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I have inserted a smart art, and converted it to shapes. And Selected a shape by clicking on it.
Now I want to get Shape object of slected shape. I have tried this but it throws exception.
dim shap as Excel.Shape = ExcelApp.Selection
I can get the shape object by iterating on ActiveSheet.Shapes or like this
dim shap as Excel.Shape = ActiveSheet.Shapes.Item(1)But how would I know this shape is selected or not, Really need Help Thanks ALot.
Answers
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Try this,
Dim shpTemp As Excel.Shape Set shpTemp = Application.Selection.ShapeRange.Item(1)
Cheers,
Andy
www.andypope.info-
Marked as answer by
Monday, December 5, 2011 1:44 AM
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Marked as answer by
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I tried the same code this morning while helping out a similar problem in C#, the Selection method returns an object and not an excel shape.
dim shap as object = ExcelApp.Selection
or
dim shap as variant = ExcelApp.Selection
jdweng
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Marked as answer by
Mark Liu-lxf
Monday, December 5, 2011 1:43 AM
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Marked as answer by
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Hello:
The code should have been:
Public Sub ActiveSheetShapes() Dim shapObject As Variant If TypeName(Application.Selection) = "GroupObject" Then Set shapObject = Application.Selection Else Exit Sub End If MsgBox ("Shape Name Selected Is " & shapObject.Name) End Sub
Regards,
Rich Locus, Logicwurks, LLC
http://www.logicwurks.com
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Marked as answer by
Mark Liu-lxf
Monday, December 5, 2011 1:44 AM
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Marked as answer by
What This Does
There are times when you would like to know information about the currently selected shape on your spreadsheet. This could be needed because you are trying to change something from a user-selected shape or you want to read in some bit of information from the shape (most commonly the shape name or text). There are two different scenarios of code this post will provide.
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Determining the name of a shape that is selected by the user
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Determining the text of a shape that was clicked-on to run a VBA macro
In both scenarios, the code will set a shape variable to the active shape so you can then do as you please from there.
Shape Selected By User
Shape Clicked On To Run A VBA Macro
Using VBA Code Found On The Internet
Now that you’ve found some VBA code that could potentially solve your Excel automation problem, what do you do with it? If you don’t necessarily want to learn how to code VBA and are just looking for the fastest way to implement this code into your spreadsheet, I wrote an article (with video) that explains how to get the VBA code you’ve found running on your spreadsheet.
Getting Started Automating Excel
Are you new to VBA and not sure where to begin? Check out my quickstart guide to learning VBA. This article won’t overwhelm you with fancy coding jargon, as it provides you with a simplistic and straightforward approach to the basic things I wish I knew when trying to teach myself how to automate tasks in Excel with VBA Macros.
Also, if you haven’t checked out Excel’s latest automation feature called Power Query, I have put together a beginner’s guide for automating with Excel’s Power Query feature as well! This little-known built-in Excel feature allows you to merge and clean data automatically with little to no coding!
How Do I Modify This To Fit My Specific Needs?
Chances are this post did not give you the exact answer you were looking for. We all have different situations and it’s impossible to account for every particular need one might have. That’s why I want to share with you: My Guide to Getting the Solution to your Problems FAST! In this article, I explain the best strategies I have come up with over the years to get quick answers to complex problems in Excel, PowerPoint, VBA, you name it!
I highly recommend that you check this guide out before asking me or anyone else in the comments section to solve your specific problem. I can guarantee that 9 times out of 10, one of my strategies will get you the answer(s) you are needing faster than it will take me to get back to you with a possible solution. I try my best to help everyone out, but sometimes I don’t have time to fit everyone’s questions in (there never seem to be quite enough hours in the day!).
I wish you the best of luck and I hope this tutorial gets you heading in the right direction!
Chris
Founder, TheSpreadsheetGuru.com
MinionKi
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#1
You can assign a macro to pretty much any object in excel. My question is if when selecting an object that has a macro attached to it if you can have the Macro first identify which shape you have clicked.
For example if I were to click on «Object1» and the code that runs when I select «Object1» says if this is «Object1» then do «…» Else do «…»
Let me know if this isn’t clear enough.
Thanks.
Last edited: May 24, 2017
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StephenCrump
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#2
Have a look at the Application.Caller Property.
yky
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#4
Application.Caller is exactly what I was looking for. Thank you. I ended up finding this property while running through someone else’s code and it worked like a charm.
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#5
Before offering advice on this forum, please learn Excel and VBA. «Application.Caller» does not apply to ActiveX controls (buttons).
I truly wish the dilettanti would leave the field to the professionals.
At this point neither I, nor as far as I know, anyone else had figured a way to get the name of an ActiveX button without cycling (which involves KNOWING its name in advance.
I need to her the trailing number of «tbnLong56», when I do not know which «tbnLong**» was pressed
Good luck in your excel endeveaours
Similar threads
Работа с фигурами в VBA Excel: создание фигур методом Shapes.AddShape, типы фигур (MsoAutoShapeType), обращение к фигурам и изменение их свойств. Примеры.
Объекты для работы с фигурами
Фигуры в VBA Excel представлены тремя объектами:
| Объект | Описание |
|---|---|
| Shapes | Коллекция всех фигур на рабочем листе. Используется для создания новых фигур, для обращения к одной фигуре по имени и для перебора фигур циклом. |
| ShapeRange | Коллекция нескольких фигур, аргументом которой является массив имен выбранных объектов. Используется для редактирования сразу всех фигур, входящих в эту коллекцию. |
| Shape | Объект, представляющий одну фигуру. Используется для редактирования одной этой фигуры. |
Фигуры в VBA Excel создаются методом Shapes.AddShape.
Синтаксис метода AddShape
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Shapes.AddShape (Type, Left, Top, Width, Height) |
Shapes — выражение, возвращающее коллекцию фигур на рабочем листе, например: ActiveSheet.Shapes.
Параметры метода AddShape
| Параметр | Описание |
|---|---|
| Type | Константа из коллекции MsoAutoShapeType, определяющая тип создаваемой фигуры. |
| Left | Расстояние от левой границы фигуры до левой границы табличной части рабочего листа в пунктах.. Тип данных — Single. |
| Top | Расстояние от верхней границы фигуры до верхней границы табличной части рабочего листа в пунктах.. Тип данных — Single. |
| Width | Ширина фигуры по внешним границам в пунктах. |
| Height | Высота фигуры по внешним границам в пунктах. |
Все параметры метода Shapes.AddShape являются обязательными.
Константы MsoAutoShapeType
Константы коллекции MsoAutoShapeType, определяющие основные типы создаваемых фигур:
| Константа | Значение | Тип фигуры |
|---|---|---|
| msoShapeRectangle | 1 | Прямоугольник |
| msoShapeParallelogram | 2 | Параллелограмм |
| msoShapeTrapezoid | 3 | Трапеция |
| msoShapeDiamond | 4 | Ромб |
| msoShapeRoundedRectangle | 5 | Прямоугольник: скругленные углы |
| msoShapeOctagon | 6 | Восьмиугольник (октаэдр) |
| msoShapeIsoscelesTriangle | 7 | Равнобедренный треугольник |
| msoShapeRightTriangle | 8 | Прямоугольный треугольник |
| msoShapeOval | 9 | Овал |
| msoShapeHexagon | 10 | Шестиугольник (гексаэдр) |
| msoShapeCross | 11 | Крест |
| msoShapeRegularPentagon | 12 | Пятиугольник (пентаэдр) |
| msoShapeCan | 13 | Цилиндр |
| msoShapeCube | 14 | Куб |
| msoShapeDonut | 18 | Круг: прозрачная заливка (кольцо) |
| msoShapeLightningBolt | 22 | Молния |
| msoShapeSun | 23 | Солнце |
| msoShapeMoon | 24 | Месяц (луна) |
| msoShape5pointStar | 92 | Звезда: 5 точек (пятиконечная) |
| msoShapeCloud | 179 | Облако |
Все доступные константы из коллекции MsoAutoShapeType смотрите на сайте разработчиков.
