[clang-tools-extra] r318774 - [clangd] Add parsing and value inspection to JSONExpr.
Yung, Douglas via cfe-commits
cfe-commits at lists.llvm.org
Tue Nov 21 10:56:32 PST 2017
Hi Sam,
Your change is causing the PS4 Windows bot to fail because your test includes a divide by zero exception that the compiler is issuing an error for:
http://lab.llvm.org:8011/builders/llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast/builds/13639/
FAILED: tools/clang/tools/extra/unittests/clangd/CMakeFiles/ClangdTests.dir/JSONExprTests.cpp.obj
C:\PROGRA~2\MICROS~1.0\VC\bin\cl.exe /nologo /TP -DGTEST_HAS_RTTI=0 -DGTEST_HAS_TR1_TUPLE=0 -DGTEST_LANG_CXX11=1 -DUNICODE -D_CRT_NONSTDC_NO_DEPRECATE -D_CRT_NONSTDC_NO_WARNINGS -D_CRT_SECURE_NO_DEPRECATE -D_CRT_SECURE_NO_WARNINGS -D_FILE_OFFSET_BITS=64 -D_GNU_SOURCE -D_HAS_EXCEPTIONS=0 -D_LARGEFILE_SOURCE -D_SCL_SECURE_NO_DEPRECATE -D_SCL_SECURE_NO_WARNINGS -D_UNICODE -D__STDC_CONSTANT_MACROS -D__STDC_FORMAT_MACROS -D__STDC_LIMIT_MACROS -Itools\clang\tools\extra\unittests\clangd -IC:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\unittests\clangd -IC:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\include -Itools\clang\include -Iinclude -IC:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\include -IC:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\clangd -IC:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\utils\unittest\googletest\include -IC:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\utils\unittest\googlemock\include /DWIN32 /D_WINDOWS /Zc:inline /Zc:strictStrings /Oi /Zc:rvalueCast /W4 -wd4141 -wd4146 -wd4180 -wd4244 -wd4258 -wd4267 -wd4291 -wd4345 -wd4351 -wd4355 -wd4456 -wd4457 -wd4458 -wd4459 -wd4503 -wd4624 -wd4722 -wd4800 -wd4100 -wd4127 -wd4512 -wd4505 -wd4610 -wd4510 -wd4702 -wd4245 -wd4706 -wd4310 -wd4701 -wd4703 -wd4389 -wd4611 -wd4805 -wd4204 -wd4577 -wd4091 -wd4592 -wd4319 -wd4324 -w14062 -we4238 /MD /O2 /Ob2 -UNDEBUG /EHs-c- /GR- /showIncludes /Fotools\clang\tools\extra\unittests\clangd\CMakeFiles\ClangdTests.dir\JSONExprTests.cpp.obj /Fdtools\clang\tools\extra\unittests\clangd\CMakeFiles\ClangdTests.dir\ /FS -c C:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\unittests\clangd\JSONExprTests.cpp
C:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\unittests\clangd\JSONExprTests.cpp(140): warning C4566: character represented by universal-character-name '\U00010437' cannot be represented in the current code page (1252)
C:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\unittests\clangd\JSONExprTests.cpp(141): warning C4566: character represented by universal-character-name '\U0001D11E' cannot be represented in the current code page (1252)
C:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\unittests\clangd\JSONExprTests.cpp(142): warning C4566: character represented by universal-character-name '\uFFFD' cannot be represented in the current code page (1252)
C:\ps4-buildslave2\llvm-clang-lld-x86_64-scei-ps4-windows10pro-fast\llvm.src\tools\clang\tools\extra\unittests\clangd\JSONExprTests.cpp(134): error C2124: divide or mod by zero
Can you fix this so that we can get the bot green again? Thanks!
Douglas Yung
> -----Original Message-----
> From: cfe-commits [mailto:cfe-commits-bounces at lists.llvm.org] On Behalf Of Sam
> McCall via cfe-commits
> Sent: Tuesday, November 21, 2017 8:01
> To: cfe-commits at lists.llvm.org
> Subject: [clang-tools-extra] r318774 - [clangd] Add parsing and value
> inspection to JSONExpr.
>
> Author: sammccall
> Date: Tue Nov 21 08:00:53 2017
> New Revision: 318774
>
> URL: http://llvm.org/viewvc/llvm-project?rev=318774&view=rev
> Log:
> [clangd] Add parsing and value inspection to JSONExpr.
