Commit 82e80605 authored by machenbach's avatar machenbach Committed by Commit bot

Revert of [destructuring] Implement parameter pattern matching. (patchset #7...

Revert of [destructuring] Implement parameter pattern matching. (patchset #7 id:120001 of https://codereview.chromium.org/1189743003/)

Reason for revert:
[Sheriff] Breaks tsan:
http://build.chromium.org/p/client.v8/builders/V8%20Linux64%20TSAN/builds/4392

Original issue's description:
> [destructuring] Implement parameter pattern matching.
>
> Scoping for initializers is yet incorrect. Defaults are not supported.
>
> R=arv@chromium.org,rossberg@chromium.org
> BUG=v8:811
> LOG=N
>
> Committed: https://crrev.com/42f30f4ded2b1ca0c4caa7639e6206e93c78ee70
> Cr-Commit-Position: refs/heads/master@{#29184}

TBR=arv@chromium.org,rossberg@chromium.org,caitpotter88@gmail.com,wingo@igalia.com,dslomov@chromium.org
NOPRESUBMIT=true
NOTREECHECKS=true
NOTRY=true
BUG=v8:811

Review URL: https://codereview.chromium.org/1195163007

Cr-Commit-Position: refs/heads/master@{#29188}
parent 86594b7d
This diff is collapsed.
......@@ -538,27 +538,6 @@ class RegExpParser BASE_EMBEDDED {
class Parser;
class SingletonLogger;
struct ParserFormalParameterParsingState
: public PreParserFormalParameterParsingState {
struct Parameter {
Parameter(Variable* var, Expression* pattern)
: var(var), pattern(pattern) {}
Variable* var;
Expression* pattern;
};
explicit ParserFormalParameterParsingState(Scope* scope)
: PreParserFormalParameterParsingState(scope), params(4, scope->zone()) {}
ZoneList<Parameter> params;
void AddParameter(Variable* var, Expression* pattern) {
params.Add(Parameter(var, pattern), scope->zone());
}
};
class ParserTraits {
public:
struct Type {
......@@ -581,7 +560,7 @@ class ParserTraits {
typedef ZoneList<v8::internal::Expression*>* ExpressionList;
typedef ZoneList<ObjectLiteral::Property*>* PropertyList;
typedef const v8::internal::AstRawString* FormalParameter;
typedef ParserFormalParameterParsingState FormalParameterParsingState;
typedef Scope FormalParameterScope;
typedef ZoneList<v8::internal::Statement*>* StatementList;
// For constructing objects returned by the traversing functions.
......@@ -772,21 +751,17 @@ class ParserTraits {
ZoneList<v8::internal::Statement*>* NewStatementList(int size, Zone* zone) {
return new(zone) ZoneList<v8::internal::Statement*>(size, zone);
}
V8_INLINE void AddParameterInitializationBlock(
const ParserFormalParameterParsingState& formal_parameters,
ZoneList<v8::internal::Statement*>* body, bool* ok);
V8_INLINE Scope* NewScope(Scope* parent_scope, ScopeType scope_type,
FunctionKind kind = kNormalFunction);
V8_INLINE void DeclareFormalParameter(
ParserFormalParameterParsingState* parsing_state, Expression* name,
ExpressionClassifier* classifier, bool is_rest);
void ParseArrowFunctionFormalParameters(
ParserFormalParameterParsingState* scope, Expression* params,
const Scanner::Location& params_loc, Scanner::Location* duplicate_loc,
bool* ok);
V8_INLINE void DeclareFormalParameter(Scope* scope, Expression* name,
ExpressionClassifier* classifier,
bool is_rest);
void ParseArrowFunctionFormalParameters(Scope* scope, Expression* params,
const Scanner::Location& params_loc,
bool* has_rest,
Scanner::Location* duplicate_loc,
bool* ok);
// Temporary glue; these functions will move to ParserBase.
