRef Str, StringRef::iterator Pos) {
	return Str.take_front(Pos - Str.begin());
	}
	static void advanceTo(StringRef &Str, StringRef::iterator Pos) {
	Str = Str.drop_front(Pos - Str.begin());
	}

	void MarkupParser::parseLine(StringRef Line) {
	Buffer.clear();
	NextIdx = 0;
	FinishedMultiline.clear();
	this->Line = Line;
	}

	std::optional<MarkupNode> MarkupParser::nextNode() {
	// Pull something out of the buffer if possible.
	if (!Buffer.empty()) {
	if (NextIdx < Buffer.size())
	return std::move(Buffer[NextIdx++]);
	NextIdx = 0;
	Buffer.clear();
	}

	// The buffer is empty, so parse the next bit of the line.

	if (Line.empty())
	return std::nullopt;

	if (!InProgressMultiline.empty()) {
	if (std::optional<StringRef> MultilineEnd = parseMultiLineEnd(Line)) {
	llvm::append_range(InProgressMultiline, *MultilineEnd);
	assert(FinishedMultiline.empty() &&
	"At most one multi-line element can be finished at a time.");
	FinishedMultiline.swap(InProgressMultiline);
	// Parse the multi-line element as if it were contiguous.
	advanceTo(Line, MultilineEnd->end());
	return *parseElement(FinishedMultiline);
	}

	// The whole line is part of the multi-line element.
	llvm::append_range(InProgressMultiline, Line);
	Line = Line.drop_front(Line.size());
	return std::nullopt;
	}

	// Find the first valid markup element, if any.
	if (std::optional<MarkupNode> Element = parseElement(Line)) {
	parseTextOutsideMarkup(takeTo(Line, Element->Text.begin()));
	Buffer.push_back(std::move(*Element));
	advanceTo(Line, Element->Text.end());
	return nextNode();
	}

	// Since there were no valid elements remaining, see if the line opens a
	// multi-line element.
	if (std::optional<StringRef> MultilineBegin = parseMultiLineBegin(Line)) {
	// Emit any text before the element.
	parseTextOutsideMarkup(takeTo(Line, MultilineBegin->begin()));

	// Begin recording the multi-line element.
	llvm::append_range(InProgressMultiline, *MultilineBegin);
	Line = Line.drop_front(Line.size());
	return nextNode();
	}

	// The line doesn't contain any more markup elements, so emit it as text.
	parseTextOutsideMarkup(Line);
	Line = Line.drop_front(Line.size());
	return nextNode();
	}

	void MarkupParser::flush() {
	Buffer.clear();
	NextIdx = 0;
	Line = {};
	if (InProgressMultiline.empty())
	return;
	FinishedMultiline.swap(InProgressMultiline);
	parseTextOutsideMarkup(FinishedMultiline);
	}

	// Finds and returns the next valid markup element in the given line. Returns
	// std::nullopt if the line contains no valid elements.
	std::optional<MarkupNode> MarkupParser::parseElement(StringRef Line) {
	while (true) {
	// Find next element using begin and end markers.
	size_t BeginPos = Line.find("{{{");
	if (BeginPos == StringRef::npos)
	return std::nullopt;
	size_t EndPos = Line.find("}}}", BeginPos + 3);
	if (EndPos == StringRef::npos)
	return std::nullopt;
	EndPos += 3;
	MarkupNode Element;
	Element.Text = Line.slice(BeginPos, EndPos);
	Line = Line.substr(EndPos);

	// Parse tag.
	StringRef Content = Element.Text.drop_front(3).drop_back(3);
	StringRef FieldsContent;
	std::tie(Element.Tag, FieldsContent) = Content.split(':');
	if (Element.Tag.empty())
	continue;

	// Parse fields.
	if (!FieldsContent.empty())
	FieldsContent.split(Element.Fields, ":");
	else if (Content.back() == ':')
	Element.Fields.push_back(FieldsContent);

	return Element;
	}
	}

	static MarkupNode textNode(StringRef Text) {
	MarkupNode Node;
	Node.Text = Text;
	return Node;
	}

	// Parses a region of text known to be outside any markup elements. Such text
	// may still contain SGR control codes, so the region is further subdivided into
	// control codes and true text regions.
	void MarkupParser::parseTextOutsideMarkup(StringRef Text) {
	if (Text.empty())
	return;
	SmallVector<StringRef> Matches;
	while (SGRSyntax.match(Text, &Matches)) {
	// Emit any text before the SGR element.
	if (Matches.begin()->begin() != Text.begin())
	Buffer.push_back(textNode(takeTo(Text, Matches.begin()->begin())));

	Buffer.push_back(textNode(*Matches.begin()));
	advanceTo(Text, Matches.begin()->end());
	}
	if (!Text.empty())
	Buffer.push_back(textNode(Text));
	}

	// Given that a line doesn't contain any valid markup, see if it ends with the
	// start of a multi-line element. If so, returns the beginning.
	std::optional<StringRef> MarkupParser::parseMultiLineBegin(StringRef Line) {
	// A multi-line begin marker must be the last one on the line.
	size_t BeginPos = Line.rfind("{{{");
	if (BeginPos == StringRef::npos)
	return std::nullopt;
	size_t BeginTagPos = BeginPos + 3;

	// If there are any end markers afterwards, the begin marker cannot belong to
	// a multi-line element.
	size_t EndPos = Line.find("}}}", BeginTagPos);
	if (EndPos != StringRef::npos)
	return std::nullopt;

	// Check whether the tag is registered multi-line.
	size_t EndTagPos = Line.find(':', BeginTagPos);
	if (EndTagPos == StringRef::npos)
	return std::nullopt;
	StringRef Tag = Line.slice(BeginTagPos, EndTagPos);
	if (!MultilineTags.contains(Tag))
	return std::nullopt;
	return Line.substr(BeginPos);
	}

	// See if the line begins with the ending of an in-progress multi-line element.
	// If so, return the ending.
	std::optional<StringRef> MarkupParser::parseMultiLineEnd(StringRef Line) {
	size_t EndPos = Line.find("}}}");
	if (EndPos == StringRef::npos)
	return std::nullopt;
	return Line.take_front(EndPos + 3);
	}

	} // end namespace symbolize
	} // end namespace llvm