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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
* Streaming access to the raw tokens of JavaScript source.
*
* Because JS tokenization is context-sensitive -- a '/' could be either a
* regular expression *or* a division operator depending on context -- the
* various token stream classes are mostly not useful outside of the Parser
* where they reside. We should probably eventually merge the two concepts.
*/
#ifndef frontend_TokenStream_h
#define frontend_TokenStream_h
/*
* [SMDOC] Parser Token Stream
*
* A token stream exposes the raw tokens -- operators, names, numbers,
* keywords, and so on -- of JavaScript source code.
*
* These are the components of the overall token stream concept:
* TokenStreamShared, TokenStreamAnyChars, TokenStreamCharsBase<Unit>,
* TokenStreamChars<Unit>, and TokenStreamSpecific<Unit, AnyCharsAccess>.
*
* == TokenStreamShared → ∅ ==
*
* Certain aspects of tokenizing are used everywhere:
*
* * modifiers (used to select which context-sensitive interpretation of a
* character should be used to decide what token it is) and modifier
* assertion handling;
* * flags on the overall stream (have we encountered any characters on this
* line? have we hit a syntax error? and so on);
* * and certain token-count constants.
*
* These are all defined in TokenStreamShared. (They could be namespace-
* scoped, but it seems tentatively better not to clutter the namespace.)
*
* == TokenStreamAnyChars → TokenStreamShared ==
*
* Certain aspects of tokenizing have meaning independent of the character type
* of the source text being tokenized: line/column number information, tokens
* in lookahead from determining the meaning of a prior token, compilation
* options, the filename, flags, source map URL, access to details of the
* current and next tokens (is the token of the given type? what name or
* number is contained in the token? and other queries), and others.
*
* All this data/functionality *could* be duplicated for both single-byte and
* double-byte tokenizing, but there are two problems. First, it's potentially
* wasteful if the compiler doesnt recognize it can unify the concepts. (And
* if any-character concepts are intermixed with character-specific concepts,
* potentially the compiler *can't* unify them because offsets into the
* hypothetical TokenStream<Unit>s would differ.) Second, some of this stuff
* needs to be accessible in ParserBase, the aspects of JS language parsing
* that have meaning independent of the character type of the source text being
* parsed. So we need a separate data structure that ParserBase can hold on to
* for it. (ParserBase isn't the only instance of this, but it's certainly the
* biggest case of it.) Ergo, TokenStreamAnyChars.
*
* == TokenStreamCharsShared → ∅ ==
*
* Some functionality has meaning independent of character type, yet has no use
* *unless* you know the character type in actual use. It *could* live in
* TokenStreamAnyChars, but it makes more sense to live in a separate class
* that character-aware token information can simply inherit.
*
* This class currently exists only to contain a char16_t buffer, transiently
* used to accumulate strings in tricky cases that can't just be read directly
* from source text. It's not used outside character-aware tokenizing, so it
* doesn't make sense in TokenStreamAnyChars.
*
* == TokenStreamCharsBase<Unit> → TokenStreamCharsShared ==
*
* Certain data structures in tokenizing are character-type-specific: namely,
* the various pointers identifying the source text (including current offset
* and end).
*
* Additionally, some functions operating on this data are defined the same way
* no matter what character type you have (e.g. current offset in code units
* into the source text) or share a common interface regardless of character
* type (e.g. consume the next code unit if it has a given value).
*
* All such functionality lives in TokenStreamCharsBase<Unit>.
*
* == SpecializedTokenStreamCharsBase<Unit> → TokenStreamCharsBase<Unit> ==
*
* Certain tokenizing functionality is specific to a single character type.
* For example, JS's UTF-16 encoding recognizes no coding errors, because lone
* surrogates are not an error; but a UTF-8 encoding must recognize a variety
* of validation errors. Such functionality is defined only in the appropriate
* SpecializedTokenStreamCharsBase specialization.
*
* == GeneralTokenStreamChars<Unit, AnyCharsAccess> →
* SpecializedTokenStreamCharsBase<Unit> ==
*
* Some functionality operates differently on different character types, just
* as for TokenStreamCharsBase, but additionally requires access to character-
* type-agnostic information in TokenStreamAnyChars. For example, getting the
* next character performs different steps for different character types and
* must access TokenStreamAnyChars to update line break information.
*
* Such functionality, if it can be defined using the same algorithm for all
* character types, lives in GeneralTokenStreamChars<Unit, AnyCharsAccess>.
* The AnyCharsAccess parameter provides a way for a GeneralTokenStreamChars
* instance to access its corresponding TokenStreamAnyChars, without inheriting
* from it.
*
* GeneralTokenStreamChars<Unit, AnyCharsAccess> is just functionality, no
* actual member data.
*
* Such functionality all lives in TokenStreamChars<Unit, AnyCharsAccess>, a
* declared-but-not-defined template class whose specializations have a common
* public interface (plus whatever private helper functions are desirable).
*
* == TokenStreamChars<Unit, AnyCharsAccess> →
* GeneralTokenStreamChars<Unit, AnyCharsAccess> ==
*
* Some functionality is like that in GeneralTokenStreamChars, *but* it's
* defined entirely differently for different character types.
*
* For example, consider "match a multi-code unit code point" (hypothetically:
* we've only implemented two-byte tokenizing right now):
*
* * For two-byte text, there must be two code units to get, the leading code
* unit must be a UTF-16 lead surrogate, and the trailing code unit must be
* a UTF-16 trailing surrogate. (If any of these fail to hold, a next code
* unit encodes that code point and is not multi-code unit.)
* * For single-byte Latin-1 text, there are no multi-code unit code points.
* * For single-byte UTF-8 text, the first code unit must have N > 1 of its
* highest bits set (and the next unset), and |N - 1| successive code units
* must have their high bit set and next-highest bit unset, *and*
* concatenating all unconstrained bits together must not produce a code
* point value that could have been encoded in fewer code units.
*
* This functionality can't be implemented as member functions in
* GeneralTokenStreamChars because we'd need to *partially specialize* those
* functions -- hold Unit constant while letting AnyCharsAccess vary. But
* C++ forbids function template partial specialization like this: either you
* fix *all* parameters or you fix none of them.
*
* Fortunately, C++ *does* allow *class* template partial specialization. So
* TokenStreamChars is a template class with one specialization per Unit.
* Functions can be defined differently in the different specializations,
* because AnyCharsAccess as the only template parameter on member functions
* *can* vary.
*
* All TokenStreamChars<Unit, AnyCharsAccess> specializations, one per Unit,
* are just functionality, no actual member data.
*
* == TokenStreamSpecific<Unit, AnyCharsAccess> →
* TokenStreamChars<Unit, AnyCharsAccess>, TokenStreamShared,
* ErrorReporter ==
*
* TokenStreamSpecific is operations that are parametrized on character type
* but implement the *general* idea of tokenizing, without being intrinsically
* tied to character type. Notably, this includes all operations that can
* report warnings or errors at particular offsets, because we include a line
* of context with such errors -- and that necessarily accesses the raw
* characters of their specific type.
*
* Much TokenStreamSpecific operation depends on functionality in
* TokenStreamAnyChars. The obvious solution is to inherit it -- but this
* doesn't work in Parser: its ParserBase base class needs some
* TokenStreamAnyChars functionality without knowing character type.
*
* The AnyCharsAccess type parameter is a class that statically converts from a
* TokenStreamSpecific* to its corresponding TokenStreamAnyChars. The
* TokenStreamSpecific in Parser<ParseHandler, Unit> can then specify a class
* that properly converts from TokenStreamSpecific Parser::tokenStream to
* TokenStreamAnyChars ParserBase::anyChars.
*
* Could we hardcode one set of offset calculations for this and eliminate
* AnyCharsAccess? No. Offset calculations possibly could be hardcoded if
* TokenStreamSpecific were present in Parser before Parser::handler, assuring
* the same offsets in all Parser-related cases. But there's still a separate
* TokenStream class, that requires different offset calculations. So even if
* we wanted to hardcode this (it's not clear we would, because forcing the
* TokenStreamSpecific declarer to specify this is more explicit), we couldn't.
*/
#include "mozilla/ArrayUtils.h"
#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/Casting.h"
#include "mozilla/Maybe.h"
#include "mozilla/MemoryChecking.h"
#include "mozilla/Span.h"
#include "mozilla/TextUtils.h"
#include "mozilla/Utf8.h"
#include <algorithm>
#include <stdarg.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <type_traits>
#include "jspubtd.h"
#include "frontend/ErrorReporter.h"
#include "frontend/ParserAtom.h" // ParserAtom, ParserAtomsTable, TaggedParserAtomIndex
#include "frontend/Token.h"
#include "frontend/TokenKind.h"
#include "js/CompileOptions.h"
#include "js/friend/ErrorMessages.h" // JSMSG_*
#include "js/HashTable.h" // js::HashMap
#include "js/RegExpFlags.h" // JS::RegExpFlags
#include "js/UniquePtr.h"
#include "js/Vector.h"
#include "util/Unicode.h"
#include "vm/ErrorReporting.h"
struct KeywordInfo;
namespace js {
class FrontendContext;
namespace frontend {
// Saturate column number at a limit that can be represented in various parts of
// the engine. Source locations beyond this point will report at the limit
// column instead.
//
// See:
// - TokenStreamAnyChars::checkOptions
// - ColSpan::isRepresentable
// - WasmFrameIter::computeLine
static constexpr uint32_t ColumnLimit = std::numeric_limits<int32_t>::max() / 2;
// If `name` is reserved word, returns the TokenKind of it.
// TokenKind::Limit otherwise.
extern TokenKind ReservedWordTokenKind(TaggedParserAtomIndex name);
// If `name` is reserved word, returns string representation of it.
// nullptr otherwise.
extern const char* ReservedWordToCharZ(TaggedParserAtomIndex name);
// If `tt` is reserved word, returns string representation of it.
// nullptr otherwise.
extern const char* ReservedWordToCharZ(TokenKind tt);
enum class DeprecatedContent : uint8_t {
// No deprecated content was present.
None = 0,
// Octal literal not prefixed by "0o" but rather by just "0", e.g. 0755.
OctalLiteral,
// Octal character escape, e.g. "hell\157 world".
OctalEscape,
// NonOctalDecimalEscape, i.e. "\8" or "\9".
EightOrNineEscape,
};
struct TokenStreamFlags {
// Hit end of file.
bool isEOF : 1;
// Non-whitespace since start of line.
bool isDirtyLine : 1;
// Hit a syntax error, at start or during a token.
bool hadError : 1;
// The nature of any deprecated content seen since last reset.
// We have to uint8_t instead DeprecatedContent to work around a GCC 7 bug.
// https://gcc.gnu.org/bugzilla/show_bug.cgi?id=61414
uint8_t sawDeprecatedContent : 2;
TokenStreamFlags()
: isEOF(false),
isDirtyLine(false),
hadError(false),
sawDeprecatedContent(uint8_t(DeprecatedContent::None)) {}
};
template <typename Unit>
class TokenStreamPosition;
/**
* TokenStream types and constants that are used in both TokenStreamAnyChars
* and TokenStreamSpecific. Do not add any non-static data members to this
* class!
*/
class TokenStreamShared {
protected:
static constexpr size_t ntokens = 4; // 1 current + 2 lookahead, rounded
// to power of 2 to avoid divmod by 3
static constexpr unsigned ntokensMask = ntokens - 1;
template <typename Unit>
friend class TokenStreamPosition;
public:
static constexpr unsigned maxLookahead = 2;
using Modifier = Token::Modifier;
static constexpr Modifier SlashIsDiv = Token::SlashIsDiv;
static constexpr Modifier SlashIsRegExp = Token::SlashIsRegExp;
static constexpr Modifier SlashIsInvalid = Token::SlashIsInvalid;
static void verifyConsistentModifier(Modifier modifier,
const Token& nextToken) {
MOZ_ASSERT(
modifier == nextToken.modifier || modifier == SlashIsInvalid,
"This token was scanned with both SlashIsRegExp and SlashIsDiv, "
"indicating the parser is confused about how to handle a slash here. "
"See comment at Token::Modifier.");
}
};
static_assert(std::is_empty_v<TokenStreamShared>,
"TokenStreamShared shouldn't bloat classes that inherit from it");
template <typename Unit, class AnyCharsAccess>
class TokenStreamSpecific;
template <typename Unit>
class MOZ_STACK_CLASS TokenStreamPosition final {
public:
template <class AnyCharsAccess>
inline explicit TokenStreamPosition(
TokenStreamSpecific<Unit, AnyCharsAccess>& tokenStream);
private:
TokenStreamPosition(const TokenStreamPosition&) = delete;
// Technically only TokenStreamSpecific<Unit, AnyCharsAccess>::seek with
// Unit constant and AnyCharsAccess varying must be friended, but 1) it's
// hard to friend one function in template classes, and 2) C++ doesn't
// allow partial friend specialization to target just that single class.
template <typename Char, class AnyCharsAccess>
friend class TokenStreamSpecific;
const Unit* buf;
TokenStreamFlags flags;
unsigned lineno;
size_t linebase;
size_t prevLinebase;
Token currentToken;
unsigned lookahead;
Token lookaheadTokens[TokenStreamShared::maxLookahead];
};
template <typename Unit>
class SourceUnits;
/**
* This class maps:
*
* * a sourceUnits offset (a 0-indexed count of code units)
*
* to
*
* * a (1-indexed) line number and
* * a (0-indexed) offset in code *units* (not code points, not bytes) into
* that line,
*
* for either |Unit = Utf8Unit| or |Unit = char16_t|.
