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|
// Copyright 2012 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/ast/prettyprinter.h"
#include <stdarg.h>
#include "src/ast/ast-value-factory.h"
#include "src/ast/scopes.h"
#include "src/base/platform/platform.h"
#include "src/base/strings.h"
#include "src/base/vector.h"
#include "src/common/globals.h"
#include "src/objects/objects-inl.h"
#include "src/regexp/regexp-flags.h"
#include "src/strings/string-builder-inl.h"
namespace v8 {
namespace internal {
CallPrinter::CallPrinter(Isolate* isolate, bool is_user_js,
SpreadErrorInArgsHint error_in_spread_args)
: builder_(new IncrementalStringBuilder(isolate)) {
isolate_ = isolate;
position_ = 0;
num_prints_ = 0;
found_ = false;
done_ = false;
is_call_error_ = false;
is_iterator_error_ = false;
is_async_iterator_error_ = false;
destructuring_prop_ = nullptr;
destructuring_assignment_ = nullptr;
is_user_js_ = is_user_js;
error_in_spread_args_ = error_in_spread_args;
spread_arg_ = nullptr;
function_kind_ = kNormalFunction;
InitializeAstVisitor(isolate);
}
CallPrinter::~CallPrinter() = default;
CallPrinter::ErrorHint CallPrinter::GetErrorHint() const {
if (is_call_error_) {
if (is_iterator_error_) return ErrorHint::kCallAndNormalIterator;
if (is_async_iterator_error_) return ErrorHint::kCallAndAsyncIterator;
} else {
if (is_iterator_error_) return ErrorHint::kNormalIterator;
if (is_async_iterator_error_) return ErrorHint::kAsyncIterator;
}
return ErrorHint::kNone;
}
Handle<String> CallPrinter::Print(FunctionLiteral* program, int position) {
num_prints_ = 0;
position_ = position;
Find(program);
return builder_->Finish().ToHandleChecked();
}
void CallPrinter::Find(AstNode* node, bool print) {
if (found_) {
if (print) {
int prev_num_prints = num_prints_;
Visit(node);
if (prev_num_prints != num_prints_) return;
}
Print("(intermediate value)");
} else {
Visit(node);
}
}
void CallPrinter::Print(char c) {
if (!found_ || done_) return;
num_prints_++;
builder_->AppendCharacter(c);
}
void CallPrinter::Print(const char* str) {
if (!found_ || done_) return;
num_prints_++;
builder_->AppendCString(str);
}
void CallPrinter::Print(Handle<String> str) {
if (!found_ || done_) return;
num_prints_++;
builder_->AppendString(str);
}
void CallPrinter::VisitBlock(Block* node) {
FindStatements(node->statements());
}
void CallPrinter::VisitVariableDeclaration(VariableDeclaration* node) {}
void CallPrinter::VisitFunctionDeclaration(FunctionDeclaration* node) {}
void CallPrinter::VisitExpressionStatement(ExpressionStatement* node) {
Find(node->expression());
}
void CallPrinter::VisitEmptyStatement(EmptyStatement* node) {}
void CallPrinter::VisitSloppyBlockFunctionStatement(
SloppyBlockFunctionStatement* node) {
Find(node->statement());
}
void CallPrinter::VisitIfStatement(IfStatement* node) {
Find(node->condition());
Find(node->then_statement());
if (node->HasElseStatement()) {
Find(node->else_statement());
}
}
void CallPrinter::VisitContinueStatement(ContinueStatement* node) {}
void CallPrinter::VisitBreakStatement(BreakStatement* node) {}
void CallPrinter::VisitReturnStatement(ReturnStatement* node) {
Find(node->expression());
}
void CallPrinter::VisitWithStatement(WithStatement* node) {
Find(node->expression());
Find(node->statement());
}
void CallPrinter::VisitSwitchStatement(SwitchStatement* node) {
Find(node->tag());
for (CaseClause* clause : *node->cases()) {
if (!clause->is_default()) Find(clause->label());
FindStatements(clause->statements());
}
}
void CallPrinter::VisitDoWhileStatement(DoWhileStatement* node) {
Find(node->body());
Find(node->cond());
}
void CallPrinter::VisitWhileStatement(WhileStatement* node) {
Find(node->cond());
Find(node->body());
}
void CallPrinter::VisitForStatement(ForStatement* node) {
if (node->init() != nullptr) {
Find(node->init());
}
if (node->cond() != nullptr) Find(node->cond());
if (node->next() != nullptr) Find(node->next());
Find(node->body());
}
void CallPrinter::VisitForInStatement(ForInStatement* node) {
Find(node->each());
Find(node->subject());
Find(node->body());
}
void CallPrinter::VisitForOfStatement(ForOfStatement* node) {
Find(node->each());
// Check the subject's position in case there was a GetIterator error.