Создание объекта ShapeRange
Создание коллекции ShapeRange из выбранных фигур:
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Dim myShapeRange As ShapeRange Set myShapeRange = ActiveSheet.Shapes.Range(Array(«Пятиугольник 140», «Солнце 141», «Облако 144»)) |
Объектная переменная myShapeRange не обязательна, можно обратиться непосредственно к возвращенной коллекции, например, присвоив всем ее элементам синий цвет:
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ActiveSheet.Shapes.Range(Array(«Пятиугольник 140», «Солнце 141», «Облако 144»)).Fill.ForeColor.RGB = vbBlue |
Примеры работы с фигурами
Пример 1
Создание пяти разных фигур из кода VBA Excel методом Shapes.AddShape:
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Sub Primer1() With ActiveSheet.Shapes ‘При создании фигуры без присвоения ее переменной скобки не нужны .AddShape msoShapeCube, 30, 40, 72, 72 .AddShape msoShapeIsoscelesTriangle, 130, 40, 72, 72 .AddShape msoShapeSun, 230, 40, 72, 72 .AddShape msoShapeLightningBolt, 330, 40, 72, 72 ‘Чтобы выбрать фигуру, параметры необходимо заключить в скобки .AddShape(msoShapeCloud, 430, 40, 72, 72).Select End With End Sub |
Результат работы кода:
Пример 2
Работа с одной фигурой:
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Sub Primer2() Dim myShape As Shape ‘Создаем фигуру «Месяц» и присваивает ссылку на нее переменной myShape Set myShape = ActiveSheet.Shapes.AddShape(msoShapeMoon, 50, 50, 80, 80) With myShape ‘Меняем высоту и ширину фигуры .Height = 150 .Width = 100 ‘Меняем цвет фигуры .Fill.ForeColor.RGB = vbYellow ‘Поворачиваем фигуру влево на 40 градусов .Rotation = —40 End With End Sub |
Пример 3
Редактирование одновременно нескольких фигур с помощью коллекции ShapeRange:
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Sub Primer3() With ActiveSheet.Shapes.Range(Array(«Овал 1», «Овал 2», «Овал 3»)) ‘Меняем цвет всех фигур из коллекции ShapeRange .Fill.ForeColor.RGB = vbBlue ‘Задаем высоту и ширину овалов .Height = 150 .Width = 50 ‘Поворачиваем фигуры вправо на 45 градусов .Rotation = 45 End With End Sub |
Пример 4
Редактирование одновременно всех фигур на рабочем листе с помощью коллекции ShapeRange:
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 |
Sub Primer4() Dim myShapeRange As ShapeRange, i As Integer, _ myShape As Shape, myArray() As String ‘Задаем массиву размерность от 1 до количества фигур на листе ReDim myArray(1 To ActiveSheet.Shapes.Count) ‘Проходим циклом по всем фигурам коллекции и записываем их имена в массив For Each myShape In ActiveSheet.Shapes i = i + 1 myArray(i) = myShape.Name Next ‘Создаем коллекцию ShapeRange и присваиваем ссылку на нее переменной myShapeRange Set myShapeRange = ActiveSheet.Shapes.Range(myArray) With myShapeRange ‘Изменяем цвет всех фигур на рабочем листе .Fill.ForeColor.RGB = RGB(100, 150, 200) ‘Поворачиваем все фигуры вокруг вертикальной оси .Flip msoFlipVertical End With End Sub |
Пример 5
Добавление надписи (текста) на фигуру:
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Sub Primer5() Dim myShape As Shape Set myShape = ActiveSheet.Shapes.AddShape(msoShapeCloud, 50, 30, 300, 300) With myShape.TextFrame2 ‘Добавление текста на фигуру .TextRange.Characters.Text = «Объект TextFrame представляет текстовую рамку в объекте Shape. Содержит текст в текстовом кадре, а также свойства и методы, которые контролируют выравнивание и закрепление текстового кадра.» ‘Задаем курсивное начертание .TextRange.Characters.Font.Italic = True ‘Указываем размер шрифта .TextRange.Characters.Font.Size = 13 ‘Отступ левой границы текстового поля от левой внутренней границы фигуры .MarginLeft = 30 ‘Отступ верхней границы текстового поля от верхней внутренней границы фигуры .MarginTop = 20 End With End Sub |
Результат работы кода:
Изменить цвет текста, например на черный, можно двумя способами:
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‘С помощью константы MsoThemeColorIndex myShape.TextFrame2.TextRange.Characters.Font.Fill.ForeColor.ObjectThemeColor = msoThemeColorDark1 ‘С помощью цветовой модели RGB myShape.TextFrame2.TextRange.Characters.Font.Fill.ForeColor.RGB = RGB(0, 0, 0) |
С константами из коллекции MsoThemeColorIndex вы можете ознакомиться на сайте разработчиков.
