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solid-drawing-mastery

@dylantarre/animation-principles
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Use when creating motion that needs dimensional grounding, designing transforms that maintain object integrity, or ensuring animations feel structurally sound.

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SKILL.md

name solid-drawing-mastery
description Use when creating motion that needs dimensional grounding, designing transforms that maintain object integrity, or ensuring animations feel structurally sound.

Solid Drawing Mastery

The Dimensional Principle

Solid drawing means creating the illusion of three-dimensional form, weight, and volume. In traditional animation, it meant understanding anatomy, perspective, and form. In digital motion, it means ensuring transforms and movements feel grounded in physical space, not flat manipulations of 2D shapes.

Core Theory

Form over symbol: Beginning animators draw symbols (a circle for a head, lines for arms). Master animators draw forms—volumes that exist in space with weight and dimension.

Construction consistency: Objects must maintain consistent volume and proportions throughout motion. A character's head shouldn't grow when they turn. A box shouldn't warp into a trapezoid.

The Three-Dimensional Challenge

Animation exists in time, but also in space. Solid drawing ensures:

  • Volume consistency: Objects don't accidentally grow or shrink
  • Perspective accuracy: Rotations follow dimensional rules
  • Weight presence: Forms feel like they have mass occupying space
  • Structural integrity: Objects don't collapse or warp incorrectly

Elements of Solidity

Construction: Understanding what's beneath the surface—skeleton, structure Perspective: Proper foreshortening, vanishing points, spatial relationships Volume: Maintaining 3D mass during 2D representation Weight distribution: How mass shifts and settles in space Lighting consistency: Shadows and highlights that reinforce form

Interaction with Other Principles

Squash/stretch must maintain volume: The core solid drawing constraint—deformation without mass change.

Arcs exist in 3D space: Paths must make dimensional sense, not just screen-space sense.

Follow through respects physics: Secondary elements move as 3D forms, not flat graphics.

Staging considers depth: Solid drawing enables clear spatial relationships.

Domain Applications

UI/Motion Design

  • 3D transforms: Rotations must respect perspective and vanishing points
  • Depth layers: Z-space relationships remain consistent during motion
  • Scale animations: Objects scale from logical center points, not arbitrary origins
  • Card flips: Perspective-accurate rotations, not flat X-axis scales
  • Shadows: Move consistently with object position in 3D space

Character Animation

  • Turn-arounds: Consistent model through all angles
  • Foreshortening: Limbs approaching camera handled correctly
  • Weight acting: Characters feel like they have mass
  • Solid posing: Balanced, weighted poses that could exist physically

Motion Graphics

  • 3D object animation: Proper lighting, perspective, occlusion
  • Isometric design: Consistent projection rules maintained
  • Pseudo-3D effects: Parallax and depth that feel spatially correct
  • Logo dimension: Flat logos given dimensional treatment consistently

Game Design

  • Sprite animation: Implied 3D form in 2D representation
  • Camera moves: Spatial relationships maintained during sweeps
  • Environmental animation: Objects existing convincingly in game space

Common Mistakes

  1. Inconsistent scale: Objects changing size without intent
  2. Flat rotation: X-axis scale instead of perspective rotation
  3. Broken construction: Forms distorting incorrectly during motion
  4. Weight contradiction: Heavy objects acting light, or vice versa
  5. Spatial discontinuity: Objects existing in impossible spatial relationships

The Construction Approach

For any animated object, understand:

  1. What is its basic form? (sphere, cylinder, box, combination)
  2. Where is its center of mass?
  3. How does it exist in 3D space?
  4. What happens to its structure during motion?

This mental model prevents dimensional accidents.

Digital Solidity Techniques

Transform origins: Set pivot points that match object's logical center of mass Perspective transforms: Use true 3D transforms, not 2D approximations Z-index management: Consistent depth layering throughout animation Shadow animation: Shadows move and scale with object position Parallax rates: Consistent depth perception through motion

The Tangent Trap

Beware of tangencies—where edges accidentally align, destroying depth perception. In motion, this means ensuring overlapping elements maintain clear spatial separation throughout animation.

Implementation Heuristic

Before animating, define the object's 3D form and origin point. During animation, periodically check: does this still feel like a solid object in space? Test rotations with true 3D transforms before approximating with 2D shortcuts. When motion feels "flat" or "wrong," check for solid drawing violations—inconsistent scale, broken perspective, or weightless movement.