bool was_found = false;
if (node->subject()->position() == position_) {
is_async_iterator_error_ = node->type() == IteratorType::kAsync;
is_iterator_error_ = !is_async_iterator_error_;
was_found = !found_;
if (was_found) {
found_ = true;
}
}
Find(node->subject(), true);
if (was_found) {
done_ = true;
found_ = false;
}
Find(node->body());
}
void CallPrinter::VisitTryCatchStatement(TryCatchStatement* node) {
Find(node->try_block());
Find(node->catch_block());
}
void CallPrinter::VisitTryFinallyStatement(TryFinallyStatement* node) {
Find(node->try_block());
Find(node->finally_block());
}
void CallPrinter::VisitDebuggerStatement(DebuggerStatement* node) {}
void CallPrinter::VisitFunctionLiteral(FunctionLiteral* node) {
FunctionKind last_function_kind = function_kind_;
function_kind_ = node->kind();
FindStatements(node->body());
function_kind_ = last_function_kind;
}
void CallPrinter::VisitClassLiteral(ClassLiteral* node) {
if (node->extends()) Find(node->extends());
for (int i = 0; i < node->public_members()->length(); i++) {
Find(node->public_members()->at(i)->value());
}
for (int i = 0; i < node->private_members()->length(); i++) {
Find(node->private_members()->at(i)->value());
}
}
void CallPrinter::VisitInitializeClassMembersStatement(
InitializeClassMembersStatement* node) {
for (int i = 0; i < node->fields()->length(); i++) {
Find(node->fields()->at(i)->value());
}
}
void CallPrinter::VisitInitializeClassStaticElementsStatement(
InitializeClassStaticElementsStatement* node) {
for (int i = 0; i < node->elements()->length(); i++) {
ClassLiteral::StaticElement* element = node->elements()->at(i);
if (element->kind() == ClassLiteral::StaticElement::PROPERTY) {
Find(element->property()->value());
} else {
Find(element->static_block());
}
}
}
void CallPrinter::VisitNativeFunctionLiteral(NativeFunctionLiteral* node) {}
void CallPrinter::VisitConditional(Conditional* node) {
Find(node->condition());
Find(node->then_expression());
Find(node->else_expression());
}
void CallPrinter::VisitLiteral(Literal* node) {
// TODO(adamk): Teach Literal how to print its values without
// allocating on the heap.
PrintLiteral(node->BuildValue(isolate_), true);
}
void CallPrinter::VisitRegExpLiteral(RegExpLiteral* node) {
Print("/");
PrintLiteral(node->pattern(), false);
Print("/");
#define V(Lower, Camel, LowerCamel, Char, Bit) \
if (node->flags() & RegExp::k##Camel) Print(Char);
REGEXP_FLAG_LIST(V)
#undef V
}
void CallPrinter::VisitObjectLiteral(ObjectLiteral* node) {
Print("{");
for (int i = 0; i < node->properties()->length(); i++) {
Find(node->properties()->at(i)->value());
}
Print("}");
}
void CallPrinter::VisitArrayLiteral(ArrayLiteral* node) {
Print("[");
for (int i = 0; i < node->values()->length(); i++) {
if (i != 0) Print(",");
Expression* subexpr = node->values()->at(i);
Spread* spread = subexpr->AsSpread();
if (spread != nullptr && !found_ &&
position_ == spread->expression()->position()) {
found_ = true;
is_iterator_error_ = true;
Find(spread->expression(), true);
done_ = true;
return;
}
Find(subexpr, true);
}
Print("]");
}
void CallPrinter::VisitVariableProxy(VariableProxy* node) {
if (is_user_js_) {
PrintLiteral(node->name(), false);
} else {
// Variable names of non-user code are meaningless due to minification.
Print("(var)");
}
}
void CallPrinter::VisitAssignment(Assignment* node) {
bool was_found = false;
if (node->target()->IsObjectLiteral()) {
ObjectLiteral* target = node->target()->AsObjectLiteral();
if (target->position() == position_) {
was_found = !found_;
found_ = true;
destructuring_assignment_ = node;
} else {
for (ObjectLiteralProperty* prop : *target->properties()) {
if (prop->value()->position() == position_) {
was_found = !found_;
found_ = true;
destructuring_prop_ = prop;
destructuring_assignment_ = node;
break;
}
}
}
}
if (!was_found) {
Find(node->target());
if (node->target()->IsArrayLiteral()) {
// Special case the visit for destructuring array assignment.
bool was_found = false;
if (node->value()->position() == position_) {
is_iterator_error_ = true;
was_found = !found_;
found_ = true;
}
Find(node->value(), true);
if (was_found) {
done_ = true;
found_ = false;
}
} else {
Find(node->value());
}
} else {
Find(node->value(), true);
}
if (was_found) {
done_ = true;
found_ = false;
}
}
void CallPrinter::VisitCompoundAssignment(CompoundAssignment* node) {
VisitAssignment(node);
}
void CallPrinter::VisitYield(Yield* node) { Find(node->expression()); }
void CallPrinter::VisitYieldStar(YieldStar* node) {
if (!found_ && position_ == node->expression()->position()) {
found_ = true;
if (IsAsyncFunction(function_kind_))
is_async_iterator_error_ = true;
else
is_iterator_error_ = true;
Print("yield* ");
}
Find(node->expression());
}
void CallPrinter::VisitAwait(Await* node) { Find(node->expression()); }
void CallPrinter::VisitThrow(Throw* node) { Find(node->exception()); }
void CallPrinter::VisitOptionalChain(OptionalChain* node) {
Find(node->expression());
}
void CallPrinter::VisitProperty(Property* node) {
Expression* key = node->key();
Literal* literal = key->AsLiteral();
if (literal != nullptr &&
literal->BuildValue(isolate_)->IsInternalizedString()) {
Find(node->obj(), true);
if (node->is_optional_chain_link()) {
Print("?");
}
Print(".");
// TODO(adamk): Teach Literal how to print its values without
// allocating on the heap.
PrintLiteral(literal->BuildValue(isolate_), false);
} else {
Find(node->obj(), true);
if (node->is_optional_chain_link()) {
Print("?.");
}
Print("[");
Find(key, true);
Print("]");
}
}
void CallPrinter::VisitCall(Call* node) {
bool was_found = false;
if (node->position() == position_) {
if (error_in_spread_args_ == SpreadErrorInArgsHint::kErrorInArgs) {
found_ = true;
spread_arg_ = node->arguments()->last()->AsSpread()->expression();
Find(spread_arg_, true);
done_ = true;
found_ = false;
return;
}
is_call_error_ = true;
was_found = !found_;
}
if (was_found) {
// Bail out if the error is caused by a direct call to a variable in
// non-user JS code. The variable name is meaningless due to minification.
if (!is_user_js_ && node->expression()->IsVariableProxy()) {
done_ = true;
return;
}
found_ = true;
}
Find(node->expression(), true);
if (!was_found && !is_iterator_error_) Print("(...)");
FindArguments(node->arguments());
if (was_found) {
done_ = true;
found_ = false;
}
}
void CallPrinter::VisitCallNew(CallNew* node) {
bool was_found = false;
if (node->position() == position_) {
if (error_in_spread_args_ == SpreadErrorInArgsHint::kErrorInArgs) {
found_ = true;
spread_arg_ = node->arguments()->last()->AsSpread()->expression();
Find(spread_arg_, true);
done_ = true;
found_ = false;
return;
}
is_call_error_ = true;
was_found = !found_;
}
if (was_found) {
// Bail out if the error is caused by a direct call to a variable in
// non-user JS code. The variable name is meaningless due to minification.
if (!is_user_js_ && node->expression()->IsVariableProxy()) {
done_ = true;
return;
}
found_ = true;
}
Find(node->expression(), was_found || is_iterator_error_);
FindArguments(node->arguments());
if (was_found) {
done_ = true;
found_ = false;
}
}
void CallPrinter::VisitCallRuntime(CallRuntime* node) {
FindArguments(node->arguments());
}
void CallPrinter::VisitUnaryOperation(UnaryOperation* node) {
Token::Value op = node->op();
bool needsSpace =
op == Token::DELETE || op == Token::TYPEOF || op == Token::VOID;
Print("(");
Print(Token::String(op));
if (needsSpace) Print(" ");
Find(node->expression(), true);
Print(")");
}
void CallPrinter::VisitCountOperation(CountOperation* node) {
Print("(");
if (node->is_prefix()) Print(Token::String(node->op()));
Find(node->expression(), true);
if (node->is_postfix()) Print(Token::String(node->op()));
Print(")");
}
void CallPrinter::VisitBinaryOperation(BinaryOperation* node) {
Print("(");
Find(node->left(), true);
Print(" ");
Print(Token::String(node->op()));
Print(" ");
Find(node->right(), true);
Print(")");
}
void CallPrinter::VisitNaryOperation(NaryOperation* node) {
Print("(");
Find(node->first(), true);
for (size_t i = 0; i < node->subsequent_length(); ++i) {
Print(" ");
Print(Token::String(node->op()));
Print(" ");
Find(node->subsequent(i), true);
}
Print(")");
}
void CallPrinter::VisitCompareOperation(CompareOperation* node) {
Print("(");
Find(node->left(), true);
Print(" ");
Print(Token::String(node->op()));
Print(" ");
Find(node->right(), true);
Print(")");
}
void CallPrinter::VisitSpread(Spread* node) {
Print("(...");
Find(node->expression(), true);
Print(")");
}
void CallPrinter::VisitEmptyParentheses(EmptyParentheses* node) {
UNREACHABLE();
}
void CallPrinter::VisitGetTemplateObject(GetTemplateObject* node) {}
void CallPrinter::VisitTemplateLiteral(TemplateLiteral* node) {
for (Expression* substitution : *node->substitutions()) {
Find(substitution, true);
}
}
void CallPrinter::VisitImportCallExpression(ImportCallExpression* node) {
Print("ImportCall(");
Find(node->specifier(), true);
if (node->import_assertions()) {
Find(node->import_assertions(), true);
}
Print(")");
}
void CallPrinter::VisitThisExpression(ThisExpression* node) { Print("this"); }
void CallPrinter::VisitSuperPropertyReference(SuperPropertyReference* node) {}
void CallPrinter::VisitSuperCallReference(SuperCallReference* node) {
Print("super");
}
void CallPrinter::FindStatements(const ZonePtrList<Statement>* statements) {
if (statements == nullptr) return;
for (int i = 0; i < statements->length(); i++) {
Find(statements->at(i));
}
}
void CallPrinter::FindArguments(const ZonePtrList<Expression>* arguments) {
if (found_) return;
for (int i = 0; i < arguments->length(); i++) {
Find(arguments->at(i));
}
}
void CallPrinter::PrintLiteral(Handle<Object> value, bool quote) {
if (value->IsString()) {
if (quote) Print("\"");
Print(Handle<String>::cast(value));
if (quote) Print("\"");
} else if (value->IsNull(isolate_)) {
Print("null");
} else if (value->IsTrue(isolate_)) {
Print("true");
} else if (value->IsFalse(isolate_)) {
Print("false");
} else if (value->IsUndefined(isolate_)) {
Print("undefined");
} else if (value->IsNumber()) {
Print(isolate_->factory()->NumberToString(value));
} else if (value->IsSymbol()) {
// Symbols can only occur as literals if they were inserted by the parser.
