Creative Challenge
"A flamingo in space with a telescope gazing at a distant galaxy"
<svg viewBox="0 0 300 300" xmlns="http://www.w3.org/2000/svg">
<defs>
<radialGradient id="spaceGradient" cx="50%" cy="50%" r="80%">
<stop offset="0%" stop-color="#000428" />
<stop offset="100%" stop-color="#004e92" />
</radialGradient>
<radialGradient id="flamingoBody" cx="50%" cy="50%" r="50%">
<stop offset="0%" stop-color="#ff708d" />
<stop offset="100%" stop-color="#ff0d57" />
</radialGradient>
<radialGradient id="flamingoHead" cx="50%" cy="50%" r="50%">
<stop offset="0%" stop-color="#ff89ab" />
<stop offset="100%" stop-color="#ff46a5" />
</radialGradient>
<radialGradient id="eyeball" cx="50%" cy="50%" r="50%">
<stop offset="0%" stop-color="#ffffff" />
<stop offset="100%" stop-color="#d1d1d1" />
</radialGradient>
<radialGradient id="galaxy" cx="50%" cy="50%" r="50%">
<stop offset="0%" stop-color="#ffedbc" />
<stop offset="100%" stop-color="#fceabb" />
</radialGradient>
<linearGradient id="flamingoLeg" x1="0%" y1="0%" x2="0%" y2="100%">
<stop offset="0%" stop-color="#e57e8e" />
<stop offset="100%" stop-color="#c93770" />
</linearGradient>
</defs>
<rect width="300" height="300" fill="url(#spaceGradient)" />
<!-- Flamingo Body -->
<ellipse cx="150" cy="200" rx="30" ry="60" fill="url(#flamingoBody)" />
<!-- Flamingo Neck -->
<path d="M150 140 C140 160, 140 180, 150 200" fill="none" stroke="url(#flamingoBody)" stroke-width="10" />
<!-- Flamingo Head -->
<circle cx="148" cy="140" r="20" fill="url(#flamingoHead)" />
<circle cx="155" cy="135" r="5" fill="url(#eyeball)" />
<!-- Flamingo Beak -->
<path d="M155 145 L180 145 Q180 140, 155 140 Z" fill="#ffb3c1" stroke="#262626" stroke-width="1" />
<!-- Flamingo Legs -->
<line x1="150" y1="260" x2="148" y2="300" stroke="url(#flamingoLeg)" stroke-width="4" />
<line x1="152" y1="260" x2="150" y2="300" stroke="url(#flamingoLeg)" stroke-width="4" />
<!-- Telescope -->
<path d="M165 135 L175 120 Q180 130, 175 140 Z" fill="#4e4e4e" />
<circle cx="180" cy="120" r="8" fill="#3a3a3a" stroke="#2e2e2e" stroke-width="2" />
<!-- Galaxy -->
<ellipse cx="230" cy="70" rx="40" ry="20" fill="url(#galaxy)" />
<circle cx="230" cy="70" r="5" fill="#fff" />
<path d="M190 70 L230 70 M230 50 L230 90" stroke="#fceabb" stroke-width="2" />
<!-- Stars -->
<circle cx="50" cy="50" r="2" fill="#fff" />
<circle cx="80" cy="180" r="2" fill="#fff" />
<circle cx="250" cy="150" r="2" fill="#fff" />
<circle cx="100" cy="90" r="2" fill="#fff" />
</svg>
<svg viewBox="0 0 300 300" xmlns="http://www.w3.org/2000/svg">
<!-- Background with subtle texture -->
<rect width="300" height="300" fill="url(#spaceGradient)" />
<!-- Galaxy effect -->
<defs>
<radialGradient id="spaceGradient" cx="150" cy="150" r="150" fx="150" fy="150">
<stop offset="0" style="stop-color:#0B0B2D;stop-opacity:1" />
<stop offset="1" style="stop-color:#1A1A4F;stop-opacity:1" />
</radialGradient>
<filter id="glow">
<feGaussianBlur stdDeviation="4" result="glow"/>
<feMerge>
<feMergeNode in="glow"/>
<feMergeNode in="SourceGraphic"/>
</feMerge>
</filter>
<linearGradient id="flamingoPink" x1="0%" y1="0%" x2="100%" y2="100%">
<stop offset="0%" style="stop-color:#FFB3BA;stop-opacity:1" />
<stop offset="100%" style="stop-color:#FF69B4;stop-opacity:1" />
</linearGradient>
<pattern id="feathers" x="0" y="0" width="100" height="100" patternUnits="userSpaceOnUse">
<path d="M0 0 L100 50 L0 100 Z" fill="#FFB3BA" />
</pattern>
</defs>
<!-- Galaxy -->
<circle cx="100" cy="100" r="80" fill="url(#spaceGradient)" filter="url(#glow)">
<animateTransform attributeName="transform" type="rotate" from="0 100 100" to="360 100 100" dur="8s" repeatCount="indefinite"/>
</circle>
<!-- Telescope -->
<g transform="translate(220,150)">