>
> Summary:
> This will replace the places where we're using YAMLParser to parse JSON now:
> - the new marshalling code (T::parse()) should handle fewer cases and
> require
> fewer explicit casts
> - we'll early-reject invalid JSON that YAMLParser accepts
> - we'll be able to fix protocol-parsing bugs caused by the fact that YAML
> can
> only parse forward
>
> I plan to do the conversion as soon as this lands, but I don't want it in one
> patch as the protocol.cpp changes are conflict-prone.
>
> Reviewers: ioeric
>
> Subscribers: ilya-biryukov, cfe-commits
>
> Differential Revision: https://reviews.llvm.org/D40182
>
> Modified:
> clang-tools-extra/trunk/clangd/JSONExpr.cpp
> clang-tools-extra/trunk/clangd/JSONExpr.h
> clang-tools-extra/trunk/unittests/clangd/JSONExprTests.cpp
>
> Modified: clang-tools-extra/trunk/clangd/JSONExpr.cpp
> URL: http://llvm.org/viewvc/llvm-project/clang-tools-
> extra/trunk/clangd/JSONExpr.cpp?rev=318774&r1=318773&r2=318774&view=diff
> ==============================================================================
> --- clang-tools-extra/trunk/clangd/JSONExpr.cpp (original)
> +++ clang-tools-extra/trunk/clangd/JSONExpr.cpp Tue Nov 21 08:00:53 2017
> @@ -22,10 +22,10 @@ void Expr::copyFrom(const Expr &M) {
> create<std::string>(M.as<std::string>());
> break;
> case T_Object:
> - create<Object>(M.as<Object>());
> + create<ObjectExpr>(M.as<ObjectExpr>());
> break;
> case T_Array:
> - create<Array>(M.as<Array>());
> + create<ArrayExpr>(M.as<ArrayExpr>());
> break;
> }
> }
> @@ -46,11 +46,11 @@ void Expr::moveFrom(const Expr &&M) {
> M.Type = T_Null;
> break;
> case T_Object:
> - create<Object>(std::move(M.as<Object>()));
> + create<ObjectExpr>(std::move(M.as<ObjectExpr>()));
> M.Type = T_Null;
> break;
> case T_Array:
> - create<Array>(std::move(M.as<Array>()));
> + create<ArrayExpr>(std::move(M.as<ArrayExpr>()));
> M.Type = T_Null;
> break;
> }
> @@ -69,14 +69,318 @@ void Expr::destroy() {
> as<std::string>().~basic_string();
> break;
> case T_Object:
> - as<Object>().~Object();
> + as<ObjectExpr>().~ObjectExpr();
> break;
> case T_Array:
> - as<Array>().~Array();
> + as<ArrayExpr>().~ArrayExpr();
> break;
> }
> }
>
> +namespace {
> +// Simple recursive-descent JSON parser.
> +class Parser {
> +public:
> + Parser(StringRef JSON)
> + : Start(JSON.begin()), P(JSON.begin()), End(JSON.end()) {}
> +
> + bool parseExpr(Expr &Out);
> +
> + bool assertEnd() {
> + eatWhitespace();
> + if (P == End)
> + return true;
> + return parseError("Text after end of document"); }
> +
> + Error takeError() {
> + assert(Error);
> + return std::move(*Error);
> + }
> +
> +private:
> + void eatWhitespace() {
> + while (P != End && (*P == ' ' || *P == '\r' || *P == '\n' || *P == '\t'))
> + ++P;
> + }
> +
> + // On invalid syntax, parseX() functions return false and and set Error.
> + bool parseNumber(char First, double &Out); bool
> + parseString(std::string &Out); bool parseUnicode(std::string &Out);
> + bool parseError(const char *Msg); // always returns false
> +
> + char next() { return P == End ? 0 : *P++; } char peek() { return P
> + == End ? 0 : *P; } static bool isNumber(char C) {
> + return C == '0' || C == '1' || C == '2' || C == '3' || C == '4' ||
> + C == '5' || C == '6' || C == '7' || C == '8' || C == '9' ||
> + C == 'e' || C == 'E' || C == '+' || C == '-' || C == '.'; }
> + static void encodeUtf8(uint32_t Rune, std::string &Out);
> +
> + Optional<Error> Error;
> + const char *Start, *P, *End;
> +};
> +
> +bool Parser::parseExpr(Expr &Out) {
> + eatWhitespace();
> + if (P == End)
> + return parseError("Unexpected EOF");
> + switch (char C = next()) {
> + // Bare null/true/false are easy - first char identifies them.
