Log of my SICP pursuit. Will include answers to exercises and notes
taken down during the learning sessions.
Start Date Current Date Days Elapsed [2014-11-21 Fri] [2014-12-16 Tue] 25
Topic Reading Exercises Videos Total Frontmatter 00:30:00 00:30:00 Chapter 1 02:11:00 01:19:00 01:00:00 04:30:00 1.1 02:11:00 01:19:00 03:30:00 1.2 00:00:00 1.3 00:00:00 Lecture 1A 01:00:00 01:00:00 Lecture 1B 00:00:00 Lecture 2A 00:00:00 Total 02:41:00 01:19:00 01:00:00 05:00:00
Headline Time Total time 2:41 Reading Log 2:41 DONE Frontmatter [100%] 0:30 TODO 1 Building Abstractions with… 2:11 \emsp TODO 1.1 The Elements of Programming… 2:11
1 Building Abstractions with Procedures [33%] 1.1 The Elements of Programming [87%] 1.1.2 Naming and the Environment1.1.3 Evaluating Combinations1.1.4 Compound Procedures1.1.5 The Substitution Model for Procedure Application1.1.6 Conditional Expressions and Predicates1.1.7 Example: Square Roots by Newton’s Method1.1.8 Procedures as Black-Box Abstractions 1.2 Procedures and the Processes They Generate 1.2.1 Linear Recursion and Iteration 1.2.5 Greatest Common Divisors 1.2.6 Example: Testing for Primality 1.3 Formulating Abstractions with Higher-Order Procedures 1.3.1 Procedures as Arguments 1.3.2 Constructing Procedures Using Lambda 1.3.3 Procedures as General Methods 1.3.4 Procedures as Returned Values 2 Building Abstractions with Data 2.1 Introduction to Data Abstraction 2.1.1 Example: Arithmetic Operations for Rational Numbers 2.1.2 Abstraction Barriers 2.1.3 What Is Meant by Data? 2.1.4 Extended Exercise: Interval Arithmetic 2.2 Hierarchical Data and the Closure Property 2.2.1 Representing Sequences 2.2.2 Hierarchical Structures 2.2.3 Sequences as Conventional Interfaces 2.2.4 Example: A Picture Language 2.3.2 Example: Symbolic Differentiation 2.3.3 Example: Representing Sets 2.3.4 Example: Huffman Encoding Trees 2.4 Multiple Representations for Abstract Data 2.4.1 Representations for Complex Numbers 2.4.3 Data-Directed Programming and Additivity 2.5 Systems with Generic Operations 2.5.1 Generic Arithmetic Operations 2.5.2 Combining Data of Different Types 2.5.3 Example: Symbolic Algebra 3 Modularity, Objects, and State 3.1 Assignment and Local State 3.1.1 Local State Variables 3.1.2 The Benefits of Introducing Assignment 3.1.3 The Costs of Introducing Assignment 3.2 The Environment Model of Evaluation 3.2.1 The Rules for Evaluation 3.2.2 Applying Simple Procedures 3.2.3 Frames as the Repository of Local State 3.2.4 Internal Definitions 3.3 Modeling with Mutable Data 3.3.1 Mutable List Structure 3.3.2 Representing Queues 3.3.3 Representing Tables 3.3.4 A Simulator for Digital Circuits 3.3.5 Propagation of Constraints 3.4 Concurrency: Time Is of the Essence 3.4.1 The Nature of Time in Concurrent Systems 3.4.2 Mechanisms for Controlling Concurrency 3.5.1 Streams Are Delayed Lists 3.5.3 Exploiting the Stream Paradigm 3.5.4 Streams and Delayed Evaluation 3.5.5 Modularity of Functional Programs and Modularity of Objects 4 Metalinguistic Abstraction 4.1 The Metacircular Evaluator 4.1.1 The Core of the Evaluator 4.1.2 Representing Expressions 4.1.3 Evaluator Data Structures 4.1.4 Running the Evaluator as a Program 4.1.6 Internal Definitions 4.1.7 Separating Syntactic Analysis from Execution 4.2 Variations on a Scheme – Lazy Evaluation 4.2.1 Normal Order and Applicative Order 4.2.2 An Interpreter with Lazy Evaluation 4.2.3 Streams as Lazy Lists 4.3 Variations on a Scheme – Nondeterministic Computing 4.3.2 Examples of Nondeterministic Programs 4.3.3 Implementing the Amb Evaluator 4.4.1 Deductive Information Retrieval 4.4.2 How the Query System Works 4.4.3 Is Logic Programming Mathematical Logic? 4.4.4 Implementing the Query System 5 Computing with Register Machines 5.1 Designing Register Machines 5.1.1 A Language for Describing Register Machines 5.1.2 Abstraction in Machine Design 5.1.4 Using a Stack to Implement Recursion 5.1.5 Instruction Summary 5.2 A Register-Machine Simulator 5.2.3 Generating Execution Procedures for Instructions 5.2.4 Monitoring Machine Performance 5.3 Storage Allocation and Garbage Collection 5.3.2 Maintaining the Illusion of Infinite Memory 5.4 The Explicit-Control Evaluator 5.4.1 The Core of the Explicit-Control Evaluator 5.4.2 Sequence Evaluation and Tail Recursion 5.4.3 Conditionals, Assignments, and Definitions 5.4.4 Running the Evaluator 5.5.1 Structure of the Compiler 5.5.2 Compiling Expressions 5.5.3 Compiling Combinations 5.5.4 Combining Instruction Sequences 5.5.5 An Example of Compiled Code 5.5.7 Interfacing Compiled Code to the Evaluator
Headline Time Total time 1:19 Exercise Log [2%] 1:19 TODO Chapter 1 [19%] 1:19 \emsp DONE Topic 1.1 [100%] 1:19
Headline Time Total time 1:00 Watching Lectures Log 1:00 TODO Lecture 1A 1:00