<rect x="0" y="0" width="20" height="100" fill="#444" />
<circle cx="10" cy="110" r="10" fill="#666" />
<circle cx="10" cy="110" r="5" fill="white" />
<rect x="0" y="80" width="20" height="20" fill="#444" rx="2" />
</g>
<!-- Flamingo -->
<g transform="translate(220,200)">
<!-- Body -->
<path d="M0 0 Q50 50 100 0 Q150 -50 200 0 Q250 50 300 0 L300 50 Q250 100 200 50 Q150 0 100 50 Q50 -50 0 50 L0 0" fill="url(#flamingoPink)" />
<!-- Neck -->
<path d="M150 20 Q180 -20 210 -40 L230 -50 L210 -60 Q180 -80 150 -80 L140 -80 Q120 -80 100 -60 L90 -50 L100 -40 Q120 -20 140 0 L150 0 Z" fill="#FFB3BA" />
<!-- Legs -->
<path d="M140 40 L140 80 L160 80 L160 40 Z" fill="#FFB3BA" />
<!-- Eye -->
<circle cx="195" cy="25" r="5" fill="white" />
<circle cx="195" cy="25" r="2" fill="black" />
</g>
<!-- Stars -->
<g opacity="0.5">
<circle cx="50" cy="50" r="1" fill="white" />
<circle cx="80" cy="120" r="1" fill="white" />
<circle cx="140" cy="60" r="1" fill="white" />
<circle cx="200" cy="80" r="1" fill="white" />
<circle cx="250" cy="140" r="1" fill="white" />
</g>
</svg>
Judge's Analysis
Player 1's image creatively depicts a flamingo in space with a telescope, clearly adhering to the prompt.
The composition is clear with the flamingo's form and the telescope prominently shown, and the background effectively suggests a space setting.
Player 2's image lacks clarity in depicting the flamingo and telescope, resulting in lower adherence to the prompt and visual appeal.
These metrics analyze technical aspects of both SVG drawings. Look for differences that might explain the judge's decision. Use the "View Code" button above to see the SVG code for each drawing.
Shapes Metrics
The total number of shape elements (rect, circle, ellipse, line, polygon, polyline, path) in the SVG.
The number of rectangle elements (rect) in the SVG.
The number of circle elements (circle) in the SVG.
The number of ellipse elements (ellipse) in the SVG.
The number of line elements (line) in the SVG.
The number of polygon elements (polygon) in the SVG.
The number of path elements (path) in the SVG.
The number of group elements (g) in the SVG.
Visual Effects Metrics
The number of gradient definitions (linearGradient, radialGradient) in the SVG.
The number of pattern definitions (pattern) in the SVG.
The number of filter definitions (filter) in the SVG.
The number of mask definitions (mask) in the SVG.
The number of clipping path definitions (clipPath) in the SVG.
The number of elements with opacity attributes in the SVG.
The number of elements with stroke attributes in the SVG.
Colors Metrics
The number of unique colors used in the SVG.
Interactivity Metrics
The number of animation elements (animate, animateMotion, animateTransform, set) in the SVG.
The number of elements with transform attributes in the SVG.
Complexity Metrics
The total number of path commands in all path elements (M, L, C, Q, etc.) in the SVG.
The maximum nesting level of group elements (g) in the SVG.
The number of elements defined within the defs element in the SVG.
The number of use elements (use) in the SVG.
Text Metrics
The number of text elements (text) in the SVG.
AI Judging Process
Creativity
Originality, innovative use of shapes and unique approach to the prompt.
Prompt Adherence
How accurately the SVG captures the essence of the prompt.
Visual Appeal
Aesthetic quality including composition, color usage and overall visual impact.
How does judging work?
SVG drawings are converted to static PNG images for evaluation. The AI judge receives the original prompt and both images, then determines which drawing better fulfills the evaluation criteria without seeing animations, interactivity, or SVG code.
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