> + case 'n':
> + Out = nullptr;
> + return (next() == 'u' && next() == 'l' && next() == 'l') ||
> + parseError("Invalid bareword");
> + case 't':
> + Out = true;
> + return (next() == 'r' && next() == 'u' && next() == 'e') ||
> + parseError("Invalid bareword");
> + case 'f':
> + Out = false;
> + return (next() == 'a' && next() == 'l' && next() == 's' && next() == 'e')
> ||
> + parseError("Invalid bareword");
> + case '"': {
> + std::string S;
> + if (parseString(S)) {
> + Out = std::move(S);
> + return true;
> + }
> + return false;
> + }
> + case '[': {
> + Out = json::ary{};
> + json::ary &A = *Out.array();
> + eatWhitespace();
> + if (peek() == ']') {
> + ++P;
> + return true;
> + }
> + for (;;) {
> + A.emplace_back(nullptr);
> + if (!parseExpr(A.back()))
> + return false;
> + eatWhitespace();
> + switch (next()) {
> + case ',':
> + eatWhitespace();
> + continue;
> + case ']':
> + return true;
> + default:
> + return parseError("Expected , or ] after array element");
> + }
> + }
> + }
> + case '{': {
> + Out = json::obj{};
> + json::obj &O = *Out.object();
> + eatWhitespace();
> + if (peek() == '}') {
> + ++P;
> + return true;
> + }
> + for (;;) {
> + if (next() != '"')
> + return parseError("Expected object key");
> + std::string K;
> + if (!parseString(K))
> + return false;
> + eatWhitespace();
> + if (next() != ':')
> + return parseError("Expected : after object key");
> + eatWhitespace();
> + if (!parseExpr(O[std::move(K)]))
> + return false;
> + eatWhitespace();
> + switch (next()) {
> + case ',':
> + eatWhitespace();
> + continue;
> + case '}':
> + return true;
> + default:
> + return parseError("Expected , or } after object property");
> + }
> + }
> + }
> + default:
> + if (isNumber(C)) {
> + double Num;
> + if (parseNumber(C, Num)) {
> + Out = Num;
> + return true;
> + } else {
> + return false;
> + }
> + }
> + return parseError("Expected JSON value");
> + }
> +}
> +
> +bool Parser::parseNumber(char First, double &Out) {
> + SmallString<24> S;
> + S.push_back(First);
> + while (isNumber(peek()))
> + S.push_back(next());
> + char *End;
> + Out = std::strtod(S.c_str(), &End);
> + return End == S.end() || parseError("Invalid number"); }
> +
> +bool Parser::parseString(std::string &Out) {
> + // leading quote was already consumed.
> + for (char C = next(); C != '"'; C = next()) {
> + if (LLVM_UNLIKELY(P == End))
> + return parseError("Unterminated string");
> + if (LLVM_UNLIKELY((C & 0x1f) == C))
> + return parseError("Control character in string");
> + if (LLVM_LIKELY(C != '\\')) {
> + Out.push_back(C);
> + continue;
> + }
> + // Handle escape sequence.
