diff --git a/src/preparser-api.cc b/src/preparser-api.cc index e0ab5001f5..41289882e8 100644 --- a/src/preparser-api.cc +++ b/src/preparser-api.cc @@ -32,6 +32,7 @@ #include "allocation.h" #include "utils.h" #include "list.h" +#include "hashmap.h" #include "scanner-base.h" #include "preparse-data-format.h" #include "preparse-data.h" diff --git a/src/preparser.cc b/src/preparser.cc index da83f96aeb..d0e825a9f0 100644 --- a/src/preparser.cc +++ b/src/preparser.cc @@ -25,6 +25,9 @@ // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +#include +#include + #include "../include/v8stdint.h" #include "unicode.h" #include "globals.h" @@ -32,6 +35,7 @@ #include "allocation.h" #include "utils.h" #include "list.h" +#include "hashmap.h" #include "scanner-base.h" #include "preparse-data-format.h" @@ -68,27 +72,22 @@ void PreParser::ReportUnexpectedToken(i::Token::Value token) { // Four of the tokens are treated specially switch (token) { case i::Token::EOS: - return ReportMessageAt(source_location.beg_pos, source_location.end_pos, - "unexpected_eos", NULL); + return ReportMessageAt(source_location, "unexpected_eos", NULL); case i::Token::NUMBER: - return ReportMessageAt(source_location.beg_pos, source_location.end_pos, - "unexpected_token_number", NULL); + return ReportMessageAt(source_location, "unexpected_token_number", NULL); case i::Token::STRING: - return ReportMessageAt(source_location.beg_pos, source_location.end_pos, - "unexpected_token_string", NULL); + return ReportMessageAt(source_location, "unexpected_token_string", NULL); case i::Token::IDENTIFIER: - return ReportMessageAt(source_location.beg_pos, source_location.end_pos, + return ReportMessageAt(source_location, "unexpected_token_identifier", NULL); case i::Token::FUTURE_RESERVED_WORD: - return ReportMessageAt(source_location.beg_pos, source_location.end_pos, - "unexpected_reserved", NULL); + return ReportMessageAt(source_location, "unexpected_reserved", NULL); case i::Token::FUTURE_STRICT_RESERVED_WORD: - return ReportMessageAt(source_location.beg_pos, source_location.end_pos, + return ReportMessageAt(source_location, "unexpected_strict_reserved", NULL); default: const char* name = i::Token::String(token); - ReportMessageAt(source_location.beg_pos, source_location.end_pos, - "unexpected_token", name); + ReportMessageAt(source_location, "unexpected_token", name); } } @@ -98,7 +97,7 @@ void PreParser::ReportUnexpectedToken(i::Token::Value token) { void PreParser::CheckOctalLiteral(int beg_pos, int end_pos, bool* ok) { i::Scanner::Location octal = scanner_->octal_position(); if (beg_pos <= octal.beg_pos && octal.end_pos <= end_pos) { - ReportMessageAt(octal.beg_pos, octal.end_pos, "strict_octal_literal", NULL); + ReportMessageAt(octal, "strict_octal_literal", NULL); scanner_->clear_octal_position(); *ok = false; } @@ -241,7 +240,7 @@ PreParser::Statement PreParser::ParseFunctionDeclaration(bool* ok) { if (identifier.IsFutureStrictReserved()) { type = "strict_reserved_word"; } - ReportMessageAt(location.beg_pos, location.end_pos, type, NULL); + ReportMessageAt(location, type, NULL); *ok = false; } return Statement::FunctionDeclaration(); @@ -298,8 +297,7 @@ PreParser::Statement PreParser::ParseVariableDeclarations(bool accept_IN, } else if (peek() == i::Token::CONST) { if (strict_mode()) { i::Scanner::Location location = scanner_->peek_location(); - ReportMessageAt(location.beg_pos, location.end_pos, - "strict_const", NULL); + ReportMessageAt(location, "strict_const", NULL); *ok = false; return Statement::Default(); } @@ -448,8 +446,7 @@ PreParser::Statement PreParser::ParseWithStatement(bool* ok) { Expect(i::Token::WITH, CHECK_OK); if (strict_mode()) { i::Scanner::Location location = scanner_->location(); - ReportMessageAt(location.beg_pos, location.end_pos, - "strict_mode_with", NULL); + ReportMessageAt(location, "strict_mode_with", NULL); *ok = false; return Statement::Default(); } @@ -584,8 +581,7 @@ PreParser::Statement PreParser::ParseThrowStatement(bool* ok) { Expect(i::Token::THROW, CHECK_OK); if (scanner_->HasAnyLineTerminatorBeforeNext()) { i::JavaScriptScanner::Location pos = scanner_->location(); - ReportMessageAt(pos.beg_pos, pos.end_pos, - "newline_after_throw", NULL); + ReportMessageAt(pos, "newline_after_throw", NULL); *ok = false; return Statement::Default(); } @@ -997,8 +993,7 @@ PreParser::Expression PreParser::ParsePrimaryExpression(bool* ok) { if (strict_mode()) { Next(); i::Scanner::Location location = scanner_->location(); - ReportMessageAt(location.beg_pos, location.end_pos, - "strict_reserved_word", NULL); + ReportMessageAt(location, "strict_reserved_word", NULL); *ok = false; return Expression::Default(); } @@ -1079,6 +1074,39 @@ PreParser::Expression PreParser::ParseArrayLiteral(bool* ok) { return Expression::Default(); } +void PreParser::CheckDuplicate(DuplicateFinder* finder, + i::Token::Value property, + int type, + bool* ok) { + int old_value; + if (property == i::Token::NUMBER) { + old_value = finder->AddNumber(scanner_->literal_ascii_string(), type); + } else if (scanner_->is_literal_ascii()) { + old_value = finder->AddAsciiSymbol(scanner_->literal_ascii_string(), + type); + } else { + old_value = finder->AddUC16Symbol(scanner_->literal_uc16_string(), type); + } + int intersect = old_value & type; + if (intersect != 0) { + if ((intersect & kValueFlag) != 0) { + // Both are data properties. + if (!strict_mode()) return; + ReportMessageAt(scanner_->location(), + "strict_duplicate_property", NULL); + } else if (((old_value ^ type) & kValueFlag) != 0) { + // Both a data and an accessor property with the same name. + ReportMessageAt(scanner_->location(), + "accessor_data_property", NULL); + } else { + // Both accessors of the same type. + ReportMessageAt(scanner_->location(), + "accessor_get_set", NULL); + } + *ok = false; + } +} + PreParser::Expression PreParser::ParseObjectLiteral(bool* ok) { // ObjectLiteral :: @@ -1088,6 +1116,7 @@ PreParser::Expression PreParser::ParseObjectLiteral(bool* ok) { // )*[','] '}' Expect(i::Token::LBRACE, CHECK_OK); + DuplicateFinder duplicate_finder; while (peek() != i::Token::RBRACE) { i::Token::Value next = peek(); switch (next) { @@ -1112,24 +1141,30 @@ PreParser::Expression PreParser::ParseObjectLiteral(bool* ok) { if (!is_keyword) { LogSymbol(); } + int type = is_getter ? kGetterProperty : kSetterProperty; + CheckDuplicate(&duplicate_finder, name, type, CHECK_OK); ParseFunctionLiteral(CHECK_OK); if (peek() != i::Token::RBRACE) { Expect(i::Token::COMMA, CHECK_OK); } continue; // restart the while } + CheckDuplicate(&duplicate_finder, next, kValueProperty, CHECK_OK); break; } case i::Token::STRING: Consume(next); + CheckDuplicate(&duplicate_finder, next, kValueProperty, CHECK_OK); GetStringSymbol(); break; case i::Token::NUMBER: Consume(next); + CheckDuplicate(&duplicate_finder, next, kValueProperty, CHECK_OK); break; default: if (i::Token::IsKeyword(next)) { Consume(next); + CheckDuplicate(&duplicate_finder, next, kValueProperty, CHECK_OK); } else { // Unexpected token. *ok = false; @@ -1154,9 +1189,7 @@ PreParser::Expression PreParser::ParseRegExpLiteral(bool seen_equal, bool* ok) { if (!scanner_->ScanRegExpPattern(seen_equal)) { Next(); - i::JavaScriptScanner::Location location = scanner_->location(); - ReportMessageAt(location.beg_pos, location.end_pos, - "unterminated_regexp", NULL); + ReportMessageAt(scanner_->location(), "unterminated_regexp", NULL); *ok = false; return Expression::Default(); } @@ -1165,9 +1198,7 @@ PreParser::Expression PreParser::ParseRegExpLiteral(bool seen_equal, if (!scanner_->ScanRegExpFlags()) { Next(); - i::JavaScriptScanner::Location location = scanner_->location(); - ReportMessageAt(location.beg_pos, location.end_pos, - "invalid_regexp_flags", NULL); + ReportMessageAt(scanner_->location(), "invalid_regexp_flags", NULL); *ok = false; return Expression::Default(); } @@ -1212,6 +1243,7 @@ PreParser::Expression PreParser::ParseFunctionLiteral(bool* ok) { Expect(i::Token::LPAREN, CHECK_OK); int start_position = scanner_->location().beg_pos; bool done = (peek() == i::Token::RPAREN); + DuplicateFinder duplicate_finder; while (!done) { Identifier id = ParseIdentifier(CHECK_OK); if (!id.IsValidStrictVariable()) { @@ -1220,6 +1252,20 @@ PreParser::Expression PreParser::ParseFunctionLiteral(bool* ok) { id, CHECK_OK); } + int prev_value; + if (scanner_->is_literal_ascii()) { + prev_value = + duplicate_finder.AddAsciiSymbol(scanner_->literal_ascii_string(), 1); + } else { + prev_value = + duplicate_finder.AddUC16Symbol(scanner_->literal_uc16_string(), 1); + } + + if (prev_value != 0) { + SetStrictModeViolation(scanner_->location(), + "strict_param_dupe", + CHECK_OK); + } done = (peek() == i::Token::RPAREN); if (!done) { Expect(i::Token::COMMA, CHECK_OK); @@ -1371,13 +1417,18 @@ void PreParser::SetStrictModeViolation(i::Scanner::Location location, const char* type, bool* ok) { if (strict_mode()) { - ReportMessageAt(location.beg_pos, location.end_pos, type, NULL); + ReportMessageAt(location, type, NULL); *ok = false; return; } // Delay report in case this later turns out to be strict code // (i.e., for function names and parameters prior to a "use strict" // directive). + // It's safe to overwrite an existing violation. + // It's either from a function that turned out to be non-strict, + // or it's in the current function (and we just need to report + // one error), or it's in a unclosed nesting function that wasn't + // strict (otherwise we would already be in strict mode). strict_mode_violation_location_ = location; strict_mode_violation_type_ = type; } @@ -1389,11 +1440,9 @@ void PreParser::CheckDelayedStrictModeViolation(int beg_pos, i::Scanner::Location location = strict_mode_violation_location_; if (location.IsValid() && location.beg_pos > beg_pos && location.end_pos < end_pos) { - ReportMessageAt(location.beg_pos, location.end_pos, - strict_mode_violation_type_, NULL); + ReportMessageAt(location, strict_mode_violation_type_, NULL); *ok = false; } - strict_mode_violation_location_ = i::Scanner::Location::invalid(); } @@ -1408,7 +1457,7 @@ void PreParser::StrictModeIdentifierViolation(i::Scanner::Location location, type = "strict_reserved_word"; } if (strict_mode()) { - ReportMessageAt(location.beg_pos, location.end_pos, type, NULL); + ReportMessageAt(location, type, NULL); *ok = false; return; } @@ -1460,4 +1509,141 @@ bool PreParser::peek_any_identifier() { next == i::Token::FUTURE_RESERVED_WORD || next == i::Token::FUTURE_STRICT_RESERVED_WORD; } + + +int DuplicateFinder::AddAsciiSymbol(i::Vector key, int value) { + return AddSymbol(i::Vector::cast(key), true, value); +} + +int DuplicateFinder::AddUC16Symbol(i::Vector key, int value) { + return AddSymbol(i::Vector::cast(key), false, value); +} + +int DuplicateFinder::AddSymbol(i::Vector key, + bool is_ascii, + int value) { + uint32_t hash = Hash(key, is_ascii); + byte* encoding = BackupKey(key, is_ascii); + i::HashMap::Entry* entry = map_->Lookup(encoding, hash, true); + int old_value = static_cast(reinterpret_cast(entry->value)); + entry->value = + reinterpret_cast(static_cast(value | old_value)); + return old_value; +} + + +int DuplicateFinder::AddNumber(i::Vector key, int value) { + // Quick check for already being in canonical form. + if (IsNumberCanonical(key)) { + return AddAsciiSymbol(key, value); + } + + // TODO(lrn): Use correct string->number->string conversions that + // generate the same string as v8's ToString(ToNumber(literal)). + // Current solution doesn't handle octal, and probably doesn't + // generate the same string in edge cases. + double double_value = 0.0; + double_value = strtod(key.start(), NULL); + int length; + if (errno == ERANGE && double_value == HUGE_VAL) { + // Overflow. + // Negative overflow (-HUGE_VAL) cannit happen as number literals + // don't have signs. + // Underflow is handled by the default code, since it returns 0. + length = 8; // strlen("Infinity"); + memcpy(number_buffer_, "Infinity", length); + } else { + length = snprintf(number_buffer_, kBufferSize, "%g", double_value); + } + return AddAsciiSymbol(i::Vector(number_buffer_, length), value); +} + + +bool DuplicateFinder::IsNumberCanonical(i::Vector number) { + // Test for a safe approximation of number literals that are already + // in canonical form: max 15 digits, no leading zeroes, except an + // integer part that is a single zero, and no trailing zeros below + // the decimal point. + int pos = 0; + int length = number.length(); + if (number.length() > 15) return false; + if (number[pos] == '0') { + pos++; + } else { + while (pos < length && + static_cast(number[pos] - '0') <= ('9' - '0')) pos++; + } + if (length == pos) return true; + if (number[pos] != '.') return false; + pos++; + bool invalid_last_digit = true; + while (pos < length) { + byte digit = number[pos] - '0'; + if (digit > '9' - '0') return false; + invalid_last_digit = (digit == 0); + pos++; + } + return !invalid_last_digit; +} + + +uint32_t DuplicateFinder::Hash(i::Vector key, bool is_ascii) { + // Primitive hash function, almost identical to the one used + // for strings (except that it's seeded by the length and ASCII-ness). + int length = key.length(); + uint32_t hash = (length << 1) | (is_ascii ? 1 : 0) ; + for (int i = 0; i < length; i++) { + uint32_t c = key[i]; + hash = (hash + c) * 1025; + hash ^= (hash >> 6); + } + return hash; +} + + +bool DuplicateFinder::Match(void* first, void* second) { + // Decode lengths. + // Length + ASCII-bit is encoded as base 128, most significant heptet first, + // with a 8th bit being non-zero while there are more heptets. + // The value encodes the number of bytes following, and whether the original + // was ASCII. + byte* s1 = reinterpret_cast(first); + byte* s2 = reinterpret_cast(second); + uint32_t length_ascii_field = 0; + byte c1; + do { + c1 = *s1; + if (c1 != *s2) return false; + length_ascii_field = (length_ascii_field << 7) | (c1 & 0x7f); + s1++; + s2++; + } while ((c1 & 0x80) != 0); + int length = static_cast(length_ascii_field >> 1); + return memcmp(s1, s2, length) == 0; +} + + +byte* DuplicateFinder::BackupKey(i::Vector bytes, + bool is_ascii) { + uint32_t ascii_length = (bytes.length() << 1) | (is_ascii ? 1 : 0); + backing_store_.StartSequence(); + // Emit ascii_length as base-128 encoded number, with the 7th bit set + // on the byte of every heptet except the last, least significant, one. + if (ascii_length >= (1 << 7)) { + if (ascii_length >= (1 << 14)) { + if (ascii_length >= (1 << 21)) { + if (ascii_length >= (1 << 28)) { + backing_store_.Add(static_cast((ascii_length >> 28) | 0x80)); + } + backing_store_.Add(static_cast((ascii_length >> 21) | 0x80u)); + } + backing_store_.Add(static_cast((ascii_length >> 14) | 0x80u)); + } + backing_store_.Add(static_cast((ascii_length >> 7) | 0x80u)); + } + backing_store_.Add(static_cast(ascii_length & 0x7f)); + + backing_store_.AddBlock(bytes); + return backing_store_.EndSequence().start(); +} } } // v8::preparser diff --git a/src/preparser.h b/src/preparser.h index 3d72c97e26..863a2c70ba 100644 --- a/src/preparser.h +++ b/src/preparser.h @@ -31,6 +31,8 @@ namespace v8 { namespace preparser { +typedef uint8_t byte; + // Preparsing checks a JavaScript program and emits preparse-data that helps // a later parsing to be faster. // See preparse-data-format.h for the data format. @@ -46,6 +48,51 @@ namespace preparser { namespace i = v8::internal; +class DuplicateFinder { + public: + DuplicateFinder() + : backing_store_(16), + map_(new i::HashMap(&Match)) { } + ~DuplicateFinder() { + delete map_; + } + + int AddAsciiSymbol(i::Vector key, int value); + int AddUC16Symbol(i::Vector key, int value); + // Add a a number literal by converting it (if necessary) + // to the string that ToString(ToNumber(literal)) would generate. + // and then adding that string with AddAsciiSymbol. + // This string is the actual value used as key in an object literal, + // and the one that must be different from the other keys. + int AddNumber(i::Vector key, int value); + + private: + int AddSymbol(i::Vector key, bool is_ascii, int value); + // Backs up the key and its length in the backing store. + // The backup is stored with a base 127 encoding of the + // length (plus a bit saying whether the string is ASCII), + // followed by the bytes of the key. + byte* BackupKey(i::Vector key, bool is_ascii); + + // Compare two encoded keys (both pointing into the backing store) + // for having the same base-127 encoded lengths and ASCII-ness, + // and then having the same 'length' bytes following. + static bool Match(void* first, void* second); + // Creates a hash from a sequence of bytes. + static uint32_t Hash(i::Vector key, bool is_ascii); + // Checks whether a string containing a JS number is its canonical + // form. + static bool IsNumberCanonical(i::Vector key); + + static const int kBufferSize = 100; + // Buffer used for string->number->canonical string conversions. + char number_buffer_[kBufferSize]; + // Backing store used to store strings used as hashmap keys. + i::SequenceCollector backing_store_; + i::HashMap* map_; +}; + + class PreParser { public: enum PreParseResult { @@ -67,6 +114,22 @@ class PreParser { } private: + // Used to detect duplicates in object literals. + enum PropertyType { + kNone = 0, + // Bit patterns representing different object literal property types. + kGetterProperty = 1, + kSetterProperty = 2, + kValueProperty = 7, + // Helper constants. + kValueFlag = 4 + }; + + void CheckDuplicate(DuplicateFinder* finder, + i::Token::Value property, + int type, + bool* ok); + // These types form an algebra over syntactic categories that is just // rich enough to let us recognize and propagate the constructs that // are either being counted in the preparser data, or is important @@ -364,6 +427,11 @@ class PreParser { // Report syntax error void ReportUnexpectedToken(i::Token::Value token); + void ReportMessageAt(i::Scanner::Location location, + const char* type, + const char* name_opt) { + log_->LogMessage(location.beg_pos, location.end_pos, type, name_opt); + } void ReportMessageAt(int start_pos, int end_pos, const char* type, diff --git a/src/utils.h b/src/utils.h index 331c01add8..f62696a1d3 100644 --- a/src/utils.h +++ b/src/utils.h @@ -496,9 +496,6 @@ class Collector { public: explicit Collector(int initial_capacity = kMinCapacity) : index_(0), size_(0) { - if (initial_capacity < kMinCapacity) { - initial_capacity = kMinCapacity; - } current_chunk_ = Vector::New(initial_capacity); } @@ -600,13 +597,21 @@ class Collector { // Creates a new current chunk, and stores the old chunk in the chunks_ list. void Grow(int min_capacity) { ASSERT(growth_factor > 1); - int growth = current_chunk_.length() * (growth_factor - 1); - if (growth > max_growth) { - growth = max_growth; - } - int new_capacity = current_chunk_.length() + growth; - if (new_capacity < min_capacity) { - new_capacity = min_capacity + growth; + int new_capacity; + int current_length = current_chunk_.length(); + if (current_length < kMinCapacity) { + // The collector started out as empty. + new_capacity = min_capacity * growth_factor; + if (new_capacity < kMinCapacity) new_capacity = kMinCapacity; + } else { + int growth = current_length * (growth_factor - 1); + if (growth > max_growth) { + growth = max_growth; + } + new_capacity = current_length + growth; + if (new_capacity < min_capacity) { + new_capacity = min_capacity + growth; + } } Vector new_chunk = Vector::New(new_capacity); int new_index = PrepareGrow(new_chunk); diff --git a/test/preparser/duplicate-parameter.pyt b/test/preparser/duplicate-parameter.pyt new file mode 100644 index 0000000000..52aafdbbdc --- /dev/null +++ b/test/preparser/duplicate-parameter.pyt @@ -0,0 +1,80 @@ +# Copyright 2011 the V8 project authors. All rights reserved. +# Redistribution and use in source and binary forms, with or without +# modification, are permitted provided that the following conditions are +# met: +# +# * Redistributions of source code must retain the above copyright +# notice, this list of conditions and the following disclaimer. +# * Redistributions in binary form must reproduce the above +# copyright notice, this list of conditions and the following +# disclaimer in the documentation and/or other materials provided +# with the distribution. +# * Neither the name of Google Inc. nor the names of its +# contributors may be used to endorse or promote products derived +# from this software without specific prior written permission. +# +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +# Templatated tests with duplicate parameter names. + +# ---------------------------------------------------------------------- +# Constants and utility functions + +# A template that performs the same strict-mode test in different +# scopes (global scope, function scope, and nested function scope), +# and in non-strict mode too. +def DuplicateParameterTest(name, source): + expectation = "strict_param_dupe" + non_selfstrict = {"selfstrict":"", "id":"selfnormal"} + + Template(name, '"use strict";\n' + source)(non_selfstrict, expectation) + Template(name + '-infunc', + 'function foo() {\n "use strict";\n' + source +'\n}\n')( + non_selfstrict, expectation) + Template(name + '-infunc2', + 'function foo() {\n "use strict";\n function bar() {\n' + + source +'\n }\n}\n')(non_selfstrict, expectation) + + selfstrict = {"selfstrict": "\"use strict\";", "id": "selfstrict"} + nestedstrict = {"selfstrict": "function bar(){\"use strict\";}", + "id": "nestedstrict"} + selfstrictnestedclean = {"selfstrict": """ + "use strict"; + function bar(){} + """, "id": "selfstrictnestedclean"} + selftest = Template(name + '-$id', source) + selftest(selfstrict, expectation) + selftest(selfstrictnestedclean, expectation) + selftest(nestedstrict, None) + selftest(non_selfstrict, None) + + +# ---------------------------------------------------------------------- +# Test templates + +DuplicateParameterTest("dups", """ + function foo(a, a) { $selfstrict } +"""); + +DuplicateParameterTest("dups-apart", """ + function foo(a, b, c, d, e, f, g, h, i, j, k, l, m, n, a) { $selfstrict } +"""); + +DuplicateParameterTest("dups-escaped", """ + function foo(\u0061, b, c, d, e, f, g, h, i, j, k, l, m, n, a) { $selfstrict } +"""); + +DuplicateParameterTest("triples", """ + function foo(a, b, c, d, e, f, g, h, a, i, j, k, l, m, n, a) { $selfstrict } +"""); + diff --git a/test/preparser/duplicate-property.pyt b/test/preparser/duplicate-property.pyt new file mode 100644 index 0000000000..be2f76ab17 --- /dev/null +++ b/test/preparser/duplicate-property.pyt @@ -0,0 +1,144 @@ +# Copyright 2011 the V8 project authors. All rights reserved. +# Redistribution and use in source and binary forms, with or without +# modification, are permitted provided that the following conditions are +# met: +# +# * Redistributions of source code must retain the above copyright +# notice, this list of conditions and the following disclaimer. +# * Redistributions in binary form must reproduce the above +# copyright notice, this list of conditions and the following +# disclaimer in the documentation and/or other materials provided +# with the distribution. +# * Neither the name of Google Inc. nor the names of its +# contributors may be used to endorse or promote products derived +# from this software without specific prior written permission. +# +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +# Tests of duplicate properties in object literals. + +# ---------------------------------------------------------------------- +# Utility functions to generate a number of tests for each property +# name pair. + +def PropertyTest(name, propa, propb): + replacement = {"id1": propa, "id2": propb, "name": name} + + def StrictTest(name, source, replacement, expectation): + Template("strict-" + name, + "\"use strict\";\n" + source)(replacement, expectation) + Template(name, source)(replacement, expectation) + + Template("strict-$name-data-data", """ + "use strict"; + var o = {$id1: 42, $id2: 42}; + """)(replacement, "strict_duplicate_property") + + Template("$name-data-data", """ + var o = {$id1: 42, $id2: 42}; + """)(replacement, None) + + StrictTest("$name-data-get", """ + var o = {$id1: 42, get $id2(){}}; + """, replacement, "accessor_data_property") + + StrictTest("$name-data-set", """ + var o = {$id1: 42, set $id2(v){}}; + """, replacement, "accessor_data_property") + + StrictTest("$name-get-data", """ + var o = {get $id1(){}, $id2: 42}; + """, replacement, "accessor_data_property") + + StrictTest("$name-set-data", """ + var o = {set $id1(v){}, $id2: 42}; + """, replacement, "accessor_data_property") + + StrictTest("$name-get-get", """ + var o = {get $id1(){}, get $id2(){}}; + """, replacement, "accessor_get_set") + + StrictTest("$name-set-set", """ + var o = {set $id1(v){}, set $id2(v){}}; + """, replacement, "accessor_get_set") + + StrictTest("$name-nested-get", """ + var o = {get $id1(){}, o: {get $id2(){} } }; + """, replacement, None) + + StrictTest("$name-nested-set", """ + var o = {set $id1(){}, o: {set $id2(){} } }; + """, replacement, None) + + +def TestBothWays(name, propa, propb): + PropertyTest(name + "-1", propa, propb) + PropertyTest(name + "-2", propb, propa) + +def TestSame(name, prop): + PropertyTest(name, prop, prop) + +#----------------------------------------------------------------------- + +# Simple identifier property +TestSame("a", "a") + +# Get/set identifiers +TestSame("get-id", "get") +TestSame("set-id", "set") + +# Number properties +TestSame("0", "0") +TestSame("0.1", "0.1") +TestSame("1.0", "1.0") +TestSame("42.33", "42.33") +TestSame("2^32-2", "4294967294") +TestSame("2^32", "4294967296") +TestSame("2^53", "9007199254740992") +TestSame("Hex20", "0x20") +TestSame("exp10", "1e10") +TestSame("exp20", "1e20") + +# String properties +TestSame("str-a", '"a"') +TestSame("str-0", '"0"') +TestSame("str-42", '"42"') +TestSame("str-empty", '""') + +# Keywords +TestSame("if", "if") +TestSame("case", "case") + +# Future reserved keywords +TestSame("public", "public") +TestSame("class", "class") + + +# Test that numbers are converted to string correctly. + +TestBothWays("hex-int", "0x20", "32") +TestBothWays("dec-int", "32.00", "32") +TestBothWays("dec-underflow-int", + "32.00000000000000000000000000000000000000001", "32") +TestBothWays("exp-int", "3.2e1", "32") +TestBothWays("exp-int", "3200e-2", "32") +TestBothWays("overflow-inf", "1e2000", "Infinity") +TestBothWays("underflow-0", "1e-2000", "0") +TestBothWays("precission-loss-high", "9007199254740992", "9007199254740993") +TestBothWays("precission-loss-low", "1.9999999999999998", "1.9999999999999997") + +TestBothWays("hex-int-str", "0x20", '"32"') +TestBothWays("dec-int-str", "32.00", '"32"') +TestBothWays("exp-int-str", "3.2e1", '"32"') +TestBothWays("overflow-inf-str", "1e2000", '"Infinity"') +TestBothWays("underflow-0-str", "1e-2000", '"0"') diff --git a/test/preparser/testcfg.py b/test/preparser/testcfg.py index 39b62c396d..c534fa1cf5 100644 --- a/test/preparser/testcfg.py +++ b/test/preparser/testcfg.py @@ -98,7 +98,6 @@ class PreparserTestConfiguration(test.TestConfiguration): def ParsePythonTestTemplates(self, result, filename, executable, current_path, mode): pathname = join(self.root, filename + ".pyt") - source = open(pathname).read(); def Test(name, source, expectation): throws = None if (expectation is not None): @@ -118,8 +117,7 @@ class PreparserTestConfiguration(test.TestConfiguration): testsource = testsource.replace("$"+key, replacement[key]); Test(testname, testsource, expectation) return MkTest - eval(compile(source, pathname, "exec"), - {"Test": Test, "Template": Template}, {}) + execfile(pathname, {"Test": Test, "Template": Template}) def ListTests(self, current_path, path, mode, variant_flags): executable = join('obj', 'preparser', mode, 'preparser') @@ -143,9 +141,9 @@ class PreparserTestConfiguration(test.TestConfiguration): filenames.sort() for file in filenames: # Each file as a python source file to be executed in a specially - # perparsed environment (defining the Template and Test functions) + # created environment (defining the Template and Test functions) self.ParsePythonTestTemplates(result, file, - executable, current_path, mode) + executable, current_path, mode) return result def GetTestStatus(self, sections, defs):