Пример 6
Удаление фигур с рабочего листа из кода VBA Excel с помощью метода Delete.
Удаление одной фигуры:
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ActiveSheet.Shapes(«Ромб 5»).Delete |
Удаление нескольких фигур:
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ActiveSheet.Shapes.Range(Array(«Овал 1», «Овал 2», «Овал 3»)).Delete |
Удаление всех фигур с рабочего листа с помощью цикла:
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Sub Primer6() Dim myShape As Shape For Each myShape In ActiveSheet.Shapes myShape.Delete Next End Sub |
В 7 примере рассмотрено удаление всех фигур без цикла.
Пример 7
Выделение всех фигур на рабочем листе:
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ActiveSheet.Shapes.SelectAll |
Выбор всех фигур и удаление выбранного (всех фигур):
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Sub Primer7() ActiveSheet.Shapes.SelectAll Selection.Delete End Sub |
Продолжение темы в статье VBA Excel. Копирование, перемещение и поворот фигур.
I am using code to connect with arrow between 2 shapes. It works well as intended and I have error handling for when more than 2 shapes are selected. However, they way this works is the user needs to select the shapes first before running the code (this is an excel limitation as far as I understand , where you cannot use user input to select shapes once a macro is running).
I am having trouble building in error handling for when the user clicks on the button to run the macro without selecting any shapes. Any suggestions?
Sub ArrowConnect()
Dim Sh1 As String
Dim Sh2 As String
' test for correct number of selected shapes
With ActiveWindow.Selection.ShapeRange
If .Count <> 2 Then
MsgBox "Please select two and ONLY two shapes"
Exit Sub
Else
' get name of first shape
Sh1 = .Item(1).Name
' get name of second shape
Sh2 = .Item(2).Name
End If
End With
AddConnectorBetweenShapes msoConnectorStraight, ActiveSheet.Shapes(Sh1), ActiveSheet.Shapes(Sh2)
End Sub
With ActiveWindow.Selection.ShapeRange throws an error when no shapes are selected and I want a way to handle that. I tried using If Application.Selection = 0 which works if nothing is selected but gives an error when the user does as they should and selects the shapes first. Thanks!
| title | keywords | f1_keywords | ms.prod | ms.assetid | ms.date | ms.localizationpriority |
|---|---|---|---|---|---|---|
|
Working with shapes (drawing objects) |
vbaxl10.chm5206010 |
vbaxl10.chm5206010 |
excel |
aef5dc81-d54f-a01a-f949-a30688a3cf23 |
11/13/2018 |
medium |
Shapes, or drawing objects, are represented by three different objects:
| Object | Description |
|---|---|
| Shapes collection | Use to create shapes and to iterate through all the shapes on a given worksheet. |
| ShapeRange collection | Use to modify multiple shapes the same way you work with multiple shapes in the user interface. |
| Shape object | Use to format or modify a single shape. |
Setting properties for a shape
Many formatting properties of shapes are not set by properties that apply directly to the Shape or ShapeRange object. Instead, related shape attributes are grouped under secondary objects, such as the FillFormat object, which contains all the properties that relate to the shape’s fill, or the LinkFormat object, which contains all the properties that are unique to linked OLE objects.
To set properties for a shape, you must first return the object that represents the set of related shape attributes and then set properties of that returned object. For example, you use the Fill property to return the FillFormat object, and then you set the ForeColor property of the FillFormat object to set the fill foreground color for the specified shape, as shown in the following example.
Worksheets(1).Shapes(1).Fill.ForeColor.RGB = RGB(255, 0, 0)
Applying a property or method to several shapes at the same time
In the user interface, you can perform some operations with several shapes selected; for example, you can select several shapes and set all their individual fills at once. You can perform other operations with only a single shape selected; for example, you can edit the text in a shape only if a single shape is selected.
In Visual Basic, there are two ways to apply properties and methods to a set of shapes. These two ways allow you to perform any operation that you can perform on a single shape on a range of shapes, whether or not you can perform the same operation in the user interface.
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If the operation works on multiple selected shapes in the user interface, you can perform the same operation in Visual Basic by constructing a ShapeRange collection that contains the shapes you want to work with, and applying the appropriate properties and methods directly to the ShapeRange collection.
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If the operation does not work on multiple selected shapes in the user interface, you can still perform the operation in Visual Basic by looping through the Shapes collection or through a ShapeRange collection that contains the shapes you want to work with, and applying the appropriate properties and methods to the individual Shape objects in the collection.
Many properties and methods that apply to the Shape object and ShapeRange collection fail if applied to certain kinds of shapes. For example, the TextFrame property fails if applied to a shape that cannot contain text.
If you are not positive that each of the shapes in a ShapeRange collection can have a certain property or method applied to it, don’t apply the property or method to the ShapeRange collection. If you want to apply one of these properties or methods to a collection of shapes, you must loop through the collection and test each individual shape to make sure it is an appropriate type of shape before applying the property or method to it.
Creating a ShapeRange collection that contains all shapes on a sheet
You can create a ShapeRange object that contains all the Shape objects on a sheet by selecting the shapes and then using the ShapeRange property to return a ShapeRange object containing the selected shapes.
Worksheets(1).Shapes.Select Set sr = Selection.ShapeRange
In Microsoft Excel, the Index argument is not optional for the Range property of the Shapes collection, so you cannot use this property without an argument to create a ShapeRange object containing all shapes in a Shapes collection.
Applying a property or method to a ShapeRange collection
If you can perform an operation on multiple selected shapes in the user interface at the same time, you can do the programmatic equivalent by constructing a ShapeRange collection and then applying the appropriate properties or methods to it. The following example constructs a shape range that contains the shapes named «Big Star» and «Little Star» on myDocument and applies a gradient fill to them.
Set myDocument = Worksheets(1) Set myRange = myDocument.Shapes.Range(Array("Big Star", _ "Little Star")) myRange.Fill.PresetGradient _ msoGradientHorizontal, 1, msoGradientBrass
The following are general guidelines for how properties and methods behave when they are applied to a ShapeRange collection.
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Applying a method to the collection is equivalent to applying the method to each individual Shape object in that collection.
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Setting the value of a property of the collection is equivalent to setting the value of the property of each individual shape in that range.
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A property of the collection that returns a constant returns the value of the property for an individual shape in the collection if all shapes in the collection have the same value for that property. If not all shapes in the collection have the same value for the property, it returns the «mixed» constant.
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A property of the collection that returns a simple data type (such as Long, Single, or String) returns the value of the property for an individual shape if all shapes in the collection have the same value for that property.
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The value of some properties can be returned or set only if there is exactly one shape in the collection. If the collection contains more than one shape, a run-time error occurs. This is generally the case for returning or setting properties when the equivalent action in the user interface is possible only with a single shape (actions such as editing text in a shape or editing the points of a freeform).
The preceding guidelines also apply when you are setting properties of shapes that are grouped under secondary objects of the ShapeRange collection, such as the FillFormat object. If the secondary object represents operations that can be performed on multiple selected objects in the user interface, you’ll be able to return the object from a ShapeRange collection and set its properties.
For example, you can use the Fill property to return the FillFormat object that represents the fills of all the shapes in the ShapeRange collection. Setting the properties of this FillFormat object will set the same properties for all the individual shapes in the ShapeRange collection.
Looping through a Shapes or ShapeRange collection
Even if you cannot perform an operation on several shapes in the user interface at the same time by selecting them and then using a command, you can perform the equivalent action programmatically by looping through a Shapes or ShapeRange collection that contains the shapes you want to work with, applying the appropriate properties and methods to the individual Shape objects in the collection.
The following example loops through all the shapes on myDocument and changes the foreground color for each AutoShape shape.
Set myDocument = Worksheets(1) For Each sh In myDocument.Shapes If sh.Type = msoAutoShape Then sh.Fill.ForeColor.RGB = RGB(255, 0, 0) End If Next
The following example constructs a ShapeRange collection that contains all the currently selected shapes in the active window and sets the foreground color for each selected shape.
For Each sh in ActiveWindow.Selection.ShapeRange sh.Fill.ForeColor.RGB = RGB(255, 0, 0) Next
Aligning, distributing, and grouping shapes in a ShapeRange
Use the Align and Distribute methods to position a set of shapes relative to one another or relative to the document that contains them.
Use the Group method or the Regroup method to form a single grouped shape from a set of shapes.
See also
- Excel functions (by category)
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