*
* Note that the latter quantity is *not* the same as a column number, which is
* a count of code *points*. Computing a column number requires the offset
* within the line and the source units of that line (including what type |Unit|
* is, to know how to decode them). If you need a column number, functions in
* |GeneralTokenStreamChars<Unit>| will consult this and source units to compute
* it.
*/
class SourceCoords {
// For a given buffer holding source code, |lineStartOffsets_| has one
// element per line of source code, plus one sentinel element. Each
// non-sentinel element holds the buffer offset for the start of the
// corresponding line of source code. For this example script,
// assuming an initialLineOffset of 0:
//
// 1 // xyz [line starts at offset 0]
// 2 var x; [line starts at offset 7]
// 3 [line starts at offset 14]
// 4 var y; [line starts at offset 15]
//
// |lineStartOffsets_| is:
//
// [0, 7, 14, 15, MAX_PTR]
//
// To convert a "line number" to an "index" into |lineStartOffsets_|,
// subtract |initialLineNum_|. E.g. line 3's index is
// (3 - initialLineNum_), which is 2. Therefore lineStartOffsets_[2]
// holds the buffer offset for the start of line 3, which is 14. (Note
// that |initialLineNum_| is often 1, but not always.
//
// The first element is always initialLineOffset, passed to the
// constructor, and the last element is always the MAX_PTR sentinel.
//
// Offset-to-{line,offset-into-line} lookups are O(log n) in the worst
// case (binary search), but in practice they're heavily clustered and
// we do better than that by using the previous lookup's result
// (lastIndex_) as a starting point.
//
// Checking if an offset lies within a particular line number
// (isOnThisLine()) is O(1).
//
Vector<uint32_t, 128> lineStartOffsets_;
/** The line number on which the source text begins. */
uint32_t initialLineNum_;
/**
* The index corresponding to the last offset lookup -- used so that if
* offset lookups proceed in increasing order, and and the offset appears
* in the next couple lines from the last offset, we can avoid a full
* binary-search.
*
* This is mutable because it's modified on every search, but that fact
* isn't visible outside this class.
*/
mutable uint32_t lastIndex_;
uint32_t indexFromOffset(uint32_t offset) const;
static const uint32_t MAX_PTR = UINT32_MAX;
uint32_t lineNumberFromIndex(uint32_t index) const {
return index + initialLineNum_;
}
uint32_t indexFromLineNumber(uint32_t lineNum) const {
return lineNum - initialLineNum_;
}
public:
SourceCoords(FrontendContext* fc, uint32_t initialLineNumber,
uint32_t initialOffset);
[[nodiscard]] bool add(uint32_t lineNum, uint32_t lineStartOffset);
[[nodiscard]] bool fill(const SourceCoords& other);
bool isOnThisLine(uint32_t offset, uint32_t lineNum, bool* onThisLine) const {
uint32_t index = indexFromLineNumber(lineNum);
if (index + 1 >= lineStartOffsets_.length()) { // +1 due to sentinel
return false;
}
*onThisLine = lineStartOffsets_[index] <= offset &&
offset < lineStartOffsets_[index + 1];
return true;
}
/**
* A token, computed for an offset in source text, that can be used to
* access line number and line-offset information for that offset.
*
* LineToken *alone* exposes whether the corresponding offset is in the
* the first line of source (which may not be 1, depending on
* |initialLineNumber|), and whether it's in the same line as
* another LineToken.
*/
class LineToken {
uint32_t index;
#ifdef DEBUG
uint32_t offset_; // stored for consistency-of-use assertions
#endif
friend class SourceCoords;
public:
LineToken(uint32_t index, uint32_t offset)
: index(index)
#ifdef DEBUG
,
offset_(offset)
#endif
{
}
bool isFirstLine() const { return index == 0; }
bool isSameLine(LineToken other) const { return index == other.index; }
void assertConsistentOffset(uint32_t offset) const {
MOZ_ASSERT(offset_ == offset);
}
};
/**
* Compute a token usable to access information about the line at the
* given offset.
*
* The only information directly accessible in a token is whether it
* corresponds to the first line of source text (which may not be line
* 1, depending on the |initialLineNumber| value used to construct
* this). Use |lineNumber(LineToken)| to compute the actual line
* number (incorporating the contribution of |initialLineNumber|).
*/
LineToken lineToken(uint32_t offset) const;
/** Compute the line number for the given token. */
uint32_t lineNumber(LineToken lineToken) const {
return lineNumberFromIndex(lineToken.index);
}
/** Return the offset of the start of the line for |lineToken|. */
uint32_t lineStart(LineToken lineToken) const {
MOZ_ASSERT(lineToken.index + 1 < lineStartOffsets_.length(),
"recorded line-start information must be available");
return lineStartOffsets_[lineToken.index];
}
};
enum class UnitsType : unsigned char {
PossiblyMultiUnit = 0,
GuaranteedSingleUnit = 1,
};
class ChunkInfo {
private:
// Store everything in |unsigned char|s so everything packs.
unsigned char column_[sizeof(uint32_t)];
unsigned char unitsType_;
public:
ChunkInfo(uint32_t col, UnitsType type)
: unitsType_(static_cast<unsigned char>(type)) {
memcpy(column_, &col, sizeof(col));
}
uint32_t column() const {
uint32_t col;
memcpy(&col, column_, sizeof(uint32_t));
return col;
}
UnitsType unitsType() const {
MOZ_ASSERT(unitsType_ <= 1, "unitsType_ must be 0 or 1");
return static_cast<UnitsType>(unitsType_);
}
void guaranteeSingleUnits() {
MOZ_ASSERT(unitsType() == UnitsType::PossiblyMultiUnit,
"should only be setting to possibly optimize from the "
"pessimistic case");
unitsType_ = static_cast<unsigned char>(UnitsType::GuaranteedSingleUnit);
}
};
enum class InvalidEscapeType {
// No invalid character escapes.
None,
// A malformed \x escape.
Hexadecimal,
// A malformed \u escape.
Unicode,
// An otherwise well-formed \u escape which represents a
// codepoint > 10FFFF.
UnicodeOverflow,
// An octal escape in a template token.
Octal,
// NonOctalDecimalEscape - \8 or \9.
EightOrNine
};
class TokenStreamAnyChars : public TokenStreamShared {
private:
// Constant-at-construction fields.
FrontendContext* const fc;
/** Options used for parsing/tokenizing. */
const JS::ReadOnlyCompileOptions& options_;
/**
* Pointer used internally to test whether in strict mode. Use |strictMode()|
* instead of this field.
*/
StrictModeGetter* const strictModeGetter_;
/** Input filename or null. */
const char* const filename_;
// Column number computation fields.
/**
* A map of (line number => sequence of the column numbers at
* |ColumnChunkLength|-unit boundaries rewound [if needed] to the nearest code
* point boundary). (|TokenStreamAnyChars::computePartialColumn| is the sole
* user of |ColumnChunkLength| and therefore contains its definition.)
*
* Entries appear in this map only when a column computation of sufficient
* distance is performed on a line -- and only when the column is beyond the
* first |ColumnChunkLength| units. Each line's vector is lazily filled as
* greater offsets require column computations.
*/
mutable HashMap<uint32_t, Vector<ChunkInfo>> longLineColumnInfo_;
// Computing accurate column numbers requires at *some* point linearly
// iterating through prior source units in the line, to properly account for
// multi-unit code points. This is quadratic if counting happens repeatedly.
//
// But usually we need columns for advancing offsets through scripts. By
// caching the last ((line number, offset) => relative column) mapping (in
// similar manner to how |SourceCoords::lastIndex_| is used to cache
// (offset => line number) mappings) we can usually avoid re-iterating through
// the common line prefix.
//
// Additionally, we avoid hash table lookup costs by caching the
// |Vector<ChunkInfo>*| for the line of the last lookup. (|nullptr| means we
// must look it up -- or it hasn't been created yet.) This pointer is nulled
// when a lookup on a new line occurs, but as it's not a pointer at literal,
// reallocatable element data, it's *not* invalidated when new entries are
// added to such a vector.
/**
* The line in which the last column computation occurred, or UINT32_MAX if
* no prior computation has yet happened.
*/
mutable uint32_t lineOfLastColumnComputation_ = UINT32_MAX;
/**
* The chunk vector of the line for that last column computation. This is
* null if the chunk vector needs to be recalculated or initially created.
*/
mutable Vector<ChunkInfo>* lastChunkVectorForLine_ = nullptr;
/**
* The offset (in code units) of the last column computation performed,
* relative to source start.
*/
mutable uint32_t lastOffsetOfComputedColumn_ = UINT32_MAX;
/**
* The column number for the offset (in code units) of the last column
* computation performed, relative to source start.
*/
mutable uint32_t lastComputedColumn_ = 0;
// Intra-token fields.
/**
* The offset of the first invalid escape in a template literal. (If there is
* one -- if not, the value of this field is meaningless.)
*
* See also |invalidTemplateEscapeType|.
*/
uint32_t invalidTemplateEscapeOffset = 0;
/**
* The type of the first invalid escape in a template literal. (If there
* isn't one, this will be |None|.)
*
* See also |invalidTemplateEscapeOffset|.
*/
InvalidEscapeType invalidTemplateEscapeType = InvalidEscapeType::None;
// Fields with values relevant across tokens (and therefore potentially across
// function boundaries, such that lazy function parsing and stream-seeking
// must take care in saving and restoring them).
/** Line number and offset-to-line mapping information. */
SourceCoords srcCoords;
/** Circular token buffer of gotten tokens that have been ungotten. */
Token tokens[ntokens] = {};
/** The index in |tokens| of the last parsed token. */
unsigned cursor_ = 0;
/** The number of tokens in |tokens| available to be gotten. */
unsigned lookahead = 0;
/** The current line number. */
unsigned lineno;
/** Various flag bits (see above). */
TokenStreamFlags flags = {};
/** The offset of the start of the current line. */
size_t linebase = 0;
/** The start of the previous line, or |size_t(-1)| on the first line. */
size_t prevLinebase = size_t(-1);
/** The user's requested source URL. Null if none has been set. */
UniqueTwoByteChars displayURL_ = nullptr;
/** The URL of the source map for this script. Null if none has been set. */
UniqueTwoByteChars sourceMapURL_ = nullptr;
// Assorted boolean fields, none of which require maintenance across tokens,
// stored at class end to minimize padding.
/**
* Whether syntax errors should or should not contain details about the
* precise nature of the error. (This is intended for use in suppressing
* content-revealing details about syntax errors in cross-origin scripts on
* the web.)
*/
const bool mutedErrors;
/**
* An array storing whether a TokenKind observed while attempting to extend
* a valid AssignmentExpression into an even longer AssignmentExpression
* (e.g., extending '3' to '3 + 5') will terminate it without error.
*
* For example, ';' always ends an AssignmentExpression because it ends a
* Statement or declaration. '}' always ends an AssignmentExpression
* because it terminates BlockStatement, FunctionBody, and embedded
* expressions in TemplateLiterals. Therefore both entries are set to true
* in TokenStreamAnyChars construction.
*
* But e.g. '+' *could* extend an AssignmentExpression, so its entry here
* is false. Meanwhile 'this' can't extend an AssignmentExpression, but
* it's only valid after a line break, so its entry here must be false.
*
* NOTE: This array could be static, but without C99's designated
* initializers it's easier zeroing here and setting the true entries
* in the constructor body. (Having this per-instance might also aid
* locality.) Don't worry! Initialization time for each TokenStream
* is trivial. See bug 639420.
