third_party/llvm-7.0/llvm/lib/Support/FormatVariadic.cpp - SwiftShader - Git at Google

 //===- FormatVariadic.cpp - Format string parsing and analysis ----*-C++-*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //===----------------------------------------------------------------------===//

 #include "llvm/Support/FormatVariadic.h"

 using namespace llvm;

 static Optional<AlignStyle> translateLocChar(char C) {
   switch (C) {
   case '-':
     return AlignStyle::Left;
   case '=':
     return AlignStyle::Center;
   case '+':
     return AlignStyle::Right;
   default:
     return None;
   }
   LLVM_BUILTIN_UNREACHABLE;
 }

 bool formatv_object_base::consumeFieldLayout(StringRef &Spec, AlignStyle &Where,
                                              size_t &Align, char &Pad) {
   Where = AlignStyle::Right;
   Align = 0;
   Pad = ' ';
   if (Spec.empty())
     return true;

   if (Spec.size() > 1) {
     // A maximum of 2 characters at the beginning can be used for something
     // other
     // than the width.
     // If Spec[1] is a loc char, then Spec[0] is a pad char and Spec[2:...]
     // contains the width.
     // Otherwise, if Spec[0] is a loc char, then Spec[1:...] contains the width.
     // Otherwise, Spec[0:...] contains the width.
     if (auto Loc = translateLocChar(Spec[1])) {
       Pad = Spec[0];
       Where = *Loc;
       Spec = Spec.drop_front(2);
     } else if (auto Loc = translateLocChar(Spec[0])) {
       Where = *Loc;
       Spec = Spec.drop_front(1);
     }
   }

   bool Failed = Spec.consumeInteger(0, Align);
   return !Failed;
 }

 Optional<ReplacementItem>
 formatv_object_base::parseReplacementItem(StringRef Spec) {
   StringRef RepString = Spec.trim("{}");

   // If the replacement sequence does not start with a non-negative integer,
   // this is an error.
   char Pad = ' ';
   std::size_t Align = 0;
   AlignStyle Where = AlignStyle::Right;
   StringRef Options;
   size_t Index = 0;
   RepString = RepString.trim();
   if (RepString.consumeInteger(0, Index)) {
     assert(false && "Invalid replacement sequence index!");
     return ReplacementItem{};
   }
   RepString = RepString.trim();
   if (!RepString.empty() && RepString.front() == ',') {
     RepString = RepString.drop_front();
     if (!consumeFieldLayout(RepString, Where, Align, Pad))
       assert(false && "Invalid replacement field layout specification!");
   }
   RepString = RepString.trim();
   if (!RepString.empty() && RepString.front() == ':') {
     Options = RepString.drop_front().trim();
     RepString = StringRef();
   }
   RepString = RepString.trim();
   if (!RepString.empty()) {
     assert(false && "Unexpected characters found in replacement string!");
   }

   return ReplacementItem{Spec, Index, Align, Where, Pad, Options};
 }

 std::pair<ReplacementItem, StringRef>
 formatv_object_base::splitLiteralAndReplacement(StringRef Fmt) {
   std::size_t From = 0;
   while (From < Fmt.size() && From != StringRef::npos) {
     std::size_t BO = Fmt.find_first_of('{', From);
     // Everything up until the first brace is a literal.
     if (BO != 0)
       return std::make_pair(ReplacementItem{Fmt.substr(0, BO)}, Fmt.substr(BO));

     StringRef Braces =
         Fmt.drop_front(BO).take_while([](char C) { return C == '{'; });
     // If there is more than one brace, then some of them are escaped.  Treat
     // these as replacements.
     if (Braces.size() > 1) {
       size_t NumEscapedBraces = Braces.size() / 2;
       StringRef Middle = Fmt.substr(BO, NumEscapedBraces);
       StringRef Right = Fmt.drop_front(BO + NumEscapedBraces * 2);
       return std::make_pair(ReplacementItem{Middle}, Right);
     }
     // An unterminated open brace is undefined.  We treat the rest of the string
     // as a literal replacement, but we assert to indicate that this is
     // undefined and that we consider it an error.
     std::size_t BC = Fmt.find_first_of('}', BO);
     if (BC == StringRef::npos) {
       assert(
           false &&
           "Unterminated brace sequence.  Escape with {{ for a literal brace.");
       return std::make_pair(ReplacementItem{Fmt}, StringRef());
     }

     // Even if there is a closing brace, if there is another open brace before
     // this closing brace, treat this portion as literal, and try again with the
     // next one.
     std::size_t BO2 = Fmt.find_first_of('{', BO + 1);
     if (BO2 < BC)
       return std::make_pair(ReplacementItem{Fmt.substr(0, BO2)},
                             Fmt.substr(BO2));

     StringRef Spec = Fmt.slice(BO + 1, BC);
     StringRef Right = Fmt.substr(BC + 1);

     auto RI = parseReplacementItem(Spec);
     if (RI.hasValue())
       return std::make_pair(*RI, Right);

     // If there was an error parsing the replacement item, treat it as an
     // invalid replacement spec, and just continue.
     From = BC + 1;
   }
   return std::make_pair(ReplacementItem{Fmt}, StringRef());
 }

 std::vector<ReplacementItem>
 formatv_object_base::parseFormatString(StringRef Fmt) {
   std::vector<ReplacementItem> Replacements;
   ReplacementItem I;
   while (!Fmt.empty()) {
     std::tie(I, Fmt) = splitLiteralAndReplacement(Fmt);
     if (I.Type != ReplacementType::Empty)
       Replacements.push_back(I);
   }
   return Replacements;
 }
	//===- FormatVariadic.cpp - Format string parsing and analysis -----C++--===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//===----------------------------------------------------------------------===//

