Which technique can help reduce the number of commands in SVG path data?
A). Combining sequential line commands
B). Adding redundant close path commands
C). Using only cubic Bzier curves
D). Avoiding relative coordinates
Which command is used to close a path in SVG path data?
A). Z
B). C
C). L
D). M
How can you simplify a cubic Bzier curve in SVG path data?
A). Reduce control points by using shorter curves
B). Convert it to a quadratic Bzier curve
C). Combine consecutive line commands
D). Use relative coordinates instead of absolute coordinates
What is a benefit of using relative coordinates in SVG path data?
A). Simplified path structure
B). Increased path complexity
C). Enhanced rendering quality
D). Improved file size compression
How do you optimize SVG path data for improved rendering performance?
A). Minimize path complexity
B). Increase path complexity
C). Use absolute coordinates instead of relative coordinates
D). Add redundant commands
What technique can help optimize an SVG path containing numerous control points?
A). Reduce the number of control points
B). Increase the number of control points
C). Add more close path commands
D). Convert curves to straight lines
What is one way to optimize an SVG path for performance?
A). Remove redundant commands
B). Increase the number of control points
C). Use only absolute coordinates
D). Add unnecessary close path commands
What is a benefit of converting curves to straight lines in SVG path data?
A). Reduced path complexity
B). Increased file size
C). Enhanced rendering quality
D). Improved rendering time
What is a benefit of using relative coordinates in SVG path data?
A). Reduced file size
B). Increased path complexity
C). Improved rendering quality
D). Simplified path structure
How do you optimize SVG path data for performance?
A). Remove unnecessary commands
B). Add more control points
C). Increase file size
D). Use only cubic Bzier curves