*/
bool isExprEnding[size_t(TokenKind::Limit)] = {}; // all-false initially
// End of fields.
public:
TokenStreamAnyChars(FrontendContext* fc,
const JS::ReadOnlyCompileOptions& options,
StrictModeGetter* smg);
template <typename Unit, class AnyCharsAccess>
friend class GeneralTokenStreamChars;
template <typename Unit, class AnyCharsAccess>
friend class TokenStreamChars;
template <typename Unit, class AnyCharsAccess>
friend class TokenStreamSpecific;
template <typename Unit>
friend class TokenStreamPosition;
// Accessors.
unsigned cursor() const { return cursor_; }
unsigned nextCursor() const { return (cursor_ + 1) & ntokensMask; }
unsigned aheadCursor(unsigned steps) const {
return (cursor_ + steps) & ntokensMask;
}
const Token& currentToken() const { return tokens[cursor()]; }
bool isCurrentTokenType(TokenKind type) const {
return currentToken().type == type;
}
[[nodiscard]] bool checkOptions();
private:
TaggedParserAtomIndex reservedWordToPropertyName(TokenKind tt) const;
public:
TaggedParserAtomIndex currentName() const {
if (isCurrentTokenType(TokenKind::Name) ||
isCurrentTokenType(TokenKind::PrivateName)) {
return currentToken().name();
}
MOZ_ASSERT(TokenKindIsPossibleIdentifierName(currentToken().type));
return reservedWordToPropertyName(currentToken().type);
}
bool currentNameHasEscapes(ParserAtomsTable& parserAtoms) const {
if (isCurrentTokenType(TokenKind::Name) ||
isCurrentTokenType(TokenKind::PrivateName)) {
TokenPos pos = currentToken().pos;
return (pos.end - pos.begin) != parserAtoms.length(currentToken().name());
}
MOZ_ASSERT(TokenKindIsPossibleIdentifierName(currentToken().type));
return false;
}
bool isCurrentTokenAssignment() const {
return TokenKindIsAssignment(currentToken().type);
}
// Flag methods.
bool isEOF() const { return flags.isEOF; }
bool hadError() const { return flags.hadError; }
DeprecatedContent sawDeprecatedContent() const {
return static_cast<DeprecatedContent>(flags.sawDeprecatedContent);
}
private:
// Workaround GCC 7 sadness.
void setSawDeprecatedContent(DeprecatedContent content) {
flags.sawDeprecatedContent = static_cast<uint8_t>(content);
}
public:
void clearSawDeprecatedContent() {
setSawDeprecatedContent(DeprecatedContent::None);
}
void setSawDeprecatedOctalLiteral() {
setSawDeprecatedContent(DeprecatedContent::OctalLiteral);
}
void setSawDeprecatedOctalEscape() {
setSawDeprecatedContent(DeprecatedContent::OctalEscape);
}
void setSawDeprecatedEightOrNineEscape() {
setSawDeprecatedContent(DeprecatedContent::EightOrNineEscape);
}
bool hasInvalidTemplateEscape() const {
return invalidTemplateEscapeType != InvalidEscapeType::None;
}
void clearInvalidTemplateEscape() {
invalidTemplateEscapeType = InvalidEscapeType::None;
}
private:
// This is private because it should only be called by the tokenizer while
// tokenizing not by, for example, BytecodeEmitter.
bool strictMode() const {
return strictModeGetter_ && strictModeGetter_->strictMode();
}
void setInvalidTemplateEscape(uint32_t offset, InvalidEscapeType type) {
MOZ_ASSERT(type != InvalidEscapeType::None);
if (invalidTemplateEscapeType != InvalidEscapeType::None) {
return;
}
invalidTemplateEscapeOffset = offset;
invalidTemplateEscapeType = type;
}
public:
// Call this immediately after parsing an OrExpression to allow scanning the
// next token with SlashIsRegExp without asserting (even though we just
// peeked at it in SlashIsDiv mode).
//
// It's OK to disable the assertion because the places where this is called
// have peeked at the next token in SlashIsDiv mode, and checked that it is
// *not* a Div token.
//
// To see why it is necessary to disable the assertion, consider these two
// programs:
//
// x = arg => q // per spec, this is all one statement, and the
// /a/g; // slashes are division operators
//
// x = arg => {} // per spec, ASI at the end of this line
// /a/g; // and that's a regexp literal
//
// The first program shows why orExpr() has use SlashIsDiv mode when peeking
// ahead for the next operator after parsing `q`. The second program shows
// why matchOrInsertSemicolon() must use SlashIsRegExp mode when scanning
// ahead for a semicolon.
void allowGettingNextTokenWithSlashIsRegExp() {
#ifdef DEBUG
// Check the precondition: Caller already peeked ahead at the next token,
// in SlashIsDiv mode, and it is *not* a Div token.
MOZ_ASSERT(hasLookahead());
const Token& next = nextToken();
MOZ_ASSERT(next.modifier == SlashIsDiv);
MOZ_ASSERT(next.type != TokenKind::Div);
tokens[nextCursor()].modifier = SlashIsRegExp;
#endif
}
#ifdef DEBUG
inline bool debugHasNoLookahead() const { return lookahead == 0; }
#endif
bool hasDisplayURL() const { return displayURL_ != nullptr; }
char16_t* displayURL() { return displayURL_.get(); }
bool hasSourceMapURL() const { return sourceMapURL_ != nullptr; }
char16_t* sourceMapURL() { return sourceMapURL_.get(); }
FrontendContext* context() const { return fc; }
using LineToken = SourceCoords::LineToken;
LineToken lineToken(uint32_t offset) const {
return srcCoords.lineToken(offset);
}
uint32_t lineNumber(LineToken lineToken) const {
return srcCoords.lineNumber(lineToken);
}
uint32_t lineStart(LineToken lineToken) const {
return srcCoords.lineStart(lineToken);
}
/**
* Fill in |err|.
*
* If the token stream doesn't have location info for this error, use the
* caller's location (including line/column number) and return false. (No
* line of context is set.)
*
* Otherwise fill in everything in |err| except 1) line/column numbers and
* 2) line-of-context-related fields and return true. The caller *must*
* fill in the line/column number; filling the line of context is optional.
*/
bool fillExceptingContext(ErrorMetadata* err, uint32_t offset) const;
MOZ_ALWAYS_INLINE void updateFlagsForEOL() { flags.isDirtyLine = false; }
private:
/**
* Compute the "partial" column number in Unicode code points of the absolute
* |offset| within source text on the line of |lineToken| (which must have
* been computed from |offset|).
*
* A partial column number on a line that isn't the first line is just the
* actual column number. But a partial column number on the first line is the
* column number *ignoring the initial line/column of the script*. For
* example, consider this HTML with line/column number keys:
*
* 1 2 3
* 0123456789012345678901234 567890
* ------------------------------------
* 1 | <html>
* 2 | <head>
* 3 | <script>var x = 3; x < 4;
* 4 | const y = 7;</script>
* 5 | </head>
* 6 | <body></body>
* 7 | </html>
*
* The script would be compiled specifying initial (line, column) of (3, 10)
* using |JS::ReadOnlyCompileOptions::{lineno,column}|. And the column
* reported by |computeColumn| for the "v" of |var| would be 10. But the
* partial column number of the "v" in |var|, that this function returns,
* would be 0. On the other hand, the column reported by |computeColumn| and
* the partial column number returned by this function for the "c" in |const|
* would both be 0, because it's not in the first line of source text.
*
* The partial column is with respect *only* to the JavaScript source text as
* SpiderMonkey sees it. In the example, the "<" is converted to "<" by
* the browser before SpiderMonkey would see it. So the partial column of the
* "4" in the inequality would be 16, not 19.
*
* Code points are not all equal length, so counting requires *some* kind of
* linear-time counting from the start of the line. This function attempts
* various tricks to reduce this cost. If these optimizations succeed,
* repeated calls to this function on a line will pay a one-time cost linear
* in the length of the line, then each call pays a separate constant-time
* cost. If the optimizations do not succeed, this function works in time
* linear in the length of the line.
*
* It's unusual for a function in *this* class to be |Unit|-templated, but
* while this operation manages |Unit|-agnostic fields in this class and in
* |srcCoords|, it must *perform* |Unit|-sensitive computations to fill them.
* And this is the best place to do that.
*/
template <typename Unit>
uint32_t computePartialColumn(const LineToken lineToken,
const uint32_t offset,
const SourceUnits<Unit>& sourceUnits) const;
/**
* Update line/column information for the start of a new line at
* |lineStartOffset|.
*/
[[nodiscard]] MOZ_ALWAYS_INLINE bool internalUpdateLineInfoForEOL(
uint32_t lineStartOffset);
public:
const Token& nextToken() const {
MOZ_ASSERT(hasLookahead());
return tokens[nextCursor()];
}
bool hasLookahead() const { return lookahead > 0; }
void advanceCursor() { cursor_ = (cursor_ + 1) & ntokensMask; }
void retractCursor() { cursor_ = (cursor_ - 1) & ntokensMask; }
Token* allocateToken() {
advanceCursor();
Token* tp = &tokens[cursor()];
MOZ_MAKE_MEM_UNDEFINED(tp, sizeof(*tp));
return tp;
}
// Push the last scanned token back into the stream.
void ungetToken() {
MOZ_ASSERT(lookahead < maxLookahead);
lookahead++;
retractCursor();
}
public:
void adoptState(TokenStreamAnyChars& other) {
// If |other| has fresh information from directives, overwrite any
// previously recorded directives. (There is no specification directing
// that last-in-source-order directive controls, sadly. We behave this way
// in the ordinary case, so we ought do so here too.)
if (auto& url = other.displayURL_) {
displayURL_ = std::move(url);
}
if (auto& url = other.sourceMapURL_) {
sourceMapURL_ = std::move(url);
}
}
// Compute error metadata for an error at no offset.
void computeErrorMetadataNoOffset(ErrorMetadata* err) const;
// ErrorReporter API Helpers
// Provide minimal set of error reporting API given we cannot use
// ErrorReportMixin here. "report" prefix is added to avoid conflict with
// ErrorReportMixin methods in TokenStream class.
void reportErrorNoOffset(unsigned errorNumber, ...) const;
void reportErrorNoOffsetVA(unsigned errorNumber, va_list* args) const;
const JS::ReadOnlyCompileOptions& options() const { return options_; }
const char* getFilename() const { return filename_; }
};
constexpr char16_t CodeUnitValue(char16_t unit) { return unit; }
constexpr uint8_t CodeUnitValue(mozilla::Utf8Unit unit) {
return unit.toUint8();
}
template <typename Unit>
class TokenStreamCharsBase;
template <typename T>
inline bool IsLineTerminator(T) = delete;
inline bool IsLineTerminator(char32_t codePoint) {
return codePoint == '\n' || codePoint == '\r' ||
codePoint == unicode::LINE_SEPARATOR ||
codePoint == unicode::PARA_SEPARATOR;
}
inline bool IsLineTerminator(char16_t unit) {
// Every LineTerminator fits in char16_t, so this is exact.
return IsLineTerminator(static_cast<char32_t>(unit));
}
template <typename Unit>
struct SourceUnitTraits;
template <>
struct SourceUnitTraits<char16_t> {
public:
static constexpr uint8_t maxUnitsLength = 2;
static constexpr size_t lengthInUnits(char32_t codePoint) {
return codePoint < unicode::NonBMPMin ? 1 : 2;
}
};
template <>
struct SourceUnitTraits<mozilla::Utf8Unit> {
public:
static constexpr uint8_t maxUnitsLength = 4;
static constexpr size_t lengthInUnits(char32_t codePoint) {
return codePoint < 0x80 ? 1
: codePoint < 0x800 ? 2
: codePoint < 0x10000 ? 3
: 4;
}
};
/**
* PeekedCodePoint represents the result of peeking ahead in some source text
* to determine the next validly-encoded code point.
*
* If there isn't a valid code point, then |isNone()|.
*
* But if there *is* a valid code point, then |!isNone()|, the code point has
* value |codePoint()| and its length in code units is |lengthInUnits()|.
*
* Conceptually, this class is |Maybe<struct { char32_t v; uint8_t len; }>|.
*/
template <typename Unit>
class PeekedCodePoint final {
char32_t codePoint_ = 0;
uint8_t lengthInUnits_ = 0;
private:
using SourceUnitTraits = frontend::SourceUnitTraits<Unit>;
PeekedCodePoint() = default;
public:
/**
* Create a peeked code point with the given value and length in code
* units.
*
* While the latter value is computable from the former for both UTF-8 and
* JS's version of UTF-16, the caller likely computed a length in units in
* the course of determining the peeked value. Passing both here avoids
* recomputation and lets us do a consistency-checking assertion.
*/
PeekedCodePoint(char32_t codePoint, uint8_t lengthInUnits)
: codePoint_(codePoint), lengthInUnits_(lengthInUnits) {
MOZ_ASSERT(codePoint <= unicode::NonBMPMax);
MOZ_ASSERT(lengthInUnits != 0, "bad code point length");
MOZ_ASSERT(lengthInUnits == SourceUnitTraits::lengthInUnits(codePoint));
}
/** Create a PeekedCodeUnit that represents no valid code point. */
static PeekedCodePoint none() { return PeekedCodePoint(); }
/** True if no code point was found, false otherwise. */
bool isNone() const { return lengthInUnits_ == 0; }
/** If a code point was found, its value. */
char32_t codePoint() const {
MOZ_ASSERT(!isNone());
return codePoint_;
}
/** If a code point was found, its length in code units. */
uint8_t lengthInUnits() const {
MOZ_ASSERT(!isNone());
return lengthInUnits_;
}
};
inline PeekedCodePoint<char16_t> PeekCodePoint(const char16_t* const ptr,
const char16_t* const end) {
if (MOZ_UNLIKELY(ptr >= end)) {
return PeekedCodePoint<char16_t>::none();
}
char16_t lead = ptr[0];
char32_t c;
uint8_t len;
if (MOZ_LIKELY(!unicode::IsLeadSurrogate(lead)) ||
MOZ_UNLIKELY(ptr + 1 >= end || !unicode::IsTrailSurrogate(ptr[1]))) {
c = lead;
len = 1;
} else {
c = unicode::UTF16Decode(lead, ptr[1]);
len = 2;
}
return PeekedCodePoint<char16_t>(c, len);
}
inline PeekedCodePoint<mozilla::Utf8Unit> PeekCodePoint(
const mozilla::Utf8Unit* const ptr, const mozilla::Utf8Unit* const end) {
if (MOZ_UNLIKELY(ptr >= end)) {
return PeekedCodePoint<mozilla::Utf8Unit>::none();
}
const mozilla::Utf8Unit lead = ptr[0];
if (mozilla::IsAscii(lead)) {
return PeekedCodePoint<mozilla::Utf8Unit>(lead.toUint8(), 1);
}
const mozilla::Utf8Unit* afterLead = ptr + 1;
mozilla::Maybe<char32_t> codePoint =
mozilla::DecodeOneUtf8CodePoint(lead, &afterLead, end);
if (codePoint.isNothing()) {
return PeekedCodePoint<mozilla::Utf8Unit>::none();
}
auto len =
mozilla::AssertedCast<uint8_t>(mozilla::PointerRangeSize(ptr, afterLead));
MOZ_ASSERT(len <= 4);
return PeekedCodePoint<mozilla::Utf8Unit>(codePoint.value(), len);
}
inline bool IsSingleUnitLineTerminator(mozilla::Utf8Unit unit) {
// BEWARE: The Unicode line/paragraph separators don't fit in a single
// UTF-8 code unit, so this test is exact for Utf8Unit but inexact
// for UTF-8 as a whole. Users must handle |unit| as start of a
// Unicode LineTerminator themselves!
return unit == mozilla::Utf8Unit('\n') || unit == mozilla::Utf8Unit('\r');
}
// This is the low-level interface to the JS source code buffer. It just gets
// raw Unicode code units -- 16-bit char16_t units of source text that are not
// (always) full code points, and 8-bit units of UTF-8 source text soon.
