Syllabus | Introduction to Shape Grammars I | Architecture

Course Meeting Times

Lectures: 1 session / week, 1.5 hours / session

Prerequisites

There are no formal prerequisites for this course, though it is assumed that students taking it will have a background in design.

Course Description

Shape grammars are systems of visual rules by which one shape may be transformed into another. By applying these rules recursively, a simple shape can be elaborated into a complex pattern. This course offers an in-depth introduction to shape grammars and their applications in architecture and related areas of design. More specifically, it involves manipulation of shapes in the algebras U_ij, in the algebras V_ij and W_ij incorporating labels and weights, and in algebras formed as composites of these. Discussions center on rules and computations, shape and structure, and designs.

Grading

Grades for this seminar-style class are based on the instructor's holistic assessment of students' engagement with the material. There are no specific required assignments or exams.

Course Outline

"Shape" = Shape: Talking about Seeing and Doing

"Calculating" = Calculating: Beyond Fancy in Imagination’s Magical Realm

For full bibliographic details on these texts, see the Primary Course Texts page. For other readings, see the Lecture Slides and Supplemental Readings page. Except where noted, all readings are by George Stiny.

Units	Topics	Readings
1. Overview	Shapes and symbols Rules for shapes – this shape → that shape Rules for symbols – description of this shape → description of that shape The embed-fuse cycle Embedding vs identity Shapes fuse, symbols don’t Shape grammars in art and design Dimension i ≠ 0 vs dimension i = 0 Imagination : fancy :: shapes : symbols	Introduction: "Tell Me All About It" in Shape, pp. 1–59. “Preface” and “Exhibit 2” in Calculating. (optional) Stiny and Gips, “Shape Grammars and the Generative Specification of Painting and Sculpture.”
2. Basic Elements	i = 0 – points i ≠ 0 – lines, planes, and solids Content and boundaries Points aren’t lines aren’t planes aren’t solids Embedding vs identity Reduction rules for fusing basic elements Embedded elements Overlapping elements Discrete elements Embedding basic elements Shapes Parts Sums, differences, and complements	“Back to Basics—Elements and Embedding,” “Counting Points and Seeing Parts,” “Shapes in Algebras and Algebras in Rows,” and “Boundaries of Shapes are Shapes” from Part II, “Seeing How It Works” in Shape, pp. 159–204.
3. Algebras of Shapes U_ij	Difference of dimension i for basic elements vs dimension j for space Generalized Boolean algebras Table of algebras and its properties Embedding Transformations	“Shapes in Algebras and Algebras in Rows,” “Boundaries of Shapes are Shapes,” “Boolean Divisions,” and “Euclidean Embeddings” from Part II, “Seeing How It Works” in Shape, pp. 180–215. “Algebras of Design.” (optional) “Weights.”
4. Calculating with Shapes and Rules	Formulas for rule application – seeing and doing Classifying rule applications in terms of transformations The embed-fuse cycle Turing machines are a special case of shape grammars Identity + recursion (i = 0) ⊆ embedding + recursion (i ≠ 0)	Part I, “What Makes It Visual?” In Shape, pp. 61–125 and 130–158. Paragraphs: “How Rules Work When I Calculate,” “Trying it Out,” “Spatial Relations and Rules,” “Classifying Rules with Transformations,” and “Classifying Rules with Parts” from Part II, “Seeing How It Works” in Shape, pp. 228–275. (optional) “Turing Machines and Shape Grammars.”
5. Computer Implementation for Linear Elements	Elements and Embedding	“Classifying Rules with Transformations,” “Classifying Rules with Parts,” and “How Computers Do It” from Part II, “Seeing How It Works” in Shape, pp. 260–277.
6. Schemas for Art and Design	Parts, transformations, and boundaries Subsets (for example, identities), inverses, copies, sums, compositions, and Boolean expressions	“What Schemas Show” from Part I, “What Makes It Visual?” in Shape, pp. 126–130. “I Don’t Like Rules, They’re Too Rigid” from Part II, “Seeing How It Works” in Shape, pp. 277–282. “Design is Calculating,” “Tell Me What Schema to Use,” “What the Thinking Eye Sees,” “Chinese Lattice Designs—Seeing What You Do,” “They’re Shapes Before They’re Plans,” “Getting in the Right Frame of Mind,” and “Latin and Greek, and Mathematics” from Part III, “Using It to Design” in Shape, pp. 311–354 and 368–387. (optional) “What Rules Should I Use?”