Expression* ParseV8Intrinsic(bool* ok);
......@@ -799,9 +774,8 @@ class ParserTraits {
int* materialized_literal_count, int* expected_property_count, bool* ok,
Scanner::BookmarkScope* bookmark = nullptr);
V8_INLINE ZoneList<Statement*>* ParseEagerFunctionBody(
const AstRawString* name, int pos,
const ParserFormalParameterParsingState& formal_parameters,
Variable* fvar, Token::Value fvar_init_op, FunctionKind kind, bool* ok);
const AstRawString* name, int pos, Variable* fvar,
Token::Value fvar_init_op, FunctionKind kind, bool* ok);
ClassLiteral* ParseClassLiteral(const AstRawString* name,
Scanner::Location class_name_location,
......@@ -962,7 +936,6 @@ class Parser : public ParserBase<ParserTraits> {
bool* ok);
struct DeclarationDescriptor {
enum Kind { NORMAL, PARAMETER };
Parser* parser;
Scope* declaration_scope;
Scope* scope;
......@@ -972,7 +945,6 @@ class Parser : public ParserBase<ParserTraits> {
int declaration_pos;
int initialization_pos;
Token::Value init_op;
Kind declaration_kind;
};
struct DeclarationParsingResult {
......@@ -1123,9 +1095,7 @@ class Parser : public ParserBase<ParserTraits> {
// Parser support
VariableProxy* NewUnresolved(const AstRawString* name, VariableMode mode);
Variable* Declare(Declaration* declaration,
DeclarationDescriptor::Kind declaration_kind, bool resolve,
bool* ok);
Variable* Declare(Declaration* declaration, bool resolve, bool* ok);
bool TargetStackContainsLabel(const AstRawString* label);
BreakableStatement* LookupBreakTarget(const AstRawString* label, bool* ok);
......@@ -1151,14 +1121,10 @@ class Parser : public ParserBase<ParserTraits> {
PreParser::PreParseResult ParseLazyFunctionBodyWithPreParser(
SingletonLogger* logger, Scanner::BookmarkScope* bookmark = nullptr);
Block* BuildParameterInitializationBlock(
const ParserFormalParameterParsingState& formal_parameters, bool* ok);
// Consumes the ending }.
ZoneList<Statement*>* ParseEagerFunctionBody(
const AstRawString* function_name, int pos,
const ParserFormalParameterParsingState& formal_parameters,
Variable* fvar, Token::Value fvar_init_op, FunctionKind kind, bool* ok);
const AstRawString* function_name, int pos, Variable* fvar,
Token::Value fvar_init_op, FunctionKind kind, bool* ok);
void ThrowPendingError(Isolate* isolate, Handle<Script> script);
......@@ -1222,11 +1188,10 @@ void ParserTraits::SkipLazyFunctionBody(int* materialized_literal_count,
ZoneList<Statement*>* ParserTraits::ParseEagerFunctionBody(
const AstRawString* name, int pos,
const ParserFormalParameterParsingState& formal_parameters, Variable* fvar,
const AstRawString* name, int pos, Variable* fvar,
Token::Value fvar_init_op, FunctionKind kind, bool* ok) {
return parser_->ParseEagerFunctionBody(name, pos, formal_parameters, fvar,
fvar_init_op, kind, ok);
return parser_->ParseEagerFunctionBody(name, pos, fvar, fvar_init_op, kind,
ok);
}
void ParserTraits::CheckConflictingVarDeclarations(v8::internal::Scope* scope,
......@@ -1305,20 +1270,18 @@ Expression* ParserTraits::SpreadCallNew(
}
void ParserTraits::DeclareFormalParameter(
ParserFormalParameterParsingState* parsing_state, Expression* pattern,
ExpressionClassifier* classifier, bool is_rest) {
void ParserTraits::DeclareFormalParameter(Scope* scope, Expression* pattern,
ExpressionClassifier* classifier,
bool is_rest) {
bool is_duplicate = false;
bool is_simple_name = pattern->IsVariableProxy();
DCHECK(parser_->allow_harmony_destructuring() || is_simple_name);
const AstRawString* name = is_simple_name
? pattern->AsVariableProxy()->raw_name()
: parser_->ast_value_factory()->empty_string();
Variable* var =
parsing_state->scope->DeclareParameter(name, VAR, is_rest, &is_duplicate);
parsing_state->AddParameter(var, is_simple_name ? nullptr : pattern);
if (is_sloppy(parsing_state->scope->language_mode())) {
if (!pattern->IsVariableProxy()) {
// TODO(dslomov): implement.
DCHECK(parser_->allow_harmony_destructuring());
return;
}
auto name = pattern->AsVariableProxy()->raw_name();
Variable* var = scope->DeclareParameter(name, VAR, is_rest, &is_duplicate);
if (is_sloppy(scope->language_mode())) {
// TODO(sigurds) Mark every parameter as maybe assigned. This is a
// conservative approximation necessary to account for parameters
// that are assigned via the arguments array.
......@@ -1329,18 +1292,6 @@ void ParserTraits::DeclareFormalParameter(
parser_->scanner()->location());
}
}
void ParserTraits::AddParameterInitializationBlock(
const ParserFormalParameterParsingState& formal_parameters,
ZoneList<v8::internal::Statement*>* body, bool* ok) {
auto* init_block =
parser_->BuildParameterInitializationBlock(formal_parameters, ok);
if (!*ok) return;
if (init_block != nullptr) {
body->Add(init_block, parser_->zone());
}
}
} } // namespace v8::internal
#endif // V8_PARSER_H_
......@@ -53,8 +53,7 @@ void Parser::PatternRewriter::VisitVariableProxy(VariableProxy* pattern) {
Declaration* declaration = factory()->NewVariableDeclaration(
proxy, descriptor_->mode, descriptor_->scope,
descriptor_->declaration_pos);
Variable* var = parser->Declare(declaration, descriptor_->declaration_kind,
descriptor_->mode != VAR, ok_);
Variable* var = parser->Declare(declaration, descriptor_->mode != VAR, ok_);
if (!*ok_) return;
DCHECK_NOT_NULL(var);
DCHECK(!proxy->is_resolved() || proxy->var() == var);
......
......@@ -1038,18 +1038,17 @@ PreParser::Expression PreParser::ParseFunctionLiteral(
DuplicateFinder duplicate_finder(scanner()->unicode_cache());
ExpressionClassifier formals_classifier(&duplicate_finder);
bool has_rest = false;
Expect(Token::LPAREN, CHECK_OK);
int start_position = scanner()->location().beg_pos;
function_scope->set_start_position(start_position);
PreParserFormalParameterParsingState parsing_state(nullptr);
int num_parameters =
ParseFormalParameterList(&parsing_state, &formals_classifier, CHECK_OK);
int num_parameters = ParseFormalParameterList(nullptr, &has_rest,
&formals_classifier, CHECK_OK);
Expect(Token::RPAREN, CHECK_OK);
int formals_end_position = scanner()->location().end_pos;
CheckArityRestrictions(num_parameters, arity_restriction,
parsing_state.has_rest, start_position,
formals_end_position, CHECK_OK);
CheckArityRestrictions(num_parameters, arity_restriction, has_rest,
start_position, formals_end_position, CHECK_OK);
// See Parser::ParseFunctionLiteral for more information about lazy parsing
// and lazy compilation.
......@@ -1069,8 +1068,7 @@ PreParser::Expression PreParser::ParseFunctionLiteral(
// function, since the function can declare itself strict.
CheckFunctionName(language_mode(), kind, function_name,
name_is_strict_reserved, function_name_location, CHECK_OK);
const bool strict_formal_parameters =
!parsing_state.is_simple_parameter_list || IsConciseMethod(kind);
const bool strict_formal_parameters = has_rest || IsConciseMethod(kind);
const bool allow_duplicate_parameters =
is_sloppy(language_mode()) && !strict_formal_parameters;
ValidateFormalParameters(&formals_classifier, language_mode(),
......
This diff is collapsed.
......@@ -466,22 +466,15 @@ Variable* Scope::DeclareParameter(const AstRawString* name, VariableMode mode,
bool is_rest, bool* is_duplicate) {
DCHECK(!already_resolved());
DCHECK(is_function_scope());
Variable* var;
if (!name->IsEmpty()) {
var = variables_.Declare(this, name, mode, Variable::NORMAL,
kCreatedInitialized);
// TODO(wingo): Avoid O(n^2) check.
*is_duplicate = IsDeclaredParameter(name);
} else {
var = new (zone())
Variable(this, name, TEMPORARY, Variable::NORMAL, kCreatedInitialized);
}
Variable* var = variables_.Declare(this, name, mode, Variable::NORMAL,
kCreatedInitialized);
if (is_rest) {
DCHECK_NULL(rest_parameter_);
rest_parameter_ = var;
rest_index_ = num_parameters();
}
// TODO(wingo): Avoid O(n^2) check.
