MutatorMath started out with its own reader and writer for designspaces. Since then the use of designspace has broadened and it would be useful to have a reader and writer that are independent of a specific system.

DesignSpaceDocument
===================

An object to read, write and edit interpolation systems for typefaces.

* the format was originally written for MutatorMath.
* the format is now also used in fontTools.varlib.
* Define sources, axes and instances.
* Not all values might be required by all applications.

A couple of differences between things that use designspaces:

* Varlib does not support anisotropic interpolations.
* MutatorMath and Superpolator will extrapolate over the boundaries of the axes. Varlib can not.
* Varlib requires much less data to define an instance than MutatorMath.
* The goals of Varlib and MutatorMath are different, so not all attributes are always needed.
* Need to expand the description of FDK use of deisgnspace files.

The DesignSpaceDocument object can read and write .designspace data. It imports the axes, sources and instances to very basic **descriptor** objects that store the data in attributes. Data is added to the document by creating such descriptor objects, filling them with data and then adding them to the document. This makes it easy to integrate this object in different contexts.

The **DesignSpaceDocument** object can be subclassed to work with different objects, as long as they have the same attributes.

The object does not do any validation. 

```python
from designSpaceDocument import DesignSpaceDocument
doc = DesignSpaceDocument()
doc.read("some/path/to/my.designspace")
doc.axes
doc.sources
doc.instances
```


# `Source` descriptor object attributes
* `path`: string. Path to the source file. MutatorMath + Varlib.
* `name`: string. Unique identifier name of the source, used to identify it if it needs to be referenced from elsewhere in the document. MutatorMath.
* `location`: dict. Axis values for this source. MutatorMath + Varlib
* `copyLib`: bool. Indicates if the contents of the font.lib need to be copied to the instances. MutatorMath. 
* `copyInfo` bool. Indicates if the non-interpolating font.info needs to be copied to the instances. MutatorMath.
* `copyGroups` bool. Indicates if the groups need to be copied to the instances. MutatorMath.
* `copyFeatures` bool. Indicates if the feature text needs to be copied to the instances. MutatorMath.
* `muteKerning`: bool. Indicates if the kerning data from this source needs to be muted (i.e. not be part of the calculations). MutatorMath.
* `muteInfo`: bool. Indicated if the interpolating font.info data for this source needs to be muted. MutatorMath.
* `mutedGlyphNames`: list. Glyphnames that need to be muted in the instances. MutatorMath.
* `familyName`: string. Family name of this source. Though this data can be extracted from the font, it can be efficient to have it right here. Varlib.
* `styleName`: string. Style name of this source. Though this data can be extracted from the font, it can be efficient to have it right here. Varlib.

```python
doc = DesignSpaceDocument()
s1 = SourceDescriptor()
s1.path = masterPath1
s1.name = "master.ufo1"
s1.copyLib = True
s1.copyInfo = True
s1.copyFeatures = True
s1.location = dict(weight=0)
s1.familyName = "MasterFamilyName"
s1.styleName = "MasterStyleNameOne"
s1.mutedGlyphNames.append("A")
s1.mutedGlyphNames.append("Z")
doc.addSource(s1)
```

# `Instance` descriptor object
* `path`: string. Path to the instance file, which may or may not exist. MutatorMath.
* `name`: string. Unique identifier name of the instance, used to identify it if it needs to be referenced from elsewhere in the document. 
* `location`: dict. Axis values for this source. MutatorMath + Varlib.
* `familyName`: string. Family name of this instance. MutatorMath + Varlib.
* `styleName`: string. Style name of this source. MutatorMath + Varlib.
* `postScriptFontName`: string. Postscript FontName for this instance. MutatorMath.
* `styleMapFamilyName`: string. StyleMap FamilyName for this instance. MutatorMath.
* `styleMapStyleName`: string. StyleMap StyleName for this instance. MutatorMath.
* `glyphs`: dict for special master definitions for glyphs. If glyphs need special masters (to record the results of executed rules for example). MutatorMath. 
* `kerning`: bool. Indicates if this instance needs its kerning calculated. MutatorMath.
* `info`: bool. Indicated if this instance needs the interpolating font.info calculated.

```python
i2 = InstanceDescriptor()
i2.path = instancePath2
i2.familyName = "InstanceFamilyName"
i2.styleName = "InstanceStyleName"
i2.name = "instance.ufo2"
# anisotropic location 
i2.location = dict(weight=500, width=(400,300))
i2.postScriptFontName = "InstancePostscriptName"
i2.styleMapFamilyName = "InstanceStyleMapFamilyName"
i2.styleMapStyleName = "InstanceStyleMapStyleName"
glyphMasters = [dict(font="master.ufo1", glyphName="BB", location=dict(width=20,weight=20)), dict(font="master.ufo2", glyphName="CC", location=dict(width=900,weight=900))]
glyphData = dict(name="arrow", unicodeValue=1234)
glyphData['masters'] = glyphMasters
glyphData['note'] = "A note about this glyph"
glyphData['instanceLocation'] = dict(width=100, weight=120)
i2.glyphs['arrow'] = glyphData
i2.glyphs['arrow2'] = dict(mute=False)
doc.addInstance(i2)
```
# `Axis` descriptor object
* `tag`: string. Four letter tag for this axis. Some might be registered at the OpenType specification.
* `name`: string. Name of the axis as it is used in the location dicts. MutatorMath + Varlib.
* `labelNames`: dict. When defining a non-registered axis, it will be necessary to define user-facing readable names for the axis. Keyed by xml:lang code. Varlib. 
* `minimum`: number. The minimum value for this axis. MutatorMath + Varlib.
* `maximum`: number. The maximum value for this axis. MutatorMath + Varlib.
* `default`: number. The default value for this axis, i.e. when a new location is created, this is the value this axis will get. MutatorMath + Varlib.
* `map`: list of input / output values that can describe a warp of user space to designspace coordinates. If no map values are present, it is assumed it is [(minimum, minimum), (maximum, maximum)].laat iklaa Varlib. 

```python
a1 = AxisDescriptor()
a1.minimum = 0
a1.maximum = 1000
a1.default = 0
a1.name = "weight"
a1.tag = "wght"
a1.labelNames[u'fa-IR'] = u"قطر"
a1.labelNames[u'en'] = u"Wéíght"
a1.map = [(0.0, 10.0), (401.0, 66.0), (1000.0, 990.0)]
```

# Subclassing descriptors

The DesignSpaceDocument can take subclassed Reader and Writer objects. This allows you to work with your own descriptors. You could subclass the descriptors. But as long as they have the basic attributes the descriptor does not need to be a subclass.

```python
class MyDocReader(BaseDocReader):
    axisDescriptorClass = MyAxisDescriptor
    sourceDescriptorClass = MySourceDescriptor
    instanceDescriptorClass = MyInstanceDescriptor
    
class MyDocWriter(BaseDocWriter):
    axisDescriptorClass = MyAxisDescriptor
    sourceDescriptorClass = MySourceDescriptor
    instanceDescriptorClass = MyInstanceDescriptor

myDoc = DesignSpaceDocument(KeyedDocReader, KeyedDocWriter)
```

# Document xml structure

*	The `axes` element contains one or more `axis` elements.
*	The `sources` element contains one or more `source` elements.
* 	The `instances` element contains one or more `instance` elements.

```xml
<?xml version='1.0' encoding='utf-8'?>
<designspace format="3">
	<axes>
		<!-- define axes here -->
		<axis../>
		</axes>
	<sources>
		<!-- define masters here -->
		<source../>
	</sources>
	<instances>
		<!-- define instances here -->
		<instance../>
	</instances>
</designspace>
```
# 1. `axis` element
* Define a single axis
* Child element of `axes`

### Attributes
* `name`: required, string. Name of the axis that is used in the location elements.
* `tag`: required, string, 4 letters. Some axis tags are registered in the OpenType Specification.
* `minimum`: required, number. The minimum value for this axis.
* `maximum`: required, number. The maximum value for this axis.
* `default`: required, number. The default value for this axis.

```xml
<axis name="weight" tag="wght" minimum="-1000" maximum="1000 default="0">
```

# 1.1 `labelname` element
* Defines a human readable name for UI use.
* Optional for non-registered axis names.
* Can be localised with `xml:lang`
* Child element of `axis`

### Attributes
* `xml:lang`: required, string. [XML language definition](https://www.w3.org/International/questions/qa-when-xmllang.en)

### Value
* The natural language name of this axis.

### Example
```xml
<labelName xml:lang="fa-IR">قطر</labelName>
<labelName xml:lang="en">Wéíght</labelName>
```

# 1.2 `map` element
* Defines a single node in a series of input value / output value pairs.
* Together these values transform the designspace.
* Child of `axis` element.

### Example
```xml
<map input="0.0" output="10.0" />
<map input="401.0" output="66.0" />
<map input="1000.0" output="990.0" />
```

### Example of all axis elements together:
```xml
    <axes>
        <axis default="0" maximum="1000" minimum="0" name="weight" tag="wght">
            <labelName xml:lang="fa-IR">قطر</labelName>
            <labelName xml:lang="en">Wéíght</labelName>
        </axis>
        <axis default="0" maximum="1000" minimum="0" name="width" tag="wdth">
            <map input="0.0" output="10.0" />
            <map input="401.0" output="66.0" />
            <map input="1000.0" output="990.0" />
        </axis>
    </axes>
```

# 2. `location` element
* Defines a coordinate in the design space.
* Dictionary of axisname: axisvalue
* Used in `source`, `instance` and `glyph` elements.

# 2.1`dimension` element
* Child element of `location`

### Attributes
* `name`: required, string. Name of the axis.
* `xvalue`: required, number. The value on this axis.
* `yvalue`: optional, number. Separate value for anisotropic interpolations.

### Example
```xml
<location>
  <dimension name="width" xvalue="0.000000" />
  <dimension name="weight" xvalue="0.000000" yvalue="0.003" />
</location>
```

# 3. `source` element
* Defines a single font that contributes to the designspace.
* Child element of `sources`

### Attributes
* `familyname`: optional, string. The family name of the source font. While this could be extracted from the font data itself, it can be more efficient to add it here.
* `stylename`: optional, string. The style name of the source font.
* `name`: required, string. A unique name that can be used to identify this font if it needs to be referenced elsewhere.
* `filename`: required, string. A path to the source file, relative to the root path of this document. The path can be at the same level as the document or lower.

# 3.1 `lib` element
* `<lib copy="1" />`
* Child element of `source`
* Defines if the instances can inherit the data in the lib of this source.
* MutatorMath only

# 3.2 `info` element
* `<info copy="1" />`
* Child element of `source`
* Defines if the instances can inherit the non-interpolating font info from this source.
* MutatorMath + Varlib
* This presence of this element indicates this source is to be the default font.

# 3.3 `features` element
* `<features copy="1" />`
* Defines if the instances can inherit opentype feature text from this source.
* Child element of `source`
* MutatorMath only

# 3.4 `glyph` element
* Can appear in `source` as well as in `instance` elements.
* In a `source` element this states if a glyph is to be excluded from the calculation.
* MutatorMath only

### Attributes
* `<glyph mute="1" name="A"/>`
* `mute`: optional, number, andts
* MutatorMath only

### Example
```xml
<source familyname="MasterFamilyName" filename="masters/masterTest1.ufo" name="master.ufo1" stylename="MasterStyleNameOne">
	<lib copy="1" />
   <features copy="1" />
	<info copy="1" />
   	<glyph mute="1" name="A" />
   <glyph mute="1" name="Z" />
   <location>
      <dimension name="width" xvalue="0.000000" />
      <dimension name="weight" xvalue="0.000000" />
   </location>
</source>
```
# 4. `instance` element

* Defines a single font that can be calculated with the designspace.
* Child element of `instances`
* For use in Varlib the instance element really only needs the names and the location. The `glyphs` element is not required.
* MutatorMath uses the `glyphs` element to describe how certain glyphs need different masters, mainly to describe the effects of conditional rules in Superpolator.

### Attributes
* `familyname`: required, string. The family name of the instance font. Corresponds with `font.info.familyName`
* `stylename`: required, string. The style name of the instance font. Corresponds with `font.info.styleName`
* `name`: required, string. A unique name that can be used to identify this font if it needs to be referenced elsewhere.
* `filename`: string. Required for MutatorMath. A path to the instance file, relative to the root path of this document. The path can be at the same level as the document or lower.
* `postscriptfontname`: string. Optional for MutatorMath. Corresponds with `font.info.postscriptFontName`
* `stylemapfamilyname`: string. Optional for MutatorMath. Corresponds with `styleMapFamilyName`
* `stylemapstylename `: string. Optional for MutatorMath. Corresponds with `styleMapStyleName`

### Example for varlib
```xml
<instance familyname="InstanceFamilyName" filename="instances/instanceTest2.ufo" name="instance.ufo2" postscriptfontname="InstancePostscriptName" stylemapfamilyname="InstanceStyleMapFamilyName" stylemapstylename="InstanceStyleMapStyleName" stylename="InstanceStyleName">
<location>
	<dimension name="width" xvalue="400" yvalue="300" />
   <dimension name="weight" xvalue="500" />
</location>
<kerning />
<info />
</instance>
```

# 4.1 `glyphs` element
* Container for `glyph` elements.
* Optional
* MutatorMath only.

# 4.2 `glyph` element
* Child element of `glyphs`
* May contain a `location` element.

### Attributes
* `name`: string. The name of the glyph.
* `unicode`: string. Unicode value for this glyph, in hexadecimal.

# 4.2.1 `note` element
* String. The value corresponds to glyph.note in UFO.

# 4.2.2 `masters` element
* Container for `master` elements
* These `master` elements define an alternative set of glyph masters for this glyph.

# 4.2.2.1 `master` element
* Defines a single alternative master for this glyph.

### Attributes
* `glyphname`: the name of the alternate master glyph.
* `source`: the identifier name of the source this master glyph needs to be loaded from

### Example
```xml
<instance familyname="InstanceFamilyName" filename="instances/instanceTest2.ufo" name="instance.ufo2" postscriptfontname="InstancePostscriptName" stylemapfamilyname="InstanceStyleMapFamilyName" stylemapstylename="InstanceStyleMapStyleName" stylename="InstanceStyleName">
<location>
	<dimension name="width" xvalue="400" yvalue="300" />
   <dimension name="weight" xvalue="500" />
</location>
<glyphs>
	<glyph name="arrow2" />
	<glyph name="arrow" unicode="0x4d2">
	<location>
   		<dimension name="width" xvalue="100" />
      		<dimension name="weight" xvalue="120" />
	</location>
 	<note>A note about this glyph</note>
	<masters>
		<master glyphname="BB" source="master.ufo1">
		<location>
			<dimension name="width" xvalue="20" />
			<dimension name="weight" xvalue="20" />
		</location>
		</master>
	</masters>
	</glyph>
</glyphs>
<kerning />
<info />
</instance>
```


## Notes on this document

Second version. The package is rather new and changes are to be expected.