// TokenStreams functions are layered on top and do some extra stuff like
// converting all EOL sequences to '\n', tracking the line number, and setting
// |flags.isEOF|. (The "raw" in "raw Unicode code units" refers to the lack of
// EOL sequence normalization.)
//
// buf[0..length-1] often represents a substring of some larger source,
// where we have only the substring in memory. The |startOffset| argument
// indicates the offset within this larger string at which our string
// begins, the offset of |buf[0]|.
template <typename Unit>
class SourceUnits {
private:
/** Base of buffer. */
const Unit* base_;
/** Offset of base_[0]. */
uint32_t startOffset_;
/** Limit for quick bounds check. */
const Unit* limit_;
/** Next char to get. */
const Unit* ptr;
public:
SourceUnits(const Unit* units, size_t length, size_t startOffset)
: base_(units),
startOffset_(startOffset),
limit_(units + length),
ptr(units) {}
bool atStart() const {
MOZ_ASSERT(!isPoisoned(), "shouldn't be using if poisoned");
return ptr == base_;
}
bool atEnd() const {
MOZ_ASSERT(!isPoisoned(), "shouldn't be using if poisoned");
MOZ_ASSERT(ptr <= limit_, "shouldn't have overrun");
return ptr >= limit_;
}
size_t remaining() const {
MOZ_ASSERT(!isPoisoned(),
"can't get a count of remaining code units if poisoned");
return mozilla::PointerRangeSize(ptr, limit_);
}
size_t startOffset() const { return startOffset_; }
size_t offset() const {
return startOffset_ + mozilla::PointerRangeSize(base_, ptr);
}
const Unit* codeUnitPtrAt(size_t offset) const {
MOZ_ASSERT(!isPoisoned(), "shouldn't be using if poisoned");
MOZ_ASSERT(startOffset_ <= offset);
MOZ_ASSERT(offset - startOffset_ <=
mozilla::PointerRangeSize(base_, limit_));
return base_ + (offset - startOffset_);
}
const Unit* current() const { return ptr; }
const Unit* limit() const { return limit_; }
Unit previousCodeUnit() {
MOZ_ASSERT(!isPoisoned(), "can't get previous code unit if poisoned");
MOZ_ASSERT(!atStart(), "must have a previous code unit to get");
return *(ptr - 1);
}
MOZ_ALWAYS_INLINE Unit getCodeUnit() {
return *ptr++; // this will nullptr-crash if poisoned
}
Unit peekCodeUnit() const {
return *ptr; // this will nullptr-crash if poisoned
}
/**
* Determine the next code point in source text. The code point is not
* normalized: '\r', '\n', '\u2028', and '\u2029' are returned literally.
* If there is no next code point because |atEnd()|, or if an encoding
* error is encountered, return a |PeekedCodePoint| that |isNone()|.
*
* This function does not report errors: code that attempts to get the next
* code point must report any error.
*
* If a next code point is found, it may be consumed by passing it to
* |consumeKnownCodePoint|.
*/
PeekedCodePoint<Unit> peekCodePoint() const {
return PeekCodePoint(ptr, limit_);
}
private:
#ifdef DEBUG
void assertNextCodePoint(const PeekedCodePoint<Unit>& peeked);
#endif
public:
/**
* Consume a peeked code point that |!isNone()|.
*
* This call DOES NOT UPDATE LINE-STATUS. You may need to call
* |updateLineInfoForEOL()| and |updateFlagsForEOL()| if this consumes a
* LineTerminator. Note that if this consumes '\r', you also must consume
* an optional '\n' (i.e. a full LineTerminatorSequence) before doing so.
*/
void consumeKnownCodePoint(const PeekedCodePoint<Unit>& peeked) {
MOZ_ASSERT(!peeked.isNone());
MOZ_ASSERT(peeked.lengthInUnits() <= remaining());
#ifdef DEBUG
assertNextCodePoint(peeked);
#endif
ptr += peeked.lengthInUnits();
}
/** Match |n| hexadecimal digits and store their value in |*out|. */
bool matchHexDigits(uint8_t n, char16_t* out) {
MOZ_ASSERT(!isPoisoned(), "shouldn't peek into poisoned SourceUnits");
MOZ_ASSERT(n <= 4, "hexdigit value can't overflow char16_t");
if (n > remaining()) {
return false;
}
char16_t v = 0;
for (uint8_t i = 0; i < n; i++) {
auto unit = CodeUnitValue(ptr[i]);
if (!mozilla::IsAsciiHexDigit(unit)) {
return false;
}
v = (v << 4) | mozilla::AsciiAlphanumericToNumber(unit);
}
*out = v;
ptr += n;
return true;
}
bool matchCodeUnits(const char* chars, uint8_t length) {
MOZ_ASSERT(!isPoisoned(), "shouldn't match into poisoned SourceUnits");
if (length > remaining()) {
return false;
}
const Unit* start = ptr;
const Unit* end = ptr + length;
while (ptr < end) {
if (*ptr++ != Unit(*chars++)) {
ptr = start;
return false;
}
}
return true;
}
void skipCodeUnits(uint32_t n) {
MOZ_ASSERT(!isPoisoned(), "shouldn't use poisoned SourceUnits");
MOZ_ASSERT(n <= remaining(), "shouldn't skip beyond end of SourceUnits");
ptr += n;
}
void unskipCodeUnits(uint32_t n) {
MOZ_ASSERT(!isPoisoned(), "shouldn't use poisoned SourceUnits");
MOZ_ASSERT(n <= mozilla::PointerRangeSize(base_, ptr),
"shouldn't unskip beyond start of SourceUnits");
ptr -= n;
}
private:
friend class TokenStreamCharsBase<Unit>;
bool internalMatchCodeUnit(Unit c) {
MOZ_ASSERT(!isPoisoned(), "shouldn't use poisoned SourceUnits");
if (MOZ_LIKELY(!atEnd()) && *ptr == c) {
ptr++;
return true;
}
return false;
}
public:
void consumeKnownCodeUnit(Unit c) {
MOZ_ASSERT(!isPoisoned(), "shouldn't use poisoned SourceUnits");
MOZ_ASSERT(*ptr == c, "consuming the wrong code unit");
ptr++;
}
/** Unget U+2028 LINE SEPARATOR or U+2029 PARAGRAPH SEPARATOR. */
inline void ungetLineOrParagraphSeparator();
void ungetCodeUnit() {
MOZ_ASSERT(!isPoisoned(), "can't unget from poisoned units");
MOZ_ASSERT(!atStart(), "can't unget if currently at start");
ptr--;
}
const Unit* addressOfNextCodeUnit(bool allowPoisoned = false) const {
MOZ_ASSERT_IF(!allowPoisoned, !isPoisoned());
return ptr;
}
// Use this with caution!
void setAddressOfNextCodeUnit(const Unit* a, bool allowPoisoned = false) {
MOZ_ASSERT_IF(!allowPoisoned, a);
ptr = a;
}
// Poison the SourceUnits so they can't be accessed again.
void poisonInDebug() {
#ifdef DEBUG
ptr = nullptr;
#endif
}
private:
bool isPoisoned() const {
#ifdef DEBUG
// |ptr| can be null for unpoisoned SourceUnits if this was initialized with
// |units == nullptr| and |length == 0|. In that case, for lack of any
// better options, consider this to not be poisoned.
return ptr == nullptr && ptr != limit_;
#else
return false;
#endif
}
public:
/**
* Consume the rest of a single-line comment (but not the EOL/EOF that
* terminates it).
*
* If an encoding error is encountered -- possible only for UTF-8 because
* JavaScript's conception of UTF-16 encompasses any sequence of 16-bit
* code units -- valid code points prior to the encoding error are consumed
* and subsequent invalid code units are not consumed. For example, given
* these UTF-8 code units:
*
* 'B' 'A' 'D' ':' <bad code unit sequence>
* 0x42 0x41 0x44 0x3A 0xD0 0x00 ...
*
* the first four code units are consumed, but 0xD0 and 0x00 are not
* consumed because 0xD0 encodes a two-byte lead unit but 0x00 is not a
* valid trailing code unit.
*
* It is expected that the caller will report such an encoding error when
* it attempts to consume the next code point.
*/
void consumeRestOfSingleLineComment();
/**
* The maximum radius of code around the location of an error that should
* be included in a syntax error message -- this many code units to either
* side. The resulting window of data is then accordinngly trimmed so that
* the window contains only validly-encoded data.
*
* Because this number is the same for both UTF-8 and UTF-16, windows in
* UTF-8 may contain fewer code points than windows in UTF-16. As we only
* use this for error messages, we don't particularly care.
*/
static constexpr size_t WindowRadius = ErrorMetadata::lineOfContextRadius;
/**
* From absolute offset |offset|, search backward to find an absolute
* offset within source text, no further than |WindowRadius| code units
* away from |offset|, such that all code points from that offset to
* |offset| are valid, non-LineTerminator code points.
*/
size_t findWindowStart(size_t offset) const;
/**
* From absolute offset |offset|, find an absolute offset within source
* text, no further than |WindowRadius| code units away from |offset|, such
* that all code units from |offset| to that offset are valid,
* non-LineTerminator code points.
*/
size_t findWindowEnd(size_t offset) const;
/**
* Given a |window| of |encodingSpecificWindowLength| units encoding valid
* Unicode text, with index |encodingSpecificTokenOffset| indicating a
* particular code point boundary in |window|, compute the corresponding
* token offset and length if |window| were encoded in UTF-16. For
* example:
*
* // U+03C0 GREEK SMALL LETTER PI is encoded as 0xCF 0x80.
* const Utf8Unit* encodedWindow =
* reinterpret_cast<const Utf8Unit*>(u8"ππππ = @ FAIL");
* size_t encodedTokenOffset = 11; // 2 * 4 + ' = '.length
* size_t encodedWindowLength = 17; // 2 * 4 + ' = @ FAIL'.length
* size_t utf16Offset, utf16Length;
* computeWindowOffsetAndLength(encodedWindow,
* encodedTokenOffset, &utf16Offset,
* encodedWindowLength, &utf16Length);
* MOZ_ASSERT(utf16Offset == 7);
* MOZ_ASSERT(utf16Length = 13);
*
* This function asserts if called for UTF-16: the sole caller can avoid
* computing UTF-16 offsets when they're definitely the same as the encoded
* offsets.
*/
inline void computeWindowOffsetAndLength(const Unit* encodeWindow,
size_t encodingSpecificTokenOffset,
size_t* utf16TokenOffset,
size_t encodingSpecificWindowLength,
size_t* utf16WindowLength) const;
};
template <>
inline void SourceUnits<char16_t>::ungetLineOrParagraphSeparator() {
#ifdef DEBUG
char16_t prev = previousCodeUnit();
#endif
MOZ_ASSERT(prev == unicode::LINE_SEPARATOR ||
prev == unicode::PARA_SEPARATOR);
ungetCodeUnit();
}
template <>
inline void SourceUnits<mozilla::Utf8Unit>::ungetLineOrParagraphSeparator() {
unskipCodeUnits(3);
MOZ_ASSERT(ptr[0].toUint8() == 0xE2);
MOZ_ASSERT(ptr[1].toUint8() == 0x80);
#ifdef DEBUG
uint8_t last = ptr[2].toUint8();
#endif
MOZ_ASSERT(last == 0xA8 || last == 0xA9);
}
/**
* An all-purpose buffer type for accumulating text during tokenizing.
*
* In principle we could make this buffer contain |char16_t|, |Utf8Unit|, or
* |Unit|. We use |char16_t| because:
*
* * we don't have a UTF-8 regular expression parser, so in general regular
* expression text must be copied to a separate UTF-16 buffer to parse it,
* and
* * |TokenStreamCharsShared::copyCharBufferTo|, which copies a shared
* |CharBuffer| to a |char16_t*|, is simpler if it doesn't have to convert.
*/
using CharBuffer = Vector<char16_t, 32>;
/**
* Append the provided code point (in the range [U+0000, U+10FFFF], surrogate
* code points included) to the buffer.
*/
[[nodiscard]] extern bool AppendCodePointToCharBuffer(CharBuffer& charBuffer,
char32_t codePoint);
/**
* Accumulate the range of UTF-16 text (lone surrogates permitted, because JS
* allows them in source text) into |charBuffer|. Normalize '\r', '\n', and
* "\r\n" into '\n'.
*/
[[nodiscard]] extern bool FillCharBufferFromSourceNormalizingAsciiLineBreaks(
CharBuffer& charBuffer, const char16_t* cur, const char16_t* end);
/**
* Accumulate the range of previously-validated UTF-8 text into |charBuffer|.
* Normalize '\r', '\n', and "\r\n" into '\n'.
*/
[[nodiscard]] extern bool FillCharBufferFromSourceNormalizingAsciiLineBreaks(
CharBuffer& charBuffer, const mozilla::Utf8Unit* cur,
const mozilla::Utf8Unit* end);
class TokenStreamCharsShared {
protected:
FrontendContext* fc;
/**
* Buffer transiently used to store sequences of identifier or string code
* points when such can't be directly processed from the original source
* text (e.g. because it contains escapes).
*/
CharBuffer charBuffer;
/** Information for parsing with a lifetime longer than the parser itself. */
ParserAtomsTable* parserAtoms;
protected:
explicit TokenStreamCharsShared(FrontendContext* fc,
ParserAtomsTable* parserAtoms)
: fc(fc), charBuffer(fc), parserAtoms(parserAtoms) {}
[[nodiscard]] bool copyCharBufferTo(
UniquePtr<char16_t[], JS::FreePolicy>* destination);
/**
* Determine whether a code unit constitutes a complete ASCII code point.
* (The code point's exact value might not be used, however, if subsequent
* code observes that |unit| is part of a LineTerminatorSequence.)
*/
[[nodiscard]] static constexpr MOZ_ALWAYS_INLINE bool isAsciiCodePoint(
int32_t unit) {
return mozilla::IsAscii(static_cast<char32_t>(unit));
}
TaggedParserAtomIndex drainCharBufferIntoAtom() {
// Add to parser atoms table.
auto atom = this->parserAtoms->internChar16(fc, charBuffer.begin(),
charBuffer.length());
charBuffer.clear();
return atom;
}
protected:
void adoptState(TokenStreamCharsShared& other) {
// The other stream's buffer may contain information for a
// gotten-then-ungotten token, that we must transfer into this stream so
// that token's final get behaves as desired.
charBuffer = std::move(other.charBuffer);
}
public:
CharBuffer& getCharBuffer() { return charBuffer; }
};
template <typename Unit>
class TokenStreamCharsBase : public TokenStreamCharsShared {
protected:
using SourceUnits = frontend::SourceUnits<Unit>;
/** Code units in the source code being tokenized. */
SourceUnits sourceUnits;
// End of fields.
protected:
TokenStreamCharsBase(FrontendContext* fc, ParserAtomsTable* parserAtoms,
const Unit* units, size_t length, size_t startOffset);
/**
* Convert a non-EOF code unit returned by |getCodeUnit()| or
* |peekCodeUnit()| to a Unit code unit.
*/
inline Unit toUnit(int32_t codeUnitValue);
void ungetCodeUnit(int32_t c) {
if (c == EOF) {
MOZ_ASSERT(sourceUnits.atEnd());
return;
}
MOZ_ASSERT(sourceUnits.previousCodeUnit() == toUnit(c));
sourceUnits.ungetCodeUnit();
}
MOZ_ALWAYS_INLINE TaggedParserAtomIndex
atomizeSourceChars(mozilla::Span<const Unit> units);
/**
* Try to match a non-LineTerminator ASCII code point. Return true iff it
* was matched.
*/
bool matchCodeUnit(char expect) {
MOZ_ASSERT(mozilla::IsAscii(expect));
MOZ_ASSERT(expect != '\r');
MOZ_ASSERT(expect != '\n');
return this->sourceUnits.internalMatchCodeUnit(Unit(expect));
}
/**
* Try to match an ASCII LineTerminator code point. Return true iff it was
* matched.
*/
MOZ_NEVER_INLINE bool matchLineTerminator(char expect) {
MOZ_ASSERT(expect == '\r' || expect == '\n');
return this->sourceUnits.internalMatchCodeUnit(Unit(expect));
}
template <typename T>
bool matchCodeUnit(T) = delete;
template <typename T>
bool matchLineTerminator(T) = delete;
int32_t peekCodeUnit() {
return MOZ_LIKELY(!sourceUnits.atEnd())
? CodeUnitValue(sourceUnits.peekCodeUnit())
: EOF;
}
/** Consume a known, non-EOF code unit. */
inline void consumeKnownCodeUnit(int32_t unit);
// Forbid accidental calls to consumeKnownCodeUnit *not* with the single
// unit-or-EOF type. Unit should use SourceUnits::consumeKnownCodeUnit;
// CodeUnitValue() results should go through toUnit(), or better yet just
// use the original Unit.
template <typename T>
inline void consumeKnownCodeUnit(T) = delete;
/**
* Add a null-terminated line of context to error information, for the line
* in |sourceUnits| that contains |offset|. Also record the window's
* length and the offset of the error in the window. (Don't bother adding
* a line of context if it would be empty.)
*
* The window will contain no LineTerminators of any kind, and it will not
* extend more than |SourceUnits::WindowRadius| to either side of |offset|,
* nor into the previous or next lines.
*
* This function is quite internal, and you probably should be calling one
* of its existing callers instead.
*/
[[nodiscard]] bool addLineOfContext(ErrorMetadata* err,
uint32_t offset) const;
};
template <>
inline char16_t TokenStreamCharsBase<char16_t>::toUnit(int32_t codeUnitValue) {
MOZ_ASSERT(codeUnitValue != EOF, "EOF is not a Unit");
return mozilla::AssertedCast<char16_t>(codeUnitValue);
}
template <>
inline mozilla::Utf8Unit TokenStreamCharsBase<mozilla::Utf8Unit>::toUnit(
int32_t value) {
MOZ_ASSERT(value != EOF, "EOF is not a Unit");
return mozilla::Utf8Unit(mozilla::AssertedCast<unsigned char>(value));
}
template <typename Unit>
inline void TokenStreamCharsBase<Unit>::consumeKnownCodeUnit(int32_t unit) {
sourceUnits.consumeKnownCodeUnit(toUnit(unit));
}
template <>
MOZ_ALWAYS_INLINE TaggedParserAtomIndex
TokenStreamCharsBase<char16_t>::atomizeSourceChars(
mozilla::Span<const char16_t> units) {
return this->parserAtoms->internChar16(fc, units.data(), units.size());
}
template <>
/* static */ MOZ_ALWAYS_INLINE TaggedParserAtomIndex
TokenStreamCharsBase<mozilla::Utf8Unit>::atomizeSourceChars(
mozilla::Span<const mozilla::Utf8Unit> units) {
return this->parserAtoms->internUtf8(fc, units.data(), units.size());
}
template <typename Unit>
class SpecializedTokenStreamCharsBase;
template <>
class SpecializedTokenStreamCharsBase<char16_t>
: public TokenStreamCharsBase<char16_t> {
using CharsBase = TokenStreamCharsBase<char16_t>;
protected:
using TokenStreamCharsShared::isAsciiCodePoint;
// Deliberately don't |using| |sourceUnits| because of bug 1472569. :-(
using typename CharsBase::SourceUnits;
protected:
// These APIs are only usable by UTF-16-specific code.
/**
* Given |lead| already consumed, consume and return the code point encoded
* starting from it. Infallible because lone surrogates in JS encode a
* "code point" of the same value.
*/
char32_t infallibleGetNonAsciiCodePointDontNormalize(char16_t lead) {
MOZ_ASSERT(!isAsciiCodePoint(lead));
MOZ_ASSERT(this->sourceUnits.previousCodeUnit() == lead);
// Handle single-unit code points and lone trailing surrogates.
if (MOZ_LIKELY(!unicode::IsLeadSurrogate(lead)) ||
// Or handle lead surrogates not paired with trailing surrogates.
MOZ_UNLIKELY(
this->sourceUnits.atEnd() ||
!unicode::IsTrailSurrogate(this->sourceUnits.peekCodeUnit()))) {
return lead;
}
// Otherwise it's a multi-unit code point.
return unicode::UTF16Decode(lead, this->sourceUnits.getCodeUnit());
}
protected:
// These APIs are in both SpecializedTokenStreamCharsBase specializations
// and so are usable in subclasses no matter what Unit is.
using CharsBase::CharsBase;
};
template <>
class SpecializedTokenStreamCharsBase<mozilla::Utf8Unit>
: public TokenStreamCharsBase<mozilla::Utf8Unit> {
using CharsBase = TokenStreamCharsBase<mozilla::Utf8Unit>;
protected:
// Deliberately don't |using| |sourceUnits| because of bug 1472569. :-(
protected:
// These APIs are only usable by UTF-8-specific code.
using typename CharsBase::SourceUnits;
/**
* A mutable iterator-wrapper around |SourceUnits| that translates
* operators to calls to |SourceUnits::getCodeUnit()| and similar.
*
* This class is expected to be used in concert with |SourceUnitsEnd|.
*/
class SourceUnitsIterator {
SourceUnits& sourceUnits_;
#ifdef DEBUG
// In iterator copies created by the post-increment operator, a pointer
// at the next source text code unit when the post-increment operator
// was called, cleared when the iterator is dereferenced.
mutable mozilla::Maybe<const mozilla::Utf8Unit*>
currentBeforePostIncrement_;
#endif
public:
explicit SourceUnitsIterator(SourceUnits& sourceUnits)
: sourceUnits_(sourceUnits) {}
mozilla::Utf8Unit operator*() const {
// operator* is expected to get the *next* value from an iterator
// not pointing at the end of the underlying range. However, the
// sole use of this is in the context of an expression of the form
// |*iter++|, that performed the |sourceUnits_.getCodeUnit()| in
// the |operator++(int)| below -- so dereferencing acts on a
// |sourceUnits_| already advanced. Therefore the correct unit to
// return is the previous one.
MOZ_ASSERT(currentBeforePostIncrement_.value() + 1 ==
sourceUnits_.current());
#ifdef DEBUG
currentBeforePostIncrement_.reset();
#endif
return sourceUnits_.previousCodeUnit();
}
SourceUnitsIterator operator++(int) {
MOZ_ASSERT(currentBeforePostIncrement_.isNothing(),
"the only valid operation on a post-incremented "
"iterator is dereferencing a single time");
SourceUnitsIterator copy = *this;
#ifdef DEBUG
copy.currentBeforePostIncrement_.emplace(sourceUnits_.current());
#endif
sourceUnits_.getCodeUnit();
return copy;
}
void operator-=(size_t n) {
MOZ_ASSERT(currentBeforePostIncrement_.isNothing(),
"the only valid operation on a post-incremented "
"iterator is dereferencing a single time");
sourceUnits_.unskipCodeUnits(n);
}
mozilla::Utf8Unit operator[](ptrdiff_t index) {
MOZ_ASSERT(currentBeforePostIncrement_.isNothing(),
"the only valid operation on a post-incremented "
"iterator is dereferencing a single time");
MOZ_ASSERT(index == -1,
"must only be called to verify the value of the "
"previous code unit");
return sourceUnits_.previousCodeUnit();
}
size_t remaining() const {
MOZ_ASSERT(currentBeforePostIncrement_.isNothing(),
"the only valid operation on a post-incremented "
"iterator is dereferencing a single time");
return sourceUnits_.remaining();
}
};
/** A sentinel representing the end of |SourceUnits| data. */
class SourceUnitsEnd {};
friend inline size_t operator-(const SourceUnitsEnd& aEnd,
const SourceUnitsIterator& aIter);
protected:
// These APIs are in both SpecializedTokenStreamCharsBase specializations
// and so are usable in subclasses no matter what Unit is.
using CharsBase::CharsBase;
};
inline size_t operator-(const SpecializedTokenStreamCharsBase<
mozilla::Utf8Unit>::SourceUnitsEnd& aEnd,
const SpecializedTokenStreamCharsBase<
mozilla::Utf8Unit>::SourceUnitsIterator& aIter) {
return aIter.remaining();
}
/** A small class encapsulating computation of the start-offset of a Token. */
class TokenStart {
uint32_t startOffset_;
public:
/**
* Compute a starting offset that is the current offset of |sourceUnits|,
* offset by |adjust|. (For example, |adjust| of -1 indicates the code
* unit one backwards from |sourceUnits|'s current offset.)
*/
template <class SourceUnits>
TokenStart(const SourceUnits& sourceUnits, ptrdiff_t adjust)
: startOffset_(sourceUnits.offset() + adjust) {}
TokenStart(const TokenStart&) = default;
uint32_t offset() const { return startOffset_; }
};
template <typename Unit, class AnyCharsAccess>
class GeneralTokenStreamChars : public SpecializedTokenStreamCharsBase<Unit> {
using CharsBase = TokenStreamCharsBase<Unit>;
using SpecializedCharsBase = SpecializedTokenStreamCharsBase<Unit>;
using LineToken = TokenStreamAnyChars::LineToken;
private:
Token* newTokenInternal(TokenKind kind, TokenStart start, TokenKind* out);
/**
* Allocates a new Token from the given offset to the current offset,
* ascribes it the given kind, and sets |*out| to that kind.
