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97dac2b41d
This introduces a new type-safe general purpose formatting library. It provides compile-time type safety, does not require a format specifier (since the type is deduced), and provides mechanisms for extending the format capability to user defined types, and overriding the formatting behavior for existing types. This patch additionally adds documentation for the API to the LLVM programmer's manual. Mailing List Thread: http://lists.llvm.org/pipermail/llvm-dev/2016-October/105836.html Differential Revision: https://reviews.llvm.org/D25587 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@286682 91177308-0d34-0410-b5e6-96231b3b80d8
157 lines
5.1 KiB
C++
157 lines
5.1 KiB
C++
//===- FormatVariadic.cpp - Format string parsing and analysis ----*-C++-*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//===----------------------------------------------------------------------===//
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#include "llvm/Support/FormatVariadic.h"
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using namespace llvm;
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static Optional<AlignStyle> translateLocChar(char C) {
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switch (C) {
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case '-':
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return AlignStyle::Left;
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case '=':
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return AlignStyle::Center;
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case '+':
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return AlignStyle::Right;
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default:
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return None;
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}
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LLVM_BUILTIN_UNREACHABLE;
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}
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bool formatv_object_base::consumeFieldLayout(StringRef &Spec, AlignStyle &Where,
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size_t &Align, char &Pad) {
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Where = AlignStyle::Right;
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Align = 0;
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Pad = ' ';
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if (Spec.empty())
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return true;
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if (Spec.size() > 1) {
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// A maximum of 2 characters at the beginning can be used for something
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// other
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// than the width.
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// If Spec[1] is a loc char, then Spec[0] is a pad char and Spec[2:...]
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// contains the width.
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// Otherwise, if Spec[0] is a loc char, then Spec[1:...] contains the width.
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// Otherwise, Spec[0:...] contains the width.
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if (auto Loc = translateLocChar(Spec[1])) {
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Pad = Spec[0];
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Where = *Loc;
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Spec = Spec.drop_front(2);
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} else if (auto Loc = translateLocChar(Spec[0])) {
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Where = *Loc;
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Spec = Spec.drop_front(1);
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}
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}
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bool Failed = Spec.consumeInteger(0, Align);
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return !Failed;
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}
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Optional<ReplacementItem>
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formatv_object_base::parseReplacementItem(StringRef Spec) {
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StringRef RepString = Spec.trim("{}");
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// If the replacement sequence does not start with a non-negative integer,
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// this is an error.
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char Pad = ' ';
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std::size_t Align = 0;
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AlignStyle Where = AlignStyle::Right;
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StringRef Options;
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size_t Index = 0;
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RepString = RepString.trim();
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if (RepString.consumeInteger(0, Index)) {
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assert(false && "Invalid replacement sequence index!");
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return ReplacementItem{};
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}
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RepString = RepString.trim();
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if (!RepString.empty() && RepString.front() == ',') {
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RepString = RepString.drop_front();
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if (!consumeFieldLayout(RepString, Where, Align, Pad))
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assert(false && "Invalid replacement field layout specification!");
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}
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RepString = RepString.trim();
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if (!RepString.empty() && RepString.front() == ':') {
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Options = RepString.drop_front().trim();
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RepString = StringRef();
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}
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RepString = RepString.trim();
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if (!RepString.empty()) {
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assert(false && "Unexpected characters found in replacement string!");
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}
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return ReplacementItem{Spec, Index, Align, Where, Pad, Options};
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}
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std::pair<ReplacementItem, StringRef>
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formatv_object_base::splitLiteralAndReplacement(StringRef Fmt) {
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StringRef Rep;
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StringRef Remainder;
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std::size_t From = 0;
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while (From < Fmt.size() && From != StringRef::npos) {
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std::size_t BO = Fmt.find_first_of('{', From);
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// Everything up until the first brace is a literal.
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if (BO != 0)
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return std::make_pair(ReplacementItem{Fmt.substr(0, BO)}, Fmt.substr(BO));
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StringRef Braces =
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Fmt.drop_front(BO).take_while([](char C) { return C == '{'; });
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// If there is more than one brace, then some of them are escaped. Treat
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// these as replacements.
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if (Braces.size() > 1) {
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size_t NumEscapedBraces = Braces.size() / 2;
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StringRef Middle = Fmt.substr(BO, NumEscapedBraces);
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StringRef Right = Fmt.drop_front(BO + NumEscapedBraces * 2);
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return std::make_pair(ReplacementItem{Middle}, Right);
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}
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// An unterminated open brace is undefined. We treat the rest of the string
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// as a literal replacement, but we assert to indicate that this is
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// undefined and that we consider it an error.
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std::size_t BC = Fmt.find_first_of('}', BO);
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if (BC == StringRef::npos) {
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assert(
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false &&
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"Unterminated brace sequence. Escape with {{ for a literal brace.");
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return std::make_pair(ReplacementItem{Fmt}, StringRef());
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}
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// Even if there is a closing brace, if there is another open brace before
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// this closing brace, treat this portion as literal, and try again with the
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// next one.
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std::size_t BO2 = Fmt.find_first_of('{', BO + 1);
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if (BO2 < BC)
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return std::make_pair(ReplacementItem{Fmt.substr(0, BO2)},
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Fmt.substr(BO2));
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StringRef Spec = Fmt.slice(BO + 1, BC);
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StringRef Right = Fmt.substr(BC + 1);
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auto RI = parseReplacementItem(Spec);
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if (RI.hasValue())
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return std::make_pair(*RI, Right);
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// If there was an error parsing the replacement item, treat it as an
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// invalid replacement spec, and just continue.
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From = BC + 1;
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}
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return std::make_pair(ReplacementItem{Fmt}, StringRef());
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}
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std::vector<ReplacementItem>
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formatv_object_base::parseFormatString(StringRef Fmt) {
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std::vector<ReplacementItem> Replacements;
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ReplacementItem I;
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while (!Fmt.empty()) {
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std::tie(I, Fmt) = splitLiteralAndReplacement(Fmt);
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if (I.Type != ReplacementType::Empty)
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Replacements.push_back(I);
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}
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return Replacements;
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}
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