*is_duplicate = IsDeclaredParameter(name);
params_.Add(var, zone());
return var;
}
......
......@@ -6389,6 +6389,7 @@ TEST(DestructuringPositiveTests) {
{"function f(", ") {}"},
{"function f(argument1, ", ") {}"},
{"var f = (", ") => {};"},
{"var f = ", " => {};"},
{"var f = (argument1,", ") => {};"},
{NULL, NULL}};
......@@ -6416,7 +6417,6 @@ TEST(DestructuringPositiveTests) {
"{42 : x = 42}",
"{42e-2 : x}",
"{42e-2 : x = 42}",
"{x : y, x : z}",
"{'hi' : x}",
"{'hi' : x = 42}",
"{var: x}",
......@@ -6605,115 +6605,6 @@ TEST(DestructuringDisallowPatternsInForVarIn) {
}
TEST(DestructuringDuplicateParams) {
i::FLAG_harmony_destructuring = true;
i::FLAG_harmony_arrow_functions = true;
i::FLAG_harmony_computed_property_names = true;
static const ParserFlag always_flags[] = {
kAllowHarmonyObjectLiterals, kAllowHarmonyComputedPropertyNames,
kAllowHarmonyArrowFunctions, kAllowHarmonyDestructuring};
const char* context_data[][2] = {{"'use strict';", ""},
{"function outer() { 'use strict';", "}"},
{nullptr, nullptr}};
// clang-format off
const char* error_data[] = {
"function f(x,x){}",
"function f(x, {x : x}){}",
"function f(x, {x}){}",
"function f({x,x}) {}",
"function f([x,x]) {}",
"function f(x, [y,{z:x}]) {}",
"function f([x,{y:x}]) {}",
// non-simple parameter list causes duplicates to be errors in sloppy mode.
"function f(x, x, {a}) {}",
nullptr};
// clang-format on
RunParserSyncTest(context_data, error_data, kError, NULL, 0, always_flags,
arraysize(always_flags));
}
TEST(DestructuringDuplicateParamsSloppy) {
i::FLAG_harmony_destructuring = true;
i::FLAG_harmony_arrow_functions = true;
i::FLAG_harmony_computed_property_names = true;
static const ParserFlag always_flags[] = {
kAllowHarmonyObjectLiterals, kAllowHarmonyComputedPropertyNames,
kAllowHarmonyArrowFunctions, kAllowHarmonyDestructuring};
const char* context_data[][2] = {
{"", ""}, {"function outer() {", "}"}, {nullptr, nullptr}};
// clang-format off
const char* error_data[] = {
// non-simple parameter list causes duplicates to be errors in sloppy mode.
"function f(x, {x : x}){}",
"function f(x, {x}){}",
"function f({x,x}) {}",
"function f(x, x, {a}) {}",
nullptr};
// clang-format on
RunParserSyncTest(context_data, error_data, kError, NULL, 0, always_flags,
arraysize(always_flags));
}
TEST(DestructuringDisallowPatternsInSingleParamArrows) {
i::FLAG_harmony_destructuring = true;
i::FLAG_harmony_arrow_functions = true;
i::FLAG_harmony_computed_property_names = true;
static const ParserFlag always_flags[] = {
kAllowHarmonyObjectLiterals, kAllowHarmonyComputedPropertyNames,
kAllowHarmonyArrowFunctions, kAllowHarmonyDestructuring};
const char* context_data[][2] = {{"'use strict';", ""},
{"function outer() { 'use strict';", "}"},
{"", ""},
{"function outer() { ", "}"},
{nullptr, nullptr}};
// clang-format off
const char* error_data[] = {
"var f = {x} => {};",
"var f = {x,y} => {};",
nullptr};
// clang-format on
RunParserSyncTest(context_data, error_data, kError, NULL, 0, always_flags,
arraysize(always_flags));
}
TEST(DestructuringDisallowPatternsInRestParams) {
i::FLAG_harmony_destructuring = true;
i::FLAG_harmony_arrow_functions = true;
i::FLAG_harmony_rest_parameters = true;
i::FLAG_harmony_computed_property_names = true;
static const ParserFlag always_flags[] = {
kAllowHarmonyObjectLiterals, kAllowHarmonyComputedPropertyNames,
kAllowHarmonyArrowFunctions, kAllowHarmonyRestParameters,
kAllowHarmonyDestructuring};
const char* context_data[][2] = {{"'use strict';", ""},
{"function outer() { 'use strict';", "}"},
{"", ""},
{"function outer() { ", "}"},
{nullptr, nullptr}};
// clang-format off
const char* error_data[] = {
"function(...{}) {}",
"function(...{x}) {}",
"function(...[x]) {}",
"(...{}) => {}",
"(...{x}) => {}",
"(...[x]) => {}",
nullptr};
// clang-format on
RunParserSyncTest(context_data, error_data, kError, NULL, 0, always_flags,
arraysize(always_flags));
}
TEST(SpreadArray) {
i::FLAG_harmony_spread_arrays = true;
......