*/
Token* newToken(TokenKind kind, TokenStart start,
TokenStreamShared::Modifier modifier, TokenKind* out) {
Token* token = newTokenInternal(kind, start, out);
#ifdef DEBUG
// Save the modifier used to get this token, so that if an ungetToken()
// occurs and then the token is re-gotten (or peeked, etc.), we can
// assert both gets used compatible modifiers.
token->modifier = modifier;
#endif
return token;
}
uint32_t matchUnicodeEscape(char32_t* codePoint);
uint32_t matchExtendedUnicodeEscape(char32_t* codePoint);
protected:
using CharsBase::addLineOfContext;
using CharsBase::matchCodeUnit;
using CharsBase::matchLineTerminator;
using TokenStreamCharsShared::drainCharBufferIntoAtom;
using TokenStreamCharsShared::isAsciiCodePoint;
// Deliberately don't |using CharsBase::sourceUnits| because of bug 1472569.
// :-(
using CharsBase::toUnit;
using typename CharsBase::SourceUnits;
protected:
using SpecializedCharsBase::SpecializedCharsBase;
TokenStreamAnyChars& anyCharsAccess() {
return AnyCharsAccess::anyChars(this);
}
const TokenStreamAnyChars& anyCharsAccess() const {
return AnyCharsAccess::anyChars(this);
}
using TokenStreamSpecific =
frontend::TokenStreamSpecific<Unit, AnyCharsAccess>;
TokenStreamSpecific* asSpecific() {
static_assert(
std::is_base_of_v<GeneralTokenStreamChars, TokenStreamSpecific>,
"static_cast below presumes an inheritance relationship");
return static_cast<TokenStreamSpecific*>(this);
}
protected:
/**
* Compute the column number in Unicode code points of the absolute |offset|
* within source text on the line corresponding to |lineToken|.
*
* |offset| must be a code point boundary, preceded only by validly-encoded
* source units. (It doesn't have to be *followed* by valid source units.)
*/
uint32_t computeColumn(LineToken lineToken, uint32_t offset) const;
void computeLineAndColumn(uint32_t offset, uint32_t* line,
uint32_t* column) const;
/**
* Fill in |err| completely, except for line-of-context information.
*
* Return true if the caller can compute a line of context from the token
* stream. Otherwise return false.
*/
[[nodiscard]] bool fillExceptingContext(ErrorMetadata* err,
uint32_t offset) const {
if (anyCharsAccess().fillExceptingContext(err, offset)) {
computeLineAndColumn(offset, &err->lineNumber, &err->columnNumber);
return true;
}
return false;
}
void newSimpleToken(TokenKind kind, TokenStart start,
TokenStreamShared::Modifier modifier, TokenKind* out) {
newToken(kind, start, modifier, out);
}
void newNumberToken(double dval, DecimalPoint decimalPoint, TokenStart start,
TokenStreamShared::Modifier modifier, TokenKind* out) {
Token* token = newToken(TokenKind::Number, start, modifier, out);
token->setNumber(dval, decimalPoint);
}
void newBigIntToken(TokenStart start, TokenStreamShared::Modifier modifier,
TokenKind* out) {
newToken(TokenKind::BigInt, start, modifier, out);
}
void newAtomToken(TokenKind kind, TaggedParserAtomIndex atom,
TokenStart start, TokenStreamShared::Modifier modifier,
TokenKind* out) {
MOZ_ASSERT(kind == TokenKind::String || kind == TokenKind::TemplateHead ||
kind == TokenKind::NoSubsTemplate);
Token* token = newToken(kind, start, modifier, out);
token->setAtom(atom);
}
void newNameToken(TaggedParserAtomIndex name, TokenStart start,
TokenStreamShared::Modifier modifier, TokenKind* out) {
Token* token = newToken(TokenKind::Name, start, modifier, out);
token->setName(name);
}
void newPrivateNameToken(TaggedParserAtomIndex name, TokenStart start,
TokenStreamShared::Modifier modifier,
TokenKind* out) {
Token* token = newToken(TokenKind::PrivateName, start, modifier, out);
token->setName(name);
}
void newRegExpToken(JS::RegExpFlags reflags, TokenStart start,
TokenKind* out) {
Token* token = newToken(TokenKind::RegExp, start,
TokenStreamShared::SlashIsRegExp, out);
token->setRegExpFlags(reflags);
}
MOZ_COLD bool badToken();
/**
* Get the next code unit -- the next numeric sub-unit of source text,
* possibly smaller than a full code point -- without updating line/column
* counters or consuming LineTerminatorSequences.
*
* Because of these limitations, only use this if (a) the resulting code
* unit is guaranteed to be ungotten (by ungetCodeUnit()) if it's an EOL,
* and (b) the line-related state (lineno, linebase) is not used before
* it's ungotten.
*/
int32_t getCodeUnit() {
if (MOZ_LIKELY(!this->sourceUnits.atEnd())) {
return CodeUnitValue(this->sourceUnits.getCodeUnit());
}
anyCharsAccess().flags.isEOF = true;
return EOF;
}
void ungetCodeUnit(int32_t c) {
MOZ_ASSERT_IF(c == EOF, anyCharsAccess().flags.isEOF);
CharsBase::ungetCodeUnit(c);
}
/**
* Given a just-consumed ASCII code unit/point |lead|, consume a full code
* point or LineTerminatorSequence (normalizing it to '\n'). Return true on
* success, otherwise return false.
*
* If a LineTerminatorSequence was consumed, also update line/column info.
*
* This may change the current |sourceUnits| offset.
*/
[[nodiscard]] MOZ_ALWAYS_INLINE bool getFullAsciiCodePoint(int32_t lead) {
MOZ_ASSERT(isAsciiCodePoint(lead),
"non-ASCII code units must be handled separately");
MOZ_ASSERT(toUnit(lead) == this->sourceUnits.previousCodeUnit(),
"getFullAsciiCodePoint called incorrectly");
if (MOZ_UNLIKELY(lead == '\r')) {
matchLineTerminator('\n');
} else if (MOZ_LIKELY(lead != '\n')) {
return true;
}
return updateLineInfoForEOL();
}
[[nodiscard]] MOZ_NEVER_INLINE bool updateLineInfoForEOL() {
return anyCharsAccess().internalUpdateLineInfoForEOL(
this->sourceUnits.offset());
}
uint32_t matchUnicodeEscapeIdStart(char32_t* codePoint);
bool matchUnicodeEscapeIdent(char32_t* codePoint);
bool matchIdentifierStart();
/**
* If possible, compute a line of context for an otherwise-filled-in |err|
* at the given offset in this token stream.
*
* This function is very-internal: almost certainly you should use one of
* its callers instead. It basically exists only to make those callers
* more readable.
*/
[[nodiscard]] bool internalComputeLineOfContext(ErrorMetadata* err,
uint32_t offset) const {
// We only have line-start information for the current line. If the error
// is on a different line, we can't easily provide context. (This means
// any error in a multi-line token, e.g. an unterminated multiline string
// literal, won't have context.)
if (err->lineNumber != anyCharsAccess().lineno) {
return true;
}
return addLineOfContext(err, offset);
}
public:
/**
* Consume any hashbang comment at the start of a Script or Module, if one is
* present. Stops consuming just before any terminating LineTerminator or
* before an encoding error is encountered.
*/
void consumeOptionalHashbangComment();
TaggedParserAtomIndex getRawTemplateStringAtom() {
TokenStreamAnyChars& anyChars = anyCharsAccess();
MOZ_ASSERT(anyChars.currentToken().type == TokenKind::TemplateHead ||
anyChars.currentToken().type == TokenKind::NoSubsTemplate);
const Unit* cur =
this->sourceUnits.codeUnitPtrAt(anyChars.currentToken().pos.begin + 1);
const Unit* end;
if (anyChars.currentToken().type == TokenKind::TemplateHead) {
// Of the form |`...${| or |}...${|
end =
this->sourceUnits.codeUnitPtrAt(anyChars.currentToken().pos.end - 2);
} else {
// NO_SUBS_TEMPLATE is of the form |`...`| or |}...`|
end =
this->sourceUnits.codeUnitPtrAt(anyChars.currentToken().pos.end - 1);
}
// |charBuffer| should be empty here, but we may as well code defensively.
MOZ_ASSERT(this->charBuffer.length() == 0);
this->charBuffer.clear();
// Template literals normalize only '\r' and "\r\n" to '\n'; Unicode
// separators don't need special handling.
// https://tc39.github.io/ecma262/#sec-static-semantics-tv-and-trv
if (!FillCharBufferFromSourceNormalizingAsciiLineBreaks(this->charBuffer,
cur, end)) {
return TaggedParserAtomIndex::null();
}
return drainCharBufferIntoAtom();
}
};
template <typename Unit, class AnyCharsAccess>
class TokenStreamChars;
template <class AnyCharsAccess>
class TokenStreamChars<char16_t, AnyCharsAccess>
: public GeneralTokenStreamChars<char16_t, AnyCharsAccess> {
using CharsBase = TokenStreamCharsBase<char16_t>;
using SpecializedCharsBase = SpecializedTokenStreamCharsBase<char16_t>;
using GeneralCharsBase = GeneralTokenStreamChars<char16_t, AnyCharsAccess>;
using Self = TokenStreamChars<char16_t, AnyCharsAccess>;
using GeneralCharsBase::asSpecific;
using typename GeneralCharsBase::TokenStreamSpecific;
protected:
using CharsBase::matchLineTerminator;
using GeneralCharsBase::anyCharsAccess;
using GeneralCharsBase::getCodeUnit;
using SpecializedCharsBase::infallibleGetNonAsciiCodePointDontNormalize;
using TokenStreamCharsShared::isAsciiCodePoint;
// Deliberately don't |using| |sourceUnits| because of bug 1472569. :-(
using GeneralCharsBase::ungetCodeUnit;
using GeneralCharsBase::updateLineInfoForEOL;
protected:
using GeneralCharsBase::GeneralCharsBase;
/**
* Given the non-ASCII |lead| code unit just consumed, consume and return a
* complete non-ASCII code point. Line/column updates are not performed,
* and line breaks are returned as-is without normalization.
*/
[[nodiscard]] bool getNonAsciiCodePointDontNormalize(char16_t lead,
char32_t* codePoint) {
// There are no encoding errors in 16-bit JS, so implement this so that
// the compiler knows it, too.
*codePoint = infallibleGetNonAsciiCodePointDontNormalize(lead);
return true;
}
/**
* Given a just-consumed non-ASCII code unit |lead| (which may also be a
* full code point, for UTF-16), consume a full code point or
* LineTerminatorSequence (normalizing it to '\n') and store it in
* |*codePoint|. Return true on success, otherwise return false and leave
* |*codePoint| undefined on failure.
*
* If a LineTerminatorSequence was consumed, also update line/column info.
*
* This may change the current |sourceUnits| offset.
*/
[[nodiscard]] bool getNonAsciiCodePoint(int32_t lead, char32_t* codePoint);
};
template <class AnyCharsAccess>
class TokenStreamChars<mozilla::Utf8Unit, AnyCharsAccess>
: public GeneralTokenStreamChars<mozilla::Utf8Unit, AnyCharsAccess> {
using CharsBase = TokenStreamCharsBase<mozilla::Utf8Unit>;
using SpecializedCharsBase =
SpecializedTokenStreamCharsBase<mozilla::Utf8Unit>;
using GeneralCharsBase =
GeneralTokenStreamChars<mozilla::Utf8Unit, AnyCharsAccess>;
using Self = TokenStreamChars<mozilla::Utf8Unit, AnyCharsAccess>;
using typename SpecializedCharsBase::SourceUnitsEnd;
using typename SpecializedCharsBase::SourceUnitsIterator;
protected:
using GeneralCharsBase::anyCharsAccess;
using GeneralCharsBase::computeLineAndColumn;
using GeneralCharsBase::fillExceptingContext;
using GeneralCharsBase::internalComputeLineOfContext;
using TokenStreamCharsShared::isAsciiCodePoint;
// Deliberately don't |using| |sourceUnits| because of bug 1472569. :-(
using GeneralCharsBase::updateLineInfoForEOL;
private:
static char toHexChar(uint8_t nibble) {
MOZ_ASSERT(nibble < 16);
return "0123456789ABCDEF"[nibble];
}
static void byteToString(uint8_t n, char* str) {
str[0] = '0';
str[1] = 'x';
str[2] = toHexChar(n >> 4);
str[3] = toHexChar(n & 0xF);
}
static void byteToTerminatedString(uint8_t n, char* str) {
byteToString(n, str);
str[4] = '\0';
}
/**
* Report a UTF-8 encoding-related error for a code point starting AT THE
* CURRENT OFFSET.
*
* |relevantUnits| indicates how many code units from the current offset
* are potentially relevant to the reported error, such that they may be
* included in the error message. For example, if at the current offset we
* have
*
* 0b1111'1111 ...
*
* a code unit never allowed in UTF-8, then |relevantUnits| might be 1
* because only that unit is relevant. Or if we have
*
* 0b1111'0111 0b1011'0101 0b0000'0000 ...
*
* where the first two code units are a valid prefix to a four-unit code
* point but the third unit *isn't* a valid trailing code unit, then
* |relevantUnits| might be 3.
*/
MOZ_COLD void internalEncodingError(uint8_t relevantUnits,
unsigned errorNumber, ...);
// Don't use |internalEncodingError|! Use one of the elaborated functions
// that calls it, below -- all of which should be used to indicate an error
// in a code point starting AT THE CURRENT OFFSET as with
// |internalEncodingError|.
/** Report an error for an invalid lead code unit |lead|. */
MOZ_COLD void badLeadUnit(mozilla::Utf8Unit lead);
/**
* Report an error when there aren't enough code units remaining to
* constitute a full code point after |lead|: only |remaining| code units
* were available for a code point starting with |lead|, when at least
* |required| code units were required.
*/
MOZ_COLD void notEnoughUnits(mozilla::Utf8Unit lead, uint8_t remaining,
uint8_t required);
/**
* Report an error for a bad trailing UTF-8 code unit, where the bad
* trailing unit was the last of |unitsObserved| units examined from the
* current offset.
*/
MOZ_COLD void badTrailingUnit(uint8_t unitsObserved);
// Helper used for both |badCodePoint| and |notShortestForm| for code units
// that have all the requisite high bits set/unset in a manner that *could*
// encode a valid code point, but the remaining bits encoding its actual
// value do not define a permitted value.
MOZ_COLD void badStructurallyValidCodePoint(char32_t codePoint,
uint8_t codePointLength,
const char* reason);
/**
* Report an error for UTF-8 that encodes a UTF-16 surrogate or a number
* outside the Unicode range.
*/
MOZ_COLD void badCodePoint(char32_t codePoint, uint8_t codePointLength) {
MOZ_ASSERT(unicode::IsSurrogate(codePoint) ||
codePoint > unicode::NonBMPMax);
badStructurallyValidCodePoint(codePoint, codePointLength,
unicode::IsSurrogate(codePoint)
? "it's a UTF-16 surrogate"
: "the maximum code point is U+10FFFF");
}
/**
* Report an error for UTF-8 that encodes a code point not in its shortest
* form.
*/
MOZ_COLD void notShortestForm(char32_t codePoint, uint8_t codePointLength) {
MOZ_ASSERT(!unicode::IsSurrogate(codePoint));
MOZ_ASSERT(codePoint <= unicode::NonBMPMax);
badStructurallyValidCodePoint(
codePoint, codePointLength,
"it wasn't encoded in shortest possible form");
}
protected:
using GeneralCharsBase::GeneralCharsBase;
/**
* Given the non-ASCII |lead| code unit just consumed, consume the rest of
* a non-ASCII code point. The code point is not normalized: on success
* |*codePoint| may be U+2028 LINE SEPARATOR or U+2029 PARAGRAPH SEPARATOR.
*
* Report an error if an invalid code point is encountered.
*/
[[nodiscard]] bool getNonAsciiCodePointDontNormalize(mozilla::Utf8Unit lead,
char32_t* codePoint);
/**
* Given a just-consumed non-ASCII code unit |lead|, consume a full code
* point or LineTerminatorSequence (normalizing it to '\n') and store it in
* |*codePoint|. Return true on success, otherwise return false and leave
* |*codePoint| undefined on failure.
*
* If a LineTerminatorSequence was consumed, also update line/column info.
*
* This function will change the current |sourceUnits| offset.
*/
[[nodiscard]] bool getNonAsciiCodePoint(int32_t lead, char32_t* codePoint);
};
// TokenStream is the lexical scanner for JavaScript source text.
//
// It takes a buffer of Unit code units (currently only char16_t encoding
// UTF-16, but we're adding either UTF-8 or Latin-1 single-byte text soon) and
// linearly scans it into |Token|s.
//
// Internally the class uses a four element circular buffer |tokens| of
// |Token|s. As an index for |tokens|, the member |cursor_| points to the
// current token. Calls to getToken() increase |cursor_| by one and return the
// new current token. If a TokenStream was just created, the current token is
// uninitialized. It's therefore important that one of the first four member
// functions listed below is called first. The circular buffer lets us go back
// up to two tokens from the last scanned token. Internally, the relative
// number of backward steps that were taken (via ungetToken()) after the last
// token was scanned is stored in |lookahead|.
//
// The following table lists in which situations it is safe to call each listed
// function. No checks are made by the functions in non-debug builds.
//
// Function Name | Precondition; changes to |lookahead|
// ------------------+---------------------------------------------------------
// getToken | none; if |lookahead > 0| then |lookahead--|
// peekToken | none; if |lookahead == 0| then |lookahead == 1|
// peekTokenSameLine | none; if |lookahead == 0| then |lookahead == 1|
// matchToken | none; if |lookahead > 0| and the match succeeds then
// | |lookahead--|
// consumeKnownToken | none; if |lookahead > 0| then |lookahead--|
// ungetToken | 0 <= |lookahead| <= |maxLookahead - 1|; |lookahead++|
//
// The behavior of the token scanning process (see getTokenInternal()) can be
// modified by calling one of the first four above listed member functions with
// an optional argument of type Modifier. However, the modifier will be
// ignored unless |lookahead == 0| holds. Due to constraints of the grammar,
// this turns out not to be a problem in practice. See the
// mozilla.dev.tech.js-engine.internals thread entitled 'Bug in the scanner?'
// for more details:
// https://groups.google.com/forum/?fromgroups=#!topic/mozilla.dev.tech.js-engine.internals/2JLH5jRcr7E).
//
// The method seek() allows rescanning from a previously visited location of
// the buffer, initially computed by constructing a Position local variable.
//
template <typename Unit, class AnyCharsAccess>
class MOZ_STACK_CLASS TokenStreamSpecific
: public TokenStreamChars<Unit, AnyCharsAccess>,
public TokenStreamShared,
public ErrorReporter {
public:
using CharsBase = TokenStreamCharsBase<Unit>;
using SpecializedCharsBase = SpecializedTokenStreamCharsBase<Unit>;
using GeneralCharsBase = GeneralTokenStreamChars<Unit, AnyCharsAccess>;
using SpecializedChars = TokenStreamChars<Unit, AnyCharsAccess>;
using Position = TokenStreamPosition<Unit>;
// Anything inherited through a base class whose type depends upon this
// class's template parameters can only be accessed through a dependent
// name: prefixed with |this|, by explicit qualification, and so on. (This
// is so that references to inherited fields are statically distinguishable
// from references to names outside of the class.) This is tedious and
// onerous.
//
// As an alternative, we directly add every one of these functions to this
// class, using explicit qualification to address the dependent-name
// problem. |this| or other qualification is no longer necessary -- at
// cost of this ever-changing laundry list of |using|s. So it goes.
public:
using GeneralCharsBase::anyCharsAccess;
using GeneralCharsBase::computeLineAndColumn;
using TokenStreamCharsShared::adoptState;
private:
using typename CharsBase::SourceUnits;
private:
using CharsBase::atomizeSourceChars;
using GeneralCharsBase::badToken;
// Deliberately don't |using| |charBuffer| because of bug 1472569. :-(
using CharsBase::consumeKnownCodeUnit;
using CharsBase::matchCodeUnit;
using CharsBase::matchLineTerminator;
using CharsBase::peekCodeUnit;
using GeneralCharsBase::computeColumn;
using GeneralCharsBase::fillExceptingContext;
using GeneralCharsBase::getCodeUnit;
using GeneralCharsBase::getFullAsciiCodePoint;
using GeneralCharsBase::internalComputeLineOfContext;
using GeneralCharsBase::matchUnicodeEscapeIdent;
using GeneralCharsBase::matchUnicodeEscapeIdStart;
using GeneralCharsBase::newAtomToken;
using GeneralCharsBase::newBigIntToken;
using GeneralCharsBase::newNameToken;
using GeneralCharsBase::newNumberToken;
using GeneralCharsBase::newPrivateNameToken;
using GeneralCharsBase::newRegExpToken;
using GeneralCharsBase::newSimpleToken;
using SpecializedChars::getNonAsciiCodePoint;
using SpecializedChars::getNonAsciiCodePointDontNormalize;
using TokenStreamCharsShared::copyCharBufferTo;
using TokenStreamCharsShared::drainCharBufferIntoAtom;
using TokenStreamCharsShared::isAsciiCodePoint;
// Deliberately don't |using| |sourceUnits| because of bug 1472569. :-(
using CharsBase::toUnit;
using GeneralCharsBase::ungetCodeUnit;
using GeneralCharsBase::updateLineInfoForEOL;
template <typename CharU>
friend class TokenStreamPosition;
public:
TokenStreamSpecific(FrontendContext* fc, ParserAtomsTable* parserAtoms,
const JS::ReadOnlyCompileOptions& options,
const Unit* units, size_t length);
/**
* Get the next code point, converting LineTerminatorSequences to '\n' and
* updating internal line-counter state if needed. Return true on success.
* Return false on failure.
*/
[[nodiscard]] MOZ_ALWAYS_INLINE bool getCodePoint() {
int32_t unit = getCodeUnit();
if (MOZ_UNLIKELY(unit == EOF)) {
MOZ_ASSERT(anyCharsAccess().flags.isEOF,
"flags.isEOF should have been set by getCodeUnit()");
return true;
}
if (isAsciiCodePoint(unit)) {
return getFullAsciiCodePoint(unit);
}
char32_t cp;
return getNonAsciiCodePoint(unit, &cp);
}
// If there is an invalid escape in a template, report it and return false,
// otherwise return true.
bool checkForInvalidTemplateEscapeError() {
if (anyCharsAccess().invalidTemplateEscapeType == InvalidEscapeType::None) {
return true;
}
reportInvalidEscapeError(anyCharsAccess().invalidTemplateEscapeOffset,
anyCharsAccess().invalidTemplateEscapeType);
return false;
}
public:
// Implement ErrorReporter.
bool isOnThisLine(size_t offset, uint32_t lineNum,
bool* onThisLine) const final {
return anyCharsAccess().srcCoords.isOnThisLine(offset, lineNum, onThisLine);
}
uint32_t lineAt(size_t offset) const final {
const auto& anyChars = anyCharsAccess();
auto lineToken = anyChars.lineToken(offset);
return anyChars.lineNumber(lineToken);
}
uint32_t columnAt(size_t offset) const final {
return computeColumn(anyCharsAccess().lineToken(offset), offset);
}
private:
// Implement ErrorReportMixin.
FrontendContext* getContext() const override {
return anyCharsAccess().context();
}
[[nodiscard]] bool strictMode() const override {
return anyCharsAccess().strictMode();
}
public:
// Implement ErrorReportMixin.
const JS::ReadOnlyCompileOptions& options() const final {
return anyCharsAccess().options();
}
[[nodiscard]] bool computeErrorMetadata(
ErrorMetadata* err, const ErrorOffset& errorOffset) const override;
private:
void reportInvalidEscapeError(uint32_t offset, InvalidEscapeType type) {
switch (type) {
case InvalidEscapeType::None:
MOZ_ASSERT_UNREACHABLE("unexpected InvalidEscapeType");
return;
case InvalidEscapeType::Hexadecimal:
errorAt(offset, JSMSG_MALFORMED_ESCAPE, "hexadecimal");
return;
case InvalidEscapeType::Unicode:
errorAt(offset, JSMSG_MALFORMED_ESCAPE, "Unicode");
return;
case InvalidEscapeType::UnicodeOverflow:
errorAt(offset, JSMSG_UNICODE_OVERFLOW, "escape sequence");
return;
case InvalidEscapeType::Octal:
errorAt(offset, JSMSG_DEPRECATED_OCTAL_ESCAPE);
return;
case InvalidEscapeType::EightOrNine:
errorAt(offset, JSMSG_DEPRECATED_EIGHT_OR_NINE_ESCAPE);
return;
}
}
void reportIllegalCharacter(int32_t cp);
[[nodiscard]] bool putIdentInCharBuffer(const Unit* identStart);
using IsIntegerUnit = bool (*)(int32_t);
[[nodiscard]] MOZ_ALWAYS_INLINE bool matchInteger(IsIntegerUnit isIntegerUnit,
int32_t* nextUnit);
[[nodiscard]] MOZ_ALWAYS_INLINE bool matchIntegerAfterFirstDigit(
IsIntegerUnit isIntegerUnit, int32_t* nextUnit);
/**
* Tokenize a decimal number that begins at |numStart| into the provided
* token.
*
* |unit| must be one of these values:
*
* 1. The first decimal digit in the integral part of a decimal number
* not starting with '.', e.g. '1' for "17", '0' for "0.14", or
* '8' for "8.675309e6".
*
* In this case, the next |getCodeUnit()| must return the code unit after
* |unit| in the overall number.
*
* 2. The '.' in a "."-prefixed decimal number, e.g. ".17" or ".1e3".
*
* In this case, the next |getCodeUnit()| must return the code unit
* *after* the '.'.
*
* 3. (Non-strict mode code only) The first non-ASCII-digit unit for a
* "noctal" number that begins with a '0' but contains a non-octal digit
* in its integer part so is interpreted as decimal, e.g. '.' in "09.28"
* or EOF for "0386" or '+' in "09+7" (three separate tokens).
