v8/src/messages.js

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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.
// -------------------------------------------------------------------
var kMessages = {
// Error
cyclic_proto: ["Cyclic __proto__ value"],
code_gen_from_strings: ["%0"],
constructor_special_method: ["Class constructor may not be an accessor"],
generator_running: ["Generator is already running"],
generator_finished: ["Generator has already finished"],
// TypeError
unexpected_token: ["Unexpected token ", "%0"],
unexpected_token_number: ["Unexpected number"],
unexpected_token_string: ["Unexpected string"],
unexpected_token_identifier: ["Unexpected identifier"],
unexpected_reserved: ["Unexpected reserved word"],
unexpected_strict_reserved: ["Unexpected strict mode reserved word"],
unexpected_eos: ["Unexpected end of input"],
malformed_regexp: ["Invalid regular expression: /", "%0", "/: ", "%1"],
unterminated_regexp: ["Invalid regular expression: missing /"],
regexp_flags: ["Cannot supply flags when constructing one RegExp from another"],
incompatible_method_receiver: ["Method ", "%0", " called on incompatible receiver ", "%1"],
multiple_defaults_in_switch: ["More than one default clause in switch statement"],
newline_after_throw: ["Illegal newline after throw"],
label_redeclaration: ["Label '", "%0", "' has already been declared"],
var_redeclaration: ["Identifier '", "%0", "' has already been declared"],
duplicate_template_property: ["Object template has duplicate property '", "%0", "'"],
no_catch_or_finally: ["Missing catch or finally after try"],
unknown_label: ["Undefined label '", "%0", "'"],
uncaught_exception: ["Uncaught ", "%0"],
stack_trace: ["Stack Trace:\n", "%0"],
called_non_callable: ["%0", " is not a function"],
undefined_method: ["Object ", "%1", " has no method '", "%0", "'"],
property_not_function: ["Property '", "%0", "' of object ", "%1", " is not a function"],
cannot_convert_to_primitive: ["Cannot convert object to primitive value"],
not_constructor: ["%0", " is not a constructor"],
not_defined: ["%0", " is not defined"],
non_method: ["'super' is referenced from non-method"],
unsupported_super: ["Unsupported reference to 'super'"],
non_object_property_load: ["Cannot read property '", "%0", "' of ", "%1"],
non_object_property_store: ["Cannot set property '", "%0", "' of ", "%1"],
with_expression: ["%0", " has no properties"],
illegal_invocation: ["Illegal invocation"],
no_setter_in_callback: ["Cannot set property ", "%0", " of ", "%1", " which has only a getter"],
apply_non_function: ["Function.prototype.apply was called on ", "%0", ", which is a ", "%1", " and not a function"],
apply_wrong_args: ["Function.prototype.apply: Arguments list has wrong type"],
toMethod_non_function: ["Function.prototype.toMethod was called on ", "%0", ", which is a ", "%1", " and not a function"],
toMethod_non_object: ["Function.prototype.toMethod: home object ", "%0", " is not an object"],
invalid_in_operator_use: ["Cannot use 'in' operator to search for '", "%0", "' in ", "%1"],
instanceof_function_expected: ["Expecting a function in instanceof check, but got ", "%0"],
instanceof_nonobject_proto: ["Function has non-object prototype '", "%0", "' in instanceof check"],
undefined_or_null_to_object: ["Cannot convert undefined or null to object"],
reduce_no_initial: ["Reduce of empty array with no initial value"],
getter_must_be_callable: ["Getter must be a function: ", "%0"],
setter_must_be_callable: ["Setter must be a function: ", "%0"],
value_and_accessor: ["Invalid property. A property cannot both have accessors and be writable or have a value, ", "%0"],
proto_object_or_null: ["Object prototype may only be an Object or null: ", "%0"],
property_desc_object: ["Property description must be an object: ", "%0"],
redefine_disallowed: ["Cannot redefine property: ", "%0"],
define_disallowed: ["Cannot define property:", "%0", ", object is not extensible."],
non_extensible_proto: ["%0", " is not extensible"],
handler_non_object: ["Proxy.", "%0", " called with non-object as handler"],
proto_non_object: ["Proxy.", "%0", " called with non-object as prototype"],
trap_function_expected: ["Proxy.", "%0", " called with non-function for '", "%1", "' trap"],
handler_trap_missing: ["Proxy handler ", "%0", " has no '", "%1", "' trap"],
handler_trap_must_be_callable: ["Proxy handler ", "%0", " has non-callable '", "%1", "' trap"],
handler_returned_false: ["Proxy handler ", "%0", " returned false from '", "%1", "' trap"],
handler_returned_undefined: ["Proxy handler ", "%0", " returned undefined from '", "%1", "' trap"],
proxy_prop_not_configurable: ["Proxy handler ", "%0", " returned non-configurable descriptor for property '", "%2", "' from '", "%1", "' trap"],
proxy_non_object_prop_names: ["Trap '", "%1", "' returned non-object ", "%0"],
proxy_repeated_prop_name: ["Trap '", "%1", "' returned repeated property name '", "%2", "'"],
invalid_weakmap_key: ["Invalid value used as weak map key"],
invalid_weakset_value: ["Invalid value used in weak set"],
not_date_object: ["this is not a Date object."],
observe_non_object: ["Object.", "%0", " cannot ", "%0", " non-object"],
observe_non_function: ["Object.", "%0", " cannot deliver to non-function"],
observe_callback_frozen: ["Object.observe cannot deliver to a frozen function object"],
observe_invalid_accept: ["Object.observe accept must be an array of strings."],
observe_type_non_string: ["Invalid changeRecord with non-string 'type' property"],
observe_perform_non_string: ["Invalid non-string changeType"],
observe_perform_non_function: ["Cannot perform non-function"],
observe_notify_non_notifier: ["notify called on non-notifier object"],
observe_global_proxy: ["%0", " cannot be called on the global proxy object"],
not_typed_array: ["this is not a typed array."],
invalid_argument: ["invalid_argument"],
data_view_not_array_buffer: ["First argument to DataView constructor must be an ArrayBuffer"],
constructor_not_function: ["Constructor ", "%0", " requires 'new'"],
not_a_symbol: ["%0", " is not a symbol"],
not_a_promise: ["%0", " is not a promise"],
resolver_not_a_function: ["Promise resolver ", "%0", " is not a function"],
promise_cyclic: ["Chaining cycle detected for promise ", "%0"],
array_functions_on_frozen: ["Cannot modify frozen array elements"],
array_functions_change_sealed: ["Cannot add/remove sealed array elements"],
first_argument_not_regexp: ["First argument to ", "%0", " must not be a regular expression"],
not_iterable: ["%0", " is not iterable"],
not_an_iterator: ["%0", " is not an iterator"],
iterator_result_not_an_object: ["Iterator result ", "%0", " is not an object"],
iterator_value_not_an_object: ["Iterator value ", "%0", " is not an entry object"],
// RangeError
invalid_array_length: ["Invalid array length"],
invalid_array_buffer_length: ["Invalid array buffer length"],
invalid_string_length: ["Invalid string length"],
invalid_typed_array_offset: ["Start offset is too large:"],
invalid_typed_array_length: ["Invalid typed array length"],
invalid_typed_array_alignment: ["%0", " of ", "%1", " should be a multiple of ", "%2"],
typed_array_set_source_too_large:
["Source is too large"],
typed_array_set_negative_offset:
["Start offset is negative"],
invalid_data_view_offset: ["Start offset is outside the bounds of the buffer"],
invalid_data_view_length: ["Invalid data view length"],
invalid_data_view_accessor_offset:
["Offset is outside the bounds of the DataView"],
stack_overflow: ["Maximum call stack size exceeded"],
invalid_time_value: ["Invalid time value"],
invalid_count_value: ["Invalid count value"],
invalid_code_point: ["Invalid code point ", "%0"],
// ReferenceError
invalid_lhs_in_assignment: ["Invalid left-hand side in assignment"],
invalid_lhs_in_for: ["Invalid left-hand side in for-loop"],
invalid_lhs_in_postfix_op: ["Invalid left-hand side expression in postfix operation"],
invalid_lhs_in_prefix_op: ["Invalid left-hand side expression in prefix operation"],
// SyntaxError
paren_in_arg_string: ["Function arg string contains parenthesis"],
not_isvar: ["builtin %IS_VAR: not a variable"],
single_function_literal: ["Single function literal required"],
invalid_regexp_flags: ["Invalid flags supplied to RegExp constructor '", "%0", "'"],
invalid_regexp: ["Invalid RegExp pattern /", "%0", "/"],
illegal_break: ["Illegal break statement"],
illegal_continue: ["Illegal continue statement"],
illegal_return: ["Illegal return statement"],
error_loading_debugger: ["Error loading debugger"],
no_input_to_regexp: ["No input to ", "%0"],
invalid_json: ["String '", "%0", "' is not valid JSON"],
circular_structure: ["Converting circular structure to JSON"],
called_on_non_object: ["%0", " called on non-object"],
called_on_null_or_undefined: ["%0", " called on null or undefined"],
array_indexof_not_defined: ["Array.getIndexOf: Argument undefined"],
object_not_extensible: ["Can't add property ", "%0", ", object is not extensible"],
illegal_access: ["Illegal access"],
static_prototype: ["Classes may not have static property named prototype"],
strict_mode_with: ["Strict mode code may not include a with statement"],
Make strict more error messages about "eval" and "arguments" less specific. We used to have error messages which provide context, like "Variable name may not be eval or arguments in strict mode", but for other illegal words we only have non-context specific error messages like "Unexpected reserved word". Providing the context makes the code unnecessarily complex, since every individual place must remember to check for eval or arguments. This CL produces a unified error message ("Unexpected eval or arguments in strict mode"), and puts the error reporting to (Pre)Parser::ParseIdentifier. Notes: - The module feature is so experimental, that I decided to not allow "eval" or "arguments" as module-related identifiers in the strict mode (even though this check wasn't there before). - Unfortunately, there were some inconsistencies, since it was the responsibility of the caller of ParseIdentifier to check "eval" and "arguments" and some places didn't have the check for no good reason. This CL is supposed to keep backward compatibility and *not* introduce any new errors. - ECMA allows "eval" and "arguments" as labels even in strict mode. (Syntax: "LabelledStatement: Identifier : Statement", and no strict mode restrictions on Identifier are listed.) - Tests which compare error message strings will fail, and need to be updated. BUG=3126 LOG=N R=ulan@chromium.org Review URL: https://codereview.chromium.org/152813005 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@19112 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-02-05 16:26:48 +00:00
strict_eval_arguments: ["Unexpected eval or arguments in strict mode"],
too_many_arguments: ["Too many arguments in function call (only 65535 allowed)"],
too_many_parameters: ["Too many parameters in function definition (only 65535 allowed)"],
too_many_variables: ["Too many variables declared (only 4194303 allowed)"],
strict_param_dupe: ["Strict mode function may not have duplicate parameter names"],
strict_octal_literal: ["Octal literals are not allowed in strict mode."],
strict_duplicate_property: ["Duplicate data property in object literal not allowed in strict mode"],
accessor_data_property: ["Object literal may not have data and accessor property with the same name"],
accessor_get_set: ["Object literal may not have multiple get/set accessors with the same name"],
strict_delete: ["Delete of an unqualified identifier in strict mode."],
strict_delete_property: ["Cannot delete property '", "%0", "' of ", "%1"],
strict_const: ["Use of const in strict mode."],
strict_function: ["In strict mode code, functions can only be declared at top level or immediately within another function." ],
strict_read_only_property: ["Cannot assign to read only property '", "%0", "' of ", "%1"],
strict_cannot_assign: ["Cannot assign to read only '", "%0", "' in strict mode"],
strict_poison_pill: ["'caller', 'callee', and 'arguments' properties may not be accessed on strict mode functions or the arguments objects for calls to them"],
strict_caller: ["Illegal access to a strict mode caller function."],