> + switch (C = next()) {
> + case '"':
> + case '\\':
> + case '/':
> + Out.push_back(C);
> + break;
> + case 'b':
> + Out.push_back('\b');
> + break;
> + case 'f':
> + Out.push_back('\f');
> + break;
> + case 'n':
> + Out.push_back('\n');
> + break;
> + case 'r':
> + Out.push_back('\r');
> + break;
> + case 't':
> + Out.push_back('\t');
> + break;
> + case 'u':
> + if (!parseUnicode(Out))
> + return false;
> + break;
> + default:
> + return parseError("Invalid escape sequence");
> + }
> + }
> + return true;
> +}
> +
> +void Parser::encodeUtf8(uint32_t Rune, std::string &Out) {
> + if (Rune <= 0x7F) {
> + Out.push_back(Rune & 0x7F);
> + } else if (Rune <= 0x7FF) {
> + uint8_t FirstByte = 0xC0 | ((Rune & 0x7C0) >> 6);
> + uint8_t SecondByte = 0x80 | (Rune & 0x3F);
> + Out.push_back(FirstByte);
> + Out.push_back(SecondByte);
> + } else if (Rune <= 0xFFFF) {
> + uint8_t FirstByte = 0xE0 | ((Rune & 0xF000) >> 12);
> + uint8_t SecondByte = 0x80 | ((Rune & 0xFC0) >> 6);
> + uint8_t ThirdByte = 0x80 | (Rune & 0x3F);
> + Out.push_back(FirstByte);
> + Out.push_back(SecondByte);
> + Out.push_back(ThirdByte);
> + } else if (Rune <= 0x10FFFF) {
> + uint8_t FirstByte = 0xF0 | ((Rune & 0x1F0000) >> 18);
> + uint8_t SecondByte = 0x80 | ((Rune & 0x3F000) >> 12);
> + uint8_t ThirdByte = 0x80 | ((Rune & 0xFC0) >> 6);
> + uint8_t FourthByte = 0x80 | (Rune & 0x3F);
> + Out.push_back(FirstByte);
> + Out.push_back(SecondByte);
> + Out.push_back(ThirdByte);
> + Out.push_back(FourthByte);
> + } else {
> + llvm_unreachable("Invalid codepoint");
> + }
> +}
> +
> +// Parse a \uNNNN escape sequence, the \u have already been consumed.
> +// May parse multiple escapes in the presence of surrogate pairs.
> +bool Parser::parseUnicode(std::string &Out) {
> + // Note that invalid unicode is not a JSON error. It gets replaced by
> U+FFFD.
> + auto Invalid = [&] { Out.append(/* UTF-8 */ {'\xef', '\xbf',
> +'\xbd'}); };
> + auto Parse4Hex = [this](uint16_t &Out) {
> + Out = 0;
> + char Bytes[] = {next(), next(), next(), next()};
> + for (unsigned char C : Bytes) {
> + if (!std::isxdigit(C))
> + return parseError("Invalid \\u escape sequence");
> + Out <<= 4;
> + Out |= (C > '9') ? (C & ~0x20) - 'A' + 10 : (C - '0');
> + }
> + return true;
> + };
> + uint16_t First;
> + if (!Parse4Hex(First))
> + return false;
> +
> + // We loop to allow proper surrogate-pair error handling.
> + while (true) {
> + if (LLVM_LIKELY(First < 0xD800 || First >= 0xE000)) { // BMP.
> + encodeUtf8(First, Out);
> + return true;
> + }
> +
> + if (First >= 0xDC00) {
> + Invalid(); // Lone trailing surrogate.
> + return true;
> + }
> +
> + // We have a leading surrogate, and need a trailing one.
> + // Don't advance P: a lone surrogate is valid JSON (but invalid unicode)
> + if (P + 2 > End || *P != '\\' || *(P + 1) != 'u') {
> + Invalid(); // Lone leading not followed by \u...
> + return true;
> + }
> + P += 2;
> + uint16_t Second;
> + if (!Parse4Hex(Second))
> + return false;
> + if (Second < 0xDC00 && Second >= 0xE000) {
> + Invalid(); // Leading surrogate not followed by trailing.
> + First = Second; // Second escape still needs to be processed.
> + continue;
> + }
> +
> + // Valid surrogate pair.
