Debugger.Frame
A Debugger.Frame
instance represents a visible stack frame. Given a Debugger.Frame
instance, you can find the script the frame is executing, walk the stack to older frames, find the lexical environment in which the execution is taking place, and so on.
For a given Debugger instance, SpiderMonkey creates only one Debugger.Frame
instance for a given visible frame. Every handler method called while the debuggee is running in a given frame is given the same frame object. Similarly, walking the stack back to a previously accessed frame yields the same frame object as before. Debugger code can add its own properties to a frame object and expect to find them later, use ==
to decide whether two expressions refer to the same frame, and so on.
(If more than one Debugger instance is debugging the same code, each Debugger gets a separate Debugger.Frame
instance for a given frame. This allows the code using each Debugger instance to place whatever properties it likes on its Debugger.Frame
instances, without worrying about interfering with other debuggers.)
When the debuggee pops a stack frame (say, because a function call has returned or an exception has been thrown from it), the Debugger.Frame
instance referring to that frame becomes inactive: its live
property becomes false
, and accessing its other properties or calling its methods throws an exception. Note that frames only become inactive at times that are predictable for the debugger: when the debuggee runs, or when the debugger removes frames from the stack itself.
Visible frames
When inspecting the call stack, Debugger does not reveal all the frames that are actually present on the stack: while it does reveal all frames running debuggee code, it omits frames running the debugger’s own code, and omits most frames running non-debuggee code. We call those stack frames a Debugger does reveal visible frames.
A frame is a visible frame if any of the following are true:
it is running debuggee code;
its immediate caller is a frame running debuggee code; or
it is a “debugger”, representing the continuation of debuggee code invoked by the debugger.
The “immediate caller” rule means that, when debuggee code calls a non-debuggee funct`on, it looks like a call to a primitive: you see a frame for the non-debuggee function that was accessible to the debuggee, but any further calls that function makes are treated as internal details, and omitted from the stack trace. If the non-debuggee function eventually calls back into debuggee code, then those frames are visible.
(Note that the debuggee is not considered an “immediate caller” of handler methods it triggers. Even though the debuggee and debugger share the same JavaScript stack, frames pushed for SpiderMonkey’s calls to handler methods to report events in the debuggee are never considered visible frames.)
Invocation functions and Debugger frames
An invocation function is any function in this interface that allows the debugger to invoke code in the debuggee: Debugger.Object.prototype.call
, Debugger.Frame.prototype.eval
, and so on.
While invocation functions differ in the code to be run and how to pass values to it, they all follow this general procedure:
Let older be the youngest visible frame on the stack, or
null
if there is no such frame. (This is never one of the debugger’s own frames; those never appear asDebugger.Frame
instances.)Push a
"debugger"
frame on the stack, with older as itsolder
property.Invoke the debuggee code as appropriate for the given invocation function, with the
"debugger"
frame as its continuation. For example,Debugger.Frame.prototype.eval
pushes an"eval"
frame for code it runs, whereasDebugger.Object.prototype.call
pushes a"call"
frame.When the debuggee code completes, whether by returning, throwing an exception or being terminated, pop the
"debugger"
frame, and return an appropriate completion value from the invocation function to the debugger.
When a debugger calls an invocation function to run debuggee code, that code’s continuation is the debugger, not the next debuggee code frame. Pushing a "debugger"
frame makes this continuation explicit, and makes it easier to find the extent of the stack created for the invocation.
Accessor properties of the Debugger.Frame prototype object
A Debugger.Frame
instance inherits the following accessor properties from its prototype:
type
A string describing what sort of frame this is:
"call"
: a frame running a function call. (We may not be able to obtain frames for calls to host functions.)
"eval"
: a frame running code passed toeval
.
"global"
: a frame running global code (JavaScript that is neither of the above).
"module"
: a frame running code at the top level of a module.
"wasmcall"
: a frame running a WebAssembly function call.
"debugger"
: a frame for a call to user code invoked by the debugger (see theeval
method below).
implementation
A string describing which tier of the JavaScript engine this frame is executing in:
"interpreter"
: a frame running in the interpreter.
"baseline"
: a frame running in the unoptimizing, baseline JIT.
"ion"
: a frame running in the optimizing JIT.
"wasm"
: a frame running in WebAssembly baseline JIT.
this
The value of
this
for this frame (a debuggee value). For awasmcall
frame, this property throws aTypeError
.
older
The next-older visible frame, in which control will resume when this frame completes. If there is no older frame, this is
null
.
depth
The depth of this frame, counting from oldest to youngest; the oldest frame has a depth of zero.
live
True if the frame this
Debugger.Frame
instance refers to is still on the stack; false if it has completed execution or been popped in some other way.script
The script being executed in this frame (a Debugger.Script instance), or
null
on frames that do not represent calls to debuggee code. On frames whosecallee
property is not null, this is equal tocallee.script
.offset
The offset of the bytecode instruction currently being executed in
script
, orundefined
if the frame’sscript
property isnull
. For awasmcall
frame, this property throws aTypeError
.environment
The lexical environment within which evaluation is taking place (a Debugger.Environment instance), or
null
on frames that do not represent the evaluation of debuggee code, like calls non-debuggee functions, host functions or"debugger"
frames.callee
The function whose application created this frame, as a debuggee value, or
null
if this is not a"call"
frame.generator
True if this frame is a generator frame, false otherwise.
constructing
True if this frame is for a function called as a constructor, false otherwise.
arguments
The arguments passed to the current frame, or
null
if this is not a"call"
frame. When non-null
, this is an object, allocated in the same global as the debugger, withArray.prototype
on its prototype chain, a non-writablelength
property, and properties whose names are array indices. Each property is a read-only accessor property whose getter returns the current value of the corresponding parameter. When the referent frame is popped, the argument value’s properties’ getters throw an error.