......@@ -3,7 +3,6 @@
// found in the LICENSE file.
//
// Flags: --harmony-destructuring --harmony-computed-property-names
// Flags: --harmony-arrow-functions
(function TestObjectLiteralPattern() {
var { x : x, y : y } = { x : 1, y : 2 };
......@@ -687,44 +686,3 @@
assertEquals('ab', sx);
assertEquals('12', sy);
}());
(function TestParameters() {
function f({a, b}) { return a - b; }
assertEquals(1, f({a : 6, b : 5}));
function f1(c, {a, b}) { return c + a - b; }
assertEquals(8, f1(7, {a : 6, b : 5}));
function f2({c, d}, {a, b}) { return c - d + a - b; }
assertEquals(7, f2({c : 7, d : 1}, {a : 6, b : 5}));
function f3([{a, b}]) { return a - b; }
assertEquals(1, f3([{a : 6, b : 5}]));
var g = ({a, b}) => { return a - b; };
assertEquals(1, g({a : 6, b : 5}));
var g1 = (c, {a, b}) => { return c + a - b; };
assertEquals(8, g1(7, {a : 6, b : 5}));
var g2 = ({c, d}, {a, b}) => { return c - d + a - b; };
assertEquals(7, g2({c : 7, d : 1}, {a : 6, b : 5}));
var g3 = ([{a, b}]) => { return a - b; };
assertEquals(1, g3([{a : 6, b : 5}]));
}());
(function TestDuplicatesInParameters() {
assertThrows("'use strict';function f(x,x){}", SyntaxError);
assertThrows("'use strict';function f({x,x}){}", SyntaxError);
assertThrows("'use strict';function f(x, {x}){}", SyntaxError);
assertThrows("'use strict';var f = (x,x) => {};", SyntaxError);
assertThrows("'use strict';var f = ({x,x}) => {};", SyntaxError);
assertThrows("'use strict';var f = (x, {x}) => {};", SyntaxError);
function ok(x) { var x; }; ok();
assertThrows("function f({x}) { var x; }; f({});", SyntaxError);
assertThrows("'use strict'; function f({x}) { let x = 0; }; f({});", SyntaxError);
}());
......@@ -35,6 +35,6 @@ try {
eval("(function() { const x; var x })")();
} catch (e) {
exception = true;
assertTrue(e instanceof SyntaxError);
assertTrue(e instanceof TypeError);
}
assertTrue(exception);
......@@ -14,4 +14,4 @@ function g(x) {
}
%OptimizeFunctionOnNextCall(g);
assertThrows(function() { g(42); }, SyntaxError);
assertThrows(function() { g(42); }, TypeError);
......@@ -157,7 +157,7 @@ PASS access_after_delete_extra_5(1, 2, 3, 4, 5) is 5
PASS argumentsParam(true) is true
PASS argumentsFunctionConstructorParam(true) is true
PASS argumentsVarUndefined() is '[object Arguments]'
FAIL argumentsConstUndefined() should be [object Arguments]. Threw exception SyntaxError: Identifier 'arguments' has already been declared
FAIL argumentsConstUndefined() should be [object Arguments]. Threw exception TypeError: Identifier 'arguments' has already been declared
PASS argumentCalleeInException() is argumentCalleeInException
PASS shadowedArgumentsApply([true]) is true
PASS shadowedArgumentsLength([]) is 0
......
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment