Attribute definitions:

gradientUnits= " userSpaceOnUse| objectBoundingBox"

Defines the coordinate system for attributes ‘x1’, ‘y1’, ‘x2’and ‘y2’.
If gradientUnits="userSpaceOnUse", ‘x1’, ‘y1’, ‘x2’and ‘y2’represent values in the coordinate system that results from taking the current user coordinate system in place at the time when the gradient element is referenced (i.e., the user coordinate system for the element referencing the gradient element via a ‘fill’or ‘stroke’property) and then applying the transform specified by attribute ‘gradientTransform’.
If gradientUnits="objectBoundingBox", the user coordinate system for attributes ‘x1’, ‘y1’, ‘x2’and ‘y2’is established using the bounding box of the element to which the gradient is applied (see Object bounding box units) and then applying the transform specified by attribute ‘gradientTransform’.
When gradientUnits="objectBoundingBox"and ‘gradientTransform’is the identity matrix, the normal of the linear gradient is perpendicular to the gradient vector in object bounding box space (i.e., the abstract coordinate system where (0,0) is at the top/left of the object bounding box and (1,1) is at the bottom/right of the object bounding box). When the object's bounding box is not square, the gradient normal which is initially perpendicular to the gradient vector within object bounding box space may render non-perpendicular relative to the gradient vector in user space. If the gradient vector is parallel to one of the axes of the bounding box, the gradient normal will remain perpendicular. This transformation is due to application of the non-uniform scaling transformation from bounding box space to user space.
If attribute ‘gradientUnits’is not specified, then the effect is as if a value of 'objectBoundingBox'were specified.
Animatable: yes.

gradientTransform= " "

Contains the definition of an optional additional transformation from the gradient coordinate system onto the target coordinate system (i.e., userSpaceOnUse or objectBoundingBox). This allows for things such as skewing the gradient. This additional transformation matrix is post-multiplied to (i.e., inserted to the right of) any previously defined transformations, including the implicit transformation necessary to convert from object bounding box units to user space.
If attribute ‘gradientTransform’is not specified, then the effect is as if an identity transform were specified.
Animatable: yes.

x1= " "

‘x1’, ‘y1’, ‘x2’and ‘y2’define a gradient vectorfor the linear gradient. This gradient vectorprovides starting and ending points onto which the gradient stops are mapped. The values of ‘x1’, ‘y1’, ‘x2’and ‘y2’can be either numbers or percentages.
If the attribute is not specified, the effect is as if a value of '0%'were specified.
Animatable: yes.

y1= " "

See ‘x1’.
If the attribute is not specified, the effect is as if a value of '0%'were specified.
Animatable: yes.

x2= " "

See ‘x1’.
If the attribute is not specified, the effect is as if a value of '100%'were specified.
Animatable: yes.

y2= " "

See ‘x1’.
If the attribute is not specified, the effect is as if a value of '0%'were specified.
Animatable: yes.

spreadMethod= "pad | reflect | repeat"

Indicates what happens if the gradient starts or ends inside the bounds of the target rectangle. Possible values are: 'pad', which says to use the terminal colors of the gradient to fill the remainder of the target region, 'reflect', which says to reflect the gradient pattern start-to-end, end-to-start, start-to-end, etc. continuously until the target rectangleis filled, and repeat, which says to repeat the gradient pattern start-to-end, start-to-end, start-to-end, etc. continuously until the target region is filled.
If the attribute is not specified, the effect is as if a value of 'pad'were specified.
Animatable: yes.

xlink:href= " "

An IRI reference to a different ‘linearGradient’or ‘radialGradient’element within the current SVG document fragment. Any ‘linearGradient’attributes which are defined on the referenced element which are not defined on this element are inherited by this element. If this element has no defined gradient stops, and the referenced element does (possibly due to its own ‘xlink:href’attribute), then this element inherits the gradient stop from the referenced element. Inheritance can be indirect to an arbitrary level; thus, if the referenced element inherits attribute or gradient stops due to its own ‘xlink:href’attribute, then the current element can inherit those attributes or gradient stops.
Animatable: yes.

Attribute definitions:

gradientUnits= " userSpaceOnUse| objectBoundingBox"

Defines the coordinate system for attributes ‘cx’, ‘cy’, ‘r’, ‘fx’and ‘fy’.
If gradientUnits="userSpaceOnUse", ‘cx’, ‘cy’, ‘r’, ‘fx’and ‘fy’represent values in the coordinate system that results from taking the current user coordinate system in place at the time when the gradient element is referenced (i.e., the user coordinate system for the element referencing the gradient element via a ‘fill’or ‘stroke’property) and then applying the transform specified by attribute ‘gradientTransform’.
If gradientUnits="objectBoundingBox", the user coordinate system for attributes ‘cx’, ‘cy’, ‘r’, ‘fx’and ‘fy’is established using the bounding box of the element to which the gradient is applied (see Object bounding box units) and then applying the transform specified by attribute ‘gradientTransform’.
When gradientUnits="objectBoundingBox"and ‘gradientTransform’is the identity matrix, then the rings of the radial gradient are circular with respect to the object bounding box space (i.e., the abstract coordinate system where (0,0) is at the top/left of the object bounding box and (1,1) is at the bottom/right of the object bounding box). When the object's bounding box is not square, the rings that are conceptually circular within object bounding box space will render as elliptical due to application of the non-uniform scaling transformation from bounding box space to user space.
If attribute ‘gradientUnits’is not specified, then the effect is as if a value of 'objectBoundingBox'were specified.
Animatable: yes.

gradientTransform= " "

Contains the definitions of an optional additional transformation from the gradient coordinate system onto the target coordinate system (i.e., userSpaceOnUse or objectBoundingBox). This allows for things such as skewing the gradient. This additional transformation matrix is post-multiplied to (i.e., inserted to the right of) any previously defined transformations, including the implicit transformation necessary to convert from object bounding box units to user space.
If attribute ‘gradientTransform’is not specified, then the effect is as if an identity transform were specified.
Animatable: yes.

cx= " "

‘cx’, ‘cy’and ‘r’define the largest (i.e., outermost) circle for the radial gradient. The gradient will be drawn such that the 100% gradient stop is mapped to the perimeter of this largest (i.e., outermost) circle.
If the attribute is not specified, the effect is as if a value of '50%'were specified.
Animatable: yes.

cy= " "

See ‘cx’.
If the attribute is not specified, the effect is as if a value of '50%'were specified.
Animatable: yes.

r= " "

See ‘cx’.
A negative value is an error (see Error processing). A value of zero will cause the area to be painted as a single color using the color and opacity of the last gradient stop.
If the attribute is not specified, the effect is as if a value of '50%'were specified.
Animatable: yes.

fx= " "

‘fx’and ‘fy’define the focal point for the radial gradient. The gradient will be drawn such that the 0% gradient stop is mapped to (fx, fy).
If attribute ‘fx’is not specified, ‘fx’will coincide with the presentational value of ‘cx’for the element whether the value for 'cx' was inherited or not. If the element references an element that specifies a value for 'fx', then the value of 'fx' is inherited from the referenced element.
Animatable: yes.

fy= " "

See ‘fx’.
If attribute ‘fy’is not specified, ‘fy’will coincide with the presentational value of ‘cy’for the element whether the value for 'cy' was inherited or not. If the element references an element that specifies a value for 'fy', then the value of 'fy' is inherited from the referenced element.
Animatable: yes.

spreadMethod= "pad | reflect | repeat"

Indicates what happens if the gradient starts or ends inside the bounds of the object(s) being painted by the gradient. Has the same values and meanings as the ‘spreadMethod’attribute on ‘linearGradient’element.
Animatable: yes.

xlink:href= " "

An IRI reference to a different ‘linearGradient’or ‘radialGradient’element within the current SVG document fragment. Any ‘radialGradient’attributes which are defined on the referenced element which are not defined on this element are inherited by this element. If this element has no defined gradient stops, and the referenced element does (possibly due to its own ‘xlink:href’attribute), then this element inherits the gradient stop from the referenced element. Inheritance can be indirect to an arbitrary level; thus, if the referenced element inherits attribute or gradient stops due to its own ‘xlink:href’attribute, then the current element can inherit those attributes or gradient stops.
Animatable: yes.

Attribute definitions:

offset= " | "

The ‘offset’attribute is either a (usually ranging from 0 to 1) or a (usually ranging from 0% to 100%) which indicates where the gradient stop is placed. For linear gradients, the ‘offset’attribute represents a location along the gradient vector. For radial gradients, it represents a percentage distance from (fx,fy) to the edge of the outermost/largest circle.
Animatable: yes.

Attribute definitions:

patternUnits= " userSpaceOnUse| objectBoundingBox"

Defines the coordinate system for attributes ‘x’, ‘y’, ‘width’and ‘height’.
If patternUnits="userSpaceOnUse", ‘x’, ‘y’, ‘width’and ‘height’represent values in the coordinate system that results from taking the current user coordinate system in place at the time when the ‘pattern’element is referenced (i.e., the user coordinate system for the element referencing the ‘pattern’element via a ‘fill’or ‘stroke’property) and then applying the transform specified by attribute ‘patternTransform’.
If patternUnits="objectBoundingBox", the user coordinate system for attributes ‘x’, ‘y’, ‘width’and ‘height’is established using the bounding box of the element to which the pattern is applied (see Object bounding box units) and then applying the transform specified by attribute ‘patternTransform’.
If attribute ‘patternUnits’is not specified, then the effect is as if a value of 'objectBoundingBox'were specified.
Animatable: yes.

patternContentUnits= " userSpaceOnUse| objectBoundingBox"

Defines the coordinate system for the contents of the ‘pattern’. Note that this attribute has no effect if attribute ‘viewBox’is specified.
If patternContentUnits="userSpaceOnUse", the user coordinate system for the contents of the ‘pattern’element is the coordinate system that results from taking the current user coordinate system in place at the time when the ‘pattern’element is referenced (i.e., the user coordinate system for the element referencing the ‘pattern’element via a ‘fill’or ‘stroke’property) and then applying the transform specified by attribute ‘patternTransform’.
If patternContentUnits="objectBoundingBox", the user coordinate system for the contents of the ‘pattern’element is established using the bounding box of the element to which the pattern is applied (see Object bounding box units) and then applying the transform specified by attribute ‘patternTransform’.
If attribute ‘patternContentUnits’is not specified, then the effect is as if a value of 'userSpaceOnUse'were specified.
Animatable: yes.

patternTransform= " "

Contains the definition of an optional additional transformation from the pattern coordinate system onto the target coordinate system (i.e., 'userSpaceOnUse'or 'objectBoundingBox'). This allows for things such as skewing the pattern tiles. This additional transformation matrix is post-multiplied to (i.e., inserted to the right of) any previously defined transformations, including the implicit transformation necessary to convert from object bounding box units to user space.
If attribute ‘patternTransform’is not specified, then the effect is as if an identity transform were specified.
Animatable: yes.

x= " "

‘x’, ‘y’, ‘width’and ‘height’indicate how the pattern tiles are placed and spaced. These attributes represent coordinates and values in the coordinate space specified by the combination of attributes ‘patternUnits’and ‘patternTransform’.
If the attribute is not specified, the effect is as if a value of zero were specified.
Animatable: yes.

y= " "

See ‘x’.
If the attribute is not specified, the effect is as if a value of zero were specified.
Animatable: yes.

width= " "

See ‘x’.
A negative value is an error (see Error processing). A value of zero disables rendering of the element (i.e., no paint is applied).
If the attribute is not specified, the effect is as if a value of zero were specified.
Animatable: yes.

height= " "

See ‘x’.
A negative value is an error (see Error processing). A value of zero disables rendering of the element (i.e., no paint is applied).
If the attribute is not specified, the effect is as if a value of zero were specified.
Animatable: yes.

xlink:href= " "

An IRI reference to a different ‘pattern’element within the current SVG document fragment. Any attributes which are defined on the referenced element which are not defined on this element are inherited by this element. If this element has no children, and the referenced element does (possibly due to its own ‘xlink:href’attribute), then this element inherits the children from the referenced element. Inheritance can be indirect to an arbitrary level; thus, if the referenced element inherits attributes or children due to its own ‘xlink:href’attribute, then the current element can inherit those attributes or children.
Animatable: yes.

preserveAspectRatio= " [defer] []"

See‘preserveAspectRatio’.

If the attribute is not specified, then the effect is as if a value ofxMidYMid meetwere specified.

Animatable: yes.