	#include "llvm/Support/FormatVariadic.h"

	using namespace llvm;

	static Optional<AlignStyle> translateLocChar(char C) {
	switch (C) {
	case '-':
	return AlignStyle::Left;
	case '=':
	return AlignStyle::Center;
	case '+':
	return AlignStyle::Right;
	default:
	return None;
	}
	LLVM_BUILTIN_UNREACHABLE;
	}

	bool formatv_object_base::consumeFieldLayout(StringRef &Spec, AlignStyle &Where,
	size_t &Align, char &Pad) {
	Where = AlignStyle::Right;
	Align = 0;
	Pad = ' ';
	if (Spec.empty())
	return true;

	if (Spec.size() > 1) {
	// A maximum of 2 characters at the beginning can be used for something
	// other
	// than the width.
	// If Spec[1] is a loc char, then Spec[0] is a pad char and Spec[2:...]
	// contains the width.
	// Otherwise, if Spec[0] is a loc char, then Spec[1:...] contains the width.
	// Otherwise, Spec[0:...] contains the width.
	if (auto Loc = translateLocChar(Spec[1])) {
	Pad = Spec[0];
	Where = *Loc;
	Spec = Spec.drop_front(2);
	} else if (auto Loc = translateLocChar(Spec[0])) {
	Where = *Loc;
	Spec = Spec.drop_front(1);
	}
	}

	bool Failed = Spec.consumeInteger(0, Align);
	return !Failed;
	}

	Optional<ReplacementItem>
	formatv_object_base::parseReplacementItem(StringRef Spec) {
	StringRef RepString = Spec.trim("{}");

	// If the replacement sequence does not start with a non-negative integer,
	// this is an error.
	char Pad = ' ';
	std::size_t Align = 0;
	AlignStyle Where = AlignStyle::Right;
	StringRef Options;
	size_t Index = 0;
	RepString = RepString.trim();
	if (RepString.consumeInteger(0, Index)) {
	assert(false && "Invalid replacement sequence index!");
	return ReplacementItem{};
	}
	RepString = RepString.trim();
	if (!RepString.empty() && RepString.front() == ',') {
	RepString = RepString.drop_front();
	if (!consumeFieldLayout(RepString, Where, Align, Pad))
	assert(false && "Invalid replacement field layout specification!");
	}
	RepString = RepString.trim();
	if (!RepString.empty() && RepString.front() == ':') {
	Options = RepString.drop_front().trim();
	RepString = StringRef();
	}
	RepString = RepString.trim();
	if (!RepString.empty()) {
	assert(false && "Unexpected characters found in replacement string!");
	}

	return ReplacementItem{Spec, Index, Align, Where, Pad, Options};
	}

	std::pair<ReplacementItem, StringRef>
	formatv_object_base::splitLiteralAndReplacement(StringRef Fmt) {
	std::size_t From = 0;
	while (From < Fmt.size() && From != StringRef::npos) {
	std::size_t BO = Fmt.find_first_of('{', From);
	// Everything up until the first brace is a literal.
	if (BO != 0)
	return std::make_pair(ReplacementItem{Fmt.substr(0, BO)}, Fmt.substr(BO));

	StringRef Braces =
	Fmt.drop_front(BO).take_while([](char C) { return C == '{'; });
	// If there is more than one brace, then some of them are escaped. Treat
	// these as replacements.
	if (Braces.size() > 1) {
	size_t NumEscapedBraces = Braces.size() / 2;
	StringRef Middle = Fmt.substr(BO, NumEscapedBraces);
	StringRef Right = Fmt.drop_front(BO + NumEscapedBraces * 2);
	return std::make_pair(ReplacementItem{Middle}, Right);
	}
	// An unterminated open brace is undefined. We treat the rest of the string
	// as a literal replacement, but we assert to indicate that this is
	// undefined and that we consider it an error.
	std::size_t BC = Fmt.find_first_of('}', BO);
	if (BC == StringRef::npos) {
	assert(
	false &&
	"Unterminated brace sequence. Escape with {{ for a literal brace.");
	return std::make_pair(ReplacementItem{Fmt}, StringRef());
	}

	// Even if there is a closing brace, if there is another open brace before
	// this closing brace, treat this portion as literal, and try again with the
	// next one.
	std::size_t BO2 = Fmt.find_first_of('{', BO + 1);
	if (BO2 < BC)
	return std::make_pair(ReplacementItem{Fmt.substr(0, BO2)},
	Fmt.substr(BO2));

	StringRef Spec = Fmt.slice(BO + 1, BC);
	StringRef Right = Fmt.substr(BC + 1);

	auto RI = parseReplacementItem(Spec);
	if (RI.hasValue())
	return std::make_pair(*RI, Right);

	// If there was an error parsing the replacement item, treat it as an
	// invalid replacement spec, and just continue.
	From = BC + 1;
	}
	return std::make_pair(ReplacementItem{Fmt}, StringRef());
	}

	std::vector<ReplacementItem>
	formatv_object_base::parseFormatString(StringRef Fmt) {
	std::vector<ReplacementItem> Replacements;
	ReplacementItem I;
	while (!Fmt.empty()) {
	std::tie(I, Fmt) = splitLiteralAndReplacement(Fmt);
	if (I.Type != ReplacementType::Empty)
	Replacements.push_back(I);
	}
	return Replacements;
	}