Implement handling of arrow functions in the parser Arrow functions are parsed from ParseAssignmentExpression(). Handling the parameter list is done by letting ParseConditionalExpression() parse a comma separated list of identifiers, and it returns a tree of BinaryOperation nodes with VariableProxy leaves, or a single VariableProxy if there is only one parameter. When the arrow token "=>" is found, the VariableProxy nodes are passed to ParseArrowFunctionLiteral(), which will then skip parsing the paramaeter list. This avoids having to rewind when the arrow is found and restart parsing the parameter list. Note that the empty parameter list "()" is handled directly in ParsePrimaryExpression(): after is has consumed the opening parenthesis, if a closing parenthesis follows, then the only valid input is an arrow function. In this case, ParsePrimaryExpression() directly calls ParseArrowFunctionLiteral(), to avoid needing to return a sentinel value to signal the empty parameter list. Because it will consume the body of the arrow function, ParseAssignmentExpression() will not see the arrow "=>" token as next, and return the already-parser expression. The implementation is done in ParserBase, so it was needed to do some additions to ParserBase, ParserTraits and PreParserTraits. Some of the glue code can be removed later on when more more functionality is moved to ParserBase. Additionally, this adds a runtime flag "harmony_arrow_functions" (disabled by default); enabling "harmony" will enable it as well. BUG=v8:2700 LOG=N R=marja@chromium.org Review URL: https://codereview.chromium.org/383983002 Patch from Adrián Pérez de Castro <aperez@igalia.com>. git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22366 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-07-14 07:55:45 +00:00
malformed_arrow_function_parameter_list: ["Malformed arrow function parameter list"],
generator_poison_pill: ["'caller' and 'arguments' properties may not be accessed on generator functions."],
unprotected_let: ["Illegal let declaration in unprotected statement context."],
unprotected_const: ["Illegal const declaration in unprotected statement context."],
cant_prevent_ext_external_array_elements: ["Cannot prevent extension of an object with external array elements"],
redef_external_array_element: ["Cannot redefine a property of an object with external array elements"],
harmony_const_assign: ["Assignment to constant variable."],
Upgrade Symbol implementation to match current ES6 behavior. Refresh the implementation of Symbols to catch up with what the specification now mandates: * The global Symbol() function manufactures new Symbol values, optionally with a string description attached. * Invoking Symbol() as a constructor will now throw. * ToString() over Symbol values still throws, and Object.prototype.toString() stringifies like before. * A Symbol value is wrapped in a Symbol object either implicitly if it is the receiver, or explicitly done via Object(symbolValue) or (new Object(symbolValue).) * The Symbol.prototype.toString() method no longer throws on Symbol wrapper objects (nor Symbol values.) Ditto for Symbol.prototype.valueOf(). * Symbol.prototype.toString() stringifies as "Symbol("<description>"), valueOf() returns the wrapper's Symbol value. * ToPrimitive() over Symbol wrapper objects now throws. Overall, this provides a stricter separation between Symbol values and wrapper objects than before, and the explicit fetching out of the description (nee name) via the "name" property is no longer supported (by the spec nor the implementation.) Adjusted existing Symbol test files to fit current, adding some extra tests for new/changed behavior. LOG=N R=arv@chromium.org, rossberg@chromium.org, arv, rossberg BUG=v8:3053 Review URL: https://codereview.chromium.org/118553003 Patch from Sigbjorn Finne <sigbjornf@opera.com>. git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@19490 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-02-19 14:19:42 +00:00
symbol_to_string: ["Cannot convert a Symbol value to a string"],
symbol_to_primitive: ["Cannot convert a Symbol wrapper object to a primitive value"],
symbol_to_number: ["Cannot convert a Symbol value to a number"],
invalid_module_path: ["Module does not export '", "%0", "', or export is not itself a module"],
module_type_error: ["Module '", "%0", "' used improperly"],
module_export_undefined: ["Export '", "%0", "' is not defined in module"],
unexpected_super: ["'super' keyword unexpected here"],
extends_value_not_a_function: ["Class extends value ", "%0", " is not a function or null"],
prototype_parent_not_an_object: ["Class extends value does not have valid prototype property ", "%0"]
};
function FormatString(format, args) {
var result = "";
var arg_num = 0;
for (var i = 0; i < format.length; i++) {
var str = format[i];
if (str.length == 2 && %_StringCharCodeAt(str, 0) == 0x25) {
// Two-char string starts with "%".
var arg_num = (%_StringCharCodeAt(str, 1) - 0x30) >>> 0;
if (arg_num < 4) {
// str is one of %0, %1, %2 or %3.
try {
str = NoSideEffectToString(args[arg_num]);
} catch (e) {
if (%IsJSModule(args[arg_num]))
str = "module";
else if (IS_SPEC_OBJECT(args[arg_num]))
str = "object";
else
str = "#<error>";
}
}
}
result += str;
}
return result;
}
function NoSideEffectToString(obj) {
if (IS_STRING(obj)) return obj;
if (IS_NUMBER(obj)) return %_NumberToString(obj);
if (IS_BOOLEAN(obj)) return obj ? 'true' : 'false';
if (IS_UNDEFINED(obj)) return 'undefined';
if (IS_NULL(obj)) return 'null';
if (IS_FUNCTION(obj)) {
var str = %_CallFunction(obj, FunctionToString);
if (str.length > 128) {
str = %_SubString(str, 0, 111) + "...<omitted>..." +
%_SubString(str, str.length - 2, str.length);
}
return str;
}
if (IS_SYMBOL(obj)) return %_CallFunction(obj, SymbolToString);
if (IS_OBJECT(obj) && %GetDataProperty(obj, "toString") === ObjectToString) {
var constructor = %GetDataProperty(obj, "constructor");
if (typeof constructor == "function") {
var constructorName = constructor.name;
if (IS_STRING(constructorName) && constructorName !== "") {
return "#<" + constructorName + ">";
}
}
}
if (CanBeSafelyTreatedAsAnErrorObject(obj)) {
return %_CallFunction(obj, ErrorToString);
}
return %_CallFunction(obj, ObjectToString);
}
// To determine whether we can safely stringify an object using ErrorToString
// without the risk of side-effects, we need to check whether the object is
// either an instance of a native error type (via '%_ClassOf'), or has $Error
// in its prototype chain and hasn't overwritten 'toString' with something
// strange and unusual.
function CanBeSafelyTreatedAsAnErrorObject(obj) {
switch (%_ClassOf(obj)) {
case 'Error':
case 'EvalError':
case 'RangeError':
case 'ReferenceError':
case 'SyntaxError':
case 'TypeError':
case 'URIError':
return true;
}
var objToString = %GetDataProperty(obj, "toString");
return obj instanceof $Error && objToString === ErrorToString;
}
// When formatting internally created error messages, do not
// invoke overwritten error toString methods but explicitly use
// the error to string method. This is to avoid leaking error
// objects between script tags in a browser setting.
function ToStringCheckErrorObject(obj) {
if (CanBeSafelyTreatedAsAnErrorObject(obj)) {
return %_CallFunction(obj, ErrorToString);
} else {
return ToString(obj);
}
}
function ToDetailString(obj) {
if (obj != null && IS_OBJECT(obj) && obj.toString === ObjectToString) {
var constructor = obj.constructor;
if (typeof constructor == "function") {
var constructorName = constructor.name;
if (IS_STRING(constructorName) && constructorName !== "") {
return "#<" + constructorName + ">";
}
}
}
return ToStringCheckErrorObject(obj);
}
function MakeGenericError(constructor, type, args) {
if (IS_UNDEFINED(args)) args = [];
return new constructor(FormatMessage(type, args));
}
/**
* Set up the Script function and constructor.
*/
%FunctionSetInstanceClassName(Script, 'Script');
%AddNamedProperty(Script.prototype, 'constructor', Script,
DONT_ENUM | DONT_DELETE | READ_ONLY);
%SetCode(Script, function(x) {
// Script objects can only be created by the VM.
throw new $Error("Not supported");
});
// Helper functions; called from the runtime system.
function FormatMessage(type, args) {
var format = kMessages[type];
if (!format) return "<unknown message " + type + ">";
return FormatString(format, args);
}
function GetLineNumber(message) {
var start_position = %MessageGetStartPosition(message);
if (start_position == -1) return kNoLineNumberInfo;
var script = %MessageGetScript(message);
var location = script.locationFromPosition(start_position, true);
if (location == null) return kNoLineNumberInfo;
return location.line + 1;
}
// Returns the source code line containing the given source
// position, or the empty string if the position is invalid.
function GetSourceLine(message) {
var script = %MessageGetScript(message);
var start_position = %MessageGetStartPosition(message);
var location = script.locationFromPosition(start_position, true);
if (location == null) return "";
location.restrict();
return location.sourceText();
}
function MakeTypeError(type, args) {
return MakeGenericError($TypeError, type, args);
}
function MakeRangeError(type, args) {
return MakeGenericError($RangeError, type, args);
}
function MakeSyntaxError(type, args) {
return MakeGenericError($SyntaxError, type, args);
}
function MakeReferenceError(type, args) {
return MakeGenericError($ReferenceError, type, args);
}
function MakeEvalError(type, args) {
return MakeGenericError($EvalError, type, args);
}
function MakeError(type, args) {
return MakeGenericError($Error, type, args);
}
/**
* Find a line number given a specific source position.
* @param {number} position The source position.
* @return {number} 0 if input too small, -1 if input too large,
else the line number.
*/
function ScriptLineFromPosition(position) {
var lower = 0;
var upper = this.lineCount() - 1;
var line_ends = this.line_ends;
// We'll never find invalid positions so bail right away.
if (position > line_ends[upper]) {
return -1;
}
// This means we don't have to safe-guard indexing line_ends[i - 1].
if (position <= line_ends[0]) {
return 0;
}
// Binary search to find line # from position range.
while (upper >= 1) {
var i = (lower + upper) >> 1;
if (position > line_ends[i]) {
lower = i + 1;
} else if (position <= line_ends[i - 1]) {
upper = i - 1;
} else {
return i;
}
}
return -1;
}
/**
* Get information on a specific source position.
* @param {number} position The source position
* @param {boolean} include_resource_offset Set to true to have the resource
* offset added to the location
* @return {SourceLocation}
* If line is negative or not in the source null is returned.
*/
function ScriptLocationFromPosition(position,
include_resource_offset) {
var line = this.lineFromPosition(position);
if (line == -1) return null;
// Determine start, end and column.
var line_ends = this.line_ends;
var start = line == 0 ? 0 : line_ends[line - 1] + 1;
var end = line_ends[line];
if (end > 0 && %_CallFunction(this.source, end - 1, StringCharAt) == '\r') {
end--;
}
var column = position - start;
// Adjust according to the offset within the resource.
if (include_resource_offset) {
line += this.line_offset;
if (line == this.line_offset) {
column += this.column_offset;
}
}
return new SourceLocation(this, position, line, column, start, end);
}
/**
* Get information on a specific source line and column possibly offset by a
* fixed source position. This function is used to find a source position from
* a line and column position. The fixed source position offset is typically
* used to find a source position in a function based on a line and column in
* the source for the function alone. The offset passed will then be the
* start position of the source for the function within the full script source.
* @param {number} opt_line The line within the source. Default value is 0
* @param {number} opt_column The column in within the line. Default value is 0
* @param {number} opt_offset_position The offset from the begining of the
* source from where the line and column calculation starts.
* Default value is 0
* @return {SourceLocation}
* If line is negative or not in the source null is returned.
*/
function ScriptLocationFromLine(opt_line, opt_column, opt_offset_position) {
// Default is the first line in the script. Lines in the script is relative
// to the offset within the resource.
var line = 0;
if (!IS_UNDEFINED(opt_line)) {
line = opt_line - this.line_offset;
}
// Default is first column. If on the first line add the offset within the
// resource.
var column = opt_column || 0;
if (line == 0) {
column -= this.column_offset;
}
var offset_position = opt_offset_position || 0;
if (line < 0 || column < 0 || offset_position < 0) return null;
if (line == 0) {
return this.locationFromPosition(offset_position + column, false);
} else {
// Find the line where the offset position is located.
var offset_line = this.lineFromPosition(offset_position);
if (offset_line == -1 || offset_line + line >= this.lineCount()) {
return null;
}
return this.locationFromPosition(
this.line_ends[offset_line + line - 1] + 1 + column); // line > 0 here.
}
}
/**
* Get a slice of source code from the script. The boundaries for the slice is
* specified in lines.
* @param {number} opt_from_line The first line (zero bound) in the slice.
* Default is 0
* @param {number} opt_to_column The last line (zero bound) in the slice (non
* inclusive). Default is the number of lines in the script
* @return {SourceSlice} The source slice or null of the parameters where
* invalid
*/
function ScriptSourceSlice(opt_from_line, opt_to_line) {
var from_line = IS_UNDEFINED(opt_from_line) ? this.line_offset
: opt_from_line;
var to_line = IS_UNDEFINED(opt_to_line) ? this.line_offset + this.lineCount()
: opt_to_line;
// Adjust according to the offset within the resource.
from_line -= this.line_offset;
to_line -= this.line_offset;
if (from_line < 0) from_line = 0;
if (to_line > this.lineCount()) to_line = this.lineCount();
// Check parameters.
if (from_line >= this.lineCount() ||
to_line < 0 ||
from_line > to_line) {
return null;
}
var line_ends = this.line_ends;
var from_position = from_line == 0 ? 0 : line_ends[from_line - 1] + 1;
var to_position = to_line == 0 ? 0 : line_ends[to_line - 1] + 1;
// Return a source slice with line numbers re-adjusted to the resource.
return new SourceSlice(this,
from_line + this.line_offset,
to_line + this.line_offset,
from_position, to_position);
}
function ScriptSourceLine(opt_line) {
// Default is the first line in the script. Lines in the script are relative
// to the offset within the resource.
var line = 0;
if (!IS_UNDEFINED(opt_line)) {
line = opt_line - this.line_offset;
}
// Check parameter.
if (line < 0 || this.lineCount() <= line) {
return null;
}
// Return the source line.
var line_ends = this.line_ends;
var start = line == 0 ? 0 : line_ends[line - 1] + 1;
var end = line_ends[line];
return %_CallFunction(this.source, start, end, StringSubstring);
}
/**
* Returns the number of source lines.
* @return {number}
* Number of source lines.
*/
function ScriptLineCount() {
// Return number of source lines.
return this.line_ends.length;
}
/**
* If sourceURL comment is available and script starts at zero returns sourceURL
* comment contents. Otherwise, script name is returned. See
* http://fbug.googlecode.com/svn/branches/firebug1.1/docs/ReleaseNotes_1.1.txt
* and Source Map Revision 3 proposal for details on using //# sourceURL and
* deprecated //@ sourceURL comment to identify scripts that don't have name.
*
* @return {?string} script name if present, value for //# sourceURL or
* deprecated //@ sourceURL comment otherwise.
*/
function ScriptNameOrSourceURL() {
if (this.line_offset > 0 || this.column_offset > 0) {
return this.name;
}
if (this.source_url) {
return this.source_url;
}
return this.name;
}
SetUpLockedPrototype(Script,
$Array("source", "name", "source_url", "source_mapping_url", "line_ends",
"line_offset", "column_offset"),
$Array(
"lineFromPosition", ScriptLineFromPosition,
"locationFromPosition", ScriptLocationFromPosition,
"locationFromLine", ScriptLocationFromLine,
"sourceSlice", ScriptSourceSlice,
"sourceLine", ScriptSourceLine,
"lineCount", ScriptLineCount,
"nameOrSourceURL", ScriptNameOrSourceURL
)
);
/**
* Class for source location. A source location is a position within some
* source with the following properties:
* script : script object for the source
* line : source line number
* column : source column within the line
* position : position within the source
* start : position of start of source context (inclusive)
* end : position of end of source context (not inclusive)
* Source text for the source context is the character interval
* [start, end[. In most cases end will point to a newline character.
* It might point just past the final position of the source if the last
* source line does not end with a newline character.
* @param {Script} script The Script object for which this is a location
* @param {number} position Source position for the location
* @param {number} line The line number for the location
* @param {number} column The column within the line for the location
* @param {number} start Source position for start of source context
* @param {number} end Source position for end of source context
* @constructor
*/
function SourceLocation(script, position, line, column, start, end) {
this.script = script;
this.position = position;
this.line = line;
this.column = column;
this.start = start;
this.end = end;
}
var kLineLengthLimit = 78;
/**
* Restrict source location start and end positions to make the source slice
* no more that a certain number of characters wide.
* @param {number} opt_limit The with limit of the source text with a default
* of 78
* @param {number} opt_before The number of characters to prefer before the
* position with a default value of 10 less that the limit
*/
function SourceLocationRestrict(opt_limit, opt_before) {
// Find the actual limit to use.
var limit;
var before;
if (!IS_UNDEFINED(opt_limit)) {
limit = opt_limit;
} else {
limit = kLineLengthLimit;
}
if (!IS_UNDEFINED(opt_before)) {
before = opt_before;
} else {
// If no before is specified center for small limits and perfer more source
// before the the position that after for longer limits.
if (limit <= 20) {
before = $floor(limit / 2);
} else {
before = limit - 10;
}
}
if (before >= limit) {
before = limit - 1;
}
// If the [start, end[ interval is too big we restrict
// it in one or both ends. We make sure to always produce
// restricted intervals of maximum allowed size.
if (this.end - this.start > limit) {
var start_limit = this.position - before;
var end_limit = this.position + limit - before;
if (this.start < start_limit && end_limit < this.end) {
this.start = start_limit;
this.end = end_limit;
} else if (this.start < start_limit) {
this.start = this.end - limit;
} else {
this.end = this.start + limit;
}
}
}
/**
* Get the source text for a SourceLocation
* @return {String}
* Source text for this location.
*/
function SourceLocationSourceText() {
return %_CallFunction(this.script.source,
this.start,
this.end,
StringSubstring);
}
SetUpLockedPrototype(SourceLocation,
$Array("script", "position", "line", "column", "start", "end"),
$Array(
"restrict", SourceLocationRestrict,
"sourceText", SourceLocationSourceText
)
);
/**
* Class for a source slice. A source slice is a part of a script source with
* the following properties:
* script : script object for the source
* from_line : line number for the first line in the slice
* to_line : source line number for the last line in the slice
* from_position : position of the first character in the slice
* to_position : position of the last character in the slice
* The to_line and to_position are not included in the slice, that is the lines
* in the slice are [from_line, to_line[. Likewise the characters in the slice
* are [from_position, to_position[.
* @param {Script} script The Script object for the source slice
* @param {number} from_line
* @param {number} to_line
* @param {number} from_position
* @param {number} to_position
* @constructor
*/
function SourceSlice(script, from_line, to_line, from_position, to_position) {
this.script = script;
this.from_line = from_line;
this.to_line = to_line;
this.from_position = from_position;
this.to_position = to_position;
}
/**
* Get the source text for a SourceSlice
* @return {String} Source text for this slice. The last line will include
* the line terminating characters (if any)
*/
function SourceSliceSourceText() {
return %_CallFunction(this.script.source,
this.from_position,
this.to_position,
StringSubstring);
}
SetUpLockedPrototype(SourceSlice,
$Array("script", "from_line", "to_line", "from_position", "to_position"),
$Array("sourceText", SourceSliceSourceText)
);
// Returns the offset of the given position within the containing
// line.
function GetPositionInLine(message) {
var script = %MessageGetScript(message);
var start_position = %MessageGetStartPosition(message);
var location = script.locationFromPosition(start_position, false);
if (location == null) return -1;
location.restrict();
return start_position - location.start;
}
function GetStackTraceLine(recv, fun, pos, isGlobal) {
return new CallSite(recv, fun, pos, false).toString();
}
// ----------------------------------------------------------------------------
// Error implementation
var CallSiteReceiverKey = NEW_PRIVATE_OWN("CallSite#receiver");
var CallSiteFunctionKey = NEW_PRIVATE_OWN("CallSite#function");
var CallSitePositionKey = NEW_PRIVATE_OWN("CallSite#position");
var CallSiteStrictModeKey = NEW_PRIVATE_OWN("CallSite#strict_mode");
function CallSite(receiver, fun, pos, strict_mode) {
SET_PRIVATE(this, CallSiteReceiverKey, receiver);
SET_PRIVATE(this, CallSiteFunctionKey, fun);
SET_PRIVATE(this, CallSitePositionKey, pos);
SET_PRIVATE(this, CallSiteStrictModeKey, strict_mode);
}
function CallSiteGetThis() {
return GET_PRIVATE(this, CallSiteStrictModeKey)
? UNDEFINED : GET_PRIVATE(this, CallSiteReceiverKey);
}
function CallSiteGetTypeName() {
return GetTypeName(GET_PRIVATE(this, CallSiteReceiverKey), false);
}
function CallSiteIsToplevel() {
if (GET_PRIVATE(this, CallSiteReceiverKey) == null) {
return true;
}
return IS_GLOBAL(GET_PRIVATE(this, CallSiteReceiverKey));
}
function CallSiteIsEval() {
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
return script && script.compilation_type == COMPILATION_TYPE_EVAL;
}
function CallSiteGetEvalOrigin() {
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
return FormatEvalOrigin(script);
}
function CallSiteGetScriptNameOrSourceURL() {
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
return script ? script.nameOrSourceURL() : null;
}
function CallSiteGetFunction() {
return GET_PRIVATE(this, CallSiteStrictModeKey)
? UNDEFINED : GET_PRIVATE(this, CallSiteFunctionKey);
}
function CallSiteGetFunctionName() {
// See if the function knows its own name
var name = GET_PRIVATE(this, CallSiteFunctionKey).name;
if (name) {
return name;
}
name = %FunctionGetInferredName(GET_PRIVATE(this, CallSiteFunctionKey));
if (name) {
return name;
}
// Maybe this is an evaluation?
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
if (script && script.compilation_type == COMPILATION_TYPE_EVAL) {
return "eval";
}
return null;
}
function CallSiteGetMethodName() {
// See if we can find a unique property on the receiver that holds
// this function.
var receiver = GET_PRIVATE(this, CallSiteReceiverKey);
var fun = GET_PRIVATE(this, CallSiteFunctionKey);
var ownName = fun.name;
if (ownName && receiver &&
(%_CallFunction(receiver, ownName, ObjectLookupGetter) === fun ||
%_CallFunction(receiver, ownName, ObjectLookupSetter) === fun ||
(IS_OBJECT(receiver) && %GetDataProperty(receiver, ownName) === fun))) {
// To handle DontEnum properties we guess that the method has
// the same name as the function.
return ownName;
}
var name = null;
for (var prop in receiver) {
if (%_CallFunction(receiver, prop, ObjectLookupGetter) === fun ||
%_CallFunction(receiver, prop, ObjectLookupSetter) === fun ||
(IS_OBJECT(receiver) && %GetDataProperty(receiver, prop) === fun)) {
// If we find more than one match bail out to avoid confusion.
if (name) {
return null;
}
name = prop;
}
}
if (name) {
return name;
}
return null;
}
function CallSiteGetFileName() {
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
return script ? script.name : null;
}
function CallSiteGetLineNumber() {
if (GET_PRIVATE(this, CallSitePositionKey) == -1) {
return null;
}
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
var location = null;
if (script) {
location = script.locationFromPosition(
GET_PRIVATE(this, CallSitePositionKey), true);
}
return location ? location.line + 1 : null;
}
function CallSiteGetColumnNumber() {
if (GET_PRIVATE(this, CallSitePositionKey) == -1) {
return null;
}
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
var location = null;
if (script) {
location = script.locationFromPosition(
GET_PRIVATE(this, CallSitePositionKey), true);
}
return location ? location.column + 1: null;
}
function CallSiteIsNative() {
var script = %FunctionGetScript(GET_PRIVATE(this, CallSiteFunctionKey));
return script ? (script.type == TYPE_NATIVE) : false;
}
function CallSiteGetPosition() {
return GET_PRIVATE(this, CallSitePositionKey);
}
function CallSiteIsConstructor() {
var receiver = GET_PRIVATE(this, CallSiteReceiverKey);
var constructor = (receiver != null && IS_OBJECT(receiver))
? %GetDataProperty(receiver, "constructor") : null;
if (!constructor) return false;
return GET_PRIVATE(this, CallSiteFunctionKey) === constructor;
}
function CallSiteToString() {
var fileName;
var fileLocation = "";
if (this.isNative()) {
fileLocation = "native";
} else {
fileName = this.getScriptNameOrSourceURL();
if (!fileName && this.isEval()) {
fileLocation = this.getEvalOrigin();
fileLocation += ", "; // Expecting source position to follow.
}
if (fileName) {
fileLocation += fileName;
} else {
// Source code does not originate from a file and is not native, but we
// can still get the source position inside the source string, e.g. in
// an eval string.
fileLocation += "<anonymous>";
}
var lineNumber = this.getLineNumber();
if (lineNumber != null) {
fileLocation += ":" + lineNumber;
var columnNumber = this.getColumnNumber();
if (columnNumber) {
fileLocation += ":" + columnNumber;
}
}
}
var line = "";
var functionName = this.getFunctionName();
var addSuffix = true;
var isConstructor = this.isConstructor();
var isMethodCall = !(this.isToplevel() || isConstructor);
if (isMethodCall) {
var typeName = GetTypeName(GET_PRIVATE(this, CallSiteReceiverKey), true);
var methodName = this.getMethodName();
if (functionName) {
if (typeName &&
%_CallFunction(functionName, typeName, StringIndexOfJS) != 0) {
line += typeName + ".";
}
line += functionName;
if (methodName &&
(%_CallFunction(functionName, "." + methodName, StringIndexOfJS) !=
functionName.length - methodName.length - 1)) {
line += " [as " + methodName + "]";
}
} else {
line += typeName + "." + (methodName || "<anonymous>");
}
} else if (isConstructor) {
line += "new " + (functionName || "<anonymous>");
} else if (functionName) {
line += functionName;
} else {
line += fileLocation;
addSuffix = false;
}
if (addSuffix) {
line += " (" + fileLocation + ")";
}
return line;
}
SetUpLockedPrototype(CallSite, $Array("receiver", "fun", "pos"), $Array(
"getThis", CallSiteGetThis,
"getTypeName", CallSiteGetTypeName,
"isToplevel", CallSiteIsToplevel,
"isEval", CallSiteIsEval,
"getEvalOrigin", CallSiteGetEvalOrigin,
"getScriptNameOrSourceURL", CallSiteGetScriptNameOrSourceURL,
"getFunction", CallSiteGetFunction,
"getFunctionName", CallSiteGetFunctionName,
"getMethodName", CallSiteGetMethodName,
"getFileName", CallSiteGetFileName,
"getLineNumber", CallSiteGetLineNumber,
"getColumnNumber", CallSiteGetColumnNumber,
"isNative", CallSiteIsNative,
"getPosition", CallSiteGetPosition,
"isConstructor", CallSiteIsConstructor,
"toString", CallSiteToString
));
function FormatEvalOrigin(script) {
var sourceURL = script.nameOrSourceURL();
if (sourceURL) {
return sourceURL;
}
var eval_origin = "eval at ";
if (script.eval_from_function_name) {
eval_origin += script.eval_from_function_name;
} else {
eval_origin += "<anonymous>";
}
var eval_from_script = script.eval_from_script;
if (eval_from_script) {
if (eval_from_script.compilation_type == COMPILATION_TYPE_EVAL) {
// eval script originated from another eval.
eval_origin += " (" + FormatEvalOrigin(eval_from_script) + ")";
} else {
// eval script originated from "real" source.
if (eval_from_script.name) {
eval_origin += " (" + eval_from_script.name;
var location = eval_from_script.locationFromPosition(
script.eval_from_script_position, true);
if (location) {
eval_origin += ":" + (location.line + 1);
eval_origin += ":" + (location.column + 1);
}
eval_origin += ")";
} else {
eval_origin += " (unknown source)";
}
}
}
return eval_origin;
}
function FormatErrorString(error) {
try {
return %_CallFunction(error, ErrorToString);
} catch (e) {
try {
return "<error: " + e + ">";
} catch (ee) {
return "<error>";
}
}
}
function GetStackFrames(raw_stack) {
var frames = new InternalArray();
var sloppy_frames = raw_stack[0];
for (var i = 1; i < raw_stack.length; i += 4) {
var recv = raw_stack[i];
var fun = raw_stack[i + 1];
var code = raw_stack[i + 2];
var pc = raw_stack[i + 3];
var pos = %FunctionGetPositionForOffset(code, pc);
sloppy_frames--;
frames.push(new CallSite(recv, fun, pos, (sloppy_frames < 0)));
}
return frames;
}
// Flag to prevent recursive call of Error.prepareStackTrace.
var formatting_custom_stack_trace = false;
function FormatStackTrace(obj, raw_stack) {
var frames = GetStackFrames(raw_stack);
if (IS_FUNCTION($Error.prepareStackTrace) && !formatting_custom_stack_trace) {
var array = [];
%MoveArrayContents(frames, array);
formatting_custom_stack_trace = true;
var stack_trace = UNDEFINED;
try {
stack_trace = $Error.prepareStackTrace(obj, array);
} catch (e) {
throw e; // The custom formatting function threw. Rethrow.
} finally {
formatting_custom_stack_trace = false;
}
return stack_trace;
}
var lines = new InternalArray();
lines.push(FormatErrorString(obj));
for (var i = 0; i < frames.length; i++) {
var frame = frames[i];
var line;
try {
line = frame.toString();
} catch (e) {
try {
line = "<error: " + e + ">";
} catch (ee) {
// Any code that reaches this point is seriously nasty!
line = "<error>";
}
}
lines.push(" at " + line);
}
return %_CallFunction(lines, "\n", ArrayJoin);
}
function GetTypeName(receiver, requireConstructor) {
var constructor = receiver.constructor;
if (!constructor) {
return requireConstructor ? null :
%_CallFunction(receiver, ObjectToString);
}
var constructorName = constructor.name;
if (!constructorName) {
return requireConstructor ? null :
%_CallFunction(receiver, ObjectToString);
}
return constructorName;
}
var stack_trace_symbol; // Set during bootstrapping.
var formatted_stack_trace_symbol = NEW_PRIVATE_OWN("formatted stack trace");
// Format the stack trace if not yet done, and return it.
// Cache the formatted stack trace on the holder.
var StackTraceGetter = function() {
var formatted_stack_trace = UNDEFINED;
var holder = this;
while (holder) {
var formatted_stack_trace =
GET_PRIVATE(holder, formatted_stack_trace_symbol);
if (IS_UNDEFINED(formatted_stack_trace)) {
// No formatted stack trace available.
var stack_trace = GET_PRIVATE(holder, stack_trace_symbol);
if (IS_UNDEFINED(stack_trace)) {
// Neither formatted nor structured stack trace available.
// Look further up the prototype chain.
holder = %GetPrototype(holder);
continue;
}
formatted_stack_trace = FormatStackTrace(holder, stack_trace);
SET_PRIVATE(holder, stack_trace_symbol, UNDEFINED);
SET_PRIVATE(holder, formatted_stack_trace_symbol, formatted_stack_trace);
}
return formatted_stack_trace;
}
return UNDEFINED;
};
// If the receiver equals the holder, set the formatted stack trace that the
// getter returns.
var StackTraceSetter = function(v) {
if (HAS_PRIVATE(this, stack_trace_symbol)) {
SET_PRIVATE(this, stack_trace_symbol, UNDEFINED);
SET_PRIVATE(this, formatted_stack_trace_symbol, v);
}
};
// Use a dummy function since we do not actually want to capture a stack trace
// when constructing the initial Error prototytpes.
var captureStackTrace = function captureStackTrace(obj, cons_opt) {
// Define accessors first, as this may fail and throw.
ObjectDefineProperty(obj, 'stack', { get: StackTraceGetter,
set: StackTraceSetter,
configurable: true });
%CollectStackTrace(obj, cons_opt ? cons_opt : captureStackTrace);
}
function SetUpError() {
// Define special error type constructors.
var DefineError = function(f) {
// Store the error function in both the global object
// and the runtime object. The function is fetched
// from the runtime object when throwing errors from
// within the runtime system to avoid strange side
// effects when overwriting the error functions from
// user code.
var name = f.name;
%AddNamedProperty(global, name, f, DONT_ENUM);
%AddNamedProperty(builtins, '$' + name, f,
DONT_ENUM | DONT_DELETE | READ_ONLY);
// Configure the error function.
if (name == 'Error') {
// The prototype of the Error object must itself be an error.
// However, it can't be an instance of the Error object because
// it hasn't been properly configured yet. Instead we create a
// special not-a-true-error-but-close-enough object.
var ErrorPrototype = function() {};
%FunctionSetPrototype(ErrorPrototype, $Object.prototype);
%FunctionSetInstanceClassName(ErrorPrototype, 'Error');
%FunctionSetPrototype(f, new ErrorPrototype());
} else {
%FunctionSetPrototype(f, new $Error());
}
%FunctionSetInstanceClassName(f, 'Error');
%AddNamedProperty(f.prototype, 'constructor', f, DONT_ENUM);
%AddNamedProperty(f.prototype, "name", name, DONT_ENUM);
%SetCode(f, function(m) {
if (%_IsConstructCall()) {
// Define all the expected properties directly on the error
// object. This avoids going through getters and setters defined
// on prototype objects.
%AddNamedProperty(this, 'stack', UNDEFINED, DONT_ENUM);
if (!IS_UNDEFINED(m)) {
%AddNamedProperty(this, 'message', ToString(m), DONT_ENUM);
}
try { captureStackTrace(this, f); } catch (e) { }
} else {
return new f(m);
}
});
%SetNativeFlag(f);
};
DefineError(function Error() { });
DefineError(function TypeError() { });
DefineError(function RangeError() { });
DefineError(function SyntaxError() { });
DefineError(function ReferenceError() { });
DefineError(function EvalError() { });
DefineError(function URIError() { });
}
SetUpError();
$Error.captureStackTrace = captureStackTrace;
%AddNamedProperty($Error.prototype, 'message', '', DONT_ENUM);
// Global list of error objects visited during ErrorToString. This is
// used to detect cycles in error toString formatting.
var visited_errors = new InternalArray();
var cyclic_error_marker = new $Object();
function GetPropertyWithoutInvokingMonkeyGetters(error, name) {
var current = error;
// Climb the prototype chain until we find the holder.
while (current && !%HasOwnProperty(current, name)) {
current = %GetPrototype(current);
}
if (IS_NULL(current)) return UNDEFINED;
if (!IS_OBJECT(current)) return error[name];
// If the property is an accessor on one of the predefined errors that can be
// generated statically by the compiler, don't touch it. This is to address
// http://code.google.com/p/chromium/issues/detail?id=69187
var desc = %GetOwnProperty(current, name);
if (desc && desc[IS_ACCESSOR_INDEX]) {
var isName = name === "name";
if (current === $ReferenceError.prototype)
return isName ? "ReferenceError" : UNDEFINED;
if (current === $SyntaxError.prototype)
return isName ? "SyntaxError" : UNDEFINED;
if (current === $TypeError.prototype)
return isName ? "TypeError" : UNDEFINED;
}
// Otherwise, read normally.
return error[name];
}
function ErrorToStringDetectCycle(error) {
if (!%PushIfAbsent(visited_errors, error)) throw cyclic_error_marker;
try {
var name = GetPropertyWithoutInvokingMonkeyGetters(error, "name");
name = IS_UNDEFINED(name) ? "Error" : TO_STRING_INLINE(name);
var message = GetPropertyWithoutInvokingMonkeyGetters(error, "message");
message = IS_UNDEFINED(message) ? "" : TO_STRING_INLINE(message);
if (name === "") return message;
if (message === "") return name;
return name + ": " + message;
} finally {
visited_errors.length = visited_errors.length - 1;
}
}
function ErrorToString() {
if (!IS_SPEC_OBJECT(this)) {
throw MakeTypeError("called_on_non_object", ["Error.prototype.toString"]);
}
try {
return ErrorToStringDetectCycle(this);
} catch(e) {
// If this error message was encountered already return the empty
// string for it instead of recursively formatting it.
if (e === cyclic_error_marker) {
return '';
}
throw e;
}
}
InstallFunctions($Error.prototype, DONT_ENUM, ['toString', ErrorToString]);
// Boilerplate for exceptions for stack overflows. Used from
// Isolate::StackOverflow().
function SetUpStackOverflowBoilerplate() {
var boilerplate = MakeRangeError('stack_overflow', []);
%DefineAccessorPropertyUnchecked(
boilerplate, 'stack', StackTraceGetter, StackTraceSetter, DONT_ENUM);
return boilerplate;
}
var kStackOverflowBoilerplate = SetUpStackOverflowBoilerplate();