PrintLiteral(handle(Handle<Symbol>::cast(value)->description(), isolate_),
false);
}
}
void CallPrinter::PrintLiteral(const AstRawString* value, bool quote) {
PrintLiteral(value->string(), quote);
}
//-----------------------------------------------------------------------------
#ifdef DEBUG
const char* AstPrinter::Print(AstNode* node) {
Init();
Visit(node);
return output_;
}
void AstPrinter::Init() {
if (size_ == 0) {
DCHECK_NULL(output_);
const int initial_size = 256;
output_ = NewArray<char>(initial_size);
size_ = initial_size;
}
output_[0] = '\0';
pos_ = 0;
}
void AstPrinter::Print(const char* format, ...) {
for (;;) {
va_list arguments;
va_start(arguments, format);
int n = base::VSNPrintF(base::Vector<char>(output_, size_) + pos_, format,
arguments);
va_end(arguments);
if (n >= 0) {
// there was enough space - we are done
pos_ += n;
return;
} else {
// there was not enough space - allocate more and try again
const int slack = 32;
int new_size = size_ + (size_ >> 1) + slack;
char* new_output = NewArray<char>(new_size);
MemCopy(new_output, output_, pos_);
DeleteArray(output_);
output_ = new_output;
size_ = new_size;
}
}
}
void AstPrinter::PrintLiteral(Literal* literal, bool quote) {
switch (literal->type()) {
case Literal::kString:
PrintLiteral(literal->AsRawString(), quote);
break;
case Literal::kSmi:
Print("%d", Smi::ToInt(literal->AsSmiLiteral()));
break;
case Literal::kHeapNumber:
Print("%g", literal->AsNumber());
break;
case Literal::kBigInt:
Print("%sn", literal->AsBigInt().c_str());
break;
case Literal::kNull:
Print("null");
break;
case Literal::kUndefined:
Print("undefined");
break;
case Literal::kTheHole:
Print("the hole");
break;
case Literal::kBoolean:
if (literal->ToBooleanIsTrue()) {
Print("true");
} else {
Print("false");
}
break;
}
}
void AstPrinter::PrintLiteral(const AstRawString* value, bool quote) {
if (quote) Print("\"");
if (value != nullptr) {
const char* format = value->is_one_byte() ? "%c" : "%lc";
const int increment = value->is_one_byte() ? 1 : 2;
const unsigned char* raw_bytes = value->raw_data();
for (int i = 0; i < value->length(); i += increment) {
Print(format, raw_bytes[i]);
}
}
if (quote) Print("\"");
}
void AstPrinter::PrintLiteral(const AstConsString* value, bool quote) {
if (quote) Print("\"");
if (value != nullptr) {
std::forward_list<const AstRawString*> strings = value->ToRawStrings();
for (const AstRawString* string : strings) {
PrintLiteral(string, false);
}
}
if (quote) Print("\"");
}
//-----------------------------------------------------------------------------
class V8_NODISCARD IndentedScope {
public:
IndentedScope(AstPrinter* printer, const char* txt)
: ast_printer_(printer) {
ast_printer_->PrintIndented(txt);
ast_printer_->Print("\n");
ast_printer_->inc_indent();
}
IndentedScope(AstPrinter* printer, const char* txt, int pos)
: ast_printer_(printer) {
ast_printer_->PrintIndented(txt);
ast_printer_->Print(" at %d\n", pos);
ast_printer_->inc_indent();
}
virtual ~IndentedScope() {
ast_printer_->dec_indent();
}
private:
AstPrinter* ast_printer_;
};
//-----------------------------------------------------------------------------
AstPrinter::AstPrinter(uintptr_t stack_limit)
: output_(nullptr), size_(0), pos_(0), indent_(0) {
InitializeAstVisitor(stack_limit);
}
AstPrinter::~AstPrinter() {
DCHECK_EQ(indent_, 0);
DeleteArray(output_);
}
void AstPrinter::PrintIndented(const char* txt) {
for (int i = 0; i < indent_; i++) {
Print(". ");
}
Print("%s", txt);
}
void AstPrinter::PrintLiteralIndented(const char* info, Literal* literal,
bool quote) {
PrintIndented(info);
Print(" ");
PrintLiteral(literal, quote);
Print("\n");
}
void AstPrinter::PrintLiteralIndented(const char* info,
const AstRawString* value, bool quote) {
PrintIndented(info);
Print(" ");
PrintLiteral(value, quote);
Print("\n");
}
void AstPrinter::PrintLiteralIndented(const char* info,
const AstConsString* value, bool quote) {
PrintIndented(info);
Print(" ");
PrintLiteral(value, quote);
Print("\n");
}
void AstPrinter::PrintLiteralWithModeIndented(const char* info, Variable* var,
const AstRawString* value) {
if (var == nullptr) {
PrintLiteralIndented(info, value, true);
} else {
base::EmbeddedVector<char, 256> buf;
int pos =
SNPrintF(buf, "%s (%p) (mode = %s, assigned = %s", info,
reinterpret_cast<void*>(var), VariableMode2String(var->mode()),
var->maybe_assigned() == kMaybeAssigned ? "true" : "false");
SNPrintF(buf + pos, ")");
PrintLiteralIndented(buf.begin(), value, true);
}
}
void AstPrinter::PrintIndentedVisit(const char* s, AstNode* node) {
if (node != nullptr) {
IndentedScope indent(this, s, node->position());
Visit(node);
}
}
const char* AstPrinter::PrintProgram(FunctionLiteral* program) {
Init();
{ IndentedScope indent(this, "FUNC", program->position());
PrintIndented("KIND");
Print(" %d\n", program->kind());
PrintIndented("LITERAL ID");
Print(" %d\n", program->function_literal_id());
PrintIndented("SUSPEND COUNT");
Print(" %d\n", program->suspend_count());
PrintLiteralIndented("NAME", program->raw_name(), true);
if (program->raw_inferred_name()) {
PrintLiteralIndented("INFERRED NAME", program->raw_inferred_name(), true);
}
if (program->requires_instance_members_initializer()) {
Print(" REQUIRES INSTANCE FIELDS INITIALIZER\n");
}
if (program->class_scope_has_private_brand()) {
Print(" CLASS SCOPE HAS PRIVATE BRAND\n");
}
if (program->has_static_private_methods_or_accessors()) {
Print(" HAS STATIC PRIVATE METHODS\n");
}
PrintParameters(program->scope());
PrintDeclarations(program->scope()->declarations());
PrintStatements(program->body());
}
return output_;
}
void AstPrinter::PrintOut(Isolate* isolate, AstNode* node) {
AstPrinter printer(isolate->stack_guard()->real_climit());
printer.Init();
printer.Visit(node);
PrintF("%s", printer.output_);
}
void AstPrinter::PrintDeclarations(Declaration::List* declarations) {
if (!declarations->is_empty()) {
IndentedScope indent(this, "DECLS");
for (Declaration* decl : *declarations) Visit(decl);
}
}
void AstPrinter::PrintParameters(DeclarationScope* scope) {
if (scope->num_parameters() > 0) {
IndentedScope indent(this, "PARAMS");
for (int i = 0; i < scope->num_parameters(); i++) {
PrintLiteralWithModeIndented("VAR", scope->parameter(i),
scope->parameter(i)->raw_name());
}
}
}
void AstPrinter::PrintStatements(const ZonePtrList<Statement>* statements) {
for (int i = 0; i < statements->length(); i++) {
Visit(statements->at(i));
}
}
void AstPrinter::PrintArguments(const ZonePtrList<Expression>* arguments) {
for (int i = 0; i < arguments->length(); i++) {
Visit(arguments->at(i));
}
}
void AstPrinter::VisitBlock(Block* node) {
const char* block_txt =
node->ignore_completion_value() ? "BLOCK NOCOMPLETIONS" : "BLOCK";
IndentedScope indent(this, block_txt, node->position());
PrintStatements(node->statements());
}
// TODO(svenpanne) Start with IndentedScope.
void AstPrinter::VisitVariableDeclaration(VariableDeclaration* node) {
PrintLiteralWithModeIndented("VARIABLE", node->var(),
node->var()->raw_name());
}
// TODO(svenpanne) Start with IndentedScope.
void AstPrinter::VisitFunctionDeclaration(FunctionDeclaration* node) {
PrintIndented("FUNCTION ");
PrintLiteral(node->var()->raw_name(), true);
Print(" = function ");
PrintLiteral(node->fun()->raw_name(), false);
Print("\n");
}
void AstPrinter::VisitExpressionStatement(ExpressionStatement* node) {
IndentedScope indent(this, "EXPRESSION STATEMENT", node->position());
Visit(node->expression());
}
void AstPrinter::VisitEmptyStatement(EmptyStatement* node) {
IndentedScope indent(this, "EMPTY", node->position());
}
void AstPrinter::VisitSloppyBlockFunctionStatement(
SloppyBlockFunctionStatement* node) {
Visit(node->statement());
}
void AstPrinter::VisitIfStatement(IfStatement* node) {
IndentedScope indent(this, "IF", node->position());
PrintIndentedVisit("CONDITION", node->condition());
PrintIndentedVisit("THEN", node->then_statement());
if (node->HasElseStatement()) {
PrintIndentedVisit("ELSE", node->else_statement());
}
}
void AstPrinter::VisitContinueStatement(ContinueStatement* node) {
IndentedScope indent(this, "CONTINUE", node->position());
}
void AstPrinter::VisitBreakStatement(BreakStatement* node) {
IndentedScope indent(this, "BREAK", node->position());
}
void AstPrinter::VisitReturnStatement(ReturnStatement* node) {
IndentedScope indent(this, "RETURN", node->position());
Visit(node->expression());
}
void AstPrinter::VisitWithStatement(WithStatement* node) {
IndentedScope indent(this, "WITH", node->position());
PrintIndentedVisit("OBJECT", node->expression());
PrintIndentedVisit("BODY", node->statement());
}
void AstPrinter::VisitSwitchStatement(SwitchStatement* node) {
IndentedScope indent(this, "SWITCH", node->position());
PrintIndentedVisit("TAG", node->tag());
for (CaseClause* clause : *node->cases()) {
if (clause->is_default()) {
IndentedScope indent(this, "DEFAULT");
PrintStatements(clause->statements());
} else {
IndentedScope indent(this, "CASE");
Visit(clause->label());
PrintStatements(clause->statements());
}
}
}
void AstPrinter::VisitDoWhileStatement(DoWhileStatement* node) {
IndentedScope indent(this, "DO", node->position());
PrintIndentedVisit("BODY", node->body());
PrintIndentedVisit("COND", node->cond());
}
void AstPrinter::VisitWhileStatement(WhileStatement* node) {
IndentedScope indent(this, "WHILE", node->position());
PrintIndentedVisit("COND", node->cond());
PrintIndentedVisit("BODY", node->body());
}
void AstPrinter::VisitForStatement(ForStatement* node) {
IndentedScope indent(this, "FOR", node->position());
if (node->init()) PrintIndentedVisit("INIT", node->init());
if (node->cond()) PrintIndentedVisit("COND", node->cond());
PrintIndentedVisit("BODY", node->body());
if (node->next()) PrintIndentedVisit("NEXT", node->next());
}
void AstPrinter::VisitForInStatement(ForInStatement* node) {
IndentedScope indent(this, "FOR IN", node->position());
PrintIndentedVisit("FOR", node->each());
PrintIndentedVisit("IN", node->subject());
PrintIndentedVisit("BODY", node->body());
}
void AstPrinter::VisitForOfStatement(ForOfStatement* node) {
IndentedScope indent(this, "FOR OF", node->position());
const char* for_type;
switch (node->type()) {
case IteratorType::kNormal:
for_type = "FOR";
break;
case IteratorType::kAsync:
for_type = "FOR AWAIT";
break;
}
PrintIndentedVisit(for_type, node->each());
PrintIndentedVisit("OF", node->subject());
PrintIndentedVisit("BODY", node->body());
}
void AstPrinter::VisitTryCatchStatement(TryCatchStatement* node) {
IndentedScope indent(this, "TRY CATCH", node->position());
PrintIndentedVisit("TRY", node->try_block());
PrintIndented("CATCH PREDICTION");
const char* prediction = "";
switch (node->GetCatchPrediction(HandlerTable::UNCAUGHT)) {
case HandlerTable::UNCAUGHT:
prediction = "UNCAUGHT";
break;
case HandlerTable::CAUGHT:
prediction = "CAUGHT";
break;
case HandlerTable::ASYNC_AWAIT:
prediction = "ASYNC_AWAIT";
break;
case HandlerTable::UNCAUGHT_ASYNC_AWAIT:
prediction = "UNCAUGHT_ASYNC_AWAIT";
break;
case HandlerTable::PROMISE:
// Catch prediction resulting in promise rejections aren't
// parsed by the parser.
UNREACHABLE();
}
Print(" %s\n", prediction);
if (node->scope()) {
PrintLiteralWithModeIndented("CATCHVAR", node->scope()->catch_variable(),
node->scope()->catch_variable()->raw_name());
}
PrintIndentedVisit("CATCH", node->catch_block());
}
void AstPrinter::VisitTryFinallyStatement(TryFinallyStatement* node) {
IndentedScope indent(this, "TRY FINALLY", node->position());
PrintIndentedVisit("TRY", node->try_block());
PrintIndentedVisit("FINALLY", node->finally_block());
}
void AstPrinter::VisitDebuggerStatement(DebuggerStatement* node) {
IndentedScope indent(this, "DEBUGGER", node->position());
}
void AstPrinter::VisitFunctionLiteral(FunctionLiteral* node) {
IndentedScope indent(this, "FUNC LITERAL", node->position());
PrintIndented("LITERAL ID");
Print(" %d\n", node->function_literal_id());
PrintLiteralIndented("NAME", node->raw_name(), false);
PrintLiteralIndented("INFERRED NAME", node->raw_inferred_name(), false);
// We don't want to see the function literal in this case: it
// will be printed via PrintProgram when the code for it is
// generated.
// PrintParameters(node->scope());
// PrintStatements(node->body());
}
void AstPrinter::VisitClassLiteral(ClassLiteral* node) {
IndentedScope indent(this, "CLASS LITERAL", node->position());
PrintLiteralIndented("NAME", node->constructor()->raw_name(), false);
if (node->extends() != nullptr) {
PrintIndentedVisit("EXTENDS", node->extends());
}
Scope* outer = node->constructor()->scope()->outer_scope();
if (outer->is_class_scope()) {
Variable* brand = outer->AsClassScope()->brand();
if (brand != nullptr) {
PrintLiteralWithModeIndented("BRAND", brand, brand->raw_name());
}
}
if (node->static_initializer() != nullptr) {
PrintIndentedVisit("STATIC INITIALIZER", node->static_initializer());
}
if (node->instance_members_initializer_function() != nullptr) {
PrintIndentedVisit("INSTANCE MEMBERS INITIALIZER",
node->instance_members_initializer_function());
}
PrintClassProperties(node->private_members());
PrintClassProperties(node->public_members());
}
void AstPrinter::VisitInitializeClassMembersStatement(
InitializeClassMembersStatement* node) {
IndentedScope indent(this, "INITIALIZE CLASS MEMBERS", node->position());
PrintClassProperties(node->fields());
}
void AstPrinter::VisitInitializeClassStaticElementsStatement(
InitializeClassStaticElementsStatement* node) {
IndentedScope indent(this, "INITIALIZE CLASS STATIC ELEMENTS",
node->position());
PrintClassStaticElements(node->elements());
}
void AstPrinter::PrintClassProperty(ClassLiteral::Property* property) {
const char* prop_kind = nullptr;
switch (property->kind()) {
case ClassLiteral::Property::METHOD:
prop_kind = "METHOD";
break;
case ClassLiteral::Property::GETTER:
prop_kind = "GETTER";
break;
case ClassLiteral::Property::SETTER:
prop_kind = "SETTER";
break;
case ClassLiteral::Property::FIELD:
prop_kind = "FIELD";
break;
}
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "PROPERTY%s%s - %s", property->is_static() ? " - STATIC" : "",
property->is_private() ? " - PRIVATE" : " - PUBLIC", prop_kind);
IndentedScope prop(this, buf.begin());
PrintIndentedVisit("KEY", property->key());
PrintIndentedVisit("VALUE", property->value());
}
void AstPrinter::PrintClassProperties(
const ZonePtrList<ClassLiteral::Property>* properties) {
for (int i = 0; i < properties->length(); i++) {
PrintClassProperty(properties->at(i));
}
}
void AstPrinter::PrintClassStaticElements(
const ZonePtrList<ClassLiteral::StaticElement>* static_elements) {
for (int i = 0; i < static_elements->length(); i++) {
ClassLiteral::StaticElement* element = static_elements->at(i);
switch (element->kind()) {
case ClassLiteral::StaticElement::PROPERTY:
PrintClassProperty(element->property());
break;
case ClassLiteral::StaticElement::STATIC_BLOCK:
PrintIndentedVisit("STATIC BLOCK", element->static_block());
break;
}
}
}
void AstPrinter::VisitNativeFunctionLiteral(NativeFunctionLiteral* node) {
IndentedScope indent(this, "NATIVE FUNC LITERAL", node->position());
PrintLiteralIndented("NAME", node->raw_name(), false);
}
void AstPrinter::VisitConditional(Conditional* node) {
IndentedScope indent(this, "CONDITIONAL", node->position());
PrintIndentedVisit("CONDITION", node->condition());
PrintIndentedVisit("THEN", node->then_expression());
PrintIndentedVisit("ELSE", node->else_expression());
}
void AstPrinter::VisitLiteral(Literal* node) {
PrintLiteralIndented("LITERAL", node, true);
}
void AstPrinter::VisitRegExpLiteral(RegExpLiteral* node) {
IndentedScope indent(this, "REGEXP LITERAL", node->position());
PrintLiteralIndented("PATTERN", node->raw_pattern(), false);
int i = 0;
base::EmbeddedVector<char, 128> buf;
#define V(Lower, Camel, LowerCamel, Char, Bit) \
if (node->flags() & RegExp::k##Camel) buf[i++] = Char;
REGEXP_FLAG_LIST(V)
#undef V
buf[i] = '\0';
PrintIndented("FLAGS ");
Print("%s", buf.begin());
Print("\n");
}
void AstPrinter::VisitObjectLiteral(ObjectLiteral* node) {
IndentedScope indent(this, "OBJ LITERAL", node->position());
PrintObjectProperties(node->properties());
}
void AstPrinter::PrintObjectProperties(
const ZonePtrList<ObjectLiteral::Property>* properties) {
for (int i = 0; i < properties->length(); i++) {
ObjectLiteral::Property* property = properties->at(i);
const char* prop_kind = nullptr;
switch (property->kind()) {
case ObjectLiteral::Property::CONSTANT:
prop_kind = "CONSTANT";
break;
case ObjectLiteral::Property::COMPUTED:
prop_kind = "COMPUTED";
break;
case ObjectLiteral::Property::MATERIALIZED_LITERAL:
prop_kind = "MATERIALIZED_LITERAL";
break;
case ObjectLiteral::Property::PROTOTYPE:
prop_kind = "PROTOTYPE";
break;
case ObjectLiteral::Property::GETTER:
prop_kind = "GETTER";
break;
case ObjectLiteral::Property::SETTER:
prop_kind = "SETTER";
break;
case ObjectLiteral::Property::SPREAD:
prop_kind = "SPREAD";
break;
}
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "PROPERTY - %s", prop_kind);
IndentedScope prop(this, buf.begin());
PrintIndentedVisit("KEY", properties->at(i)->key());
PrintIndentedVisit("VALUE", properties->at(i)->value());
}
}
void AstPrinter::VisitArrayLiteral(ArrayLiteral* node) {
IndentedScope indent(this, "ARRAY LITERAL", node->position());
if (node->values()->length() > 0) {
IndentedScope indent(this, "VALUES", node->position());
for (int i = 0; i < node->values()->length(); i++) {
Visit(node->values()->at(i));
}
}
}
void AstPrinter::VisitVariableProxy(VariableProxy* node) {
base::EmbeddedVector<char, 128> buf;
int pos = SNPrintF(buf, "VAR PROXY");
if (!node->is_resolved()) {
SNPrintF(buf + pos, " unresolved");
PrintLiteralWithModeIndented(buf.begin(), nullptr, node->raw_name());
} else {
Variable* var = node->var();
switch (var->location()) {
case VariableLocation::UNALLOCATED:
SNPrintF(buf + pos, " unallocated");
break;
case VariableLocation::PARAMETER:
SNPrintF(buf + pos, " parameter[%d]", var->index());
break;
case VariableLocation::LOCAL:
SNPrintF(buf + pos, " local[%d]", var->index());
break;
case VariableLocation::CONTEXT:
SNPrintF(buf + pos, " context[%d]", var->index());
break;
case VariableLocation::LOOKUP:
SNPrintF(buf + pos, " lookup");
break;
case VariableLocation::MODULE:
SNPrintF(buf + pos, " module");
break;
case VariableLocation::REPL_GLOBAL:
SNPrintF(buf + pos, " repl global[%d]", var->index());
break;
}
PrintLiteralWithModeIndented(buf.begin(), var, node->raw_name());
}
}
void AstPrinter::VisitAssignment(Assignment* node) {
IndentedScope indent(this, Token::Name(node->op()), node->position());
Visit(node->target());
Visit(node->value());
}
void AstPrinter::VisitCompoundAssignment(CompoundAssignment* node) {
VisitAssignment(node);
}
void AstPrinter::VisitYield(Yield* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "YIELD");
IndentedScope indent(this, buf.begin(), node->position());
Visit(node->expression());
}
void AstPrinter::VisitYieldStar(YieldStar* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "YIELD_STAR");
IndentedScope indent(this, buf.begin(), node->position());
Visit(node->expression());
}
void AstPrinter::VisitAwait(Await* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "AWAIT");
IndentedScope indent(this, buf.begin(), node->position());
Visit(node->expression());
}
void AstPrinter::VisitThrow(Throw* node) {
IndentedScope indent(this, "THROW", node->position());
Visit(node->exception());
}
void AstPrinter::VisitOptionalChain(OptionalChain* node) {
IndentedScope indent(this, "OPTIONAL_CHAIN", node->position());
Visit(node->expression());
}
void AstPrinter::VisitProperty(Property* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "PROPERTY");
IndentedScope indent(this, buf.begin(), node->position());
Visit(node->obj());
AssignType type = Property::GetAssignType(node);
switch (type) {
case NAMED_PROPERTY:
case NAMED_SUPER_PROPERTY: {
PrintLiteralIndented("NAME", node->key()->AsLiteral(), false);
break;
}
case PRIVATE_METHOD: {
PrintIndentedVisit("PRIVATE_METHOD", node->key());
break;
}
case PRIVATE_GETTER_ONLY: {
PrintIndentedVisit("PRIVATE_GETTER_ONLY", node->key());
break;
}
case PRIVATE_SETTER_ONLY: {
PrintIndentedVisit("PRIVATE_SETTER_ONLY", node->key());
break;
}
case PRIVATE_GETTER_AND_SETTER: {
PrintIndentedVisit("PRIVATE_GETTER_AND_SETTER", node->key());
break;
}
case KEYED_PROPERTY:
case KEYED_SUPER_PROPERTY: {
PrintIndentedVisit("KEY", node->key());
break;
}
case NON_PROPERTY:
UNREACHABLE();
}
}
void AstPrinter::VisitCall(Call* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "CALL");
IndentedScope indent(this, buf.begin());
Visit(node->expression());
PrintArguments(node->arguments());
}
void AstPrinter::VisitCallNew(CallNew* node) {
IndentedScope indent(this, "CALL NEW", node->position());
Visit(node->expression());
PrintArguments(node->arguments());
}
void AstPrinter::VisitCallRuntime(CallRuntime* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "CALL RUNTIME %s%s", node->debug_name(),
node->is_jsruntime() ? " (JS function)" : "");
IndentedScope indent(this, buf.begin(), node->position());
PrintArguments(node->arguments());
}
void AstPrinter::VisitUnaryOperation(UnaryOperation* node) {
IndentedScope indent(this, Token::Name(node->op()), node->position());
Visit(node->expression());
}
void AstPrinter::VisitCountOperation(CountOperation* node) {
base::EmbeddedVector<char, 128> buf;
SNPrintF(buf, "%s %s", (node->is_prefix() ? "PRE" : "POST"),
Token::Name(node->op()));
IndentedScope indent(this, buf.begin(), node->position());
Visit(node->expression());
}
void AstPrinter::VisitBinaryOperation(BinaryOperation* node) {
IndentedScope indent(this, Token::Name(node->op()), node->position());
Visit(node->left());
Visit(node->right());
}
void AstPrinter::VisitNaryOperation(NaryOperation* node) {
IndentedScope indent(this, Token::Name(node->op()), node->position());
Visit(node->first());
for (size_t i = 0; i < node->subsequent_length(); ++i) {
Visit(node->subsequent(i));
}
}
void AstPrinter::VisitCompareOperation(CompareOperation* node) {
IndentedScope indent(this, Token::Name(node->op()), node->position());
Visit(node->left());
Visit(node->right());
}
void AstPrinter::VisitSpread(Spread* node) {
IndentedScope indent(this, "SPREAD", node->position());
Visit(node->expression());
}
void AstPrinter::VisitEmptyParentheses(EmptyParentheses* node) {
IndentedScope indent(this, "()", node->position());
}
void AstPrinter::VisitGetTemplateObject(GetTemplateObject* node) {
IndentedScope indent(this, "GET-TEMPLATE-OBJECT", node->position());
}
void AstPrinter::VisitTemplateLiteral(TemplateLiteral* node) {
IndentedScope indent(this, "TEMPLATE-LITERAL", node->position());
const AstRawString* string = node->string_parts()->first();
if (!string->IsEmpty()) PrintLiteralIndented("SPAN", string, true);
for (int i = 0; i < node->substitutions()->length();) {
PrintIndentedVisit("EXPR", node->substitutions()->at(i++));
if (i < node->string_parts()->length()) {
string = node->string_parts()->at(i);
if (!string->IsEmpty()) PrintLiteralIndented("SPAN", string, true);
}
}
}
void AstPrinter::VisitImportCallExpression(ImportCallExpression* node) {
IndentedScope indent(this, "IMPORT-CALL", node->position());
Visit(node->specifier());
if (node->import_assertions()) {
Visit(node->import_assertions());
}
}
void AstPrinter::VisitThisExpression(ThisExpression* node) {
IndentedScope indent(this, "THIS-EXPRESSION", node->position());
}
void AstPrinter::VisitSuperPropertyReference(SuperPropertyReference* node) {
IndentedScope indent(this, "SUPER-PROPERTY-REFERENCE", node->position());
}
void AstPrinter::VisitSuperCallReference(SuperCallReference* node) {
IndentedScope indent(this, "SUPER-CALL-REFERENCE", node->position());
}
#endif // DEBUG
} // namespace internal
} // namespace v8
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