Handler methods of Debugger.Frame instances
Each Debugger.Frame
instance inherits accessor properties holding handler functions for SpiderMonkey to call when given events occur in the frame.
Calls to frames’ handler methods are cross-compartment, intra-thread calls: the call takes place in the thread to which the frame belongs, and runs in the compartment to which the handler method belongs.
Debugger.Frame
instances inherit the following handler method properties:
onStep
This property must be either
undefined
or a function. If it is a function, SpiderMonkey calls it when execution in this frame makes a small amount of progress, passing no arguments and providing thisDebugger.Frame
instance as thethis
value. The function should return a resumption value specifying how the debuggee’s execution should proceed.What constitutes “a small amount of progress” varies depending on the implementation, but it is fine-grained enough to implement useful “step” and “next” behavior.
If multiple Debugger instances each have
Debugger.Frame
instances for a given stack frame withonStep
handlers set, their handlers are run in an unspecified order. If anyonStep
handler forces the frame to return early (by returning a resumption value other thanundefined
), any remaining debuggers’onStep
handlers do not run.This property is ignored on frames that are not executing debuggee code, like
"call"
frames for calls to host functions and"debugger"
frames.
onPop
This property must be either
undefined
or a function. If it is a function, SpiderMonkey calls it just before this frame is popped, passing a completion value indicating how this frame’s execution completed, and providing thisDebugger.Frame
instance as thethis
value. The function should return a resumption value indicating how execution should proceed. On newly created frames, this property’s value isundefined
.When this handler is called, this frame’s current execution location, as reflected in its
offset
andenvironment
properties, is the operation which caused it to be unwound. In frames returning or throwing an exception, the location is often a return or a throw statement. In frames propagating exceptions, the location is a call.When an
onPop
call reports the completion of a construction call (that is, a function called via thenew
operator), the completion value passed to the handler describes the value returned by the function body. If this value is not an object, it may be different from the value produced by thenew
expression, which will be the value of the frame’sthis
property. (In ECMAScript terms, theonPop
handler receives the value returned by the[[Call]]
method, not the value returned by the[[Construct]]
method.)When a debugger handler function forces a frame to complete early, by returning a
{ return:... }
,{ throw:... }
, ornull
resumption value, SpiderMonkey calls the frame’sonPop
handler, if any. The completion value passed in this case reflects the resumption value that caused the frame to complete.When SpiderMonkey calls an
onPop
handler for a frame that is throwing an exception or being terminated, and the handler returnsundefined
, then SpiderMonkey proceeds with the exception or termination. That is, anundefined
resumption value leaves the frame’s throwing and termination process undisturbed.If multiple Debugger instances each have
Debugger.Frame
instances for a given stack frame withonPop
handlers set, their handlers are run in an unspecified order. The resumption value each handler returns establishes the completion value reported to the next handler.This handler is not called on
"debugger"
frames. It is also not called when unwinding a frame due to an over-recursion or out-of-memory exception.
Function properties of the Debugger.Frame prototype object
The functions described below may only be called with a this
value referring to a Debugger.Frame
instance; they may not be used as methods of other kinds of objects.
eval(code, [options])
Evaluate code in the execution context of this frame, and return a completion value describing how it completed. Code is a string. If this frame’s
environment
property isnull
ortype
property iswasmcall
, throw aTypeError
. All extant handler methods, breakpoints, and so on remain active during the call. This function follows the invocation function convention.Code is interpreted as strict mode code when it contains a Use Strict Directive, or the code executing in this frame is strict mode code.
If code is not strict mode code, then variable declarations in code affect the environment of this frame. (In the terms used by the ECMAScript specification, the
VariableEnvironment
of the execution context for the eval code is theVariableEnvironment
of the execution context that this frame represents.) If implementation restrictions prevent SpiderMonkey from extending this frame’s environment as requested, this call throws an Error exception.If given, options should be an object whose properties specify details of how the evaluation should occur. The
eval
method recognizes the following properties:
url
The filename or URL to which we should attribute code. If this property is omitted, the URL defaults to
"debugger eval code"
.lineNumber
The line number at which the evaluated code should be claimed to begin within url.
evalWithBindings(*code*,*bindings*, [*options*])
Like
eval
, but evaluate code in the environment of this frame, extended with bindings from the object bindings. For each own enumerable property of bindings named name whose value is value, include a variable in the environment in which code is evaluated named name, whose value is value. Each value must be a debuggee value. (This is not like awith
statement: code may access, assign to, and delete the introduced bindings without having any effect on the bindings object.)This method allows debugger code to introduce temporary bindings that are visible to the given debuggee code and which refer to debugger-held debuggee values, and do so without mutating any existing debuggee environment.
Note that, like
eval
, declarations in the code passed toevalWithBindings
affect the environment of this frame, even as that environment is extended by bindings visible within code. (In the terms used by the ECMAScript specification, theVariableEnvironment
of the execution context for the eval code is theVariableEnvironment
of the execution context that this frame represents, and the bindings appear in a new declarative environment, which is the eval code’sLexicalEnvironment
.) If implementation restrictions prevent SpiderMonkey from extending this frame’s environment as requested, this call throws anError
exception.The options argument is as for Debugger.Frame.prototype.eval, described above. Also like
eval
, if this frame’senvironment
property isnull
ortype
property iswasmcall
, throw aTypeError
.
Source Metadata
- Generated from file:
js/src/doc/Debugger/Debugger.Frame.md
- Watermark:
sha256:b1894f88b76b7afd661f3044a05690d76d1498c54c596ca729c6ee0d150d2da1
- Changeset: