ChartArea.Border property is hidden, you need to toggle "show hidden members" on in the Object Browser to see it.
Below is essentially everything there is to know about the Object Browser.
Library Filter & Search Box
The top part looks like this:
That dropdown contains all referenced type libraries, identified by their programmatic name:
Excel: the Excel type library, defines things like
Office: a dependency of the Excel type library; defines things like
stdole: another dependency; defines lower-level things like
VBA: the VBA standard library, defines things like
VBAProject: the type library of your compiled VBA project.
You'll want to use that dropdown to limit what you're looking at to the specific type library you're exploring - for example,
Excel. Under the dropdown, there's a search box you can use to search for strings that appear in part of an identifier and populate the "search results" view - but you know that already.
Show Hidden Members
Right-click an empty area in the toolbar; select "Show hidden members" - now the object browser and InteliSense will be listing members that are otherwise hidden, and you'll quickly discover that the Excel type library is much larger than it seems.
Edit Module/Member Descriptions
Navigate to your
VBAProject library, and find one of your modules in the left pane; the right pane will be listing the members of that module. Right-click either the module or one of its members, and select "Properties" - the "Member Options" dialog pops up and lets you enter a description:
Module and member descriptions show up in the bottom pane when they exist:
If you exported that module, you would see that it now has a hidden
VB_Description attribute with a string value that matches what you entered for a description.
If you're using Rubberduck, you can use special comments ("annotations") to control these hidden attributes, too:
'@ModuleDescription("This module contains some boring recorded macros.")
Public Sub Macro1()
Rubberduck annotations can also control/synchronize other hidden attributes that the Object Browser isn't exposing, but I digress.
The left pane ("classes") displays all the types in the selected library; the right pane lists the members of the selected type, grouped by kind (properties, methods, events, etc.); what you must keep in mind, is that no matter how many members are named the same as types/classes/interfaces, a member is a member, not a type.
Taking this expression:
Sheets("Sheet1").ChartObjects(1).Chart.ChartArea.Border.LineStyle = xlContinuous
We can start with finding what object type the
Sheets member call belongs to. If we filter for the
Excel library and search for
Sheets, we find 2 interesting results where a member is named
This means unless that line of code is in the code-behind of
ThisWorkbook, what we're calling can't be
Workbook.Sheets - but we're not qualifying it with
Application either! If we reveal hidden members, we discover a hidden
Global class and a
_Global interface that both expose a
Sheets member! From there we can infer that the Excel object model is "redirecting" our unqualified
Sheets call to the
Application object, which looks like it's giving us the
Sheets member of whatever the
ActiveWorkbook is. In any case, the relationship between
Global is confusing: we select
_Global.Sheets and the bottom panel tells us we're looking at a member of
Notice the property doesn't have any parameters: it simply yields a reference to a
Sheets object. So we look at the returned
Sheets type - either by clicking the hyperlink in the bottom panel, or by browsing the left panel to find the
Sheets collection type (which conveniently happens to have the same name as the
Sheets property of the
Note that the
Workbook.Worksheets property also yields a
Sheets collection object.
Like all other collection classes, the
Sheets class has a default member, and this one is hidden, it's named
_Default, and it returns an
Object. We can guess that the property is forwarding the call to the
Item indexer, because collection classes normally expose a way to access their items by index or by name/key (by convention it's named
Item but sometimes it's something else, like
Recordset.Fields)... but now that property also returns an
Classes in VBA can have a member (only one!) that can be implicitly invoked when the object is coerced into a value. This member has a hidden
VB_UserMemId attribute with a value of
0, and the object browser identifies it with a blue/cyan dot on the member's icon. That's how
Application.Name gets output when you write
Debug.Print Application; that's also how you get
Range.Value when you
Range object into a
Variant or any other non-object type without using the
Set keyword... and it's why the
Set keyword is required when assigning object references: without it the compiler wouldn't have a way to tell whether you mean to assign the object itself or its default member value... which can very well be another object reference.
In general, it's best to avoid implicit default member calls and be explicit, so that the code says what it does, and does what it says.
At this point we're stumped, just like the compiler is: every further member call on that line of code is only resolvable at run-time - it's all late-bound, and when you type it you get no IntelliSense, no autocompletion, no compile-time validation: even
Option Explicit can't save you from a typo, and if you make one you'll know because VBA will throw error 438 "I can't find that member" at you.
Sheets._Default returns an
Object: not all sheets are
Worksheet objects - a
Chart could be a sheet as well! That's why we usually prefer to use the
Workbook.Worksheets property instead, so that we're certain to get a
Worksheet object. Right? "Sheet1" is a
Worksheet, we know as much!
We could restore early binding by declaring a
Dim sheet As Worksheet
Set sheet = ActiveWorkbook.Worksheets("Sheet1")
sheet.ChartObjects(1).Chart.ChartArea.Border.LineStyle = xlContinuous
So we browse to the
Worksheet type in the left pane, find its
ChartObjects method (it's a
Function), which also returns an
Object. Looks like naming properties after their type is a common convention in the Excel type library - there's a
ChartObjects object collection in the left pane, and we can probably assume its items are
ChartObject objects; so we find the
ChartObject class again in the left pane, and see that it has a
Chart property that returns a
At this point we can restore early binding further down the chain of member calls, by extracting another variable:
Dim targetChartObj As ChartObject
Set targetChartObj = sheet.ChartObjects(1)
targetChartObj.Chart.ChartArea.Border.LineStyle = xlContinuous
ChartArea property yields a
ChartArea object, so we find the
ChartArea class in the left panel, ...and see that it has a hidden
ChartArea.Border property returns a
Border object, which again we find in the left panel to see that it has a
LineStyle property... of type
Variant. How are we supposed to know
xlContinuous is even a thing then? Is there no hope?
At this point we could google up
Border.LineStyle and see if the docs give us a clue about the legal values, ...or we could try to search for
LineStyle in the search box...
...and see that there's an
XlLineStyle enum with a member named
xlContinuous, alongside all other constants defined under that enum. A quick online search brings up the official docs and confirms that Border.LineStyle wants an
XlLineStyle enum value!
Now, this was moving left-to-right. Going right-to-left, you can work your way up by leveraging the search box; searching for "Border" with hidden members visible, lists the
ChartArea.Border member in the search results.