> + encodeUtf8(0x10000 | ((First - 0xD800) << 10) | (Second - 0xDC00), Out);
> + return true;
> + }
> +}
> +
> +bool Parser::parseError(const char *Msg) {
> + int Line = 1;
> + const char *StartOfLine = Start;
> + for (const char *X = Start; X < P; ++X) {
> + if (*X == 0x0A) {
> + ++Line;
> + StartOfLine = X + 1;
> + }
> + }
> + Error.emplace(
> + llvm::make_unique<ParseError>(Msg, Line, P - StartOfLine, P -
> +Start));
> + return false;
> +}
> +} // namespace
> +
> +Expected<Expr> parse(StringRef JSON) {
> + Parser P(JSON);
> + json::Expr E = nullptr;
> + if (P.parseExpr(E))
> + if (P.assertEnd())
> + return std::move(E);
> + return P.takeError();
> +}
> +char ParseError::ID = 0;
> +
> } // namespace json
> } // namespace clangd
> } // namespace clang
> @@ -144,7 +448,7 @@ void clang::clangd::json::Expr::print(ra
> bool Comma = false;
> OS << '{';
> I(Indent);
> - for (const auto &P : as<Expr::Object>()) {
> + for (const auto &P : as<Expr::ObjectExpr>()) {
> if (Comma)
> OS << ',';
> Comma = true;
> @@ -164,7 +468,7 @@ void clang::clangd::json::Expr::print(ra
> bool Comma = false;
> OS << '[';
> I(Indent);
> - for (const auto &E : as<Expr::Array>()) {
> + for (const auto &E : as<Expr::ArrayExpr>()) {
> if (Comma)
> OS << ',';
> Comma = true;
> @@ -187,6 +491,25 @@ llvm::raw_ostream &operator<<(raw_ostrea
> E.print(OS, [](IndenterAction A) { /*ignore*/ });
> return OS;
> }
> +
> +bool operator==(const Expr &L, const Expr &R) {
> + if (L.kind() != R.kind())
> + return false;
> + switch (L.kind()) {
> + case Expr::Null:
> + return L.null() == R.null();
> + case Expr::Boolean:
> + return L.boolean() == R.boolean();
> + case Expr::Number:
> + return L.boolean() == R.boolean();
> + case Expr::String:
> + return L.string() == R.string();
> + case Expr::Array:
> + return *L.array() == *R.array();
> + case Expr::Object:
> + return *L.object() == *R.object();
> + }
> +}
> } // namespace json
> } // namespace clangd
> } // namespace clang
>
> Modified: clang-tools-extra/trunk/clangd/JSONExpr.h
> URL: http://llvm.org/viewvc/llvm-project/clang-tools-
> extra/trunk/clangd/JSONExpr.h?rev=318774&r1=318773&r2=318774&view=diff
> ==============================================================================
> --- clang-tools-extra/trunk/clangd/JSONExpr.h (original)
> +++ clang-tools-extra/trunk/clangd/JSONExpr.h Tue Nov 21 08:00:53 2017
> @@ -1,4 +1,4 @@
> -//===--- JSONExpr.h - composable JSON expressions ---------------*- C++ -*-
> ===//
> +//===--- JSONExpr.h - JSON expressions, parsing and serialization - C++
> +-*-===//
> //
> // The LLVM Compiler Infrastructure
> //
> @@ -7,6 +7,8 @@
> //
> //===---------------------------------------------------------------------
> ===//
>
> +// FIXME: rename to JSON.h now that the scope is wider?
> +
> #ifndef LLVM_CLANG_TOOLS_EXTRA_CLANGD_JSON_H
> #define LLVM_CLANG_TOOLS_EXTRA_CLANGD_JSON_H
>
> @@ -14,6 +16,7 @@
>
> #include "llvm/ADT/SmallVector.h"
> #include "llvm/ADT/StringRef.h"
> +#include "llvm/Support/Error.h"
> #include "llvm/Support/FormatVariadic.h"
> #include "llvm/Support/raw_ostream.h"
>
> @@ -21,10 +24,12 @@ namespace clang {
> namespace clangd {
> namespace json {
>
> -// An Expr is an opaque temporary JSON structure used to compose documents.
> +// An Expr is an JSON value of unknown type.
> // They can be copied, but should generally be moved.
> //
> -// You can implicitly construct literals from:
> +// === Composing expressions ===
> +//
> +// You can implicitly construct Exprs from:
> // - strings: std::string, SmallString, formatv, StringRef, char*
> // (char*, and StringRef are references, not copies!)
> // - numbers
> @@ -39,25 +44,62 @@ namespace json {
> // These can be list-initialized, or used to build up collections in a loop.
> // json::ary(Collection) converts all items in a collection to Exprs.
> //
> +// === Inspecting expressions ===
> +//
> +// Each Expr is one of the JSON kinds:
> +// null (nullptr_t)
> +// boolean (bool)
> +// number (double)
> +// string (StringRef)
> +// array (json::ary)
> +// object (json::obj)
> +//
> +// The kind can be queried directly, or implicitly via the typed accessors:
> +// if (Optional<StringRef> S = E.string())
> +// assert(E.kind() == Expr::String);
> +//
> +// Array and Object also have typed indexing accessors for easy traversal:
> +// Expected<Expr> E = parse(R"( {"options": {"font": "sans-serif"}} )");
> +// if (json::obj* O = E->object())
> +// if (json::obj* Opts = O->object("options"))
> +// if (Optional<StringRef> Font = Opts->string("font"))
> +// assert(Opts->at("font").kind() == Expr::String);
> +//
> +// === Serialization ===
> +//
> // Exprs can be serialized to JSON:
> // 1) raw_ostream << Expr // Basic formatting.
> // 2) raw_ostream << formatv("{0}", Expr) // Basic formatting.
> // 3) raw_ostream << formatv("{0:2}", Expr) // Pretty-print with indent 2.
> +//
> +// And parsed:
> +// Expected<Expr> E = json::parse("[1, 2, null]");
> +// assert(E && E->kind() == Expr::Array);
> class Expr {
> public:
> - class Object;
> + enum Kind {
> + Null,
> + Boolean,
> + Number,
> + String,
> + Array,
> + Object,
> + };
> + class ObjectExpr;
> class ObjectKey;
> - class Array;
> + class ArrayExpr;
>
> // It would be nice to have Expr() be null. But that would make {} null
> too...
> Expr(const Expr &M) { copyFrom(M); }
> Expr(Expr &&M) { moveFrom(std::move(M)); }
> // "cheating" move-constructor for moving from initializer_list.
> Expr(const Expr &&M) { moveFrom(std::move(M)); }
> - Expr(std::initializer_list<Expr> Elements) : Expr(Array(Elements)) {}
> - Expr(Array &&Elements) : Type(T_Array) {
> create<Array>(std::move(Elements)); }
> - Expr(Object &&Properties) : Type(T_Object) {
> - create<Object>(std::move(Properties));
> + Expr(std::initializer_list<Expr> Elements) :
> + Expr(ArrayExpr(Elements)) {} Expr(ArrayExpr &&Elements) : Type(T_Array) {
> + create<ArrayExpr>(std::move(Elements));
> + }
> + Expr(ObjectExpr &&Properties) : Type(T_Object) {
> + create<ObjectExpr>(std::move(Properties));
> }
> // Strings: types with value semantics.
> Expr(std::string &&V) : Type(T_String) { create<std::string>(std::move(V));
> } @@ -104,6 +146,60 @@ public:
> }
> ~Expr() { destroy(); }
>
> + Kind kind() const {
> + switch (Type) {
> + case T_Null:
> + return Null;
> + case T_Boolean:
> + return Boolean;
> + case T_Number:
> + return Number;
> + case T_String:
> + case T_StringRef:
> + return String;
> + case T_Object:
> + return Object;
> + case T_Array:
> + return Array;
> + }
> + }
> +
> + // Typed accessors return None/nullptr if the Expr is not of this type.
> + llvm::Optional<std::nullptr_t> null() const {
> + if (LLVM_LIKELY(Type == T_Null))
> + return nullptr;
> + return llvm::None;
> + }
> + llvm::Optional<bool> boolean() const {
> + if (LLVM_LIKELY(Type == T_Null))
> + return as<bool>();
> + return llvm::None;
> + }
> + llvm::Optional<double> number() const {
> + if (LLVM_LIKELY(Type == T_Number))
> + return as<double>();
> + return llvm::None;
> + }
> + llvm::Optional<llvm::StringRef> string() const {
> + if (Type == T_String)
> + return llvm::StringRef(as<std::string>());
> + if (LLVM_LIKELY(Type == T_StringRef))
> + return as<llvm::StringRef>();
> + return llvm::None;
> + }
> + const ObjectExpr *object() const {
> + return LLVM_LIKELY(Type == T_Object) ? &as<ObjectExpr>() : nullptr;
> + } ObjectExpr *object() {
> + return LLVM_LIKELY(Type == T_Object) ? &as<ObjectExpr>() : nullptr;
> + } const ArrayExpr *array() const {
> + return LLVM_LIKELY(Type == T_Array) ? &as<ArrayExpr>() : nullptr;
> + } ArrayExpr *array() {
> + return LLVM_LIKELY(Type == T_Array) ? &as<ArrayExpr>() : nullptr;
> + }
> +
> friend llvm::raw_ostream &operator<<(llvm::raw_ostream &, const Expr &);
>
> private:
> @@ -137,10 +233,8 @@ private:
> mutable ExprType Type;
>
> public:
> - // ObjectKey is a used to capture keys in Expr::Objects. It's like Expr
> but:
> + // ObjectKey is a used to capture keys in Expr::ObjectExpr. Like Expr but:
> // - only strings are allowed
> - // - it's copyable (for std::map)
> - // - we're slightly more eager to copy, to allow efficient key compares
> // - it's optimized for the string literal case (Owned == nullptr)
> class ObjectKey {
> public:
> @@ -183,12 +277,12 @@ public:
> llvm::StringRef Data;
> };
>
> - class Object : public std::map<ObjectKey, Expr> {
> + class ObjectExpr : public std::map<ObjectKey, Expr> {
> public:
> - explicit Object() {}
> + explicit ObjectExpr() {}
> // Use a custom struct for list-init, because pair forces extra copies.