*
* In this case, the next |getCodeUnit()| returns the code unit after
* |unit|: '2', 'EOF', or '7' in the examples above.
*
* This interface is super-hairy and horribly stateful. Unfortunately, its
* hair merely reflects the intricacy of ECMAScript numeric literal syntax.
* And incredibly, it *improves* on the goto-based horror that predated it.
*/
[[nodiscard]] bool decimalNumber(int32_t unit, TokenStart start,
const Unit* numStart, Modifier modifier,
TokenKind* out);
/** Tokenize a regular expression literal beginning at |start|. */
[[nodiscard]] bool regexpLiteral(TokenStart start, TokenKind* out);
/**
* Slurp characters between |start| and sourceUnits.current() into
* charBuffer, to later parse into a bigint.
*/
[[nodiscard]] bool bigIntLiteral(TokenStart start, Modifier modifier,
TokenKind* out);
public:
// Advance to the next token. If the token stream encountered an error,
// return false. Otherwise return true and store the token kind in |*ttp|.
[[nodiscard]] bool getToken(TokenKind* ttp, Modifier modifier = SlashIsDiv) {
// Check for a pushed-back token resulting from mismatching lookahead.
TokenStreamAnyChars& anyChars = anyCharsAccess();
if (anyChars.lookahead != 0) {
MOZ_ASSERT(!anyChars.flags.hadError);
anyChars.lookahead--;
anyChars.advanceCursor();
TokenKind tt = anyChars.currentToken().type;
MOZ_ASSERT(tt != TokenKind::Eol);
verifyConsistentModifier(modifier, anyChars.currentToken());
*ttp = tt;
return true;
}
return getTokenInternal(ttp, modifier);
}
[[nodiscard]] bool peekToken(TokenKind* ttp, Modifier modifier = SlashIsDiv) {
TokenStreamAnyChars& anyChars = anyCharsAccess();
if (anyChars.lookahead > 0) {
MOZ_ASSERT(!anyChars.flags.hadError);
verifyConsistentModifier(modifier, anyChars.nextToken());
*ttp = anyChars.nextToken().type;
return true;
}
if (!getTokenInternal(ttp, modifier)) {
return false;
}
anyChars.ungetToken();
return true;
}
[[nodiscard]] bool peekTokenPos(TokenPos* posp,
Modifier modifier = SlashIsDiv) {
TokenStreamAnyChars& anyChars = anyCharsAccess();
if (anyChars.lookahead == 0) {
TokenKind tt;
if (!getTokenInternal(&tt, modifier)) {
return false;
}
anyChars.ungetToken();
MOZ_ASSERT(anyChars.hasLookahead());
} else {
MOZ_ASSERT(!anyChars.flags.hadError);
verifyConsistentModifier(modifier, anyChars.nextToken());
}
*posp = anyChars.nextToken().pos;
return true;
}
[[nodiscard]] bool peekOffset(uint32_t* offset,
Modifier modifier = SlashIsDiv) {
TokenPos pos;
if (!peekTokenPos(&pos, modifier)) {
return false;
}
*offset = pos.begin;
return true;
}
// This is like peekToken(), with one exception: if there is an EOL
// between the end of the current token and the start of the next token, it
// return true and store Eol in |*ttp|. In that case, no token with
// Eol is actually created, just a Eol TokenKind is returned, and
// currentToken() shouldn't be consulted. (This is the only place Eol
// is produced.)
[[nodiscard]] MOZ_ALWAYS_INLINE bool peekTokenSameLine(
TokenKind* ttp, Modifier modifier = SlashIsDiv) {
TokenStreamAnyChars& anyChars = anyCharsAccess();
const Token& curr = anyChars.currentToken();
// If lookahead != 0, we have scanned ahead at least one token, and
// |lineno| is the line that the furthest-scanned token ends on. If
// it's the same as the line that the current token ends on, that's a
// stronger condition than what we are looking for, and we don't need
// to return Eol.
if (anyChars.lookahead != 0) {
bool onThisLine;
if (!anyChars.srcCoords.isOnThisLine(curr.pos.end, anyChars.lineno,
&onThisLine)) {
error(JSMSG_OUT_OF_MEMORY);
return false;
}
if (onThisLine) {
MOZ_ASSERT(!anyChars.flags.hadError);
verifyConsistentModifier(modifier, anyChars.nextToken());
*ttp = anyChars.nextToken().type;
return true;
}
}
// The above check misses two cases where we don't have to return
// Eol.
// - The next token starts on the same line, but is a multi-line token.
// - The next token starts on the same line, but lookahead==2 and there
// is a newline between the next token and the one after that.
// The following test is somewhat expensive but gets these cases (and
// all others) right.
TokenKind tmp;
if (!getToken(&tmp, modifier)) {
return false;
}
const Token& next = anyChars.currentToken();
anyChars.ungetToken();
// Careful, |next| points to an initialized-but-not-allocated Token!
// This is safe because we don't modify token data below.
auto currentEndToken = anyChars.lineToken(curr.pos.end);
auto nextBeginToken = anyChars.lineToken(next.pos.begin);
*ttp =
currentEndToken.isSameLine(nextBeginToken) ? next.type : TokenKind::Eol;
return true;
}
// Get the next token from the stream if its kind is |tt|.
[[nodiscard]] bool matchToken(bool* matchedp, TokenKind tt,
Modifier modifier = SlashIsDiv) {
TokenKind token;
if (!getToken(&token, modifier)) {
return false;
}
if (token == tt) {
*matchedp = true;
} else {
anyCharsAccess().ungetToken();
*matchedp = false;
}
return true;
}
void consumeKnownToken(TokenKind tt, Modifier modifier = SlashIsDiv) {
bool matched;
MOZ_ASSERT(anyCharsAccess().hasLookahead());
MOZ_ALWAYS_TRUE(matchToken(&matched, tt, modifier));
MOZ_ALWAYS_TRUE(matched);
}
[[nodiscard]] bool nextTokenEndsExpr(bool* endsExpr) {
TokenKind tt;
if (!peekToken(&tt)) {
return false;
}
*endsExpr = anyCharsAccess().isExprEnding[size_t(tt)];
if (*endsExpr) {
// If the next token ends an overall Expression, we'll parse this
// Expression without ever invoking Parser::orExpr(). But we need that
// function's DEBUG-only side effect of marking this token as safe to get
// with SlashIsRegExp, so we have to do it manually here.
anyCharsAccess().allowGettingNextTokenWithSlashIsRegExp();
}
return true;
}
[[nodiscard]] bool advance(size_t position);
void seekTo(const Position& pos);
[[nodiscard]] bool seekTo(const Position& pos,
const TokenStreamAnyChars& other);
void rewind(const Position& pos) {
MOZ_ASSERT(pos.buf <= this->sourceUnits.addressOfNextCodeUnit(),
"should be rewinding here");
seekTo(pos);
}
[[nodiscard]] bool rewind(const Position& pos,
const TokenStreamAnyChars& other) {
MOZ_ASSERT(pos.buf <= this->sourceUnits.addressOfNextCodeUnit(),
"should be rewinding here");
return seekTo(pos, other);
}
void fastForward(const Position& pos) {
MOZ_ASSERT(this->sourceUnits.addressOfNextCodeUnit() <= pos.buf,
"should be moving forward here");
seekTo(pos);
}
[[nodiscard]] bool fastForward(const Position& pos,
const TokenStreamAnyChars& other) {
MOZ_ASSERT(this->sourceUnits.addressOfNextCodeUnit() <= pos.buf,
"should be moving forward here");
return seekTo(pos, other);
}
const Unit* codeUnitPtrAt(size_t offset) const {
return this->sourceUnits.codeUnitPtrAt(offset);
}
[[nodiscard]] bool identifierName(TokenStart start, const Unit* identStart,
IdentifierEscapes escaping,
Modifier modifier,
NameVisibility visibility, TokenKind* out);
[[nodiscard]] bool matchIdentifierStart(IdentifierEscapes* sawEscape);
[[nodiscard]] bool getTokenInternal(TokenKind* const ttp,
const Modifier modifier);
[[nodiscard]] bool getStringOrTemplateToken(char untilChar, Modifier modifier,
TokenKind* out);
// Parse a TemplateMiddle or TemplateTail token (one of the string-like parts
// of a template string) after already consuming the leading `RightCurly`.
// (The spec says the `}` is the first character of the TemplateMiddle/
// TemplateTail, but we treat it as a separate token because that's much
// easier to implement in both TokenStream and the parser.)
//
// This consumes a token and sets the current token, like `getToken()`. It
// doesn't take a Modifier because there's no risk of encountering a division
// operator or RegExp literal.
//
// On success, `*ttp` is either `TokenKind::TemplateHead` (if we got a
// TemplateMiddle token) or `TokenKind::NoSubsTemplate` (if we got a
// TemplateTail). That may seem strange; there are four different template
// token types in the spec, but we only use two. We use `TemplateHead` for
// TemplateMiddle because both end with `...${`, and `NoSubsTemplate` for
// TemplateTail because both contain the end of the template, including the
// closing quote mark. They're not treated differently, either in the parser
// or in the tokenizer.
[[nodiscard]] bool getTemplateToken(TokenKind* ttp) {
MOZ_ASSERT(anyCharsAccess().currentToken().type == TokenKind::RightCurly);
return getStringOrTemplateToken('`', SlashIsInvalid, ttp);
}
[[nodiscard]] bool getDirectives(bool isMultiline, bool shouldWarnDeprecated);
[[nodiscard]] bool getDirective(
bool isMultiline, bool shouldWarnDeprecated, const char* directive,
uint8_t directiveLength, const char* errorMsgPragma,
UniquePtr<char16_t[], JS::FreePolicy>* destination);
[[nodiscard]] bool getDisplayURL(bool isMultiline, bool shouldWarnDeprecated);
[[nodiscard]] bool getSourceMappingURL(bool isMultiline,
bool shouldWarnDeprecated);
};
// It's preferable to define this in TokenStream.cpp, but its template-ness
// means we'd then have to *instantiate* this constructor for all possible
// (Unit, AnyCharsAccess) pairs -- and that gets super-messy as AnyCharsAccess
// *itself* is templated. This symbol really isn't that huge compared to some
// defined inline in TokenStreamSpecific, so just rely on the linker commoning
// stuff up.
template <typename Unit>
template <class AnyCharsAccess>
inline TokenStreamPosition<Unit>::TokenStreamPosition(
TokenStreamSpecific<Unit, AnyCharsAccess>& tokenStream)
: currentToken(tokenStream.anyCharsAccess().currentToken()) {
TokenStreamAnyChars& anyChars = tokenStream.anyCharsAccess();
buf =
tokenStream.sourceUnits.addressOfNextCodeUnit(/* allowPoisoned = */ true);
flags = anyChars.flags;
lineno = anyChars.lineno;
linebase = anyChars.linebase;
prevLinebase = anyChars.prevLinebase;
lookahead = anyChars.lookahead;
currentToken = anyChars.currentToken();
for (unsigned i = 0; i < anyChars.lookahead; i++) {
lookaheadTokens[i] = anyChars.tokens[anyChars.aheadCursor(1 + i)];
}
}
class TokenStreamAnyCharsAccess {
public:
template <class TokenStreamSpecific>
static inline TokenStreamAnyChars& anyChars(TokenStreamSpecific* tss);
template <class TokenStreamSpecific>
static inline const TokenStreamAnyChars& anyChars(
const TokenStreamSpecific* tss);
};
class MOZ_STACK_CLASS TokenStream
: public TokenStreamAnyChars,
public TokenStreamSpecific<char16_t, TokenStreamAnyCharsAccess> {
using Unit = char16_t;
public:
TokenStream(FrontendContext* fc, ParserAtomsTable* parserAtoms,
const JS::ReadOnlyCompileOptions& options, const Unit* units,
size_t length, StrictModeGetter* smg)
: TokenStreamAnyChars(fc, options, smg),
TokenStreamSpecific<Unit, TokenStreamAnyCharsAccess>(
fc, parserAtoms, options, units, length) {}
};
class MOZ_STACK_CLASS DummyTokenStream final : public TokenStream {
public:
DummyTokenStream(FrontendContext* fc,
const JS::ReadOnlyCompileOptions& options)
: TokenStream(fc, nullptr, options, nullptr, 0, nullptr) {}
};
template <class TokenStreamSpecific>
/* static */ inline TokenStreamAnyChars& TokenStreamAnyCharsAccess::anyChars(
TokenStreamSpecific* tss) {
auto* ts = static_cast<TokenStream*>(tss);
return *static_cast<TokenStreamAnyChars*>(ts);
}
template <class TokenStreamSpecific>
/* static */ inline const TokenStreamAnyChars&
TokenStreamAnyCharsAccess::anyChars(const TokenStreamSpecific* tss) {
const auto* ts = static_cast<const TokenStream*>(tss);
return *static_cast<const TokenStreamAnyChars*>(ts);
}
extern const char* TokenKindToDesc(TokenKind tt);
} // namespace frontend
} // namespace js
#ifdef DEBUG
extern const char* TokenKindToString(js::frontend::TokenKind tt);
#endif
#endif /* frontend_TokenStream_h */
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