Auto Shape¶
Summary¶
AutoShape is the name the MS Office API uses for a shape with preset geometry, those referred to in the PowerPoint UI simply as shape. Typical examples are a rectangle, a circle, or a star shape. An auto shape has a type (preset geometry), an outline line style, a fill, and an effect, in addition to a position and size. The outline, fill, and effect can each be None.
Each auto shape is contained in an <p:sp>
element.
Auto shape type¶
There are 187 pre-defined auto shape types, each corresponding to a distinct preset geometry. Some types have one or more adjustment value, which corresponds to the position of an adjustment handle (small yellow diamond) on the shape in the UI that changes an aspect of the shape geometry, for example the corner radius of a rounded rectangle.
MsoAutoShapeType Enumeration page on MSDN
Adjustment values¶
Many auto shapes may be adjusted to change their shape beyond just their width, height, and rotation. In the PowerPoint application, this is accomplished by dragging small yellow diamond-shaped handles that appear on the shape when it is selected.
In the XML, the position of these adjustment handles is reflected in the
contents of the <a:avLst>
element:
<a:prstGeom prst="roundRect">
<a:avLst>
<a:gd name="adj" fmla="val 30346"/>
</a:avLst>
</a:prstGeom>
The <a:avLst>
element can be empty, even if the shape has available adjustments.
- guide
a guide is essentially a variable within DrawingML. Its value is the result of a simple expression like
"*/ 100000 w ss"
. Its value may then be used in other expressions or directly to specify a point, by referring to it by name.
<a:gd>
stands for guide …
- Where are the custom geometries defined?
The geometries for autoshapes are defined in
presetShapeDefinitions.xml
, located in:pptx/ref/ISO-IEC-29500-1/schemas/dml-geometries/OfficeOpenXML-DrawingMLGeometries/
.- What is the range of the formula values?
In general, the nominal adjustment value range for the preset shapes is 0 to 100000. However, the actual value stored can be outside that range, depending on the formulas involved. For example, in the case of the chevron shape, the range is from 0 to 100000 * width / short-side. When the shape is taller than it is wide, width is the short side and the range is 0 to 100000. However, when the shape is wider than it is tall, the range can be much larger. Required values are probably best discovered via experimentation or calculation based on the preset formula.
The <a:avLst>
element does not appear initially when the shape is inserted. However,
if the adjustment handle is moved and then moved back to the default value, the
<a:avLst>
element is not removed. The default value becomes the effective value for
the guide if the <a:avLst>
element is not present.
The adjustment value is preserved over scaling of the object. Its effective
value can change however, depending on the formula. In the case of the chevron
shape, the effective value is a function of ss
, the “short side”, and the
adjustment handle moves on screen when the chevron is made wider than it is
tall.
A certain level of documentation for auto shapes could be generated from the XML shape definition file. The preset name and the number of adjustment values it has (guide definitions) and the adjustment value name can readily be determined by inspection of the XML.
- What coordinate system are the formula values expressed in?
There appear to be two coordinate systems at work. The 0 to 100000 bit the adjustment handles are expressed in appears to be the (arbitrary) shape coordinate system. The built-in values like
w
,ss
, etc., appear to be in the slide coordinate system, the one thexfrm
element traffics in.Probably worth experimenting with some custom shapes to find out (edit and rezip with bash one-liner).
- useful web resources
What useful web resources are out there on DrawingML?
XML produced by PowerPoint® client¶
<p:sp>
<p:nvSpPr>
<p:cNvPr id="3" name="Rounded Rectangle 2"/>
<p:cNvSpPr/>
<p:nvPr/>
</p:nvSpPr>
<p:spPr>
<a:xfrm>
<a:off x="760096" y="562720"/>
<a:ext cx="2520824" cy="914400"/>
</a:xfrm>
<a:prstGeom prst="roundRect">
<a:avLst>
<a:gd name="adj" fmla="val 30346"/>
</a:avLst>
</a:prstGeom>
</p:spPr>
<p:style>
<a:lnRef idx="1">
<a:schemeClr val="accent1"/>
</a:lnRef>
<a:fillRef idx="3">
<a:schemeClr val="accent1"/>
</a:fillRef>
<a:effectRef idx="2">
<a:schemeClr val="accent1"/>
</a:effectRef>
<a:fontRef idx="minor">
<a:schemeClr val="lt1"/>
</a:fontRef>
</p:style>
<p:txBody>
<a:bodyPr rtlCol="0" anchor="ctr"/>
<a:lstStyle/>
<a:p>
<a:pPr algn="ctr"/>
<a:r>
<a:rPr lang="en-US" dirty="0" smtClean="0"/>
<a:t>This is text inside a rounded rectangle</a:t>
</a:r>
<a:endParaRPr lang="en-US" dirty="0"/>
</a:p>
</p:txBody>
</p:sp>
Resources¶
DrawingML Shapes on officeopenxml.com