> struct KV;
> - explicit Object(std::initializer_list<KV> Properties);
> + explicit ObjectExpr(std::initializer_list<KV> Properties);
>
> // Allow [] as if Expr was default-constructible as null.
> Expr &operator[](const ObjectKey &K) { @@ -199,15 +293,15 @@ public:
> }
> };
>
> - class Array : public std::vector<Expr> {
> + class ArrayExpr : public std::vector<Expr> {
> public:
> - explicit Array() {}
> - explicit Array(std::initializer_list<Expr> Elements) {
> + explicit ArrayExpr() {}
> + explicit ArrayExpr(std::initializer_list<Expr> Elements) {
> reserve(Elements.size());
> for (const Expr &V : Elements)
> emplace_back(std::move(V));
> };
> - template <typename Collection> explicit Array(const Collection &C) {
> + template <typename Collection> explicit ArrayExpr(const Collection
> + &C) {
> for (const auto &V : C)
> emplace_back(V);
> }
> @@ -215,23 +309,50 @@ public:
>
> private:
> mutable llvm::AlignedCharArrayUnion<bool, double, llvm::StringRef,
> - std::string, Array, Object>
> + std::string, ArrayExpr,
> + ObjectExpr>
> Union;
> };
>
> -struct Expr::Object::KV {
> +bool operator==(const Expr &, const Expr &); inline bool
> +operator!=(const Expr &L, const Expr &R) { return !(L == R); } inline
> +bool operator==(const Expr::ObjectKey &L, const Expr::ObjectKey &R) {
> + return llvm::StringRef(L) == llvm::StringRef(R); } inline bool
> +operator!=(const Expr::ObjectKey &L, const Expr::ObjectKey &R) {
> + return !(L == R);
> +}
> +
> +struct Expr::ObjectExpr::KV {
> ObjectKey K;
> Expr V;
> };
>
> -inline Expr::Object::Object(std::initializer_list<KV> Properties) {
> +inline Expr::ObjectExpr::ObjectExpr(std::initializer_list<KV>
> +Properties) {
> for (const auto &P : Properties)
> emplace(std::move(P.K), std::move(P.V)); }
>
> // Give Expr::{Object,Array} more convenient names for literal use.
> -using obj = Expr::Object;
> -using ary = Expr::Array;
> +using obj = Expr::ObjectExpr;
> +using ary = Expr::ArrayExpr;
> +
> +llvm::Expected<Expr> parse(llvm::StringRef JSON);
> +
> +class ParseError : public llvm::ErrorInfo<ParseError> {
> + const char *Msg;
> + unsigned Line, Column, Offset;
> +
> +public:
> + static char ID;
> + ParseError(const char *Msg, unsigned Line, unsigned Column, unsigned
> Offset)
> + : Msg(Msg), Line(Line), Column(Column), Offset(Offset) {}
> + void log(llvm::raw_ostream &OS) const override {
> + OS << llvm::formatv("[{0}:{1}, byte={2}]: {3}", Line, Column,
> +Offset, Msg);
> + }
> + std::error_code convertToErrorCode() const override {
> + return llvm::inconvertibleErrorCode();
> + }
> +};
>
> } // namespace json
> } // namespace clangd
>
> Modified: clang-tools-extra/trunk/unittests/clangd/JSONExprTests.cpp
> URL: http://llvm.org/viewvc/llvm-project/clang-tools-
> extra/trunk/unittests/clangd/JSONExprTests.cpp?rev=318774&r1=318773&r2=318774&
> view=diff
> ==============================================================================
> --- clang-tools-extra/trunk/unittests/clangd/JSONExprTests.cpp (original)
> +++ clang-tools-extra/trunk/unittests/clangd/JSONExprTests.cpp Tue Nov
> +++ 21 08:00:53 2017
> @@ -15,6 +15,9 @@
> namespace clang {
> namespace clangd {
> namespace json {
> +void PrintTo(const Expr &E, std::ostream *OS) {
> + llvm::raw_os_ostream(*OS) << llvm::formatv("{0:2}", E); }
> namespace {
>
> std::string s(const Expr &E) { return llvm::formatv("{0}", E).str(); } @@ -
> 108,6 +111,77 @@ TEST(JSONExprTests, PrettyPrinting) {
> }));
> }
>
> +TEST(JSONTest, Parse) {
> + auto Compare = [](llvm::StringRef S, Expr Expected) {
> + if (auto E = parse(S)) {
> + // Compare both string forms and with operator==, in case we have bugs.
> + EXPECT_EQ(*E, Expected);
> + EXPECT_EQ(sp(*E), sp(Expected));
> + } else {
> + handleAllErrors(E.takeError(), [S](const llvm::ErrorInfoBase &E) {
> + FAIL() << "Failed to parse JSON >>> " << S << " <<<: " <<
> E.message();
> + });
> + }
> + };
> +
> + Compare(R"(true)", true);
> + Compare(R"(false)", false);
> + Compare(R"(null)", nullptr);
> +
> + Compare(R"(42)", 42);
> + Compare(R"(2.5)", 2.5);
> + Compare(R"(2e50)", 2e50);
> + Compare(R"(1.2e3456789)", 1.0 / 0.0);
> +
> + Compare(R"("foo")", "foo");
> + Compare(R"("\"\\\b\f\n\r\t")", "\"\\\b\f\n\r\t");
> + Compare(R"("\u0000")", llvm::StringRef("\0", 1)); Compare("\"\x7f\"",
> + "\x7f"); Compare(R"("\ud801\udc37")", "\U00010437"); // UTF16
> + surrogate pair escape.
> + Compare("\"\xE2\x82\xAC\xF0\x9D\x84\x9E\"", "\u20ac\U0001d11e"); //
> + UTF8 Compare(R"("\ud801")", "\ufffd"); // Invalid codepoint.
> +
> + Compare(R"({"":0,"":0})", obj{{"", 0}});
> + Compare(R"({"obj":{},"arr":[]})", obj{{"obj", obj{}}, {"arr", {}}});
> + Compare(R"({"\n":{"\u0000":[[[[]]]]}})",
> + obj{{"\n", obj{
> + {llvm::StringRef("\0", 1), {{{{}}}}},
> + }}});
> + Compare("\r[\n\t] ", {});
> +}
> +
> +TEST(JSONTest, ParseErrors) {
> + auto ExpectErr = [](llvm::StringRef Msg, llvm::StringRef S) {
> + if (auto E = parse(S)) {
> + // Compare both string forms and with operator==, in case we have bugs.
> + FAIL() << "Parsed JSON >>> " << S << " <<< but wanted error: " << Msg;
> + } else {
> + handleAllErrors(E.takeError(), [S, Msg](const llvm::ErrorInfoBase &E) {
> + EXPECT_THAT(E.message(), testing::HasSubstr(Msg)) << S;
> + });
> + }
> + };
> + ExpectErr("Unexpected EOF", "");
> + ExpectErr("Unexpected EOF", "[");
> + ExpectErr("Text after end of document", "[][]");
> + ExpectErr("Text after end of document", "[][]");
> + ExpectErr("Invalid bareword", "fuzzy");
> + ExpectErr("Expected , or ]", "[2?]");
> + ExpectErr("Expected object key", "{a:2}");
> + ExpectErr("Expected : after object key", R"({"a",2})");
> + ExpectErr("Expected , or } after object property", R"({"a":2
> +"b":3})");
> + ExpectErr("Expected JSON value", R"([&%!])");
> + ExpectErr("Invalid number", "1e1.0");
> + ExpectErr("Unterminated string", R"("abc\"def)");
> + ExpectErr("Control character in string", "\"abc\ndef\"");
> + ExpectErr("Invalid escape sequence", R"("\030")");
> + ExpectErr("Invalid \\u escape sequence", R"("\usuck")");
> + ExpectErr("[3:3, byte=19]", R"({
> + "valid": 1,
> + invalid: 2
> +})");
> +}
> +
> } // namespace
> } // namespace json
> } // namespace clangd
>
>
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